[{"license":"https://creativecommons.org/licenses/by/4.0/","ec_funded":1,"volume":151,"issue":"4","related_material":{"record":[{"relation":"research_data","status":"public","id":"14926"}]},"publication_status":"published","publication_identifier":{"issn":["0950-1991"],"eissn":["1477-9129"]},"language":[{"iso":"eng"}],"file":[{"file_id":"15050","checksum":"6961ea10012bf0d266681f9628bb8f13","success":1,"access_level":"open_access","relation":"main_file","content_type":"application/pdf","date_created":"2024-03-04T07:24:43Z","file_name":"2024_Development_Schauer.pdf","creator":"dernst","date_updated":"2024-03-04T07:24:43Z","file_size":14839986}],"scopus_import":"1","intvolume":" 151","month":"02","acknowledged_ssus":[{"_id":"Bio"},{"_id":"LifeSc"}],"abstract":[{"text":"Embryogenesis results from the coordinated activities of different signaling pathways controlling cell fate specification and morphogenesis. In vertebrate gastrulation, both Nodal and BMP signaling play key roles in germ layer specification and morphogenesis, yet their interplay to coordinate embryo patterning with morphogenesis is still insufficiently understood. Here, we took a reductionist approach using zebrafish embryonic explants to study the coordination of Nodal and BMP signaling for embryo patterning and morphogenesis. We show that Nodal signaling triggers explant elongation by inducing mesendodermal progenitors but also suppressing BMP signaling activity at the site of mesendoderm induction. Consistent with this, ectopic BMP signaling in the mesendoderm blocks cell alignment and oriented mesendoderm intercalations, key processes during explant elongation. Translating these ex vivo observations to the intact embryo showed that, similar to explants, Nodal signaling suppresses the effect of BMP signaling on cell intercalations in the dorsal domain, thus allowing robust embryonic axis elongation. These findings suggest a dual function of Nodal signaling in embryonic axis elongation by both inducing mesendoderm and suppressing BMP effects in the dorsal portion of the mesendoderm.","lang":"eng"}],"oa_version":"Published Version","department":[{"_id":"CaHe"},{"_id":"Bio"}],"file_date_updated":"2024-03-04T07:24:43Z","date_updated":"2024-03-04T07:28:25Z","ddc":["570"],"tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"article_type":"original","type":"journal_article","status":"public","_id":"15048","page":"1-18","date_created":"2024-03-03T23:00:50Z","doi":"10.1242/dev.202316","date_published":"2024-02-01T00:00:00Z","year":"2024","has_accepted_license":"1","publication":"Development","day":"01","oa":1,"publisher":"The Company of Biologists","quality_controlled":"1","acknowledgement":"We thank Patrick Müller for sharing the chordintt250 mutant zebrafish line as well as the plasmid for chrd-GFP, Katherine Rogers for sharing the bmp2b plasmid and Andrea Pauli for sharing the draculin plasmid. Diana Pinheiro generated the MZlefty1,2;Tg(sebox::EGFP) line. We are grateful to Patrick Müller, Diana Pinheiro and Katherine Rogers and members of the Heisenberg lab for discussions, technical advice and feedback on the manuscript. We also thank Anna Kicheva and Edouard Hannezo for discussions. We thank the Imaging and Optics Facility as well as the Life Science facility at IST Austria for support with microscopy and fish maintenance.\r\nThis work was supported by a European Research Council Advanced Grant\r\n(MECSPEC 742573 to C.-P.H.). A.S. is a recipient of a DOC Fellowship of the Austrian\r\nAcademy of Sciences at IST Austria. Open Access funding provided by Institute of\r\nScience and Technology Austria. ","article_processing_charge":"Yes (via OA deal)","author":[{"first_name":"Alexandra","id":"30A536BA-F248-11E8-B48F-1D18A9856A87","last_name":"Schauer","orcid":"0000-0001-7659-9142","full_name":"Schauer, Alexandra"},{"first_name":"Kornelija","id":"4362B3C2-F248-11E8-B48F-1D18A9856A87","full_name":"Pranjic-Ferscha, Kornelija","last_name":"Pranjic-Ferscha"},{"first_name":"Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522","last_name":"Hauschild"},{"first_name":"Carl-Philipp J","id":"39427864-F248-11E8-B48F-1D18A9856A87","last_name":"Heisenberg","orcid":"0000-0002-0912-4566","full_name":"Heisenberg, Carl-Philipp J"}],"title":"Robust axis elongation by Nodal-dependent restriction of BMP signaling","citation":{"apa":"Schauer, A., Pranjic-Ferscha, K., Hauschild, R., & Heisenberg, C.-P. J. (2024). Robust axis elongation by Nodal-dependent restriction of BMP signaling. Development. The Company of Biologists. https://doi.org/10.1242/dev.202316","ama":"Schauer A, Pranjic-Ferscha K, Hauschild R, Heisenberg C-PJ. Robust axis elongation by Nodal-dependent restriction of BMP signaling. Development. 2024;151(4):1-18. doi:10.1242/dev.202316","short":"A. Schauer, K. Pranjic-Ferscha, R. Hauschild, C.-P.J. Heisenberg, Development 151 (2024) 1–18.","ieee":"A. Schauer, K. Pranjic-Ferscha, R. Hauschild, and C.-P. J. Heisenberg, “Robust axis elongation by Nodal-dependent restriction of BMP signaling,” Development, vol. 151, no. 4. The Company of Biologists, pp. 1–18, 2024.","mla":"Schauer, Alexandra, et al. “Robust Axis Elongation by Nodal-Dependent Restriction of BMP Signaling.” Development, vol. 151, no. 4, The Company of Biologists, 2024, pp. 1–18, doi:10.1242/dev.202316.","ista":"Schauer A, Pranjic-Ferscha K, Hauschild R, Heisenberg C-PJ. 2024. Robust axis elongation by Nodal-dependent restriction of BMP signaling. Development. 151(4), 1–18.","chicago":"Schauer, Alexandra, Kornelija Pranjic-Ferscha, Robert Hauschild, and Carl-Philipp J Heisenberg. “Robust Axis Elongation by Nodal-Dependent Restriction of BMP Signaling.” Development. The Company of Biologists, 2024. https://doi.org/10.1242/dev.202316."},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","project":[{"_id":"260F1432-B435-11E9-9278-68D0E5697425","call_identifier":"H2020","name":"Interaction and feedback between cell mechanics and fate specification in vertebrate gastrulation","grant_number":"742573"},{"_id":"26B1E39C-B435-11E9-9278-68D0E5697425","grant_number":"25239","name":"Mesendoderm specification in zebrafish: The role of extraembryonic tissues"}]},{"license":"https://opensource.org/licenses/MIT","date_created":"2024-02-02T14:42:26Z","related_material":{"record":[{"id":"15048","status":"public","relation":"used_in_publication"}]},"date_published":"2024-02-02T00:00:00Z","doi":"10.15479/AT:ISTA:14926","file":[{"file_name":"README.md","date_created":"2024-02-02T14:40:31Z","file_size":736,"date_updated":"2024-02-02T14:40:31Z","creator":"rhauschild","success":1,"checksum":"df7f358ae19a176cf710c0a802ce31b1","file_id":"14927","content_type":"application/octet-stream","relation":"main_file","access_level":"open_access"},{"creator":"rhauschild","file_size":3543,"date_updated":"2024-02-02T14:40:31Z","file_name":"Supplementary_file_1.zip","date_created":"2024-02-02T14:40:31Z","relation":"main_file","access_level":"open_access","content_type":"application/x-zip-compressed","success":1,"checksum":"10194cc11619eccd8f4b24472e465b7f","file_id":"14928"}],"day":"02","year":"2024","has_accepted_license":"1","month":"02","oa":1,"publisher":"ISTA","department":[{"_id":"Bio"}],"file_date_updated":"2024-02-02T14:40:31Z","title":"Matlab script for analysis of clone dispersal","author":[{"last_name":"Hauschild","full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522","first_name":"Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87"}],"ddc":["570"],"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","citation":{"ama":"Hauschild R. Matlab script for analysis of clone dispersal. 2024. doi:10.15479/AT:ISTA:14926","apa":"Hauschild, R. (2024). Matlab script for analysis of clone dispersal. ISTA. https://doi.org/10.15479/AT:ISTA:14926","short":"R. Hauschild, (2024).","ieee":"R. Hauschild, “Matlab script for analysis of clone dispersal.” ISTA, 2024.","mla":"Hauschild, Robert. Matlab Script for Analysis of Clone Dispersal. ISTA, 2024, doi:10.15479/AT:ISTA:14926.","ista":"Hauschild R. 2024. Matlab script for analysis of clone dispersal, ISTA, 10.15479/AT:ISTA:14926.","chicago":"Hauschild, Robert. “Matlab Script for Analysis of Clone Dispersal.” ISTA, 2024. https://doi.org/10.15479/AT:ISTA:14926."},"date_updated":"2024-03-04T07:28:25Z","status":"public","tmp":{"short":"MIT","name":"The MIT License","legal_code_url":"https://opensource.org/licenses/MIT"},"type":"software","_id":"14926"},{"article_number":"e202309125","project":[{"_id":"9B954C5C-BA93-11EA-9121-9846C619BF3A","grant_number":"P33367","name":"Structure and isoform diversity of the Arp2/3 complex"},{"_id":"7bd318a1-9f16-11ee-852c-cc9217763180","name":"In Situ Actin Structures via Hybrid Cryo-electron Microscopy","grant_number":"E435"},{"call_identifier":"H2020","_id":"25FE9508-B435-11E9-9278-68D0E5697425","grant_number":"724373","name":"Cellular navigation along spatial gradients"},{"name":"NÖ-Fonds Preis für die Jungforscherin des Jahres am IST Austria","_id":"059B463C-7A3F-11EA-A408-12923DDC885E"},{"_id":"2615199A-B435-11E9-9278-68D0E5697425","name":"Spatiotemporal regulation of chemokine-induced signalling in leukocyte chemotaxis","grant_number":"21317"},{"name":"CryoMinflux-guided in-situ visual proteomics and structure determination","grant_number":"CZI01","_id":"62909c6f-2b32-11ec-9570-e1476aab5308"}],"citation":{"mla":"Zens, Bettina, et al. “Lift-out Cryo-FIBSEM and Cryo-ET Reveal the Ultrastructural Landscape of Extracellular Matrix.” Journal of Cell Biology, vol. 223, no. 6, e202309125, Rockefeller University Press, 2024, doi:10.1083/jcb.202309125.","apa":"Zens, B., Fäßler, F., Hansen, J., Hauschild, R., Datler, J., Hodirnau, V.-V., … Schur, F. K. (2024). Lift-out cryo-FIBSEM and cryo-ET reveal the ultrastructural landscape of extracellular matrix. Journal of Cell Biology. Rockefeller University Press. https://doi.org/10.1083/jcb.202309125","ama":"Zens B, Fäßler F, Hansen J, et al. Lift-out cryo-FIBSEM and cryo-ET reveal the ultrastructural landscape of extracellular matrix. Journal of Cell Biology. 2024;223(6). doi:10.1083/jcb.202309125","short":"B. Zens, F. Fäßler, J. Hansen, R. Hauschild, J. Datler, V.-V. Hodirnau, V. Zheden, J.H. Alanko, M.K. Sixt, F.K. Schur, Journal of Cell Biology 223 (2024).","ieee":"B. Zens et al., “Lift-out cryo-FIBSEM and cryo-ET reveal the ultrastructural landscape of extracellular matrix,” Journal of Cell Biology, vol. 223, no. 6. Rockefeller University Press, 2024.","chicago":"Zens, Bettina, Florian Fäßler, Jesse Hansen, Robert Hauschild, Julia Datler, Victor-Valentin Hodirnau, Vanessa Zheden, Jonna H Alanko, Michael K Sixt, and Florian KM Schur. “Lift-out Cryo-FIBSEM and Cryo-ET Reveal the Ultrastructural Landscape of Extracellular Matrix.” Journal of Cell Biology. Rockefeller University Press, 2024. https://doi.org/10.1083/jcb.202309125.","ista":"Zens B, Fäßler F, Hansen J, Hauschild R, Datler J, Hodirnau V-V, Zheden V, Alanko JH, Sixt MK, Schur FK. 2024. Lift-out cryo-FIBSEM and cryo-ET reveal the ultrastructural landscape of extracellular matrix. Journal of Cell Biology. 223(6), e202309125."},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","article_processing_charge":"Yes (via OA deal)","external_id":{"pmid":["38506714"]},"author":[{"full_name":"Zens, Bettina","last_name":"Zens","first_name":"Bettina","id":"45FD126C-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Fäßler","orcid":"0000-0001-7149-769X","full_name":"Fäßler, Florian","id":"404F5528-F248-11E8-B48F-1D18A9856A87","first_name":"Florian"},{"full_name":"Hansen, Jesse","last_name":"Hansen","id":"1063c618-6f9b-11ec-9123-f912fccded63","first_name":"Jesse"},{"last_name":"Hauschild","orcid":"0000-0001-9843-3522","full_name":"Hauschild, Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert"},{"orcid":"0000-0002-3616-8580","full_name":"Datler, Julia","last_name":"Datler","id":"3B12E2E6-F248-11E8-B48F-1D18A9856A87","first_name":"Julia"},{"full_name":"Hodirnau, Victor-Valentin","last_name":"Hodirnau","id":"3661B498-F248-11E8-B48F-1D18A9856A87","first_name":"Victor-Valentin"},{"last_name":"Zheden","full_name":"Zheden, Vanessa","orcid":"0000-0002-9438-4783","id":"39C5A68A-F248-11E8-B48F-1D18A9856A87","first_name":"Vanessa"},{"first_name":"Jonna H","id":"2CC12E8C-F248-11E8-B48F-1D18A9856A87","last_name":"Alanko","orcid":"0000-0002-7698-3061","full_name":"Alanko, Jonna H"},{"first_name":"Michael K","id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87","last_name":"Sixt","orcid":"0000-0002-6620-9179","full_name":"Sixt, Michael K"},{"id":"48AD8942-F248-11E8-B48F-1D18A9856A87","first_name":"Florian KM","full_name":"Schur, Florian KM","orcid":"0000-0003-4790-8078","last_name":"Schur"}],"title":"Lift-out cryo-FIBSEM and cryo-ET reveal the ultrastructural landscape of extracellular matrix","acknowledgement":"Open Access funding provided by IST Austria. We thank Armel Nicolas and his team at the ISTA proteomics facility, Alois Schloegl, Stefano Elefante, and colleagues at the ISTA Scientific Computing facility, Tommaso Constanzo and Ludek Lovicar at the Electron Microsocpy Facility (EMF), and Thomas Menner at the Miba Machine shop for their support. We also thank Wanda Kukulski (University of Bern) as well as Darío Porley, Andreas Thader, and other members of the Schur group for helpful discussions. Matt Swulius and Jessica Heebner provided great support in using Dragonfly. We thank Dorotea Fracciolla (Art & Science) for support in figure illustration.\r\n\r\nThis research was supported by the Scientific Service Units of ISTA through resources provided by Scientific Computing, the Lab Support Facility, and the Electron Microscopy Facility. We acknowledge funding support from the following sources: Austrian Science Fund (FWF) grant P33367 (to F.K.M. Schur), the Federation of European Biochemical Societies (to F.K.M. Schur), Niederösterreich (NÖ) Fonds (to B. Zens), FWF grant E435 (to J.M. Hansen), European Research Council under the European Union’s Horizon 2020 research (grant agreement No. 724373) (to M. Sixt), and Jenny and Antti Wihuri Foundation (to J. Alanko). This publication has been made possible in part by CZI grant DAF2021-234754 and grant DOI https://doi.org/10.37921/812628ebpcwg from the Chan Zuckerberg Initiative DAF, an advised fund of Silicon Valley Community Foundation (to F.K.M. Schur).","oa":1,"publisher":"Rockefeller University Press","quality_controlled":"1","year":"2024","has_accepted_license":"1","publication":"Journal of Cell Biology","day":"20","date_created":"2024-03-21T06:45:51Z","doi":"10.1083/jcb.202309125","date_published":"2024-03-20T00:00:00Z","_id":"15146","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"article_type":"original","type":"journal_article","status":"public","date_updated":"2024-03-25T13:03:57Z","ddc":["570"],"department":[{"_id":"FlSc"},{"_id":"MiSi"},{"_id":"Bio"},{"_id":"EM-Fac"}],"file_date_updated":"2024-03-25T12:52:04Z","abstract":[{"text":"The extracellular matrix (ECM) serves as a scaffold for cells and plays an essential role in regulating numerous cellular processes, including cell migration and proliferation. Due to limitations in specimen preparation for conventional room-temperature electron microscopy, we lack structural knowledge on how ECM components are secreted, remodeled, and interact with surrounding cells. We have developed a 3D-ECM platform compatible with sample thinning by cryo-focused ion beam milling, the lift-out extraction procedure, and cryo-electron tomography. Our workflow implements cell-derived matrices (CDMs) grown on EM grids, resulting in a versatile tool closely mimicking ECM environments. This allows us to visualize ECM for the first time in its hydrated, native context. Our data reveal an intricate network of extracellular fibers, their positioning relative to matrix-secreting cells, and previously unresolved structural entities. Our workflow and results add to the structural atlas of the ECM, providing novel insights into its secretion and assembly.","lang":"eng"}],"acknowledged_ssus":[{"_id":"LifeSc"},{"_id":"ScienComp"},{"_id":"EM-Fac"},{"_id":"M-Shop"}],"oa_version":"Published Version","pmid":1,"scopus_import":"1","intvolume":" 223","month":"03","publication_status":"published","publication_identifier":{"eissn":["1540-8140"],"issn":["0021-9525"]},"language":[{"iso":"eng"}],"file":[{"file_size":11907016,"date_updated":"2024-03-25T12:52:04Z","creator":"dernst","file_name":"2024_JCB_Zens.pdf","date_created":"2024-03-25T12:52:04Z","content_type":"application/pdf","relation":"main_file","access_level":"open_access","success":1,"checksum":"90d1984a93660735e506c2a304bc3f73","file_id":"15188"}],"ec_funded":1,"volume":223,"issue":"6"},{"date_created":"2023-04-16T22:01:07Z","date_published":"2023-04-10T00:00:00Z","doi":"10.1016/j.devcel.2023.02.016","page":"582-596.e7","publication":"Developmental Cell","day":"10","year":"2023","has_accepted_license":"1","isi":1,"oa":1,"quality_controlled":"1","publisher":"Elsevier","acknowledgement":"We thank Andrea Pauli (IMP) and Edouard Hannezo (ISTA) for fruitful discussions and support with the SPIM experiments; the Heisenberg group, and especially Feyza Nur Arslan and Alexandra Schauer, for discussions and feedback; Michaela Jović (ISTA) for help with the quantitative real-time PCR protocol; the bioimaging and zebrafish facilities of ISTA for continuous support; Stephan Preibisch (Janelia Research Campus) for support with the SPIM data analysis; and Nobuhiro Nakamura (Tokyo Institute of Technology) for sharing α1-Na+/K+-ATPase antibody. This work was supported by funding from the European Union (European Research Council Advanced grant 742573 to C.-P.H.), postdoctoral fellowships from EMBO (LTF-850-2017) and HFSP (LT000429/2018-L2) to D.P., and a PhD fellowship from the Studienstiftung des deutschen Volkes to F.P.","title":"A hydraulic feedback loop between mesendoderm cell migration and interstitial fluid relocalization promotes embryonic axis formation in zebrafish","external_id":{"isi":["000982111800001"]},"article_processing_charge":"Yes (via OA deal)","author":[{"id":"44C6F6A6-F248-11E8-B48F-1D18A9856A87","first_name":"Karla","last_name":"Huljev","full_name":"Huljev, Karla"},{"id":"40B34FE2-F248-11E8-B48F-1D18A9856A87","first_name":"Shayan","full_name":"Shamipour, Shayan","last_name":"Shamipour"},{"id":"2E839F16-F248-11E8-B48F-1D18A9856A87","first_name":"Diana C","last_name":"Nunes Pinheiro","full_name":"Nunes Pinheiro, Diana C","orcid":"0000-0003-4333-7503"},{"first_name":"Friedrich","last_name":"Preusser","full_name":"Preusser, Friedrich"},{"id":"2705C766-9FE2-11EA-B224-C6773DDC885E","first_name":"Irene","last_name":"Steccari","full_name":"Steccari, Irene"},{"orcid":"0000-0003-1216-9105","full_name":"Sommer, Christoph M","last_name":"Sommer","first_name":"Christoph M","id":"4DF26D8C-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Naik","orcid":"0000-0001-8421-5508","full_name":"Naik, Suyash","id":"2C0B105C-F248-11E8-B48F-1D18A9856A87","first_name":"Suyash"},{"first_name":"Carl-Philipp J","id":"39427864-F248-11E8-B48F-1D18A9856A87","last_name":"Heisenberg","full_name":"Heisenberg, Carl-Philipp J","orcid":"0000-0002-0912-4566"}],"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","citation":{"chicago":"Huljev, Karla, Shayan Shamipour, Diana C Nunes Pinheiro, Friedrich Preusser, Irene Steccari, Christoph M Sommer, Suyash Naik, and Carl-Philipp J Heisenberg. “A Hydraulic Feedback Loop between Mesendoderm Cell Migration and Interstitial Fluid Relocalization Promotes Embryonic Axis Formation in Zebrafish.” Developmental Cell. Elsevier, 2023. https://doi.org/10.1016/j.devcel.2023.02.016.","ista":"Huljev K, Shamipour S, Nunes Pinheiro DC, Preusser F, Steccari I, Sommer CM, Naik S, Heisenberg C-PJ. 2023. A hydraulic feedback loop between mesendoderm cell migration and interstitial fluid relocalization promotes embryonic axis formation in zebrafish. Developmental Cell. 58(7), 582–596.e7.","mla":"Huljev, Karla, et al. “A Hydraulic Feedback Loop between Mesendoderm Cell Migration and Interstitial Fluid Relocalization Promotes Embryonic Axis Formation in Zebrafish.” Developmental Cell, vol. 58, no. 7, Elsevier, 2023, p. 582–596.e7, doi:10.1016/j.devcel.2023.02.016.","apa":"Huljev, K., Shamipour, S., Nunes Pinheiro, D. C., Preusser, F., Steccari, I., Sommer, C. M., … Heisenberg, C.-P. J. (2023). A hydraulic feedback loop between mesendoderm cell migration and interstitial fluid relocalization promotes embryonic axis formation in zebrafish. Developmental Cell. Elsevier. https://doi.org/10.1016/j.devcel.2023.02.016","ama":"Huljev K, Shamipour S, Nunes Pinheiro DC, et al. A hydraulic feedback loop between mesendoderm cell migration and interstitial fluid relocalization promotes embryonic axis formation in zebrafish. Developmental Cell. 2023;58(7):582-596.e7. doi:10.1016/j.devcel.2023.02.016","ieee":"K. Huljev et al., “A hydraulic feedback loop between mesendoderm cell migration and interstitial fluid relocalization promotes embryonic axis formation in zebrafish,” Developmental Cell, vol. 58, no. 7. Elsevier, p. 582–596.e7, 2023.","short":"K. Huljev, S. Shamipour, D.C. Nunes Pinheiro, F. Preusser, I. Steccari, C.M. Sommer, S. Naik, C.-P.J. Heisenberg, Developmental Cell 58 (2023) 582–596.e7."},"project":[{"call_identifier":"H2020","_id":"260F1432-B435-11E9-9278-68D0E5697425","name":"Interaction and feedback between cell mechanics and fate specification in vertebrate gastrulation","grant_number":"742573"},{"_id":"26520D1E-B435-11E9-9278-68D0E5697425","grant_number":"ALTF 850-2017","name":"Coordination of mesendoderm cell fate specification and internalization during zebrafish gastrulation"},{"name":"Coordination of mesendoderm fate specification and internalization during zebrafish gastrulation","grant_number":"LT000429","_id":"266BC5CE-B435-11E9-9278-68D0E5697425"}],"ec_funded":1,"volume":58,"issue":"7","language":[{"iso":"eng"}],"file":[{"date_updated":"2023-04-17T07:41:25Z","file_size":7925886,"creator":"dernst","date_created":"2023-04-17T07:41:25Z","file_name":"2023_DevelopmentalCell_Huljev.pdf","content_type":"application/pdf","access_level":"open_access","relation":"main_file","checksum":"c80ca2ebc241232aacdb5aa4b4c80957","file_id":"12842","success":1}],"publication_status":"published","publication_identifier":{"issn":["1534-5807"],"eissn":["1878-1551"]},"intvolume":" 58","month":"04","scopus_import":"1","oa_version":"Published Version","abstract":[{"text":"Interstitial fluid (IF) accumulation between embryonic cells is thought to be important for embryo patterning and morphogenesis. Here, we identify a positive mechanical feedback loop between cell migration and IF relocalization and find that it promotes embryonic axis formation during zebrafish gastrulation. We show that anterior axial mesendoderm (prechordal plate [ppl]) cells, moving in between the yolk cell and deep cell tissue to extend the embryonic axis, compress the overlying deep cell layer, thereby causing IF to flow from the deep cell layer to the boundary between the yolk cell and the deep cell layer, directly ahead of the advancing ppl. This IF relocalization, in turn, facilitates ppl cell protrusion formation and migration by opening up the space into which the ppl moves and, thereby, the ability of the ppl to trigger IF relocalization by pushing against the overlying deep cell layer. Thus, embryonic axis formation relies on a hydraulic feedback loop between cell migration and IF relocalization.","lang":"eng"}],"acknowledged_ssus":[{"_id":"PreCl"},{"_id":"Bio"}],"department":[{"_id":"CaHe"},{"_id":"Bio"}],"file_date_updated":"2023-04-17T07:41:25Z","ddc":["570"],"date_updated":"2023-08-01T14:10:38Z","status":"public","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"type":"journal_article","article_type":"original","_id":"12830"},{"publication_status":"published","publication_identifier":{"issn":["2045-2322"]},"language":[{"iso":"eng"}],"file":[{"date_updated":"2023-05-22T07:57:37Z","file_size":3055077,"creator":"dernst","date_created":"2023-05-22T07:57:37Z","file_name":"2023_ScientificReports_Zavadakova.pdf","content_type":"application/pdf","access_level":"open_access","relation":"main_file","file_id":"13047","checksum":"8c1b769693ff4288df8376e59ad1176d","success":1}],"volume":13,"related_material":{"link":[{"url":"https://doi.org/10.1038/s41598-023-37265-z","relation":"erratum"}]},"issue":"1","abstract":[{"text":"Current methods for assessing cell proliferation in 3D scaffolds rely on changes in metabolic activity or total DNA, however, direct quantification of cell number in 3D scaffolds remains a challenge. To address this issue, we developed an unbiased stereology approach that uses systematic-random sampling and thin focal-plane optical sectioning of the scaffolds followed by estimation of total cell number (StereoCount). This approach was validated against an indirect method for measuring the total DNA (DNA content); and the Bürker counting chamber, the current reference method for quantifying cell number. We assessed the total cell number for cell seeding density (cells per unit volume) across four values and compared the methods in terms of accuracy, ease-of-use and time demands. The accuracy of StereoCount markedly outperformed the DNA content for cases with ~ 10,000 and ~ 125,000 cells/scaffold. For cases with ~ 250,000 and ~ 375,000 cells/scaffold both StereoCount and DNA content showed lower accuracy than the Bürker but did not differ from each other. In terms of ease-of-use, there was a strong advantage for the StereoCount due to output in terms of absolute cell numbers along with the possibility for an overview of cell distribution and future use of automation for high throughput analysis. Taking together, the StereoCount method is an efficient approach for direct cell quantification in 3D collagen scaffolds. Its major benefit is that automated StereoCount could accelerate research using 3D scaffolds focused on drug discovery for a wide variety of human diseases.","lang":"eng"}],"oa_version":"Published Version","scopus_import":"1","intvolume":" 13","month":"05","date_updated":"2023-08-01T14:46:06Z","ddc":["570"],"file_date_updated":"2023-05-22T07:57:37Z","department":[{"_id":"Bio"}],"_id":"13033","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"article_type":"original","type":"journal_article","keyword":["Multidisciplinary"],"status":"public","year":"2023","has_accepted_license":"1","isi":1,"publication":"Scientific Reports","day":"17","date_created":"2023-05-19T11:12:25Z","date_published":"2023-05-17T00:00:00Z","doi":"10.1038/s41598-023-35162-z","acknowledgement":"The study was supported by Project No. CZ.02.1.01/0.0/0.0/16_019/0000787 “Fighting INfectious Diseases”, awarded by the MEYS CR, financed from EFRR, by the Cooperatio Program, research area DIAG and research area MED/DIAG, by the profiBONE project (TO01000309) benefitting from a € (1.433.000) grant from Iceland, Liechtenstein and Norway through the EEA Grants and the Technology Agency of the Czech Republic and by a Grant (#1926990) to PRM and SRC Biosciences from the National Science Foundation (U.S. Public Health Service). The authors acknowledge the invaluable assistance provided by Iveta Paurova via her support in terms of the provision of laboratory services.","oa":1,"publisher":"Springer Nature","quality_controlled":"1","citation":{"apa":"Zavadakova, A., Vistejnova, L., Belinova, T., Tichanek, F., Bilikova, D., & Mouton, P. R. (2023). Novel stereological method for estimation of cell counts in 3D collagen scaffolds. Scientific Reports. Springer Nature. https://doi.org/10.1038/s41598-023-35162-z","ama":"Zavadakova A, Vistejnova L, Belinova T, Tichanek F, Bilikova D, Mouton PR. Novel stereological method for estimation of cell counts in 3D collagen scaffolds. Scientific Reports. 2023;13(1). doi:10.1038/s41598-023-35162-z","ieee":"A. Zavadakova, L. Vistejnova, T. Belinova, F. Tichanek, D. Bilikova, and P. R. Mouton, “Novel stereological method for estimation of cell counts in 3D collagen scaffolds,” Scientific Reports, vol. 13, no. 1. Springer Nature, 2023.","short":"A. Zavadakova, L. Vistejnova, T. Belinova, F. Tichanek, D. Bilikova, P.R. Mouton, Scientific Reports 13 (2023).","mla":"Zavadakova, Anna, et al. “Novel Stereological Method for Estimation of Cell Counts in 3D Collagen Scaffolds.” Scientific Reports, vol. 13, no. 1, 7959, Springer Nature, 2023, doi:10.1038/s41598-023-35162-z.","ista":"Zavadakova A, Vistejnova L, Belinova T, Tichanek F, Bilikova D, Mouton PR. 2023. Novel stereological method for estimation of cell counts in 3D collagen scaffolds. Scientific Reports. 13(1), 7959.","chicago":"Zavadakova, Anna, Lucie Vistejnova, Tereza Belinova, Filip Tichanek, Dagmar Bilikova, and Peter R. Mouton. “Novel Stereological Method for Estimation of Cell Counts in 3D Collagen Scaffolds.” Scientific Reports. Springer Nature, 2023. https://doi.org/10.1038/s41598-023-35162-z."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","external_id":{"isi":["000995271600104"]},"article_processing_charge":"No","author":[{"first_name":"Anna","last_name":"Zavadakova","full_name":"Zavadakova, Anna"},{"last_name":"Vistejnova","full_name":"Vistejnova, Lucie","first_name":"Lucie"},{"first_name":"Tereza","id":"0bf89b6a-d28b-11eb-8bd6-f43768e4d368","full_name":"Belinova, Tereza","last_name":"Belinova"},{"first_name":"Filip","full_name":"Tichanek, Filip","last_name":"Tichanek"},{"first_name":"Dagmar","full_name":"Bilikova, Dagmar","last_name":"Bilikova"},{"first_name":"Peter R.","full_name":"Mouton, Peter R.","last_name":"Mouton"}],"title":"Novel stereological method for estimation of cell counts in 3D collagen scaffolds","article_number":"7959"},{"acknowledgement":"We thank Christoph Mayr and Bingzhi Wang for initial experiments on amoeboid nucleokinesis, Ana-Maria Lennon-Duménil and Aline Yatim for bone marrow from MyoIIA-Flox*CD11c-Cre mice, Michael Sixt and Aglaja Kopf for EMTB-mCherry, EB3-mCherry, Lifeact-GFP, Lfc knockout, and Myh9-GFP expressing HoxB8 cells, Malte Benjamin Braun, Mauricio Ruiz, and Madeleine T. Schmitt for critical reading of the manuscript, and the Core Facility Bioimaging, the Core Facility Flow Cytometry, and the Animal Core Facility of the Biomedical Center (BMC) for excellent support. This study was supported by the Peter Hans Hofschneider Professorship of the foundation “Stiftung Experimentelle Biomedizin” (to JR), the LMU Institutional Strategy LMU-Excellent within the framework of the German Excellence Initiative (to JR), and the Deutsche Forschungsgemeinschaft (DFG; German Research Foundation; SFB914 project A12, to JR), and the CZI grant DAF2020-225401 (https://doi.org/10.37921/120055ratwvi) from the Chan Zuckerberg Initiative DAF (to RH; an advised fund of Silicon Valley Community Foundation (funder https://doi.org/10.13039/100014989)). Open Access funding enabled and organized by Projekt DEAL.","publisher":"Embo Press","quality_controlled":"1","oa":1,"has_accepted_license":"1","year":"2023","day":"21","publication":"EMBO Journal","date_published":"2023-11-21T00:00:00Z","doi":"10.15252/embj.2023114557","date_created":"2023-08-01T08:59:06Z","article_number":"e114557","citation":{"short":"J. Kroll, R. Hauschild, A. Kuznetcov, K. Stefanowski, M.D. Hermann, J. Merrin, L.B. Shafeek, A. Müller-Taubenberger, J. Renkawitz, EMBO Journal (2023).","ieee":"J. Kroll et al., “Adaptive pathfinding by nucleokinesis during amoeboid migration,” EMBO Journal. Embo Press, 2023.","ama":"Kroll J, Hauschild R, Kuznetcov A, et al. Adaptive pathfinding by nucleokinesis during amoeboid migration. EMBO Journal. 2023. doi:10.15252/embj.2023114557","apa":"Kroll, J., Hauschild, R., Kuznetcov, A., Stefanowski, K., Hermann, M. D., Merrin, J., … Renkawitz, J. (2023). Adaptive pathfinding by nucleokinesis during amoeboid migration. EMBO Journal. Embo Press. https://doi.org/10.15252/embj.2023114557","mla":"Kroll, Janina, et al. “Adaptive Pathfinding by Nucleokinesis during Amoeboid Migration.” EMBO Journal, e114557, Embo Press, 2023, doi:10.15252/embj.2023114557.","ista":"Kroll J, Hauschild R, Kuznetcov A, Stefanowski K, Hermann MD, Merrin J, Shafeek LB, Müller-Taubenberger A, Renkawitz J. 2023. Adaptive pathfinding by nucleokinesis during amoeboid migration. EMBO Journal., e114557.","chicago":"Kroll, Janina, Robert Hauschild, Arthur Kuznetcov, Kasia Stefanowski, Monika D. Hermann, Jack Merrin, Lubuna B Shafeek, Annette Müller-Taubenberger, and Jörg Renkawitz. “Adaptive Pathfinding by Nucleokinesis during Amoeboid Migration.” EMBO Journal. Embo Press, 2023. https://doi.org/10.15252/embj.2023114557."},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","author":[{"first_name":"Janina","full_name":"Kroll, Janina","last_name":"Kroll"},{"id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert","last_name":"Hauschild","full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522"},{"first_name":"Arthur","full_name":"Kuznetcov, Arthur","last_name":"Kuznetcov"},{"last_name":"Stefanowski","full_name":"Stefanowski, Kasia","first_name":"Kasia"},{"full_name":"Hermann, Monika D.","last_name":"Hermann","first_name":"Monika D."},{"id":"4515C308-F248-11E8-B48F-1D18A9856A87","first_name":"Jack","last_name":"Merrin","orcid":"0000-0001-5145-4609","full_name":"Merrin, Jack"},{"orcid":"0000-0001-7180-6050","full_name":"Shafeek, Lubuna B","last_name":"Shafeek","id":"3CD37A82-F248-11E8-B48F-1D18A9856A87","first_name":"Lubuna B"},{"first_name":"Annette","last_name":"Müller-Taubenberger","full_name":"Müller-Taubenberger, Annette"},{"id":"3F0587C8-F248-11E8-B48F-1D18A9856A87","first_name":"Jörg","last_name":"Renkawitz","full_name":"Renkawitz, Jörg","orcid":"0000-0003-2856-3369"}],"article_processing_charge":"Yes (via OA deal)","external_id":{"pmid":["37987147"]},"title":"Adaptive pathfinding by nucleokinesis during amoeboid migration","abstract":[{"text":"Motile cells moving in multicellular organisms encounter microenvironments of locally heterogeneous mechanochemical composition. Individual compositional parameters like chemotactic signals, adhesiveness, and pore sizes are well known to be sensed by motile cells, providing individual guidance cues for cellular pathfinding. However, motile cells encounter diverse mechanochemical signals at the same time, raising the question of how cells respond to locally diverse and potentially competing signals on their migration routes. Here, we reveal that motile amoeboid cells require nuclear repositioning, termed nucleokinesis, for adaptive pathfinding in heterogeneous mechanochemical microenvironments. Using mammalian immune cells and the amoebaDictyostelium discoideum, we discover that frequent, rapid and long-distance nucleokinesis is a basic component of amoeboid pathfinding, enabling cells to reorientate quickly between locally competing cues. Amoeboid nucleokinesis comprises a two-step cell polarity switch and is driven by myosin II-forces, sliding the nucleus from a ‘losing’ to the ‘winning’ leading edge to re-adjust the nuclear to the cellular path. Impaired nucleokinesis distorts fast path adaptions and causes cellular arrest in the microenvironment. Our findings establish that nucleokinesis is required for amoeboid cell navigation. Given that motile single-cell amoebae, many immune cells, and some cancer cells utilize an amoeboid migration strategy, these results suggest that amoeboid nucleokinesis underlies cellular navigation during unicellular biology, immunity, and disease.","lang":"eng"}],"pmid":1,"oa_version":"Published Version","scopus_import":"1","month":"11","publication_identifier":{"eissn":["1460-2075"],"issn":["0261-4189"]},"publication_status":"published","file":[{"file_name":"2023_EmboJournal_Kroll.pdf","date_created":"2023-11-27T08:45:56Z","creator":"dernst","file_size":4862497,"date_updated":"2023-11-27T08:45:56Z","success":1,"checksum":"6261d0041c7e8d284c39712c40079730","file_id":"14611","relation":"main_file","access_level":"open_access","content_type":"application/pdf"}],"language":[{"iso":"eng"}],"license":"https://creativecommons.org/licenses/by-nc-nd/4.0/","_id":"13342","type":"journal_article","article_type":"original","tmp":{"short":"CC BY-NC-ND (4.0)","name":"Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0)","legal_code_url":"https://creativecommons.org/licenses/by-nc-nd/4.0/legalcode","image":"/images/cc_by_nc_nd.png"},"status":"public","date_updated":"2023-11-27T08:47:45Z","ddc":["570"],"file_date_updated":"2023-11-27T08:45:56Z","department":[{"_id":"NanoFab"},{"_id":"Bio"}]},{"acknowledgement":"The authors thank the participants and their families for participating in the study. We thank all members of our laboratories for helpful discussions. We are grateful to Vienna BioCenter Core Facilities: Mouse Phenotyping Unit, Histopathology Unit, Bioinformatics Unit, BioOptics Unit, Electron Microscopy Unit and Comparative Medicine Unit. We are grateful to the Lipidomics Facility, and K. Klavins and T. Hannich at the CeMM Research Center for Molecular Medicine of the Austrian Academy of Sciences for assistance with lipidomics analysis. We also thank T. Huan and A. Hui (UBC Vancouver) for mouse tissue and mitochondria lipidomics analysis. We thank A. Klymchenko (Laboratoire de Bioimagerie et Pathologies Université de Strasbourg, Strasbourg, France) for providing the NR12S probe. We are thankful to the Sen. Paul D. Wellstone Muscular Dystrophy Cooperative Specialized Research Center Viral Vector Core Facility for AAV6 production. We also thank K. P. Campbell and M. E. Anderson (University of Iowa, Carver College of Medicine) for advice on muscle tissue handling. We thank A. Al-Qassabi from the Sultan Qaboos University for the clinical assessment of the participants. D.C. and J.M.P. are supported by the Austrian Federal Ministry of Education, Science and Research, the Austrian Academy of Sciences, and the City of Vienna, and grants from the Austrian Science Fund (FWF) Wittgenstein award (Z 271-B19), the T. von Zastrow Foundation, and a Canada 150 Research Chairs Program (F18-01336). J.S.C. is supported by grants RO1AR44533 and P50AR065139 from the US National Institutes of Health. C.K. is supported by a grant from the Agence Nationale de la Recherche (ANR-18-CE14-0007-01). A.V.K. is supported by European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement no. 67544, and an Austrian Science Fund (FWF; no P-33799). A.W. is supported by Austrian Research Promotion Agency (FFG) project no 867674. E.S. is supported by a SciLifeLab fellowship and Karolinska Institutet Foundation Grants. Work in the laboratory of G.S.-F. is supported by the Austrian Academy of Sciences, the European Research Council (ERC AdG 695214 GameofGates) and the Innovative Medicines Initiative 2 Joint Undertaking (grant agreement no. 777372, ReSOLUTE). S.B., M.L. and R.Y. acknowledge the support of the Spastic Paraplegia Foundation.","publisher":"Springer Nature","quality_controlled":"1","oa":1,"isi":1,"year":"2023","day":"20","publication":"Nature Metabolism","page":"495-515","date_published":"2023-03-20T00:00:00Z","doi":"10.1038/s42255-023-00766-2","date_created":"2023-03-23T12:58:43Z","citation":{"mla":"Cikes, Domagoj, et al. “PCYT2-Regulated Lipid Biosynthesis Is Critical to Muscle Health and Ageing.” Nature Metabolism, vol. 5, Springer Nature, 2023, pp. 495–515, doi:10.1038/s42255-023-00766-2.","apa":"Cikes, D., Elsayad, K., Sezgin, E., Koitai, E., Ferenc, T., Orthofer, M., … Penninger, J. M. (2023). PCYT2-regulated lipid biosynthesis is critical to muscle health and ageing. Nature Metabolism. Springer Nature. https://doi.org/10.1038/s42255-023-00766-2","ama":"Cikes D, Elsayad K, Sezgin E, et al. PCYT2-regulated lipid biosynthesis is critical to muscle health and ageing. Nature Metabolism. 2023;5:495-515. doi:10.1038/s42255-023-00766-2","short":"D. Cikes, K. Elsayad, E. Sezgin, E. Koitai, T. Ferenc, M. Orthofer, R. Yarwood, L.X. Heinz, V. Sedlyarov, N. Darwish-Miranda, A. Taylor, S. Grapentine, F. al-Murshedi, A. Abot, A. Weidinger, C. Kutchukian, C. Sanchez, S.J.F. Cronin, M. Novatchkova, A. Kavirayani, T. Schuetz, B. Haubner, L. Haas, A. Hagelkruys, S. Jackowski, A. Kozlov, V. Jacquemond, C. Knauf, G. Superti-Furga, E. Rullman, T. Gustafsson, J. McDermot, M. Lowe, Z. Radak, J.S. Chamberlain, M. Bakovic, S. Banka, J.M. Penninger, Nature Metabolism 5 (2023) 495–515.","ieee":"D. Cikes et al., “PCYT2-regulated lipid biosynthesis is critical to muscle health and ageing,” Nature Metabolism, vol. 5. Springer Nature, pp. 495–515, 2023.","chicago":"Cikes, Domagoj, Kareem Elsayad, Erdinc Sezgin, Erika Koitai, Torma Ferenc, Michael Orthofer, Rebecca Yarwood, et al. “PCYT2-Regulated Lipid Biosynthesis Is Critical to Muscle Health and Ageing.” Nature Metabolism. Springer Nature, 2023. https://doi.org/10.1038/s42255-023-00766-2.","ista":"Cikes D, Elsayad K, Sezgin E, Koitai E, Ferenc T, Orthofer M, Yarwood R, Heinz LX, Sedlyarov V, Darwish-Miranda N, Taylor A, Grapentine S, al-Murshedi F, Abot A, Weidinger A, Kutchukian C, Sanchez C, Cronin SJF, Novatchkova M, Kavirayani A, Schuetz T, Haubner B, Haas L, Hagelkruys A, Jackowski S, Kozlov A, Jacquemond V, Knauf C, Superti-Furga G, Rullman E, Gustafsson T, McDermot J, Lowe M, Radak Z, Chamberlain JS, Bakovic M, Banka S, Penninger JM. 2023. PCYT2-regulated lipid biosynthesis is critical to muscle health and ageing. Nature Metabolism. 5, 495–515."},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","author":[{"last_name":"Cikes","full_name":"Cikes, Domagoj","first_name":"Domagoj"},{"full_name":"Elsayad, Kareem","last_name":"Elsayad","first_name":"Kareem"},{"first_name":"Erdinc","full_name":"Sezgin, Erdinc","last_name":"Sezgin"},{"first_name":"Erika","full_name":"Koitai, Erika","last_name":"Koitai"},{"first_name":"Torma","full_name":"Ferenc, Torma","last_name":"Ferenc"},{"full_name":"Orthofer, Michael","last_name":"Orthofer","first_name":"Michael"},{"full_name":"Yarwood, Rebecca","last_name":"Yarwood","first_name":"Rebecca"},{"first_name":"Leonhard X.","last_name":"Heinz","full_name":"Heinz, Leonhard X."},{"full_name":"Sedlyarov, Vitaly","last_name":"Sedlyarov","first_name":"Vitaly"},{"first_name":"Nasser","id":"39CD9926-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0002-8821-8236","full_name":"Darwish-Miranda, Nasser","last_name":"Darwish-Miranda"},{"first_name":"Adrian","full_name":"Taylor, Adrian","last_name":"Taylor"},{"first_name":"Sophie","last_name":"Grapentine","full_name":"Grapentine, Sophie"},{"first_name":"Fathiya","last_name":"al-Murshedi","full_name":"al-Murshedi, Fathiya"},{"first_name":"Anne","last_name":"Abot","full_name":"Abot, Anne"},{"last_name":"Weidinger","full_name":"Weidinger, Adelheid","first_name":"Adelheid"},{"first_name":"Candice","last_name":"Kutchukian","full_name":"Kutchukian, Candice"},{"last_name":"Sanchez","full_name":"Sanchez, Colline","first_name":"Colline"},{"last_name":"Cronin","full_name":"Cronin, Shane J. F.","first_name":"Shane J. F."},{"first_name":"Maria","last_name":"Novatchkova","full_name":"Novatchkova, Maria"},{"last_name":"Kavirayani","full_name":"Kavirayani, Anoop","first_name":"Anoop"},{"full_name":"Schuetz, Thomas","last_name":"Schuetz","first_name":"Thomas"},{"last_name":"Haubner","full_name":"Haubner, Bernhard","first_name":"Bernhard"},{"first_name":"Lisa","full_name":"Haas, Lisa","last_name":"Haas"},{"last_name":"Hagelkruys","full_name":"Hagelkruys, Astrid","first_name":"Astrid"},{"first_name":"Suzanne","last_name":"Jackowski","full_name":"Jackowski, Suzanne"},{"full_name":"Kozlov, Andrey","last_name":"Kozlov","first_name":"Andrey"},{"full_name":"Jacquemond, Vincent","last_name":"Jacquemond","first_name":"Vincent"},{"first_name":"Claude","last_name":"Knauf","full_name":"Knauf, Claude"},{"last_name":"Superti-Furga","full_name":"Superti-Furga, Giulio","first_name":"Giulio"},{"first_name":"Eric","last_name":"Rullman","full_name":"Rullman, Eric"},{"first_name":"Thomas","full_name":"Gustafsson, Thomas","last_name":"Gustafsson"},{"first_name":"John","last_name":"McDermot","full_name":"McDermot, John"},{"full_name":"Lowe, Martin","last_name":"Lowe","first_name":"Martin"},{"full_name":"Radak, Zsolt","last_name":"Radak","first_name":"Zsolt"},{"first_name":"Jeffrey S.","last_name":"Chamberlain","full_name":"Chamberlain, Jeffrey S."},{"first_name":"Marica","last_name":"Bakovic","full_name":"Bakovic, Marica"},{"first_name":"Siddharth","last_name":"Banka","full_name":"Banka, Siddharth"},{"full_name":"Penninger, Josef M.","last_name":"Penninger","first_name":"Josef M."}],"article_processing_charge":"No","external_id":{"pmid":["36941451"],"isi":["000992064000002"]},"title":"PCYT2-regulated lipid biosynthesis is critical to muscle health and ageing","abstract":[{"lang":"eng","text":"Muscle degeneration is the most prevalent cause for frailty and dependency in inherited diseases and ageing. Elucidation of pathophysiological mechanisms, as well as effective treatments for muscle diseases, represents an important goal in improving human health. Here, we show that the lipid synthesis enzyme phosphatidylethanolamine cytidyltransferase (PCYT2/ECT) is critical to muscle health. Human deficiency in PCYT2 causes a severe disease with failure to thrive and progressive weakness. pcyt2-mutant zebrafish and muscle-specific Pcyt2-knockout mice recapitulate the participant phenotypes, with failure to thrive, progressive muscle weakness and accelerated ageing. Mechanistically, muscle Pcyt2 deficiency affects cellular bioenergetics and membrane lipid bilayer structure and stability. PCYT2 activity declines in ageing muscles of mice and humans, and adeno-associated virus-based delivery of PCYT2 ameliorates muscle weakness in Pcyt2-knockout and old mice, offering a therapy for individuals with a rare disease and muscle ageing. Thus, PCYT2 plays a fundamental and conserved role in vertebrate muscle health, linking PCYT2 and PCYT2-synthesized lipids to severe muscle dystrophy and ageing."}],"pmid":1,"oa_version":"Preprint","scopus_import":"1","main_file_link":[{"open_access":"1","url":"https://doi.org/10.1101/2022.03.02.482658"}],"month":"03","intvolume":" 5","publication_identifier":{"issn":["2522-5812"]},"publication_status":"published","language":[{"iso":"eng"}],"volume":5,"related_material":{"link":[{"url":"https://doi.org/10.1038/s42255-023-00791-1","relation":"erratum"}]},"_id":"12747","type":"journal_article","article_type":"original","status":"public","keyword":["Cell Biology","Physiology (medical)","Endocrinology","Diabetes and Metabolism","Internal Medicine"],"date_updated":"2023-11-28T07:31:33Z","department":[{"_id":"Bio"}]},{"acknowledgement":"We thank Marton Gulyas (ELTE Eötvös University) for development of videomicroscopy experiment manager and image analysis software. Authors are grateful to Gabor Forgacs (University of Missouri) for critical reading of earlier versions of this manuscript as well as to Zsuzsa Akos and Andras Czirok (ELTE Eötvös University) for fruitful discussions. This work was supported by EU FP7, ERC COLLMOT Project No 227878 to TV, the National Research Development and Innovation Fund of Hungary, K119359 and also Project No 2018-1.2.1-NKP-2018-00005 to LN. This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 955576. MV was supported by the Ja´nos Bolyai Fellowship of the Hungarian Academy of Sciences.\r\nOpen access funding provided by Eötvös Loránd University.","oa":1,"quality_controlled":"1","publisher":"Springer Nature","publication":"Communications Biology","day":"04","year":"2023","isi":1,"has_accepted_license":"1","date_created":"2023-08-13T22:01:13Z","date_published":"2023-08-04T00:00:00Z","doi":"10.1038/s42003-023-05181-7","article_number":"817","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","citation":{"chicago":"Méhes, Elod, Enys Mones, Máté Varga, Áron Zsigmond, Beáta Biri-Kovács, László Nyitray, Vanessa Barone, Gabriel Krens, Carl-Philipp J Heisenberg, and Tamás Vicsek. “3D Cell Segregation Geometry and Dynamics Are Governed by Tissue Surface Tension Regulation.” Communications Biology. Springer Nature, 2023. https://doi.org/10.1038/s42003-023-05181-7.","ista":"Méhes E, Mones E, Varga M, Zsigmond Á, Biri-Kovács B, Nyitray L, Barone V, Krens G, Heisenberg C-PJ, Vicsek T. 2023. 3D cell segregation geometry and dynamics are governed by tissue surface tension regulation. Communications Biology. 6, 817.","mla":"Méhes, Elod, et al. “3D Cell Segregation Geometry and Dynamics Are Governed by Tissue Surface Tension Regulation.” Communications Biology, vol. 6, 817, Springer Nature, 2023, doi:10.1038/s42003-023-05181-7.","apa":"Méhes, E., Mones, E., Varga, M., Zsigmond, Á., Biri-Kovács, B., Nyitray, L., … Vicsek, T. (2023). 3D cell segregation geometry and dynamics are governed by tissue surface tension regulation. Communications Biology. Springer Nature. https://doi.org/10.1038/s42003-023-05181-7","ama":"Méhes E, Mones E, Varga M, et al. 3D cell segregation geometry and dynamics are governed by tissue surface tension regulation. Communications Biology. 2023;6. doi:10.1038/s42003-023-05181-7","ieee":"E. Méhes et al., “3D cell segregation geometry and dynamics are governed by tissue surface tension regulation,” Communications Biology, vol. 6. Springer Nature, 2023.","short":"E. Méhes, E. Mones, M. Varga, Á. Zsigmond, B. Biri-Kovács, L. Nyitray, V. Barone, G. Krens, C.-P.J. Heisenberg, T. Vicsek, Communications Biology 6 (2023)."},"title":"3D cell segregation geometry and dynamics are governed by tissue surface tension regulation","external_id":{"pmid":["37542157"],"isi":["001042544100001"]},"article_processing_charge":"Yes","author":[{"first_name":"Elod","last_name":"Méhes","full_name":"Méhes, Elod"},{"full_name":"Mones, Enys","last_name":"Mones","first_name":"Enys"},{"full_name":"Varga, Máté","last_name":"Varga","first_name":"Máté"},{"first_name":"Áron","full_name":"Zsigmond, Áron","last_name":"Zsigmond"},{"last_name":"Biri-Kovács","full_name":"Biri-Kovács, Beáta","first_name":"Beáta"},{"full_name":"Nyitray, László","last_name":"Nyitray","first_name":"László"},{"id":"419EECCC-F248-11E8-B48F-1D18A9856A87","first_name":"Vanessa","last_name":"Barone","orcid":"0000-0003-2676-3367","full_name":"Barone, Vanessa"},{"first_name":"Gabriel","id":"2B819732-F248-11E8-B48F-1D18A9856A87","full_name":"Krens, Gabriel","orcid":"0000-0003-4761-5996","last_name":"Krens"},{"first_name":"Carl-Philipp J","id":"39427864-F248-11E8-B48F-1D18A9856A87","last_name":"Heisenberg","orcid":"0000-0002-0912-4566","full_name":"Heisenberg, Carl-Philipp J"},{"full_name":"Vicsek, Tamás","last_name":"Vicsek","first_name":"Tamás"}],"oa_version":"Published Version","pmid":1,"abstract":[{"lang":"eng","text":"Tissue morphogenesis and patterning during development involve the segregation of cell types. Segregation is driven by differential tissue surface tensions generated by cell types through controlling cell-cell contact formation by regulating adhesion and actomyosin contractility-based cellular cortical tensions. We use vertebrate tissue cell types and zebrafish germ layer progenitors as in vitro models of 3-dimensional heterotypic segregation and developed a quantitative analysis of their dynamics based on 3D time-lapse microscopy. We show that general inhibition of actomyosin contractility by the Rho kinase inhibitor Y27632 delays segregation. Cell type-specific inhibition of non-muscle myosin2 activity by overexpression of myosin assembly inhibitor S100A4 reduces tissue surface tension, manifested in decreased compaction during aggregation and inverted geometry observed during segregation. The same is observed when we express a constitutively active Rho kinase isoform to ubiquitously keep actomyosin contractility high at cell-cell and cell-medium interfaces and thus overriding the interface-specific regulation of cortical tensions. Tissue surface tension regulation can become an effective tool in tissue engineering."}],"intvolume":" 6","month":"08","scopus_import":"1","language":[{"iso":"eng"}],"file":[{"date_created":"2023-08-14T07:17:36Z","file_name":"2023_CommBiology_Mehes.pdf","date_updated":"2023-08-14T07:17:36Z","file_size":10181997,"creator":"dernst","file_id":"14045","checksum":"1f9324f736bdbb76426b07736651c4cd","success":1,"content_type":"application/pdf","access_level":"open_access","relation":"main_file"}],"publication_status":"published","publication_identifier":{"eissn":["2399-3642"]},"volume":6,"_id":"14041","status":"public","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"type":"journal_article","article_type":"original","ddc":["570"],"date_updated":"2023-12-13T12:07:33Z","file_date_updated":"2023-08-14T07:17:36Z","department":[{"_id":"CaHe"},{"_id":"Bio"}]},{"date_updated":"2024-01-10T08:37:48Z","department":[{"_id":"PeJo"},{"_id":"GaNo"},{"_id":"BeBi"},{"_id":"JoDa"},{"_id":"Bio"}],"_id":"13267","type":"journal_article","article_type":"original","status":"public","publication_identifier":{"eissn":["1548-7105"],"issn":["1548-7091"]},"publication_status":"published","language":[{"iso":"eng"}],"related_material":{"link":[{"relation":"software","url":"https://github.com/danzllab/LIONESS"}],"record":[{"id":"12817","status":"public","relation":"research_data"},{"relation":"shorter_version","id":"14770","status":"public"}]},"volume":20,"ec_funded":1,"abstract":[{"lang":"eng","text":"Three-dimensional (3D) reconstruction of living brain tissue down to an individual synapse level would create opportunities for decoding the dynamics and structure–function relationships of the brain’s complex and dense information processing network; however, this has been hindered by insufficient 3D resolution, inadequate signal-to-noise ratio and prohibitive light burden in optical imaging, whereas electron microscopy is inherently static. Here we solved these challenges by developing an integrated optical/machine-learning technology, LIONESS (live information-optimized nanoscopy enabling saturated segmentation). This leverages optical modifications to stimulated emission depletion microscopy in comprehensively, extracellularly labeled tissue and previous information on sample structure via machine learning to simultaneously achieve isotropic super-resolution, high signal-to-noise ratio and compatibility with living tissue. This allows dense deep-learning-based instance segmentation and 3D reconstruction at a synapse level, incorporating molecular, activity and morphodynamic information. LIONESS opens up avenues for studying the dynamic functional (nano-)architecture of living brain tissue."}],"acknowledged_ssus":[{"_id":"ScienComp"},{"_id":"Bio"},{"_id":"PreCl"},{"_id":"E-Lib"},{"_id":"LifeSc"},{"_id":"M-Shop"}],"oa_version":"Published Version","pmid":1,"scopus_import":"1","main_file_link":[{"url":"https://doi.org/10.1038/s41592-023-01936-6","open_access":"1"}],"month":"08","intvolume":" 20","citation":{"ista":"Velicky P, Miguel Villalba E, Michalska JM, Lyudchik J, Wei D, Lin Z, Watson J, Troidl J, Beyer J, Ben Simon Y, Sommer CM, Jahr W, Cenameri A, Broichhagen J, Grant SGN, Jonas PM, Novarino G, Pfister H, Bickel B, Danzl JG. 2023. Dense 4D nanoscale reconstruction of living brain tissue. Nature Methods. 20, 1256–1265.","chicago":"Velicky, Philipp, Eder Miguel Villalba, Julia M Michalska, Julia Lyudchik, Donglai Wei, Zudi Lin, Jake Watson, et al. “Dense 4D Nanoscale Reconstruction of Living Brain Tissue.” Nature Methods. Springer Nature, 2023. https://doi.org/10.1038/s41592-023-01936-6.","ieee":"P. Velicky et al., “Dense 4D nanoscale reconstruction of living brain tissue,” Nature Methods, vol. 20. Springer Nature, pp. 1256–1265, 2023.","short":"P. Velicky, E. Miguel Villalba, J.M. Michalska, J. Lyudchik, D. Wei, Z. Lin, J. Watson, J. Troidl, J. Beyer, Y. Ben Simon, C.M. Sommer, W. Jahr, A. Cenameri, J. Broichhagen, S.G.N. Grant, P.M. Jonas, G. Novarino, H. Pfister, B. Bickel, J.G. Danzl, Nature Methods 20 (2023) 1256–1265.","apa":"Velicky, P., Miguel Villalba, E., Michalska, J. M., Lyudchik, J., Wei, D., Lin, Z., … Danzl, J. G. (2023). Dense 4D nanoscale reconstruction of living brain tissue. Nature Methods. Springer Nature. https://doi.org/10.1038/s41592-023-01936-6","ama":"Velicky P, Miguel Villalba E, Michalska JM, et al. Dense 4D nanoscale reconstruction of living brain tissue. Nature Methods. 2023;20:1256-1265. doi:10.1038/s41592-023-01936-6","mla":"Velicky, Philipp, et al. “Dense 4D Nanoscale Reconstruction of Living Brain Tissue.” Nature Methods, vol. 20, Springer Nature, 2023, pp. 1256–65, doi:10.1038/s41592-023-01936-6."},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","author":[{"id":"39BDC62C-F248-11E8-B48F-1D18A9856A87","first_name":"Philipp","last_name":"Velicky","full_name":"Velicky, Philipp","orcid":"0000-0002-2340-7431"},{"last_name":"Miguel Villalba","full_name":"Miguel Villalba, Eder","orcid":"0000-0001-5665-0430","id":"3FB91342-F248-11E8-B48F-1D18A9856A87","first_name":"Eder"},{"id":"443DB6DE-F248-11E8-B48F-1D18A9856A87","first_name":"Julia M","full_name":"Michalska, Julia M","orcid":"0000-0003-3862-1235","last_name":"Michalska"},{"first_name":"Julia","id":"46E28B80-F248-11E8-B48F-1D18A9856A87","last_name":"Lyudchik","full_name":"Lyudchik, Julia"},{"last_name":"Wei","full_name":"Wei, Donglai","first_name":"Donglai"},{"first_name":"Zudi","last_name":"Lin","full_name":"Lin, Zudi"},{"orcid":"0000-0002-8698-3823","full_name":"Watson, Jake","last_name":"Watson","first_name":"Jake","id":"63836096-4690-11EA-BD4E-32803DDC885E"},{"first_name":"Jakob","last_name":"Troidl","full_name":"Troidl, Jakob"},{"last_name":"Beyer","full_name":"Beyer, Johanna","first_name":"Johanna"},{"first_name":"Yoav","id":"43DF3136-F248-11E8-B48F-1D18A9856A87","last_name":"Ben Simon","full_name":"Ben Simon, Yoav"},{"last_name":"Sommer","full_name":"Sommer, Christoph M","orcid":"0000-0003-1216-9105","first_name":"Christoph M","id":"4DF26D8C-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Wiebke","id":"425C1CE8-F248-11E8-B48F-1D18A9856A87","full_name":"Jahr, Wiebke","last_name":"Jahr"},{"first_name":"Alban","id":"9ac8f577-2357-11eb-997a-e566c5550886","full_name":"Cenameri, Alban","last_name":"Cenameri"},{"last_name":"Broichhagen","full_name":"Broichhagen, Johannes","first_name":"Johannes"},{"first_name":"Seth G.N.","last_name":"Grant","full_name":"Grant, Seth G.N."},{"full_name":"Jonas, Peter M","orcid":"0000-0001-5001-4804","last_name":"Jonas","first_name":"Peter M","id":"353C1B58-F248-11E8-B48F-1D18A9856A87"},{"id":"3E57A680-F248-11E8-B48F-1D18A9856A87","first_name":"Gaia","full_name":"Novarino, Gaia","orcid":"0000-0002-7673-7178","last_name":"Novarino"},{"first_name":"Hanspeter","full_name":"Pfister, Hanspeter","last_name":"Pfister"},{"full_name":"Bickel, Bernd","orcid":"0000-0001-6511-9385","last_name":"Bickel","first_name":"Bernd","id":"49876194-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Johann G","id":"42EFD3B6-F248-11E8-B48F-1D18A9856A87","last_name":"Danzl","full_name":"Danzl, Johann G","orcid":"0000-0001-8559-3973"}],"external_id":{"pmid":["37429995"],"isi":["001025621500001"]},"article_processing_charge":"Yes","title":"Dense 4D nanoscale reconstruction of living brain tissue","project":[{"call_identifier":"FWF","_id":"265CB4D0-B435-11E9-9278-68D0E5697425","grant_number":"I03600","name":"Optical control of synaptic function via adhesion molecules"},{"call_identifier":"FWF","_id":"2548AE96-B435-11E9-9278-68D0E5697425","grant_number":"W1232-B24","name":"Molecular Drug Targets"},{"grant_number":"Z00312","name":"The Wittgenstein Prize","call_identifier":"FWF","_id":"25C5A090-B435-11E9-9278-68D0E5697425"},{"name":"High content imaging to decode human immune cell interactions in health and allergic disease","_id":"23889792-32DE-11EA-91FC-C7463DDC885E"},{"name":"International IST Doctoral Program","grant_number":"665385","_id":"2564DBCA-B435-11E9-9278-68D0E5697425","call_identifier":"H2020"},{"name":"MATERIALIZABLE: Intelligent fabrication-oriented Computational Design and Modeling","grant_number":"715767","_id":"24F9549A-B435-11E9-9278-68D0E5697425","call_identifier":"H2020"},{"grant_number":"715508","name":"Probing the Reversibility of Autism Spectrum Disorders by Employing in vivo and in vitro Models","call_identifier":"H2020","_id":"25444568-B435-11E9-9278-68D0E5697425"},{"grant_number":"692692","name":"Biophysics and circuit function of a giant cortical glumatergic synapse","_id":"25B7EB9E-B435-11E9-9278-68D0E5697425","call_identifier":"H2020"},{"call_identifier":"H2020","_id":"fc2be41b-9c52-11eb-aca3-faa90aa144e9","grant_number":"101026635","name":"Synaptic computations of the hippocampal CA3 circuitry"},{"_id":"2668BFA0-B435-11E9-9278-68D0E5697425","name":"High-speed 3D-nanoscopy to study the role of adhesion during 3D cell migration","grant_number":"LT00057"}],"isi":1,"year":"2023","day":"01","publication":"Nature Methods","page":"1256-1265","date_published":"2023-08-01T00:00:00Z","doi":"10.1038/s41592-023-01936-6","date_created":"2023-07-23T22:01:13Z","acknowledgement":"We thank J. Vorlaufer, N. Agudelo and A. Wartak for microscope maintenance and troubleshooting, C. Kreuzinger and A. Freeman for technical assistance, M. Šuplata for hardware control support and M. Cunha dos Santos for initial exploration of software. We\r\nthank P. Henderson for advice on deep-learning training and M. Sixt, S. Boyd and T. Weiss for discussions and critical reading of the manuscript. L. Lavis (Janelia Research Campus) generously provided the JF585-HaloTag ligand. We acknowledge expert support by IST\r\nAustria’s scientific computing, imaging and optics, preclinical, library and laboratory support facilities and by the Miba machine shop. We gratefully acknowledge funding by the following sources: Austrian Science Fund (F.W.F.) grant no. I3600-B27 (J.G.D.), grant no. DK W1232\r\n(J.G.D. and J.M.M.) and grant no. Z 312-B27, Wittgenstein award (P.J.); the Gesellschaft für Forschungsförderung NÖ grant no. LSC18-022 (J.G.D.); an ISTA Interdisciplinary project grant (J.G.D. and B.B.); the European Union’s Horizon 2020 research and innovation programme,\r\nMarie-Skłodowska Curie grant 665385 (J.M.M. and J.L.); the European Union’s Horizon 2020 research and innovation programme, European Research Council grant no. 715767, MATERIALIZABLE (B.B.); grant no. 715508, REVERSEAUTISM (G.N.); grant no. 695568, SYNNOVATE (S.G.N.G.); and grant no. 692692, GIANTSYN (P.J.); the Simons\r\nFoundation Autism Research Initiative grant no. 529085 (S.G.N.G.); the Wellcome Trust Technology Development grant no. 202932 (S.G.N.G.); the Marie Skłodowska-Curie Actions Individual Fellowship no. 101026635 under the EU Horizon 2020 program (J.F.W.);\r\nthe Human Frontier Science Program postdoctoral fellowship LT000557/2018 (W.J.); and the National Science Foundation grant no. IIS-1835231 (H.P.) and NCS-FO-2124179 (H.P.).","publisher":"Springer Nature","quality_controlled":"1","oa":1},{"acknowledgement":"We thank Celeste Brennecka for editing and Michal Reichman-Fried for critical comments on the manuscript. We thank Ursula Jordan, Esther Messerschmidt, and Ines Sandbote for technical assistance. This work was supported by funding from the University of Münster (K.J.W., K.T., E.R., A.G., T.G.-T., J.S., and M.G.), the Max Planck Institute for Molecular Biomedicine (D.Z.), the German Research Foundation grant CRU 326 (P2) RA863/12-2 (E.R.), Baylor University (K.H. and D.R.), and the National Institutes of Health grant R35 GM 134910 (D.R.). We thank the referees for insightful comments that helped improve the manuscript.","oa":1,"quality_controlled":"1","publisher":"Elsevier","publication":"Developmental Cell","day":"11","year":"2023","date_created":"2024-01-10T09:41:21Z","doi":"10.1016/j.devcel.2023.06.009","date_published":"2023-09-11T00:00:00Z","page":"1578-1592.e5","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","citation":{"ama":"Westerich KJ, Tarbashevich K, Schick J, et al. Spatial organization and function of RNA molecules within phase-separated condensates in zebrafish are controlled by Dnd1. Developmental Cell. 2023;58(17):1578-1592.e5. doi:10.1016/j.devcel.2023.06.009","apa":"Westerich, K. J., Tarbashevich, K., Schick, J., Gupta, A., Zhu, M., Hull, K., … Raz, E. (2023). Spatial organization and function of RNA molecules within phase-separated condensates in zebrafish are controlled by Dnd1. Developmental Cell. Elsevier. https://doi.org/10.1016/j.devcel.2023.06.009","ieee":"K. J. Westerich et al., “Spatial organization and function of RNA molecules within phase-separated condensates in zebrafish are controlled by Dnd1,” Developmental Cell, vol. 58, no. 17. Elsevier, p. 1578–1592.e5, 2023.","short":"K.J. Westerich, K. Tarbashevich, J. Schick, A. Gupta, M. Zhu, K. Hull, D. Romo, D. Zeuschner, M. Goudarzi, T. Gross-Thebing, E. Raz, Developmental Cell 58 (2023) 1578–1592.e5.","mla":"Westerich, Kim Joana, et al. “Spatial Organization and Function of RNA Molecules within Phase-Separated Condensates in Zebrafish Are Controlled by Dnd1.” Developmental Cell, vol. 58, no. 17, Elsevier, 2023, p. 1578–1592.e5, doi:10.1016/j.devcel.2023.06.009.","ista":"Westerich KJ, Tarbashevich K, Schick J, Gupta A, Zhu M, Hull K, Romo D, Zeuschner D, Goudarzi M, Gross-Thebing T, Raz E. 2023. Spatial organization and function of RNA molecules within phase-separated condensates in zebrafish are controlled by Dnd1. Developmental Cell. 58(17), 1578–1592.e5.","chicago":"Westerich, Kim Joana, Katsiaryna Tarbashevich, Jan Schick, Antra Gupta, Mingzhao Zhu, Kenneth Hull, Daniel Romo, et al. “Spatial Organization and Function of RNA Molecules within Phase-Separated Condensates in Zebrafish Are Controlled by Dnd1.” Developmental Cell. Elsevier, 2023. https://doi.org/10.1016/j.devcel.2023.06.009."},"title":"Spatial organization and function of RNA molecules within phase-separated condensates in zebrafish are controlled by Dnd1","article_processing_charge":"No","external_id":{"pmid":["37463577"]},"author":[{"first_name":"Kim Joana","last_name":"Westerich","full_name":"Westerich, Kim Joana"},{"first_name":"Katsiaryna","full_name":"Tarbashevich, Katsiaryna","last_name":"Tarbashevich"},{"last_name":"Schick","full_name":"Schick, Jan","first_name":"Jan"},{"first_name":"Antra","last_name":"Gupta","full_name":"Gupta, Antra"},{"full_name":"Zhu, Mingzhao","last_name":"Zhu","first_name":"Mingzhao"},{"full_name":"Hull, Kenneth","last_name":"Hull","first_name":"Kenneth"},{"first_name":"Daniel","last_name":"Romo","full_name":"Romo, Daniel"},{"first_name":"Dagmar","full_name":"Zeuschner, Dagmar","last_name":"Zeuschner"},{"last_name":"Goudarzi","full_name":"Goudarzi, Mohammad","first_name":"Mohammad","id":"3384113A-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Gross-Thebing","full_name":"Gross-Thebing, Theresa","first_name":"Theresa"},{"last_name":"Raz","full_name":"Raz, Erez","first_name":"Erez"}],"oa_version":"Preprint","pmid":1,"abstract":[{"lang":"eng","text":"Germ granules, condensates of phase-separated RNA and protein, are organelles that are essential for germline development in different organisms. The patterning of the granules and their relevance for germ cell fate are not fully understood. Combining three-dimensional in vivo structural and functional analyses, we study the dynamic spatial organization of molecules within zebrafish germ granules. We find that the localization of RNA molecules to the periphery of the granules, where ribosomes are localized, depends on translational activity at this location. In addition, we find that the vertebrate-specific Dead end (Dnd1) protein is essential for nanos3 RNA localization at the condensates’ periphery. Accordingly, in the absence of Dnd1, or when translation is inhibited, nanos3 RNA translocates into the granule interior, away from the ribosomes, a process that is correlated with the loss of germ cell fate. These findings highlight the relevance of sub-granule compartmentalization for post-transcriptional control and its importance for preserving germ cell totipotency."}],"intvolume":" 58","month":"09","main_file_link":[{"url":"https://www.biorxiv.org/content/10.1101/2023.07.09.548244","open_access":"1"}],"language":[{"iso":"eng"}],"publication_status":"published","publication_identifier":{"issn":["1534-5807"]},"issue":"17","volume":58,"_id":"14781","keyword":["Developmental Biology","Cell Biology","General Biochemistry","Genetics and Molecular Biology","Molecular Biology"],"status":"public","type":"journal_article","article_type":"original","date_updated":"2024-01-16T08:56:36Z","department":[{"_id":"Bio"}]},{"month":"08","oa_version":"Published Version","abstract":[{"lang":"eng","text":"Mapping the complex and dense arrangement of cells and their connectivity in brain tissue demands nanoscale spatial resolution imaging. Super-resolution optical microscopy excels at visualizing specific molecules and individual cells but fails to provide tissue context. Here, we developed Comprehensive Analysis of Tissues across Scales (CATS), a technology to densely map brain tissue architecture from millimeter regional to nanometer synaptic scales in diverse chemically fixed brain preparations, including rodent and human. CATS uses fixation-compatible extracellular labeling and optical imaging, including stimulated emission depletion or expansion microscopy, to comprehensively delineate cellular structures. It enables three-dimensional reconstruction of single synapses and mapping of synaptic connectivity by identification and analysis of putative synaptic cleft regions. Applying CATS to the mouse hippocampal mossy fiber circuitry, we reconstructed and quantified the synaptic input and output structure of identified neurons. We furthermore demonstrate applicability to clinically derived human tissue samples, including formalin-fixed paraffin-embedded routine diagnostic specimens, for visualizing the cellular architecture of brain tissue in health and disease."}],"acknowledged_ssus":[{"_id":"ScienComp"},{"_id":"Bio"},{"_id":"PreCl"},{"_id":"LifeSc"},{"_id":"M-Shop"},{"_id":"E-Lib"}],"related_material":{"record":[{"relation":"used_in_publication","status":"public","id":"14257"}],"link":[{"description":"Original data for Fig. 5d, Fig. 5d (N2V) and Fig. 5f-i, provided via an external link due to the large size (>10GB) of the datasets. 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We gratefully acknowledge Eder Miguel for setting up webKnossos and Marek Šuplata for computational support and hardware control. We are grateful to Ryuichi Shigemoto and Bernd Bickel for generous support, and Michael Sixt and Scott Boyd (Stanford University) for discussions and critical reading of the manuscript. PSD95-HaloTag mice were kindly provided by Seth Grant (University of Edinburgh). We acknowledge expert support by IST Austria’s scientific computing, imaging and optics, preclinical, and lab support facilities, and by the Library and Miba machine shop.\r\nWe gratefully acknowledge funding by the following sources: \r\nAustrian Science Fund (FWF) grant I3600-B27 (JGD)\r\nAustrian Science Fund (FWF) grant DK W1232 (JGD, JMM)\r\nAustrian Science Fund (FWF) grant Z 312-B27, Wittgenstein award (PJ)\r\nAustrian Science Funds (FWF) projects I4685-B, I6565-B (SYNABS) and DOC 33-B27 (RH)\r\nGesellschaft für Forschungsförderung NÖ (NFB) grant LSC18-022 (JGD)\r\nEuropean Union’s Horizon 2020 research and innovation programme, European Research Council (ERC) grant 715508 – REVERSEAUTISM (GN)\r\nEuropean Union’s Horizon 2020 research and innovation programme, European Research Council (ERC) grant 692692 – GIANTSYN (PJ)\r\nMarie Skłodowska-Curie Actions Fellowship GA no. 665385 under the EU Horizon 2020 program (JMM, JL)\r\nMarie Skłodowska-Curie Actions Individual Fellowship 101026635 under the EU Horizon 2020 program (JFW)","doi":"10.15479/AT:ISTA:13126","date_published":"2023-08-04T00:00:00Z","date_created":"2023-06-07T07:15:12Z","day":"04","has_accepted_license":"1","year":"2023","project":[{"call_identifier":"FWF","_id":"265CB4D0-B435-11E9-9278-68D0E5697425","name":"Optical control of synaptic function via adhesion molecules","grant_number":"I03600"},{"name":"Molecular Drug Targets","grant_number":"W1232-B24","_id":"26AA4EF2-B435-11E9-9278-68D0E5697425","call_identifier":"FWF"},{"name":"The Wittgenstein Prize","grant_number":"Z00312","_id":"25C5A090-B435-11E9-9278-68D0E5697425","call_identifier":"FWF"},{"_id":"23889792-32DE-11EA-91FC-C7463DDC885E","name":"High content imaging to decode human immune cell interactions in health and allergic disease"},{"_id":"25444568-B435-11E9-9278-68D0E5697425","call_identifier":"H2020","grant_number":"715508","name":"Probing the Reversibility of Autism Spectrum Disorders by Employing in vivo and in vitro Models"},{"grant_number":"692692","name":"Biophysics and circuit function of a giant cortical glumatergic synapse","call_identifier":"H2020","_id":"25B7EB9E-B435-11E9-9278-68D0E5697425"},{"call_identifier":"H2020","_id":"2564DBCA-B435-11E9-9278-68D0E5697425","name":"International IST Doctoral Program","grant_number":"665385"},{"name":"Synaptic computations of the hippocampal CA3 circuitry","grant_number":"101026635","call_identifier":"H2020","_id":"fc2be41b-9c52-11eb-aca3-faa90aa144e9"}],"title":"Research data for the publication \"Imaging brain tissue architecture across millimeter to nanometer scales\"","author":[{"last_name":"Danzl","orcid":"0000-0001-8559-3973","full_name":"Danzl, Johann G","first_name":"Johann G","id":"42EFD3B6-F248-11E8-B48F-1D18A9856A87"}],"article_processing_charge":"No","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","citation":{"ista":"Danzl JG. 2023. Research data for the publication ‘Imaging brain tissue architecture across millimeter to nanometer scales’, Institute of Science and Technology Austria, 10.15479/AT:ISTA:13126.","chicago":"Danzl, Johann G. “Research Data for the Publication ‘Imaging Brain Tissue Architecture across Millimeter to Nanometer Scales.’” Institute of Science and Technology Austria, 2023. https://doi.org/10.15479/AT:ISTA:13126.","ieee":"J. G. Danzl, “Research data for the publication ‘Imaging brain tissue architecture across millimeter to nanometer scales.’” Institute of Science and Technology Austria, 2023.","short":"J.G. Danzl, (2023).","apa":"Danzl, J. G. (2023). Research data for the publication “Imaging brain tissue architecture across millimeter to nanometer scales.” Institute of Science and Technology Austria. https://doi.org/10.15479/AT:ISTA:13126","ama":"Danzl JG. Research data for the publication “Imaging brain tissue architecture across millimeter to nanometer scales.” 2023. doi:10.15479/AT:ISTA:13126","mla":"Danzl, Johann G. Research Data for the Publication “Imaging Brain Tissue Architecture across Millimeter to Nanometer Scales.” Institute of Science and Technology Austria, 2023, doi:10.15479/AT:ISTA:13126."}},{"_id":"14257","type":"journal_article","article_type":"original","status":"public","date_updated":"2024-02-21T12:18:18Z","department":[{"_id":"SaSi"},{"_id":"GaNo"},{"_id":"PeJo"},{"_id":"JoDa"},{"_id":"Bio"},{"_id":"RySh"}],"abstract":[{"text":"Mapping the complex and dense arrangement of cells and their connectivity in brain tissue demands nanoscale spatial resolution imaging. Super-resolution optical microscopy excels at visualizing specific molecules and individual cells but fails to provide tissue context. Here we developed Comprehensive Analysis of Tissues across Scales (CATS), a technology to densely map brain tissue architecture from millimeter regional to nanometer synaptic scales in diverse chemically fixed brain preparations, including rodent and human. CATS uses fixation-compatible extracellular labeling and optical imaging, including stimulated emission depletion or expansion microscopy, to comprehensively delineate cellular structures. It enables three-dimensional reconstruction of single synapses and mapping of synaptic connectivity by identification and analysis of putative synaptic cleft regions. Applying CATS to the mouse hippocampal mossy fiber circuitry, we reconstructed and quantified the synaptic input and output structure of identified neurons. We furthermore demonstrate applicability to clinically derived human tissue samples, including formalin-fixed paraffin-embedded routine diagnostic specimens, for visualizing the cellular architecture of brain tissue in health and disease.","lang":"eng"}],"acknowledged_ssus":[{"_id":"ScienComp"},{"_id":"Bio"},{"_id":"PreCl"},{"_id":"LifeSc"},{"_id":"M-Shop"},{"_id":"E-Lib"}],"oa_version":"Published Version","scopus_import":"1","main_file_link":[{"open_access":"1","url":"https://doi.org/10.1038/s41587-023-01911-8"}],"month":"08","publication_identifier":{"eissn":["1546-1696"],"issn":["1087-0156"]},"publication_status":"epub_ahead","language":[{"iso":"eng"}],"related_material":{"record":[{"id":"13126","status":"public","relation":"research_data"}],"link":[{"url":"https://github.com/danzllab/CATS","relation":"software"}]},"ec_funded":1,"project":[{"call_identifier":"FWF","_id":"265CB4D0-B435-11E9-9278-68D0E5697425","name":"Optical control of synaptic function via adhesion molecules","grant_number":"I03600"},{"_id":"2548AE96-B435-11E9-9278-68D0E5697425","call_identifier":"FWF","name":"Molecular Drug Targets","grant_number":"W1232-B24"},{"grant_number":"Z00312","name":"The Wittgenstein Prize","_id":"25C5A090-B435-11E9-9278-68D0E5697425","call_identifier":"FWF"},{"_id":"23889792-32DE-11EA-91FC-C7463DDC885E","name":"High content imaging to decode human immune cell interactions in health and allergic disease"},{"name":"Probing the Reversibility of Autism Spectrum Disorders by Employing in vivo and in vitro Models","grant_number":"715508","call_identifier":"H2020","_id":"25444568-B435-11E9-9278-68D0E5697425"},{"call_identifier":"H2020","_id":"25B7EB9E-B435-11E9-9278-68D0E5697425","grant_number":"692692","name":"Biophysics and circuit function of a giant cortical glumatergic synapse"},{"call_identifier":"H2020","_id":"2564DBCA-B435-11E9-9278-68D0E5697425","name":"International IST Doctoral Program","grant_number":"665385"},{"name":"Synaptic computations of the hippocampal CA3 circuitry","grant_number":"101026635","_id":"fc2be41b-9c52-11eb-aca3-faa90aa144e9","call_identifier":"H2020"}],"citation":{"mla":"Michalska, Julia M., et al. “Imaging Brain Tissue Architecture across Millimeter to Nanometer Scales.” Nature Biotechnology, Springer Nature, 2023, doi:10.1038/s41587-023-01911-8.","ieee":"J. M. Michalska et al., “Imaging brain tissue architecture across millimeter to nanometer scales,” Nature Biotechnology. Springer Nature, 2023.","short":"J.M. Michalska, J. Lyudchik, P. Velicky, H. Korinkova, J. Watson, A. Cenameri, C.M. Sommer, N. Amberg, A. Venturino, K. Roessler, T. Czech, R. Höftberger, S. Siegert, G. Novarino, P.M. Jonas, J.G. Danzl, Nature Biotechnology (2023).","apa":"Michalska, J. M., Lyudchik, J., Velicky, P., Korinkova, H., Watson, J., Cenameri, A., … Danzl, J. G. (2023). Imaging brain tissue architecture across millimeter to nanometer scales. Nature Biotechnology. Springer Nature. https://doi.org/10.1038/s41587-023-01911-8","ama":"Michalska JM, Lyudchik J, Velicky P, et al. Imaging brain tissue architecture across millimeter to nanometer scales. Nature Biotechnology. 2023. doi:10.1038/s41587-023-01911-8","chicago":"Michalska, Julia M, Julia Lyudchik, Philipp Velicky, Hana Korinkova, Jake Watson, Alban Cenameri, Christoph M Sommer, et al. “Imaging Brain Tissue Architecture across Millimeter to Nanometer Scales.” Nature Biotechnology. Springer Nature, 2023. https://doi.org/10.1038/s41587-023-01911-8.","ista":"Michalska JM, Lyudchik J, Velicky P, Korinkova H, Watson J, Cenameri A, Sommer CM, Amberg N, Venturino A, Roessler K, Czech T, Höftberger R, Siegert S, Novarino G, Jonas PM, Danzl JG. 2023. Imaging brain tissue architecture across millimeter to nanometer scales. Nature Biotechnology."},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","author":[{"last_name":"Michalska","orcid":"0000-0003-3862-1235","full_name":"Michalska, Julia M","id":"443DB6DE-F248-11E8-B48F-1D18A9856A87","first_name":"Julia M"},{"first_name":"Julia","id":"46E28B80-F248-11E8-B48F-1D18A9856A87","last_name":"Lyudchik","full_name":"Lyudchik, Julia"},{"last_name":"Velicky","full_name":"Velicky, Philipp","orcid":"0000-0002-2340-7431","first_name":"Philipp","id":"39BDC62C-F248-11E8-B48F-1D18A9856A87"},{"id":"ee3cb6ca-ec98-11ea-ae11-ff703e2254ed","first_name":"Hana","last_name":"Korinkova","full_name":"Korinkova, Hana"},{"first_name":"Jake","id":"63836096-4690-11EA-BD4E-32803DDC885E","orcid":"0000-0002-8698-3823","full_name":"Watson, Jake","last_name":"Watson"},{"last_name":"Cenameri","full_name":"Cenameri, Alban","first_name":"Alban","id":"9ac8f577-2357-11eb-997a-e566c5550886"},{"full_name":"Sommer, Christoph M","orcid":"0000-0003-1216-9105","last_name":"Sommer","first_name":"Christoph M","id":"4DF26D8C-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Amberg","full_name":"Amberg, Nicole","orcid":"0000-0002-3183-8207","first_name":"Nicole","id":"4CD6AAC6-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Alessandro","id":"41CB84B2-F248-11E8-B48F-1D18A9856A87","last_name":"Venturino","orcid":"0000-0003-2356-9403","full_name":"Venturino, Alessandro"},{"full_name":"Roessler, Karl","last_name":"Roessler","first_name":"Karl"},{"first_name":"Thomas","full_name":"Czech, Thomas","last_name":"Czech"},{"first_name":"Romana","last_name":"Höftberger","full_name":"Höftberger, Romana"},{"orcid":"0000-0001-8635-0877","full_name":"Siegert, Sandra","last_name":"Siegert","id":"36ACD32E-F248-11E8-B48F-1D18A9856A87","first_name":"Sandra"},{"first_name":"Gaia","id":"3E57A680-F248-11E8-B48F-1D18A9856A87","last_name":"Novarino","orcid":"0000-0002-7673-7178","full_name":"Novarino, Gaia"},{"last_name":"Jonas","orcid":"0000-0001-5001-4804","full_name":"Jonas, Peter M","id":"353C1B58-F248-11E8-B48F-1D18A9856A87","first_name":"Peter M"},{"last_name":"Danzl","orcid":"0000-0001-8559-3973","full_name":"Danzl, Johann G","first_name":"Johann G","id":"42EFD3B6-F248-11E8-B48F-1D18A9856A87"}],"external_id":{"isi":["001065254200001"]},"article_processing_charge":"Yes (in subscription journal)","title":"Imaging brain tissue architecture across millimeter to nanometer scales","acknowledgement":"We thank J. Vorlaufer, N. Agudelo-Dueñas, W. Jahr and A. Wartak for microscope maintenance and troubleshooting; C. Kreuzinger, A. Freeman and I. Erber for technical assistance; and M. Tomschik for support with obtaining human samples. We gratefully acknowledge E. Miguel for setting up webKnossos and M. Šuplata for computational support and hardware control. We are grateful to R. Shigemoto and B. Bickel for generous support and M. Sixt and S. Boyd (Stanford University) for discussions and critical reading of the paper. PSD95-HaloTag mice were kindly provided by S. Grant (University of Edinburgh). We acknowledge expert support by Institute of Science and Technology Austria’s scientific computing, imaging and optics, preclinical and lab support facilities and by the Miba machine shop and library. We gratefully acknowledge funding by the following sources: Austrian Science Fund (FWF) grant I3600-B27 (J.G.D.); Austrian Science Fund (FWF) grant DK W1232 (J.G.D. and J.M.M.); Austrian Science Fund (FWF) grant Z 312-B27, Wittgenstein award (P.J.); Austrian Science Fund (FWF) projects I4685-B, I6565-B (SYNABS) and DOC 33-B27 (R.H.); Gesellschaft für Forschungsförderung NÖ (NFB) grant LSC18-022 (J.G.D.); European Union’s Horizon 2020 research and innovation programme, European Research Council (ERC) grant 715508 – REVERSEAUTISM (G.N.); European Union’s Horizon 2020 research and innovation programme, European Research Council (ERC) grant 692692 – GIANTSYN (P.J.); Marie Skłodowska-Curie Actions Fellowship GA no. 665385 under the EU Horizon 2020 program (J.M.M. and J.L.); and Marie Skłodowska-Curie Actions Individual Fellowship no. 101026635 under the EU Horizon 2020 program (J.F.W.).","publisher":"Springer Nature","quality_controlled":"1","oa":1,"isi":1,"year":"2023","day":"31","publication":"Nature Biotechnology","date_published":"2023-08-31T00:00:00Z","doi":"10.1038/s41587-023-01911-8","date_created":"2023-09-03T22:01:15Z"},{"publication":"Faraday Discussions","day":"17","year":"2023","isi":1,"date_created":"2023-05-22T06:53:34Z","doi":"10.1039/d3fd00088e","date_published":"2023-05-17T00:00:00Z","oa":1,"quality_controlled":"1","publisher":"Royal Society of Chemistry","user_id":"3E5EF7F0-F248-11E8-B48F-1D18A9856A87","citation":{"chicago":"Mondal, Soumyadip, Rajesh B Jethwa, Bhargavi Pant, Robert Hauschild, and Stefan Alexander Freunberger. “Singlet Oxygen in Non-Aqueous Oxygen Redox: Direct Spectroscopic Evidence for Formation Pathways and Reliability of Chemical Probes.” Faraday Discussions. Royal Society of Chemistry, 2023. https://doi.org/10.1039/d3fd00088e.","ista":"Mondal S, Jethwa RB, Pant B, Hauschild R, Freunberger SA. 2023. Singlet oxygen in non-aqueous oxygen redox: Direct spectroscopic evidence for formation pathways and reliability of chemical probes. Faraday Discussions.","mla":"Mondal, Soumyadip, et al. “Singlet Oxygen in Non-Aqueous Oxygen Redox: Direct Spectroscopic Evidence for Formation Pathways and Reliability of Chemical Probes.” Faraday Discussions, Royal Society of Chemistry, 2023, doi:10.1039/d3fd00088e.","short":"S. Mondal, R.B. Jethwa, B. Pant, R. Hauschild, S.A. Freunberger, Faraday Discussions (2023).","ieee":"S. Mondal, R. B. Jethwa, B. Pant, R. Hauschild, and S. A. Freunberger, “Singlet oxygen in non-aqueous oxygen redox: Direct spectroscopic evidence for formation pathways and reliability of chemical probes,” Faraday Discussions. Royal Society of Chemistry, 2023.","ama":"Mondal S, Jethwa RB, Pant B, Hauschild R, Freunberger SA. Singlet oxygen in non-aqueous oxygen redox: Direct spectroscopic evidence for formation pathways and reliability of chemical probes. Faraday Discussions. 2023. doi:10.1039/d3fd00088e","apa":"Mondal, S., Jethwa, R. B., Pant, B., Hauschild, R., & Freunberger, S. A. (2023). Singlet oxygen in non-aqueous oxygen redox: Direct spectroscopic evidence for formation pathways and reliability of chemical probes. Faraday Discussions. Royal Society of Chemistry. https://doi.org/10.1039/d3fd00088e"},"title":"Singlet oxygen in non-aqueous oxygen redox: Direct spectroscopic evidence for formation pathways and reliability of chemical probes","article_processing_charge":"Yes (via OA deal)","external_id":{"isi":["001070423500001"]},"author":[{"id":"d25d21ef-dc8d-11ea-abe3-ec4576307f48","first_name":"Soumyadip","full_name":"Mondal, Soumyadip","last_name":"Mondal"},{"id":"4cc538d5-803f-11ed-ab7e-8139573aad8f","first_name":"Rajesh B","last_name":"Jethwa","full_name":"Jethwa, Rajesh B","orcid":"0000-0002-0404-4356"},{"first_name":"Bhargavi","id":"50c64d4d-eb97-11eb-a6c2-d33e5e14f112","full_name":"Pant, Bhargavi","last_name":"Pant"},{"full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522","last_name":"Hauschild","first_name":"Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87"},{"id":"A8CA28E6-CE23-11E9-AD2D-EC27E6697425","first_name":"Stefan Alexander","orcid":"0000-0003-2902-5319","full_name":"Freunberger, Stefan Alexander","last_name":"Freunberger"}],"language":[{"iso":"eng"}],"publication_status":"epub_ahead","publication_identifier":{"issn":["1359-6640"],"eissn":["1364-5498"]},"license":"https://creativecommons.org/licenses/by-nc/4.0/","oa_version":"Published Version","abstract":[{"text":"Singlet oxygen (1O2) formation is now recognised as a key aspect of non-aqueous oxygen redox chemistry. For identifying 1O2, chemical trapping via 9,10-dimethylanthracene (DMA) to form the endoperoxide (DMA-O2) has become the mainstay method due to its sensitivity, selectivity, and ease of use. While DMA has been shown to be selective for 1O2, rather than forming DMA-O2 with a wide variety of potentially reactive O-containing species, false positives might hypothetically be obtained in the presence of previously overlooked species. Here, we first give unequivocal direct spectroscopic proof by the 1O2-specific near infrared (NIR) emission at 1270 nm for the previously proposed 1O2 formation pathways, which centre around superoxide disproportionation. We then show that peroxocarbonates, common intermediates in metal-O2 and metal carbonate electrochemistry, do not produce false-positive DMA-O2. Moreover, we identify a previously unreported 1O2-forming pathway through the reaction of CO2 with superoxide. Overall, we give unequivocal proof for 1O2 formation in non-aqueous oxygen redox and show that chemical trapping with DMA is a reliable method to assess 1O2 formation.","lang":"eng"}],"month":"05","main_file_link":[{"url":"https://doi.org/10.1039/d3fd00088e","open_access":"1"}],"date_updated":"2024-03-20T13:10:00Z","department":[{"_id":"StFr"},{"_id":"Bio"}],"_id":"13044","keyword":["Physical and Theoretical Chemistry"],"status":"public","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by-nc/4.0/legalcode","image":"/images/cc_by_nc.png","name":"Creative Commons Attribution-NonCommercial 4.0 International (CC BY-NC 4.0)","short":"CC BY-NC (4.0)"},"type":"journal_article","article_type":"original"},{"ec_funded":1,"volume":23,"publication_status":"published","publication_identifier":{"eissn":["1529-2916"],"issn":["1529-2908"]},"language":[{"iso":"eng"}],"file":[{"file_id":"11642","checksum":"628e7b49809f22c75b428842efe70c68","success":1,"access_level":"open_access","relation":"main_file","content_type":"application/pdf","date_created":"2022-07-25T07:11:32Z","file_name":"2022_NatureImmunology_Assen.pdf","creator":"dernst","date_updated":"2022-07-25T07:11:32Z","file_size":11475325}],"scopus_import":"1","intvolume":" 23","month":"07","abstract":[{"lang":"eng","text":"Lymph nodes (LNs) comprise two main structural elements: fibroblastic reticular cells that form dedicated niches for immune cell interaction and capsular fibroblasts that build a shell around the organ. Immunological challenge causes LNs to increase more than tenfold in size within a few days. Here, we characterized the biomechanics of LN swelling on the cellular and organ scale. We identified lymphocyte trapping by influx and proliferation as drivers of an outward pressure force, causing fibroblastic reticular cells of the T-zone (TRCs) and their associated conduits to stretch. After an initial phase of relaxation, TRCs sensed the resulting strain through cell matrix adhesions, which coordinated local growth and remodeling of the stromal network. While the expanded TRC network readopted its typical configuration, a massive fibrotic reaction of the organ capsule set in and countered further organ expansion. Thus, different fibroblast populations mechanically control LN swelling in a multitier fashion."}],"acknowledged_ssus":[{"_id":"Bio"},{"_id":"EM-Fac"},{"_id":"PreCl"},{"_id":"LifeSc"}],"oa_version":"Published Version","department":[{"_id":"SiHi"},{"_id":"CaHe"},{"_id":"EdHa"},{"_id":"EM-Fac"},{"_id":"Bio"},{"_id":"MiSi"}],"file_date_updated":"2022-07-25T07:11:32Z","date_updated":"2023-08-02T06:53:07Z","ddc":["570"],"tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"article_type":"original","type":"journal_article","status":"public","_id":"9794","page":"1246-1255","date_created":"2021-08-06T09:09:11Z","doi":"10.1038/s41590-022-01257-4","date_published":"2022-07-11T00:00:00Z","year":"2022","has_accepted_license":"1","isi":1,"publication":"Nature Immunology","day":"11","oa":1,"quality_controlled":"1","publisher":"Springer Nature","acknowledgement":"This research was supported by the Scientific Service Units of IST Austria through resources provided by the Imaging and Optics, Electron Microscopy, Preclinical and Life Science Facilities. We thank C. Moussion for providing anti-PNAd antibody and D. Critchley for Talin1-floxed mice, and E. Papusheva for providing a custom 3D channel alignment script. This work was supported by a European Research Council grant ERC-CoG-72437 to M.S. M.H. was supported by Czech Sciencundation GACR 20-24603Y and Charles University PRIMUS/20/MED/013.","external_id":{"isi":["000822975900002"]},"article_processing_charge":"No","author":[{"first_name":"Frank P","id":"3A8E7F24-F248-11E8-B48F-1D18A9856A87","last_name":"Assen","orcid":"0000-0003-3470-6119","full_name":"Assen, Frank P"},{"first_name":"Jun","last_name":"Abe","full_name":"Abe, Jun"},{"id":"4167FE56-F248-11E8-B48F-1D18A9856A87","first_name":"Miroslav","orcid":"0000-0002-6625-3348","full_name":"Hons, Miroslav","last_name":"Hons"},{"first_name":"Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","last_name":"Hauschild","orcid":"0000-0001-9843-3522","full_name":"Hauschild, Robert"},{"last_name":"Shamipour","full_name":"Shamipour, Shayan","first_name":"Shayan","id":"40B34FE2-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Kaufmann","full_name":"Kaufmann, Walter","orcid":"0000-0001-9735-5315","id":"3F99E422-F248-11E8-B48F-1D18A9856A87","first_name":"Walter"},{"id":"D93824F4-D9BA-11E9-BB12-F207E6697425","first_name":"Tommaso","orcid":"0000-0001-9732-3815","full_name":"Costanzo, Tommaso","last_name":"Costanzo"},{"last_name":"Krens","orcid":"0000-0003-4761-5996","full_name":"Krens, Gabriel","id":"2B819732-F248-11E8-B48F-1D18A9856A87","first_name":"Gabriel"},{"last_name":"Brown","full_name":"Brown, Markus","id":"3DAB9AFC-F248-11E8-B48F-1D18A9856A87","first_name":"Markus"},{"full_name":"Ludewig, Burkhard","last_name":"Ludewig","first_name":"Burkhard"},{"orcid":"0000-0003-2279-1061","full_name":"Hippenmeyer, Simon","last_name":"Hippenmeyer","first_name":"Simon","id":"37B36620-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Carl-Philipp J","id":"39427864-F248-11E8-B48F-1D18A9856A87","last_name":"Heisenberg","orcid":"0000-0002-0912-4566","full_name":"Heisenberg, Carl-Philipp J"},{"first_name":"Wolfgang","full_name":"Weninger, Wolfgang","last_name":"Weninger"},{"orcid":"0000-0001-6005-1561","full_name":"Hannezo, Edouard B","last_name":"Hannezo","first_name":"Edouard B","id":"3A9DB764-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Sanjiv A.","last_name":"Luther","full_name":"Luther, Sanjiv A."},{"full_name":"Stein, Jens V.","last_name":"Stein","first_name":"Jens V."},{"id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87","first_name":"Michael K","orcid":"0000-0002-4561-241X","full_name":"Sixt, Michael K","last_name":"Sixt"}],"title":"Multitier mechanics control stromal adaptations in swelling lymph nodes","citation":{"chicago":"Assen, Frank P, Jun Abe, Miroslav Hons, Robert Hauschild, Shayan Shamipour, Walter Kaufmann, Tommaso Costanzo, et al. “Multitier Mechanics Control Stromal Adaptations in Swelling Lymph Nodes.” Nature Immunology. Springer Nature, 2022. https://doi.org/10.1038/s41590-022-01257-4.","ista":"Assen FP, Abe J, Hons M, Hauschild R, Shamipour S, Kaufmann W, Costanzo T, Krens G, Brown M, Ludewig B, Hippenmeyer S, Heisenberg C-PJ, Weninger W, Hannezo EB, Luther SA, Stein JV, Sixt MK. 2022. Multitier mechanics control stromal adaptations in swelling lymph nodes. Nature Immunology. 23, 1246–1255.","mla":"Assen, Frank P., et al. “Multitier Mechanics Control Stromal Adaptations in Swelling Lymph Nodes.” Nature Immunology, vol. 23, Springer Nature, 2022, pp. 1246–55, doi:10.1038/s41590-022-01257-4.","ieee":"F. P. Assen et al., “Multitier mechanics control stromal adaptations in swelling lymph nodes,” Nature Immunology, vol. 23. Springer Nature, pp. 1246–1255, 2022.","short":"F.P. Assen, J. Abe, M. Hons, R. Hauschild, S. Shamipour, W. Kaufmann, T. Costanzo, G. Krens, M. Brown, B. Ludewig, S. Hippenmeyer, C.-P.J. Heisenberg, W. Weninger, E.B. Hannezo, S.A. Luther, J.V. Stein, M.K. Sixt, Nature Immunology 23 (2022) 1246–1255.","ama":"Assen FP, Abe J, Hons M, et al. Multitier mechanics control stromal adaptations in swelling lymph nodes. Nature Immunology. 2022;23:1246-1255. doi:10.1038/s41590-022-01257-4","apa":"Assen, F. P., Abe, J., Hons, M., Hauschild, R., Shamipour, S., Kaufmann, W., … Sixt, M. K. (2022). Multitier mechanics control stromal adaptations in swelling lymph nodes. Nature Immunology. Springer Nature. https://doi.org/10.1038/s41590-022-01257-4"},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","project":[{"_id":"25FE9508-B435-11E9-9278-68D0E5697425","call_identifier":"H2020","grant_number":"724373","name":"Cellular navigation along spatial gradients"}]},{"related_material":{"record":[{"status":"public","id":"9750","relation":"earlier_version"}]},"volume":119,"issue":"8","ec_funded":1,"file":[{"content_type":"application/pdf","access_level":"open_access","relation":"main_file","file_id":"10780","checksum":"d49f83c3580613966f71768ddb9a55a5","success":1,"date_updated":"2022-02-21T08:45:11Z","file_size":1609678,"creator":"dernst","date_created":"2022-02-21T08:45:11Z","file_name":"2022_PNAS_Slovakova.pdf"}],"language":[{"iso":"eng"}],"publication_identifier":{"eissn":["10916490"]},"publication_status":"published","month":"02","intvolume":" 119","scopus_import":"1","oa_version":"Published Version","abstract":[{"text":"Tension of the actomyosin cell cortex plays a key role in determining cell–cell contact growth and size. The level of cortical tension outside of the cell–cell contact, when pulling at the contact edge, scales with the total size to which a cell–cell contact can grow [J.-L. Maître et al., Science 338, 253–256 (2012)]. Here, we show in zebrafish primary germ-layer progenitor cells that this monotonic relationship only applies to a narrow range of cortical tension increase and that above a critical threshold, contact size inversely scales with cortical tension. This switch from cortical tension increasing to decreasing progenitor cell–cell contact size is caused by cortical tension promoting E-cadherin anchoring to the actomyosin cytoskeleton, thereby increasing clustering and stability of E-cadherin at the contact. After tension-mediated E-cadherin stabilization at the contact exceeds a critical threshold level, the rate by which the contact expands in response to pulling forces from the cortex sharply drops, leading to smaller contacts at physiologically relevant timescales of contact formation. Thus, the activity of cortical tension in expanding cell–cell contact size is limited by tension-stabilizing E-cadherin–actin complexes at the contact.","lang":"eng"}],"acknowledged_ssus":[{"_id":"Bio"},{"_id":"EM-Fac"},{"_id":"PreCl"}],"department":[{"_id":"CaHe"},{"_id":"EM-Fac"},{"_id":"Bio"}],"file_date_updated":"2022-02-21T08:45:11Z","ddc":["570"],"date_updated":"2023-08-02T14:26:51Z","status":"public","type":"journal_article","article_type":"original","tmp":{"short":"CC BY-NC-ND (4.0)","name":"Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0)","legal_code_url":"https://creativecommons.org/licenses/by-nc-nd/4.0/legalcode","image":"/images/cc_by_nc_nd.png"},"_id":"10766","doi":"10.1073/pnas.2122030119","date_published":"2022-02-14T00:00:00Z","date_created":"2022-02-20T23:01:31Z","day":"14","publication":"Proceedings of the National Academy of Sciences of the United States of America","has_accepted_license":"1","isi":1,"year":"2022","quality_controlled":"1","publisher":"Proceedings of the National Academy of Sciences","oa":1,"acknowledgement":"We thank Guillaume Salbreaux, Silvia Grigolon, Edouard Hannezo, and Vanessa Barone for discussions and comments on the manuscript and Shayan Shamipour and Daniel Capek for help with data analysis. We also thank the Imaging & Optics, Electron Microscopy, and Zebrafish Facility Scientific Service Units at the Institute of Science and Technology Austria (ISTA)Nasser Darwish-Miranda for continuous support. We acknowledge Hitoshi Morita for the gift of VinculinB-GFP plasmid. This research was supported by an ISTA Fellow Marie-Curie Co-funding of regional, national, and international programmes Grant P_IST_EU01 (to J.S.), European Molecular Biology Organization Long-Term Fellowship Grant, ALTF reference number: 187-2013 (to M.S.), Schroedinger Fellowship J4332-B28 (to M.S.), and European Research Council Advanced Grant (MECSPEC; to C.-P.H.).","title":"Tension-dependent stabilization of E-cadherin limits cell-cell contact expansion in zebrafish germ-layer progenitor cells","author":[{"id":"30F3F2F0-F248-11E8-B48F-1D18A9856A87","first_name":"Jana","full_name":"Slovakova, Jana","last_name":"Slovakova"},{"full_name":"Sikora, Mateusz K","last_name":"Sikora","id":"2F74BCDE-F248-11E8-B48F-1D18A9856A87","first_name":"Mateusz K"},{"first_name":"Feyza N","id":"49DA7910-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-5809-9566","full_name":"Arslan, Feyza N","last_name":"Arslan"},{"last_name":"Caballero Mancebo","full_name":"Caballero Mancebo, Silvia","orcid":"0000-0002-5223-3346","first_name":"Silvia","id":"2F1E1758-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Krens","orcid":"0000-0003-4761-5996","full_name":"Krens, Gabriel","first_name":"Gabriel","id":"2B819732-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Walter","id":"3F99E422-F248-11E8-B48F-1D18A9856A87","last_name":"Kaufmann","orcid":"0000-0001-9735-5315","full_name":"Kaufmann, Walter"},{"last_name":"Merrin","full_name":"Merrin, Jack","orcid":"0000-0001-5145-4609","id":"4515C308-F248-11E8-B48F-1D18A9856A87","first_name":"Jack"},{"orcid":"0000-0002-0912-4566","full_name":"Heisenberg, Carl-Philipp J","last_name":"Heisenberg","first_name":"Carl-Philipp J","id":"39427864-F248-11E8-B48F-1D18A9856A87"}],"article_processing_charge":"No","external_id":{"isi":["000766926900009"]},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","citation":{"ista":"Slovakova J, Sikora MK, Arslan FN, Caballero Mancebo S, Krens G, Kaufmann W, Merrin J, Heisenberg C-PJ. 2022. Tension-dependent stabilization of E-cadherin limits cell-cell contact expansion in zebrafish germ-layer progenitor cells. Proceedings of the National Academy of Sciences of the United States of America. 119(8), e2122030119.","chicago":"Slovakova, Jana, Mateusz K Sikora, Feyza N Arslan, Silvia Caballero Mancebo, Gabriel Krens, Walter Kaufmann, Jack Merrin, and Carl-Philipp J Heisenberg. “Tension-Dependent Stabilization of E-Cadherin Limits Cell-Cell Contact Expansion in Zebrafish Germ-Layer Progenitor Cells.” Proceedings of the National Academy of Sciences of the United States of America. Proceedings of the National Academy of Sciences, 2022. https://doi.org/10.1073/pnas.2122030119.","apa":"Slovakova, J., Sikora, M. K., Arslan, F. N., Caballero Mancebo, S., Krens, G., Kaufmann, W., … Heisenberg, C.-P. J. (2022). Tension-dependent stabilization of E-cadherin limits cell-cell contact expansion in zebrafish germ-layer progenitor cells. Proceedings of the National Academy of Sciences of the United States of America. Proceedings of the National Academy of Sciences. https://doi.org/10.1073/pnas.2122030119","ama":"Slovakova J, Sikora MK, Arslan FN, et al. Tension-dependent stabilization of E-cadherin limits cell-cell contact expansion in zebrafish germ-layer progenitor cells. Proceedings of the National Academy of Sciences of the United States of America. 2022;119(8). doi:10.1073/pnas.2122030119","ieee":"J. Slovakova et al., “Tension-dependent stabilization of E-cadherin limits cell-cell contact expansion in zebrafish germ-layer progenitor cells,” Proceedings of the National Academy of Sciences of the United States of America, vol. 119, no. 8. Proceedings of the National Academy of Sciences, 2022.","short":"J. Slovakova, M.K. Sikora, F.N. Arslan, S. Caballero Mancebo, G. Krens, W. Kaufmann, J. Merrin, C.-P.J. Heisenberg, Proceedings of the National Academy of Sciences of the United States of America 119 (2022).","mla":"Slovakova, Jana, et al. “Tension-Dependent Stabilization of E-Cadherin Limits Cell-Cell Contact Expansion in Zebrafish Germ-Layer Progenitor Cells.” Proceedings of the National Academy of Sciences of the United States of America, vol. 119, no. 8, e2122030119, Proceedings of the National Academy of Sciences, 2022, doi:10.1073/pnas.2122030119."},"project":[{"name":"International IST Postdoc Fellowship Programme","grant_number":"291734","_id":"25681D80-B435-11E9-9278-68D0E5697425","call_identifier":"FP7"},{"grant_number":"742573","name":"Interaction and feedback between cell mechanics and fate specification in vertebrate gastrulation","call_identifier":"H2020","_id":"260F1432-B435-11E9-9278-68D0E5697425"},{"_id":"2521E28E-B435-11E9-9278-68D0E5697425","grant_number":"187-2013","name":"Modulation of adhesion function in cell-cell contact formation by cortical tension"}],"article_number":"e2122030119"},{"article_processing_charge":"Yes (via OA deal)","external_id":{"pmid":["36081349"],"isi":["000882769800009"]},"author":[{"last_name":"Johnson","full_name":"Johnson, Alexander J","orcid":"0000-0002-2739-8843","id":"46A62C3A-F248-11E8-B48F-1D18A9856A87","first_name":"Alexander J"},{"full_name":"Kaufmann, Walter","orcid":"0000-0001-9735-5315","last_name":"Kaufmann","id":"3F99E422-F248-11E8-B48F-1D18A9856A87","first_name":"Walter"},{"full_name":"Sommer, Christoph M","orcid":"0000-0003-1216-9105","last_name":"Sommer","id":"4DF26D8C-F248-11E8-B48F-1D18A9856A87","first_name":"Christoph M"},{"last_name":"Costanzo","full_name":"Costanzo, Tommaso","orcid":"0000-0001-9732-3815","first_name":"Tommaso","id":"D93824F4-D9BA-11E9-BB12-F207E6697425"},{"first_name":"Dana A.","last_name":"Dahhan","full_name":"Dahhan, Dana A."},{"first_name":"Sebastian Y.","full_name":"Bednarek, Sebastian Y.","last_name":"Bednarek"},{"full_name":"Friml, Jiří","orcid":"0000-0002-8302-7596","last_name":"Friml","id":"4159519E-F248-11E8-B48F-1D18A9856A87","first_name":"Jiří"}],"title":"Three-dimensional visualization of planta clathrin-coated vesicles at ultrastructural resolution","citation":{"ista":"Johnson AJ, Kaufmann W, Sommer CM, Costanzo T, Dahhan DA, Bednarek SY, Friml J. 2022. Three-dimensional visualization of planta clathrin-coated vesicles at ultrastructural resolution. Molecular Plant. 15(10), 1533–1542.","chicago":"Johnson, Alexander J, Walter Kaufmann, Christoph M Sommer, Tommaso Costanzo, Dana A. Dahhan, Sebastian Y. Bednarek, and Jiří Friml. “Three-Dimensional Visualization of Planta Clathrin-Coated Vesicles at Ultrastructural Resolution.” Molecular Plant. Elsevier, 2022. https://doi.org/10.1016/j.molp.2022.09.003.","ama":"Johnson AJ, Kaufmann W, Sommer CM, et al. Three-dimensional visualization of planta clathrin-coated vesicles at ultrastructural resolution. Molecular Plant. 2022;15(10):1533-1542. doi:10.1016/j.molp.2022.09.003","apa":"Johnson, A. J., Kaufmann, W., Sommer, C. M., Costanzo, T., Dahhan, D. A., Bednarek, S. Y., & Friml, J. (2022). Three-dimensional visualization of planta clathrin-coated vesicles at ultrastructural resolution. Molecular Plant. Elsevier. https://doi.org/10.1016/j.molp.2022.09.003","ieee":"A. J. Johnson et al., “Three-dimensional visualization of planta clathrin-coated vesicles at ultrastructural resolution,” Molecular Plant, vol. 15, no. 10. Elsevier, pp. 1533–1542, 2022.","short":"A.J. Johnson, W. Kaufmann, C.M. Sommer, T. Costanzo, D.A. Dahhan, S.Y. Bednarek, J. Friml, Molecular Plant 15 (2022) 1533–1542.","mla":"Johnson, Alexander J., et al. “Three-Dimensional Visualization of Planta Clathrin-Coated Vesicles at Ultrastructural Resolution.” Molecular Plant, vol. 15, no. 10, Elsevier, 2022, pp. 1533–42, doi:10.1016/j.molp.2022.09.003."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","project":[{"call_identifier":"FWF","_id":"26538374-B435-11E9-9278-68D0E5697425","name":"Molecular mechanisms of endocytic cargo recognition in plants","grant_number":"I03630"}],"page":"1533-1542","date_created":"2023-01-16T09:51:49Z","doi":"10.1016/j.molp.2022.09.003","date_published":"2022-10-03T00:00:00Z","year":"2022","isi":1,"has_accepted_license":"1","publication":"Molecular Plant","day":"03","oa":1,"quality_controlled":"1","publisher":"Elsevier","acknowledgement":"A.J. is supported by funding from the Austrian Science Fund I3630B25 (to J.F.). This research was supported by the Scientific Service Units of Institute of Science and Technology Austria (ISTA) through resources provided by the Electron Microscopy Facility, Lab Support Facility, and the Imaging and Optics Facility. We acknowledge Prof. David Robinson (Heidelberg) and Prof. Jan Traas (Lyon) for making us aware of previously published classical on-grid preparation methods. No conflict of interest declared.","department":[{"_id":"JiFr"},{"_id":"EM-Fac"},{"_id":"Bio"}],"file_date_updated":"2023-01-30T07:46:51Z","date_updated":"2023-08-04T09:39:24Z","ddc":["580"],"tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"article_type":"original","type":"journal_article","keyword":["Plant Science","Molecular Biology"],"status":"public","_id":"12239","volume":15,"issue":"10","publication_status":"published","publication_identifier":{"issn":["1674-2052"]},"language":[{"iso":"eng"}],"file":[{"file_size":2307251,"date_updated":"2023-01-30T07:46:51Z","creator":"dernst","file_name":"2022_MolecularPlant_Johnson.pdf","date_created":"2023-01-30T07:46:51Z","content_type":"application/pdf","relation":"main_file","access_level":"open_access","success":1,"file_id":"12435","checksum":"04d5c12490052d03e4dc4412338a43dd"}],"scopus_import":"1","intvolume":" 15","month":"10","acknowledged_ssus":[{"_id":"EM-Fac"},{"_id":"LifeSc"},{"_id":"Bio"}],"abstract":[{"text":"Biological systems are the sum of their dynamic three-dimensional (3D) parts. Therefore, it is critical to study biological structures in 3D and at high resolution to gain insights into their physiological functions. Electron microscopy of metal replicas of unroofed cells and isolated organelles has been a key technique to visualize intracellular structures at nanometer resolution. However, many of these methods require specialized equipment and personnel to complete them. Here, we present novel accessible methods to analyze biological structures in unroofed cells and biochemically isolated organelles in 3D and at nanometer resolution, focusing on Arabidopsis clathrin-coated vesicles (CCVs). While CCVs are essential trafficking organelles, their detailed structural information is lacking due to their poor preservation when observed via classical electron microscopy protocols experiments. First, we establish a method to visualize CCVs in unroofed cells using scanning transmission electron microscopy tomography, providing sufficient resolution to define the clathrin coat arrangements. Critically, the samples are prepared directly on electron microscopy grids, removing the requirement to use extremely corrosive acids, thereby enabling the use of this method in any electron microscopy lab. Secondly, we demonstrate that this standardized sample preparation allows the direct comparison of isolated CCV samples with those visualized in cells. Finally, to facilitate the high-throughput and robust screening of metal replicated samples, we provide a deep learning analysis method to screen the “pseudo 3D” morphologies of CCVs imaged with 2D modalities. Collectively, our work establishes accessible ways to examine the 3D structure of biological samples and provide novel insights into the structure of plant CCVs.","lang":"eng"}],"oa_version":"Published Version","pmid":1},{"doi":"10.1083/jcb.202107134","date_published":"2022-12-05T00:00:00Z","date_created":"2023-01-12T12:01:09Z","day":"05","publication":"Journal of Cell Biology","isi":1,"has_accepted_license":"1","year":"2022","publisher":"Rockefeller University Press","quality_controlled":"1","oa":1,"acknowledgement":"We thank Markéta Dalecká and Irena Krejzová for their support with FIB-SEM imaging, the Imaging Methods Core Facility at BIOCEV supported by the Ministry of Education, Youth and Sports Czech Republic (Large RI Project LM2018129 Czech-BioImaging), and European Regional Development Fund (project No. CZ.02.1.01/0.0/0.0/18_046/0016045) for their support with obtaining imaging data presented in this paper. The authors further thank Andreas Villunger, Florian Gärtner, Frank Bradke, and Sarah Förster for helpful discussions; Andy Zielinski for help with statistics; and Björn Weiershausen for assisting with figure illustration.\r\n\r\nThis work was funded by a fellowship of the Ministry of Innovation, Science and Research of North-Rhine-Westphalia (AZ: 421-8.03.03.02-137069) to E. Kiermaier and the Deutsche Forschungsgemeinschaft (German Research Foundation) under Germany’s Excellence Strategy – EXC 2151 – 390873048. R. Hauschild was funded by grant number 2020-225401 from the Chan Zuckerberg Initiative Donor-Advised Fund, an advised fund of Silicon Valley Community Foundation. M. Hons is supported by Czech Science Foundation GACR 20-24603Y and Charles University PRIMUS/20/MED/013.","title":"Multiple centrosomes enhance migration and immune cell effector functions of mature dendritic cells","author":[{"first_name":"Ann-Kathrin","last_name":"Weier","full_name":"Weier, Ann-Kathrin"},{"first_name":"Mirka","last_name":"Homrich","full_name":"Homrich, Mirka"},{"first_name":"Stephanie","full_name":"Ebbinghaus, Stephanie","last_name":"Ebbinghaus"},{"full_name":"Juda, Pavel","last_name":"Juda","first_name":"Pavel"},{"first_name":"Eliška","full_name":"Miková, Eliška","last_name":"Miková"},{"first_name":"Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","last_name":"Hauschild","orcid":"0000-0001-9843-3522","full_name":"Hauschild, Robert"},{"first_name":"Lili","last_name":"Zhang","full_name":"Zhang, Lili"},{"first_name":"Thomas","full_name":"Quast, Thomas","last_name":"Quast"},{"full_name":"Mass, Elvira","last_name":"Mass","first_name":"Elvira"},{"first_name":"Andreas","last_name":"Schlitzer","full_name":"Schlitzer, Andreas"},{"first_name":"Waldemar","full_name":"Kolanus, Waldemar","last_name":"Kolanus"},{"first_name":"Sven","last_name":"Burgdorf","full_name":"Burgdorf, Sven"},{"first_name":"Oliver J.","last_name":"Gruß","full_name":"Gruß, Oliver J."},{"full_name":"Hons, Miroslav","last_name":"Hons","first_name":"Miroslav"},{"last_name":"Wieser","full_name":"Wieser, Stefan","first_name":"Stefan"},{"full_name":"Kiermaier, Eva","last_name":"Kiermaier","first_name":"Eva"}],"article_processing_charge":"No","external_id":{"pmid":["36214847 "],"isi":["000932941400001"]},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","citation":{"chicago":"Weier, Ann-Kathrin, Mirka Homrich, Stephanie Ebbinghaus, Pavel Juda, Eliška Miková, Robert Hauschild, Lili Zhang, et al. “Multiple Centrosomes Enhance Migration and Immune Cell Effector Functions of Mature Dendritic Cells.” Journal of Cell Biology. Rockefeller University Press, 2022. https://doi.org/10.1083/jcb.202107134.","ista":"Weier A-K, Homrich M, Ebbinghaus S, Juda P, Miková E, Hauschild R, Zhang L, Quast T, Mass E, Schlitzer A, Kolanus W, Burgdorf S, Gruß OJ, Hons M, Wieser S, Kiermaier E. 2022. Multiple centrosomes enhance migration and immune cell effector functions of mature dendritic cells. Journal of Cell Biology. 221(12), e202107134.","mla":"Weier, Ann-Kathrin, et al. “Multiple Centrosomes Enhance Migration and Immune Cell Effector Functions of Mature Dendritic Cells.” Journal of Cell Biology, vol. 221, no. 12, e202107134, Rockefeller University Press, 2022, doi:10.1083/jcb.202107134.","ama":"Weier A-K, Homrich M, Ebbinghaus S, et al. Multiple centrosomes enhance migration and immune cell effector functions of mature dendritic cells. Journal of Cell Biology. 2022;221(12). doi:10.1083/jcb.202107134","apa":"Weier, A.-K., Homrich, M., Ebbinghaus, S., Juda, P., Miková, E., Hauschild, R., … Kiermaier, E. (2022). Multiple centrosomes enhance migration and immune cell effector functions of mature dendritic cells. Journal of Cell Biology. Rockefeller University Press. https://doi.org/10.1083/jcb.202107134","ieee":"A.-K. Weier et al., “Multiple centrosomes enhance migration and immune cell effector functions of mature dendritic cells,” Journal of Cell Biology, vol. 221, no. 12. Rockefeller University Press, 2022.","short":"A.-K. Weier, M. Homrich, S. Ebbinghaus, P. Juda, E. Miková, R. Hauschild, L. Zhang, T. Quast, E. Mass, A. Schlitzer, W. Kolanus, S. Burgdorf, O.J. Gruß, M. Hons, S. Wieser, E. Kiermaier, Journal of Cell Biology 221 (2022)."},"project":[{"_id":"c08e9ad1-5a5b-11eb-8a69-9d1cf3b07473","grant_number":"CZI01","name":"Tools for automation and feedback microscopy"}],"article_number":"e202107134","issue":"12","volume":221,"file":[{"file_size":11090179,"date_updated":"2023-08-16T11:24:53Z","creator":"dernst","file_name":"2023_JCB_Weier.pdf","date_created":"2023-08-16T11:24:53Z","content_type":"application/pdf","relation":"main_file","access_level":"open_access","success":1,"checksum":"0c9af38f82af30c6ce528f2caece4246","file_id":"14065"}],"language":[{"iso":"eng"}],"publication_identifier":{"issn":["0021-9525"],"eissn":["1540-8140"]},"publication_status":"published","month":"12","intvolume":" 221","scopus_import":"1","oa_version":"Published Version","pmid":1,"abstract":[{"lang":"eng","text":"Centrosomes play a crucial role during immune cell interactions and initiation of the immune response. In proliferating cells, centrosome numbers are tightly controlled and generally limited to one in G1 and two prior to mitosis. Defects in regulating centrosome numbers have been associated with cell transformation and tumorigenesis. Here, we report the emergence of extra centrosomes in leukocytes during immune activation. Upon antigen encounter, dendritic cells pass through incomplete mitosis and arrest in the subsequent G1 phase leading to tetraploid cells with accumulated centrosomes. In addition, cell stimulation increases expression of polo-like kinase 2, resulting in diploid cells with two centrosomes in G1-arrested cells. During cell migration, centrosomes tightly cluster and act as functional microtubule-organizing centers allowing for increased persistent locomotion along gradients of chemotactic cues. Moreover, dendritic cells with extra centrosomes display enhanced secretion of inflammatory cytokines and optimized T cell responses. Together, these results demonstrate a previously unappreciated role of extra centrosomes for regular cell and tissue homeostasis."}],"department":[{"_id":"Bio"}],"file_date_updated":"2023-08-16T11:24:53Z","ddc":["570"],"date_updated":"2023-08-16T11:29:12Z","status":"public","keyword":["Cell Biology"],"article_type":"original","type":"journal_article","tmp":{"name":"Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0)","image":"/images/cc_by_nc_sa.png","legal_code_url":"https://creativecommons.org/licenses/by-nc-sa/4.0/legalcode","short":"CC BY-NC-SA (4.0)"},"_id":"12122"},{"page":"351-369","date_created":"2020-09-28T08:59:28Z","date_published":"2021-01-01T00:00:00Z","doi":"10.1111/nph.16887","year":"2021","has_accepted_license":"1","isi":1,"publication":"New Phytologist","day":"01","oa":1,"quality_controlled":"1","publisher":"Wiley","acknowledgement":"We thank Dr Ingo Heilmann (Martin‐Luther‐University Halle‐Wittenberg) for the XVE>>PIP5K1‐YFP line, Dr Brad Day (Michigan State University) for the ndr1‐1 mutant and the complementation lines, and Dr Patricia C. Zambryski (University of California, Berkeley) for the 35S::P30‐GFP line, the Bioimaging team (IST Austria) for assistance with imaging, group members for discussions, Martine De Cock for help in preparing the manuscript and Nataliia Gnyliukh for critical reading and revision of the manuscript. This project received funding from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation program (grant agreement No. 742985) and Comisión Nacional de Investigación Científica y Tecnológica (Project CONICYT‐PAI 82130047). DvW received funding from the People Programme (Marie Curie Actions) of the European Union’s Seventh Framework Programme (FP7/2007‐2013) under REA grant agreement no. 291734.","external_id":{"isi":["000570187900001"]},"article_processing_charge":"Yes (via OA deal)","author":[{"first_name":"Hongjiang","id":"33CA54A6-F248-11E8-B48F-1D18A9856A87","last_name":"Li","full_name":"Li, Hongjiang","orcid":"0000-0001-5039-9660"},{"first_name":"Daniel","id":"49E91952-F248-11E8-B48F-1D18A9856A87","full_name":"von Wangenheim, Daniel","orcid":"0000-0002-6862-1247","last_name":"von Wangenheim"},{"orcid":"0000-0001-7048-4627","full_name":"Zhang, Xixi","last_name":"Zhang","id":"61A66458-47E9-11EA-85BA-8AEAAF14E49A","first_name":"Xixi"},{"orcid":"0000-0002-0471-8285","full_name":"Tan, Shutang","last_name":"Tan","id":"2DE75584-F248-11E8-B48F-1D18A9856A87","first_name":"Shutang"},{"last_name":"Darwish-Miranda","full_name":"Darwish-Miranda, Nasser","orcid":"0000-0002-8821-8236","first_name":"Nasser","id":"39CD9926-F248-11E8-B48F-1D18A9856A87"},{"full_name":"Naramoto, Satoshi","last_name":"Naramoto","first_name":"Satoshi"},{"orcid":"0000-0001-7263-0560","full_name":"Wabnik, Krzysztof T","last_name":"Wabnik","first_name":"Krzysztof T","id":"4DE369A4-F248-11E8-B48F-1D18A9856A87"},{"full_name":"de Rycke, Riet","last_name":"de Rycke","first_name":"Riet"},{"orcid":"0000-0001-9735-5315","full_name":"Kaufmann, Walter","last_name":"Kaufmann","first_name":"Walter","id":"3F99E422-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Gütl","full_name":"Gütl, Daniel J","first_name":"Daniel J","id":"381929CE-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Ricardo","last_name":"Tejos","full_name":"Tejos, Ricardo"},{"first_name":"Peter","id":"399876EC-F248-11E8-B48F-1D18A9856A87","full_name":"Grones, Peter","last_name":"Grones"},{"first_name":"Meiyu","full_name":"Ke, Meiyu","last_name":"Ke"},{"last_name":"Chen","full_name":"Chen, Xu","first_name":"Xu","id":"4E5ADCAA-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Jan","full_name":"Dettmer, Jan","last_name":"Dettmer"},{"first_name":"Jiří","id":"4159519E-F248-11E8-B48F-1D18A9856A87","last_name":"Friml","orcid":"0000-0002-8302-7596","full_name":"Friml, Jiří"}],"title":"Cellular requirements for PIN polar cargo clustering in Arabidopsis thaliana","citation":{"chicago":"Li, Hongjiang, Daniel von Wangenheim, Xixi Zhang, Shutang Tan, Nasser Darwish-Miranda, Satoshi Naramoto, Krzysztof T Wabnik, et al. “Cellular Requirements for PIN Polar Cargo Clustering in Arabidopsis Thaliana.” New Phytologist. Wiley, 2021. https://doi.org/10.1111/nph.16887.","ista":"Li H, von Wangenheim D, Zhang X, Tan S, Darwish-Miranda N, Naramoto S, Wabnik KT, de Rycke R, Kaufmann W, Gütl DJ, Tejos R, Grones P, Ke M, Chen X, Dettmer J, Friml J. 2021. Cellular requirements for PIN polar cargo clustering in Arabidopsis thaliana. New Phytologist. 229(1), 351–369.","mla":"Li, Hongjiang, et al. “Cellular Requirements for PIN Polar Cargo Clustering in Arabidopsis Thaliana.” New Phytologist, vol. 229, no. 1, Wiley, 2021, pp. 351–69, doi:10.1111/nph.16887.","ama":"Li H, von Wangenheim D, Zhang X, et al. Cellular requirements for PIN polar cargo clustering in Arabidopsis thaliana. New Phytologist. 2021;229(1):351-369. doi:10.1111/nph.16887","apa":"Li, H., von Wangenheim, D., Zhang, X., Tan, S., Darwish-Miranda, N., Naramoto, S., … Friml, J. (2021). Cellular requirements for PIN polar cargo clustering in Arabidopsis thaliana. New Phytologist. Wiley. https://doi.org/10.1111/nph.16887","ieee":"H. Li et al., “Cellular requirements for PIN polar cargo clustering in Arabidopsis thaliana,” New Phytologist, vol. 229, no. 1. Wiley, pp. 351–369, 2021.","short":"H. Li, D. von Wangenheim, X. Zhang, S. Tan, N. Darwish-Miranda, S. Naramoto, K.T. Wabnik, R. de Rycke, W. Kaufmann, D.J. Gütl, R. Tejos, P. Grones, M. Ke, X. Chen, J. Dettmer, J. Friml, New Phytologist 229 (2021) 351–369."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","project":[{"name":"Tracing Evolution of Auxin Transport and Polarity in Plants","grant_number":"742985","_id":"261099A6-B435-11E9-9278-68D0E5697425","call_identifier":"H2020"},{"name":"International IST Postdoc Fellowship Programme","grant_number":"291734","call_identifier":"FP7","_id":"25681D80-B435-11E9-9278-68D0E5697425"}],"ec_funded":1,"issue":"1","volume":229,"publication_status":"published","publication_identifier":{"eissn":["14698137"],"issn":["0028646X"]},"language":[{"iso":"eng"}],"file":[{"date_created":"2021-02-04T09:44:17Z","file_name":"2021_NewPhytologist_Li.pdf","creator":"dernst","date_updated":"2021-02-04T09:44:17Z","file_size":4061962,"file_id":"9084","checksum":"b45621607b4cab97eeb1605ab58e896e","success":1,"access_level":"open_access","relation":"main_file","content_type":"application/pdf"}],"scopus_import":"1","intvolume":" 229","month":"01","abstract":[{"lang":"eng","text":"Cell and tissue polarization is fundamental for plant growth and morphogenesis. The polar, cellular localization of Arabidopsis PIN‐FORMED (PIN) proteins is crucial for their function in directional auxin transport. The clustering of PIN polar cargoes within the plasma membrane has been proposed to be important for the maintenance of their polar distribution. However, the more detailed features of PIN clusters and the cellular requirements of cargo clustering remain unclear.\r\nHere, we characterized PIN clusters in detail by means of multiple advanced microscopy and quantification methods, such as 3D quantitative imaging or freeze‐fracture replica labeling. The size and aggregation types of PIN clusters were determined by electron microscopy at the nanometer level at different polar domains and at different developmental stages, revealing a strong preference for clustering at the polar domains.\r\nPharmacological and genetic studies revealed that PIN clusters depend on phosphoinositol pathways, cytoskeletal structures and specific cell‐wall components as well as connections between the cell wall and the plasma membrane.\r\nThis study identifies the role of different cellular processes and structures in polar cargo clustering and provides initial mechanistic insight into the maintenance of polarity in plants and other systems."}],"acknowledged_ssus":[{"_id":"Bio"}],"oa_version":"Published Version","file_date_updated":"2021-02-04T09:44:17Z","department":[{"_id":"JiFr"},{"_id":"EM-Fac"},{"_id":"Bio"},{"_id":"EvBe"}],"date_updated":"2023-08-04T11:01:21Z","ddc":["580"],"tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"article_type":"original","type":"journal_article","status":"public","_id":"8582"},{"scopus_import":"1","intvolume":" 12","month":"02","abstract":[{"lang":"eng","text":"Gradients of chemokines and growth factors guide migrating cells and morphogenetic processes. Migration of antigen-presenting dendritic cells from the interstitium into the lymphatic system is dependent on chemokine CCL21, which is secreted by endothelial cells of the lymphatic capillary, binds heparan sulfates and forms gradients decaying into the interstitium. Despite the importance of CCL21 gradients, and chemokine gradients in general, the mechanisms of gradient formation are unclear. Studies on fibroblast growth factors have shown that limited diffusion is crucial for gradient formation. Here, we used the mouse dermis as a model tissue to address the necessity of CCL21 anchoring to lymphatic capillary heparan sulfates in the formation of interstitial CCL21 gradients. Surprisingly, the absence of lymphatic endothelial heparan sulfates resulted only in a modest decrease of CCL21 levels at the lymphatic capillaries and did neither affect interstitial CCL21 gradient shape nor dendritic cell migration toward lymphatic capillaries. Thus, heparan sulfates at the level of the lymphatic endothelium are dispensable for the formation of a functional CCL21 gradient."}],"oa_version":"Published Version","pmid":1,"ec_funded":1,"volume":12,"publication_status":"published","publication_identifier":{"eissn":["1664-3224"]},"language":[{"iso":"eng"}],"file":[{"file_name":"2021_FrontiersImmumo_Vaahtomeri.pdf","date_created":"2021-03-22T12:08:26Z","creator":"dernst","file_size":3740146,"date_updated":"2021-03-22T12:08:26Z","success":1,"file_id":"9277","checksum":"663f5a48375e42afa4bfef58d42ec186","relation":"main_file","access_level":"open_access","content_type":"application/pdf"}],"tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"article_type":"original","type":"journal_article","status":"public","_id":"9259","department":[{"_id":"MiSi"},{"_id":"Bio"}],"file_date_updated":"2021-03-22T12:08:26Z","date_updated":"2023-08-07T14:18:26Z","ddc":["570"],"oa":1,"quality_controlled":"1","publisher":"Frontiers","acknowledgement":"This work was supported by Sigrid Juselius fellowship (KV), University of Helsinki 3-year research grant (KV), Academy of Finland Research fellow funding (315710, to KV), the European Research Council (ERC CoG 724373 to MS), and by the Austrian Science foundation (FWF) (Y564-B12 START award to MS).\r\nTaija Mäkinen is acknowledged for providing Prox1CreERT2 transgenic mice and Yu Yamaguchi for providing the conditional Ext1 mouse strain.","date_created":"2021-03-21T23:01:20Z","doi":"10.3389/fimmu.2021.630002","date_published":"2021-02-25T00:00:00Z","year":"2021","isi":1,"has_accepted_license":"1","publication":"Frontiers in Immunology","day":"25","project":[{"grant_number":"724373","name":"Cellular navigation along spatial gradients","_id":"25FE9508-B435-11E9-9278-68D0E5697425","call_identifier":"H2020"},{"name":"Cytoskeletal force generation and force transduction of migrating leukocytes","grant_number":"Y 564-B12","_id":"25A8E5EA-B435-11E9-9278-68D0E5697425","call_identifier":"FWF"}],"article_number":"630002","external_id":{"pmid":["33717158"],"isi":["000627134400001"]},"article_processing_charge":"No","author":[{"full_name":"Vaahtomeri, Kari","orcid":"0000-0001-7829-3518","last_name":"Vaahtomeri","id":"368EE576-F248-11E8-B48F-1D18A9856A87","first_name":"Kari"},{"full_name":"Moussion, Christine","last_name":"Moussion","id":"3356F664-F248-11E8-B48F-1D18A9856A87","first_name":"Christine"},{"orcid":"0000-0001-9843-3522","full_name":"Hauschild, Robert","last_name":"Hauschild","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert"},{"id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87","first_name":"Michael K","full_name":"Sixt, Michael K","orcid":"0000-0002-6620-9179","last_name":"Sixt"}],"title":"Shape and function of interstitial chemokine CCL21 gradients are independent of heparan sulfates produced by lymphatic endothelium","citation":{"chicago":"Vaahtomeri, Kari, Christine Moussion, Robert Hauschild, and Michael K Sixt. “Shape and Function of Interstitial Chemokine CCL21 Gradients Are Independent of Heparan Sulfates Produced by Lymphatic Endothelium.” Frontiers in Immunology. Frontiers, 2021. https://doi.org/10.3389/fimmu.2021.630002.","ista":"Vaahtomeri K, Moussion C, Hauschild R, Sixt MK. 2021. Shape and function of interstitial chemokine CCL21 gradients are independent of heparan sulfates produced by lymphatic endothelium. Frontiers in Immunology. 12, 630002.","mla":"Vaahtomeri, Kari, et al. “Shape and Function of Interstitial Chemokine CCL21 Gradients Are Independent of Heparan Sulfates Produced by Lymphatic Endothelium.” Frontiers in Immunology, vol. 12, 630002, Frontiers, 2021, doi:10.3389/fimmu.2021.630002.","apa":"Vaahtomeri, K., Moussion, C., Hauschild, R., & Sixt, M. K. (2021). Shape and function of interstitial chemokine CCL21 gradients are independent of heparan sulfates produced by lymphatic endothelium. Frontiers in Immunology. Frontiers. https://doi.org/10.3389/fimmu.2021.630002","ama":"Vaahtomeri K, Moussion C, Hauschild R, Sixt MK. Shape and function of interstitial chemokine CCL21 gradients are independent of heparan sulfates produced by lymphatic endothelium. Frontiers in Immunology. 2021;12. doi:10.3389/fimmu.2021.630002","ieee":"K. Vaahtomeri, C. Moussion, R. Hauschild, and M. K. Sixt, “Shape and function of interstitial chemokine CCL21 gradients are independent of heparan sulfates produced by lymphatic endothelium,” Frontiers in Immunology, vol. 12. Frontiers, 2021.","short":"K. Vaahtomeri, C. Moussion, R. Hauschild, M.K. Sixt, Frontiers in Immunology 12 (2021)."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8"},{"citation":{"mla":"Gast, Matthieu, et al. “Oligomerization and Cell Egress Controlled by Two Microdomains of Canine Distemper Virus Matrix Protein.” MSphere, vol. 6, no. 2, e01024-20, American Society for Microbiology, 2021, doi:10.1128/mSphere.01024-20.","ieee":"M. Gast, N. P. Kadzioch, D. Milius, F. Origgi, and P. Plattet, “Oligomerization and cell egress controlled by two microdomains of canine distemper virus matrix protein,” mSphere, vol. 6, no. 2. American Society for Microbiology, 2021.","short":"M. Gast, N.P. Kadzioch, D. Milius, F. Origgi, P. Plattet, MSphere 6 (2021).","apa":"Gast, M., Kadzioch, N. P., Milius, D., Origgi, F., & Plattet, P. (2021). Oligomerization and cell egress controlled by two microdomains of canine distemper virus matrix protein. MSphere. American Society for Microbiology. https://doi.org/10.1128/mSphere.01024-20","ama":"Gast M, Kadzioch NP, Milius D, Origgi F, Plattet P. Oligomerization and cell egress controlled by two microdomains of canine distemper virus matrix protein. mSphere. 2021;6(2). doi:10.1128/mSphere.01024-20","chicago":"Gast, Matthieu, Nicole P. Kadzioch, Doreen Milius, Francesco Origgi, and Philippe Plattet. “Oligomerization and Cell Egress Controlled by Two Microdomains of Canine Distemper Virus Matrix Protein.” MSphere. American Society for Microbiology, 2021. https://doi.org/10.1128/mSphere.01024-20.","ista":"Gast M, Kadzioch NP, Milius D, Origgi F, Plattet P. 2021. Oligomerization and cell egress controlled by two microdomains of canine distemper virus matrix protein. mSphere. 6(2), e01024-20."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","article_processing_charge":"No","external_id":{"pmid":["33853875"],"isi":["000663823400025"]},"author":[{"first_name":"Matthieu","last_name":"Gast","full_name":"Gast, Matthieu"},{"last_name":"Kadzioch","full_name":"Kadzioch, Nicole P.","first_name":"Nicole P."},{"first_name":"Doreen","id":"384050BC-F248-11E8-B48F-1D18A9856A87","last_name":"Milius","full_name":"Milius, Doreen"},{"first_name":"Francesco","last_name":"Origgi","full_name":"Origgi, Francesco"},{"full_name":"Plattet, Philippe","last_name":"Plattet","first_name":"Philippe"}],"title":"Oligomerization and cell egress controlled by two microdomains of canine distemper virus matrix protein","article_number":"e01024-20","year":"2021","has_accepted_license":"1","isi":1,"publication":"mSphere","day":"14","date_created":"2021-05-02T22:01:28Z","date_published":"2021-04-14T00:00:00Z","doi":"10.1128/mSphere.01024-20","acknowledgement":"This work was supported by the Swiss National Science Foundation (referencenumber 310030_173185 to P. P.).","oa":1,"quality_controlled":"1","publisher":"American Society for Microbiology","date_updated":"2023-08-08T13:26:12Z","ddc":["570"],"file_date_updated":"2021-05-04T12:41:38Z","department":[{"_id":"Bio"}],"_id":"9361","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"type":"journal_article","status":"public","publication_status":"published","publication_identifier":{"eissn":["23795042"]},"language":[{"iso":"eng"}],"file":[{"content_type":"application/pdf","relation":"main_file","access_level":"open_access","success":1,"file_id":"9370","checksum":"310748d140c8838335c1314431095898","file_size":3379349,"date_updated":"2021-05-04T12:41:38Z","creator":"kschuh","file_name":"2021_mSphere_Gast.pdf","date_created":"2021-05-04T12:41:38Z"}],"issue":"2","volume":6,"abstract":[{"text":"The multimeric matrix (M) protein of clinically relevant paramyxoviruses orchestrates assembly and budding activity of viral particles at the plasma membrane (PM). We identified within the canine distemper virus (CDV) M protein two microdomains, potentially assuming α-helix structures, which are essential for membrane budding activity. Remarkably, while two rationally designed microdomain M mutants (E89R, microdomain 1 and L239D, microdomain 2) preserved proper folding, dimerization, interaction with the nucleocapsid protein, localization at and deformation of the PM, the virus-like particle formation, as well as production of infectious virions (as monitored using a membrane budding-complementation system), were, in sharp contrast, strongly impaired. Of major importance, raster image correlation spectroscopy (RICS) revealed that both microdomains contributed to finely tune M protein mobility specifically at the PM. Collectively, our data highlighted the cornerstone membrane budding-priming activity of two spatially discrete M microdomains, potentially by coordinating the assembly of productive higher oligomers at the PM.","lang":"eng"}],"pmid":1,"oa_version":"Published Version","scopus_import":"1","intvolume":" 6","month":"04"},{"project":[{"call_identifier":"H2020","_id":"25FE9508-B435-11E9-9278-68D0E5697425","grant_number":"724373","name":"Cellular navigation along spatial gradients"}],"title":"Sequential and switchable patterning for studying cellular processes under spatiotemporal control","external_id":{"pmid":["34283577"],"isi":["000683741400026"]},"article_processing_charge":"Yes (in subscription journal)","author":[{"first_name":"Themistoklis","last_name":"Zisis","full_name":"Zisis, Themistoklis"},{"full_name":"Schwarz, Jan","last_name":"Schwarz","first_name":"Jan","id":"346C1EC6-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Miriam","last_name":"Balles","full_name":"Balles, Miriam"},{"last_name":"Kretschmer","full_name":"Kretschmer, Maibritt","first_name":"Maibritt"},{"first_name":"Maria","id":"34E27F1C-F248-11E8-B48F-1D18A9856A87","full_name":"Nemethova, Maria","last_name":"Nemethova"},{"last_name":"Chait","full_name":"Chait, Remy P","orcid":"0000-0003-0876-3187","first_name":"Remy P","id":"3464AE84-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Hauschild","full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert"},{"first_name":"Janina","full_name":"Lange, Janina","last_name":"Lange"},{"last_name":"Guet","full_name":"Guet, Calin C","orcid":"0000-0001-6220-2052","id":"47F8433E-F248-11E8-B48F-1D18A9856A87","first_name":"Calin C"},{"full_name":"Sixt, Michael K","orcid":"0000-0002-4561-241X","last_name":"Sixt","first_name":"Michael K","id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Stefan","full_name":"Zahler, Stefan","last_name":"Zahler"}],"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","citation":{"chicago":"Zisis, Themistoklis, Jan Schwarz, Miriam Balles, Maibritt Kretschmer, Maria Nemethova, Remy P Chait, Robert Hauschild, et al. “Sequential and Switchable Patterning for Studying Cellular Processes under Spatiotemporal Control.” ACS Applied Materials and Interfaces. American Chemical Society, 2021. https://doi.org/10.1021/acsami.1c09850.","ista":"Zisis T, Schwarz J, Balles M, Kretschmer M, Nemethova M, Chait RP, Hauschild R, Lange J, Guet CC, Sixt MK, Zahler S. 2021. Sequential and switchable patterning for studying cellular processes under spatiotemporal control. ACS Applied Materials and Interfaces. 13(30), 35545–35560.","mla":"Zisis, Themistoklis, et al. “Sequential and Switchable Patterning for Studying Cellular Processes under Spatiotemporal Control.” ACS Applied Materials and Interfaces, vol. 13, no. 30, American Chemical Society, 2021, pp. 35545–35560, doi:10.1021/acsami.1c09850.","short":"T. Zisis, J. Schwarz, M. Balles, M. Kretschmer, M. Nemethova, R.P. Chait, R. Hauschild, J. Lange, C.C. Guet, M.K. Sixt, S. Zahler, ACS Applied Materials and Interfaces 13 (2021) 35545–35560.","ieee":"T. Zisis et al., “Sequential and switchable patterning for studying cellular processes under spatiotemporal control,” ACS Applied Materials and Interfaces, vol. 13, no. 30. American Chemical Society, pp. 35545–35560, 2021.","apa":"Zisis, T., Schwarz, J., Balles, M., Kretschmer, M., Nemethova, M., Chait, R. P., … Zahler, S. (2021). Sequential and switchable patterning for studying cellular processes under spatiotemporal control. ACS Applied Materials and Interfaces. American Chemical Society. https://doi.org/10.1021/acsami.1c09850","ama":"Zisis T, Schwarz J, Balles M, et al. Sequential and switchable patterning for studying cellular processes under spatiotemporal control. ACS Applied Materials and Interfaces. 2021;13(30):35545–35560. doi:10.1021/acsami.1c09850"},"oa":1,"publisher":"American Chemical Society","quality_controlled":"1","acknowledgement":"We would like to thank Charlott Leu for the production of our chromium wafers, Louise Ritter for her contribution of the IF stainings in Figure 4, Shokoufeh Teymouri for her help with the Bioinert coated slides, and finally Prof. Dr. Joachim Rädler for his valuable scientific guidance.","date_created":"2021-08-08T22:01:28Z","date_published":"2021-08-04T00:00:00Z","doi":"10.1021/acsami.1c09850","page":"35545–35560","publication":"ACS Applied Materials and Interfaces","day":"04","year":"2021","isi":1,"has_accepted_license":"1","status":"public","tmp":{"short":"CC BY-NC-ND (4.0)","name":"Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0)","legal_code_url":"https://creativecommons.org/licenses/by-nc-nd/4.0/legalcode","image":"/images/cc_by_nc_nd.png"},"article_type":"original","type":"journal_article","_id":"9822","department":[{"_id":"MiSi"},{"_id":"GaTk"},{"_id":"Bio"},{"_id":"CaGu"}],"file_date_updated":"2021-08-09T09:44:03Z","ddc":["620","570"],"date_updated":"2023-08-10T14:22:48Z","intvolume":" 13","month":"08","scopus_import":"1","oa_version":"Published Version","pmid":1,"abstract":[{"text":"Attachment of adhesive molecules on cell culture surfaces to restrict cell adhesion to defined areas and shapes has been vital for the progress of in vitro research. In currently existing patterning methods, a combination of pattern properties such as stability, precision, specificity, high-throughput outcome, and spatiotemporal control is highly desirable but challenging to achieve. Here, we introduce a versatile and high-throughput covalent photoimmobilization technique, comprising a light-dose-dependent patterning step and a subsequent functionalization of the pattern via click chemistry. This two-step process is feasible on arbitrary surfaces and allows for generation of sustainable patterns and gradients. The method is validated in different biological systems by patterning adhesive ligands on cell-repellent surfaces, thereby constraining the growth and migration of cells to the designated areas. We then implement a sequential photopatterning approach by adding a second switchable patterning step, allowing for spatiotemporal control over two distinct surface patterns. As a proof of concept, we reconstruct the dynamics of the tip/stalk cell switch during angiogenesis. Our results show that the spatiotemporal control provided by our “sequential photopatterning” system is essential for mimicking dynamic biological processes and that our innovative approach has great potential for further applications in cell science.","lang":"eng"}],"ec_funded":1,"volume":13,"issue":"30","language":[{"iso":"eng"}],"file":[{"content_type":"application/pdf","relation":"main_file","access_level":"open_access","success":1,"checksum":"b043a91d9f9200e467b970b692687ed3","file_id":"9833","file_size":7123293,"date_updated":"2021-08-09T09:44:03Z","creator":"asandaue","file_name":"2021_ACSAppliedMaterialsAndInterfaces_Zisis.pdf","date_created":"2021-08-09T09:44:03Z"}],"publication_status":"published","publication_identifier":{"issn":["19448244"],"eissn":["19448252"]}},{"oa":1,"publisher":"Wiley","quality_controlled":"1","acknowledgement":"We thank https://www.somersault1824.com/somersault18:24 BV (Leuven, Belgium) for help with Figure 1. E. C.-S. was supported by the project PPBI-POCI-01-0145-FEDER-022122, in the scope of Fundação para a Ciência e Tecnologia, Portugal (FCT) National Roadmap of Research Infrastructures. R.N. was funded by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) Grant number Ni 451/9-1 - MIAP-Freiburg.","page":"56-73","date_created":"2021-08-15T22:01:29Z","date_published":"2021-08-11T00:00:00Z","doi":"10.1111/jmi.13041","year":"2021","isi":1,"publication":"Journal of Microscopy","day":"11","external_id":{"isi":["000683702700001"]},"article_processing_charge":"Yes","author":[{"last_name":"Nelson","full_name":"Nelson, Glyn","first_name":"Glyn"},{"first_name":"Ulrike","full_name":"Boehm, Ulrike","last_name":"Boehm"},{"first_name":"Steve","last_name":"Bagley","full_name":"Bagley, Steve"},{"first_name":"Peter","last_name":"Bajcsy","full_name":"Bajcsy, Peter"},{"last_name":"Bischof","full_name":"Bischof, Johanna","first_name":"Johanna"},{"first_name":"Claire M.","full_name":"Brown, Claire M.","last_name":"Brown"},{"first_name":"Aurélien","last_name":"Dauphin","full_name":"Dauphin, Aurélien"},{"full_name":"Dobbie, Ian M.","last_name":"Dobbie","first_name":"Ian M."},{"last_name":"Eriksson","full_name":"Eriksson, John E.","first_name":"John E."},{"full_name":"Faklaris, Orestis","last_name":"Faklaris","first_name":"Orestis"},{"first_name":"Julia","last_name":"Fernandez-Rodriguez","full_name":"Fernandez-Rodriguez, Julia"},{"first_name":"Alexia","full_name":"Ferrand, Alexia","last_name":"Ferrand"},{"first_name":"Laurent","last_name":"Gelman","full_name":"Gelman, Laurent"},{"last_name":"Gheisari","full_name":"Gheisari, Ali","first_name":"Ali"},{"first_name":"Hella","full_name":"Hartmann, Hella","last_name":"Hartmann"},{"last_name":"Kukat","full_name":"Kukat, Christian","first_name":"Christian"},{"last_name":"Laude","full_name":"Laude, Alex","first_name":"Alex"},{"full_name":"Mitkovski, Miso","last_name":"Mitkovski","first_name":"Miso"},{"last_name":"Munck","full_name":"Munck, Sebastian","first_name":"Sebastian"},{"first_name":"Alison J.","last_name":"North","full_name":"North, Alison J."},{"full_name":"Rasse, Tobias M.","last_name":"Rasse","first_name":"Tobias M."},{"full_name":"Resch-Genger, Ute","last_name":"Resch-Genger","first_name":"Ute"},{"full_name":"Schuetz, Lucas C.","last_name":"Schuetz","first_name":"Lucas C."},{"first_name":"Arne","last_name":"Seitz","full_name":"Seitz, Arne"},{"first_name":"Caterina","last_name":"Strambio-De-Castillia","full_name":"Strambio-De-Castillia, Caterina"},{"full_name":"Swedlow, Jason R.","last_name":"Swedlow","first_name":"Jason R."},{"first_name":"Ioannis","full_name":"Alexopoulos, Ioannis","last_name":"Alexopoulos"},{"first_name":"Karin","full_name":"Aumayr, Karin","last_name":"Aumayr"},{"first_name":"Sergiy","last_name":"Avilov","full_name":"Avilov, Sergiy"},{"last_name":"Bakker","full_name":"Bakker, Gert Jan","first_name":"Gert Jan"},{"first_name":"Rodrigo R.","full_name":"Bammann, Rodrigo R.","last_name":"Bammann"},{"first_name":"Andrea","full_name":"Bassi, Andrea","last_name":"Bassi"},{"last_name":"Beckert","full_name":"Beckert, Hannes","first_name":"Hannes"},{"first_name":"Sebastian","full_name":"Beer, Sebastian","last_name":"Beer"},{"last_name":"Belyaev","full_name":"Belyaev, Yury","first_name":"Yury"},{"first_name":"Jakob","last_name":"Bierwagen","full_name":"Bierwagen, Jakob"},{"last_name":"Birngruber","full_name":"Birngruber, Konstantin A.","first_name":"Konstantin A."},{"last_name":"Bosch","full_name":"Bosch, Manel","first_name":"Manel"},{"first_name":"Juergen","last_name":"Breitlow","full_name":"Breitlow, Juergen"},{"full_name":"Cameron, Lisa A.","last_name":"Cameron","first_name":"Lisa A."},{"last_name":"Chalfoun","full_name":"Chalfoun, Joe","first_name":"Joe"},{"first_name":"James J.","full_name":"Chambers, James J.","last_name":"Chambers"},{"first_name":"Chieh Li","full_name":"Chen, Chieh Li","last_name":"Chen"},{"last_name":"Conde-Sousa","full_name":"Conde-Sousa, Eduardo","first_name":"Eduardo"},{"first_name":"Alexander D.","full_name":"Corbett, Alexander D.","last_name":"Corbett"},{"full_name":"Cordelieres, Fabrice P.","last_name":"Cordelieres","first_name":"Fabrice P."},{"last_name":"Nery","full_name":"Nery, Elaine Del","first_name":"Elaine Del"},{"last_name":"Dietzel","full_name":"Dietzel, Ralf","first_name":"Ralf"},{"full_name":"Eismann, Frank","last_name":"Eismann","first_name":"Frank"},{"last_name":"Fazeli","full_name":"Fazeli, Elnaz","first_name":"Elnaz"},{"last_name":"Felscher","full_name":"Felscher, Andreas","first_name":"Andreas"},{"full_name":"Fried, Hans","last_name":"Fried","first_name":"Hans"},{"first_name":"Nathalie","full_name":"Gaudreault, Nathalie","last_name":"Gaudreault"},{"full_name":"Goh, Wah Ing","last_name":"Goh","first_name":"Wah Ing"},{"first_name":"Thomas","full_name":"Guilbert, Thomas","last_name":"Guilbert"},{"first_name":"Roland","full_name":"Hadleigh, Roland","last_name":"Hadleigh"},{"last_name":"Hemmerich","full_name":"Hemmerich, Peter","first_name":"Peter"},{"first_name":"Gerhard A.","full_name":"Holst, Gerhard A.","last_name":"Holst"},{"full_name":"Itano, Michelle S.","last_name":"Itano","first_name":"Michelle S."},{"first_name":"Claudia B.","full_name":"Jaffe, Claudia B.","last_name":"Jaffe"},{"last_name":"Jambor","full_name":"Jambor, Helena K.","first_name":"Helena K."},{"full_name":"Jarvis, Stuart C.","last_name":"Jarvis","first_name":"Stuart C."},{"first_name":"Antje","last_name":"Keppler","full_name":"Keppler, Antje"},{"last_name":"Kirchenbuechler","full_name":"Kirchenbuechler, David","first_name":"David"},{"first_name":"Marcel","last_name":"Kirchner","full_name":"Kirchner, Marcel"},{"first_name":"Norio","last_name":"Kobayashi","full_name":"Kobayashi, Norio"},{"id":"2B819732-F248-11E8-B48F-1D18A9856A87","first_name":"Gabriel","last_name":"Krens","full_name":"Krens, Gabriel","orcid":"0000-0003-4761-5996"},{"first_name":"Susanne","last_name":"Kunis","full_name":"Kunis, Susanne"},{"last_name":"Lacoste","full_name":"Lacoste, Judith","first_name":"Judith"},{"last_name":"Marcello","full_name":"Marcello, Marco","first_name":"Marco"},{"full_name":"Martins, Gabriel G.","last_name":"Martins","first_name":"Gabriel G."},{"full_name":"Metcalf, Daniel J.","last_name":"Metcalf","first_name":"Daniel J."},{"full_name":"Mitchell, Claire A.","last_name":"Mitchell","first_name":"Claire A."},{"full_name":"Moore, Joshua","last_name":"Moore","first_name":"Joshua"},{"full_name":"Mueller, Tobias","last_name":"Mueller","first_name":"Tobias"},{"first_name":"Michael S.","full_name":"Nelson, Michael S.","last_name":"Nelson"},{"first_name":"Stephen","full_name":"Ogg, Stephen","last_name":"Ogg"},{"first_name":"Shuichi","full_name":"Onami, Shuichi","last_name":"Onami"},{"first_name":"Alexandra L.","full_name":"Palmer, Alexandra L.","last_name":"Palmer"},{"last_name":"Paul-Gilloteaux","full_name":"Paul-Gilloteaux, Perrine","first_name":"Perrine"},{"first_name":"Jaime A.","full_name":"Pimentel, Jaime A.","last_name":"Pimentel"},{"first_name":"Laure","full_name":"Plantard, Laure","last_name":"Plantard"},{"last_name":"Podder","full_name":"Podder, Santosh","first_name":"Santosh"},{"full_name":"Rexhepaj, Elton","last_name":"Rexhepaj","first_name":"Elton"},{"first_name":"Arnaud","last_name":"Royon","full_name":"Royon, Arnaud"},{"last_name":"Saari","full_name":"Saari, Markku A.","first_name":"Markku A."},{"last_name":"Schapman","full_name":"Schapman, Damien","first_name":"Damien"},{"full_name":"Schoonderwoert, Vincent","last_name":"Schoonderwoert","first_name":"Vincent"},{"first_name":"Britta","last_name":"Schroth-Diez","full_name":"Schroth-Diez, Britta"},{"full_name":"Schwartz, Stanley","last_name":"Schwartz","first_name":"Stanley"},{"first_name":"Michael","full_name":"Shaw, Michael","last_name":"Shaw"},{"last_name":"Spitaler","full_name":"Spitaler, Martin","first_name":"Martin"},{"first_name":"Martin T.","full_name":"Stoeckl, Martin T.","last_name":"Stoeckl"},{"first_name":"Damir","full_name":"Sudar, Damir","last_name":"Sudar"},{"first_name":"Jeremie","full_name":"Teillon, Jeremie","last_name":"Teillon"},{"first_name":"Stefan","last_name":"Terjung","full_name":"Terjung, Stefan"},{"last_name":"Thuenauer","full_name":"Thuenauer, Roland","first_name":"Roland"},{"full_name":"Wilms, Christian D.","last_name":"Wilms","first_name":"Christian D."},{"first_name":"Graham D.","last_name":"Wright","full_name":"Wright, Graham D."},{"first_name":"Roland","last_name":"Nitschke","full_name":"Nitschke, Roland"}],"title":"QUAREP-LiMi: A community-driven initiative to establish guidelines for quality assessment and reproducibility for instruments and images in light microscopy","citation":{"mla":"Nelson, Glyn, et al. “QUAREP-LiMi: A Community-Driven Initiative to Establish Guidelines for Quality Assessment and Reproducibility for Instruments and Images in Light Microscopy.” Journal of Microscopy, vol. 284, no. 1, Wiley, 2021, pp. 56–73, doi:10.1111/jmi.13041.","apa":"Nelson, G., Boehm, U., Bagley, S., Bajcsy, P., Bischof, J., Brown, C. M., … Nitschke, R. (2021). QUAREP-LiMi: A community-driven initiative to establish guidelines for quality assessment and reproducibility for instruments and images in light microscopy. Journal of Microscopy. Wiley. https://doi.org/10.1111/jmi.13041","ama":"Nelson G, Boehm U, Bagley S, et al. QUAREP-LiMi: A community-driven initiative to establish guidelines for quality assessment and reproducibility for instruments and images in light microscopy. Journal of Microscopy. 2021;284(1):56-73. doi:10.1111/jmi.13041","short":"G. Nelson, U. Boehm, S. Bagley, P. Bajcsy, J. Bischof, C.M. Brown, A. Dauphin, I.M. Dobbie, J.E. Eriksson, O. Faklaris, J. Fernandez-Rodriguez, A. Ferrand, L. Gelman, A. Gheisari, H. Hartmann, C. Kukat, A. Laude, M. Mitkovski, S. Munck, A.J. North, T.M. Rasse, U. Resch-Genger, L.C. Schuetz, A. Seitz, C. Strambio-De-Castillia, J.R. Swedlow, I. Alexopoulos, K. Aumayr, S. Avilov, G.J. Bakker, R.R. Bammann, A. Bassi, H. Beckert, S. Beer, Y. Belyaev, J. Bierwagen, K.A. Birngruber, M. Bosch, J. Breitlow, L.A. Cameron, J. Chalfoun, J.J. Chambers, C.L. Chen, E. Conde-Sousa, A.D. Corbett, F.P. Cordelieres, E.D. Nery, R. Dietzel, F. Eismann, E. Fazeli, A. Felscher, H. Fried, N. Gaudreault, W.I. Goh, T. Guilbert, R. Hadleigh, P. Hemmerich, G.A. Holst, M.S. Itano, C.B. Jaffe, H.K. Jambor, S.C. Jarvis, A. Keppler, D. Kirchenbuechler, M. Kirchner, N. Kobayashi, G. Krens, S. Kunis, J. Lacoste, M. Marcello, G.G. Martins, D.J. Metcalf, C.A. Mitchell, J. Moore, T. Mueller, M.S. Nelson, S. Ogg, S. Onami, A.L. Palmer, P. Paul-Gilloteaux, J.A. Pimentel, L. Plantard, S. Podder, E. Rexhepaj, A. Royon, M.A. Saari, D. Schapman, V. Schoonderwoert, B. Schroth-Diez, S. Schwartz, M. Shaw, M. Spitaler, M.T. Stoeckl, D. Sudar, J. Teillon, S. Terjung, R. Thuenauer, C.D. Wilms, G.D. Wright, R. Nitschke, Journal of Microscopy 284 (2021) 56–73.","ieee":"G. Nelson et al., “QUAREP-LiMi: A community-driven initiative to establish guidelines for quality assessment and reproducibility for instruments and images in light microscopy,” Journal of Microscopy, vol. 284, no. 1. Wiley, pp. 56–73, 2021.","chicago":"Nelson, Glyn, Ulrike Boehm, Steve Bagley, Peter Bajcsy, Johanna Bischof, Claire M. Brown, Aurélien Dauphin, et al. “QUAREP-LiMi: A Community-Driven Initiative to Establish Guidelines for Quality Assessment and Reproducibility for Instruments and Images in Light Microscopy.” Journal of Microscopy. Wiley, 2021. https://doi.org/10.1111/jmi.13041.","ista":"Nelson G et al. 2021. QUAREP-LiMi: A community-driven initiative to establish guidelines for quality assessment and reproducibility for instruments and images in light microscopy. Journal of Microscopy. 284(1), 56–73."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","main_file_link":[{"open_access":"1","url":"https://doi.org/10.1111/jmi.13041"}],"scopus_import":"1","intvolume":" 284","month":"08","abstract":[{"text":"A modern day light microscope has evolved from a tool devoted to making primarily empirical observations to what is now a sophisticated , quantitative device that is an integral part of both physical and life science research. Nowadays, microscopes are found in nearly every experimental laboratory. However, despite their prevalent use in capturing and quantifying scientific phenomena, neither a thorough understanding of the principles underlying quantitative imaging techniques nor appropriate knowledge of how to calibrate, operate and maintain microscopes can be taken for granted. This is clearly demonstrated by the well-documented and widespread difficulties that are routinely encountered in evaluating acquired data and reproducing scientific experiments. Indeed, studies have shown that more than 70% of researchers have tried and failed to repeat another scientist's experiments, while more than half have even failed to reproduce their own experiments. One factor behind the reproducibility crisis of experiments published in scientific journals is the frequent underreporting of imaging methods caused by a lack of awareness and/or a lack of knowledge of the applied technique. Whereas quality control procedures for some methods used in biomedical research, such as genomics (e.g. DNA sequencing, RNA-seq) or cytometry, have been introduced (e.g. ENCODE), this issue has not been tackled for optical microscopy instrumentation and images. Although many calibration standards and protocols have been published, there is a lack of awareness and agreement on common standards and guidelines for quality assessment and reproducibility. In April 2020, the QUality Assessment and REProducibility for instruments and images in Light Microscopy (QUAREP-LiMi) initiative was formed. This initiative comprises imaging scientists from academia and industry who share a common interest in achieving a better understanding of the performance and limitations of microscopes and improved quality control (QC) in light microscopy. The ultimate goal of the QUAREP-LiMi initiative is to establish a set of common QC standards, guidelines, metadata models and tools, including detailed protocols, with the ultimate aim of improving reproducible advances in scientific research. This White Paper (1) summarizes the major obstacles identified in the field that motivated the launch of the QUAREP-LiMi initiative; (2) identifies the urgent need to address these obstacles in a grassroots manner, through a community of stakeholders including, researchers, imaging scientists, bioimage analysts, bioimage informatics developers, corporate partners, funding agencies, standards organizations, scientific publishers and observers of such; (3) outlines the current actions of the QUAREP-LiMi initiative and (4) proposes future steps that can be taken to improve the dissemination and acceptance of the proposed guidelines to manage QC. To summarize, the principal goal of the QUAREP-LiMi initiative is to improve the overall quality and reproducibility of light microscope image data by introducing broadly accepted standard practices and accurately captured image data metrics.","lang":"eng"}],"oa_version":"Published Version","volume":284,"issue":"1","publication_status":"published","publication_identifier":{"eissn":["1365-2818"],"issn":["0022-2720"]},"language":[{"iso":"eng"}],"type":"journal_article","article_type":"original","status":"public","_id":"9911","department":[{"_id":"Bio"}],"date_updated":"2023-08-11T10:30:40Z"},{"date_updated":"2023-08-14T08:05:23Z","ddc":["610"],"file_date_updated":"2021-12-13T14:54:14Z","department":[{"_id":"Bio"}],"_id":"10179","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"type":"journal_article","article_type":"original","status":"public","publication_status":"published","publication_identifier":{"issn":["0261-4189"],"eissn":["1460-2075"]},"language":[{"iso":"eng"}],"file":[{"content_type":"application/pdf","access_level":"open_access","relation":"main_file","file_id":"10541","checksum":"78d2d02e775322297e774f72810a41a4","success":1,"date_updated":"2021-12-13T14:54:14Z","file_size":7819881,"creator":"alisjak","date_created":"2021-12-13T14:54:14Z","file_name":"2021_EMBO_Bajaj.pdf"}],"issue":"23","volume":40,"abstract":[{"text":"Inhibitory GABAergic interneurons migrate over long distances from their extracortical origin into the developing cortex. In humans, this process is uniquely slow and prolonged, and it is unclear whether guidance cues unique to humans govern the various phases of this complex developmental process. Here, we use fused cerebral organoids to identify key roles of neurotransmitter signaling pathways in guiding the migratory behavior of human cortical interneurons. We use scRNAseq to reveal expression of GABA, glutamate, glycine, and serotonin receptors along distinct maturation trajectories across interneuron migration. We develop an image analysis software package, TrackPal, to simultaneously assess 48 parameters for entire migration tracks of individual cells. By chemical screening, we show that different modes of interneuron migration depend on distinct neurotransmitter signaling pathways, linking transcriptional maturation of interneurons with their migratory behavior. Altogether, our study provides a comprehensive quantitative analysis of human interneuron migration and its functional modulation by neurotransmitter signaling.","lang":"eng"}],"oa_version":"Published Version","pmid":1,"scopus_import":"1","intvolume":" 40","month":"10","citation":{"ista":"Bajaj S, Bagley JA, Sommer CM, Vertesy A, Nagumo Wong S, Krenn V, Lévi-Strauss J, Knoblich JA. 2021. Neurotransmitter signaling regulates distinct phases of multimodal human interneuron migration. EMBO Journal. 40(23), e108714.","chicago":"Bajaj, Sunanjay, Joshua A. Bagley, Christoph M Sommer, Abel Vertesy, Sakurako Nagumo Wong, Veronica Krenn, Julie Lévi-Strauss, and Juergen A. Knoblich. “Neurotransmitter Signaling Regulates Distinct Phases of Multimodal Human Interneuron Migration.” EMBO Journal. Embo Press, 2021. https://doi.org/10.15252/embj.2021108714.","ama":"Bajaj S, Bagley JA, Sommer CM, et al. Neurotransmitter signaling regulates distinct phases of multimodal human interneuron migration. EMBO Journal. 2021;40(23). doi:10.15252/embj.2021108714","apa":"Bajaj, S., Bagley, J. A., Sommer, C. M., Vertesy, A., Nagumo Wong, S., Krenn, V., … Knoblich, J. A. (2021). Neurotransmitter signaling regulates distinct phases of multimodal human interneuron migration. EMBO Journal. Embo Press. https://doi.org/10.15252/embj.2021108714","ieee":"S. Bajaj et al., “Neurotransmitter signaling regulates distinct phases of multimodal human interneuron migration,” EMBO Journal, vol. 40, no. 23. Embo Press, 2021.","short":"S. Bajaj, J.A. Bagley, C.M. Sommer, A. Vertesy, S. Nagumo Wong, V. Krenn, J. Lévi-Strauss, J.A. Knoblich, EMBO Journal 40 (2021).","mla":"Bajaj, Sunanjay, et al. “Neurotransmitter Signaling Regulates Distinct Phases of Multimodal Human Interneuron Migration.” EMBO Journal, vol. 40, no. 23, e108714, Embo Press, 2021, doi:10.15252/embj.2021108714."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","article_processing_charge":"Yes (in subscription journal)","external_id":{"pmid":["34661293"],"isi":["000708012800001"]},"author":[{"first_name":"Sunanjay","full_name":"Bajaj, Sunanjay","last_name":"Bajaj"},{"first_name":"Joshua A.","last_name":"Bagley","full_name":"Bagley, Joshua A."},{"first_name":"Christoph M","id":"4DF26D8C-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0003-1216-9105","full_name":"Sommer, Christoph M","last_name":"Sommer"},{"first_name":"Abel","full_name":"Vertesy, Abel","last_name":"Vertesy"},{"first_name":"Sakurako","full_name":"Nagumo Wong, Sakurako","last_name":"Nagumo Wong"},{"first_name":"Veronica","full_name":"Krenn, Veronica","last_name":"Krenn"},{"last_name":"Lévi-Strauss","full_name":"Lévi-Strauss, Julie","first_name":"Julie"},{"last_name":"Knoblich","full_name":"Knoblich, Juergen A.","first_name":"Juergen A."}],"title":"Neurotransmitter signaling regulates distinct phases of multimodal human interneuron migration","article_number":"e108714","year":"2021","has_accepted_license":"1","isi":1,"publication":"EMBO Journal","day":"18","date_created":"2021-10-24T22:01:34Z","date_published":"2021-10-18T00:00:00Z","doi":"10.15252/embj.2021108714","acknowledgement":"We thank all Knoblich laboratory members for continued support and discussions. We thank the IMP/IMBA BioOptics facility, particularly Pawel Pasierbek, Alberto Moreno Cencerrado and Gerald Schmauss, the IMP/IMBA Molecular Biology Service, in particular Robert Heinen, the IMP Bioinformatics facility, in particular Thomas Burkard, the Vienna Biocenter Core Facilities (VBCF) Histopathology facility, in particular Tamara Engelmaier, and the VBCF Next Generation Sequencing Facility, notably Volodymyr Shubchynskyy and Carmen Czepe. We would also like to thank Simon Haendeler for advice on statistical analyses, Jose Guzman for discussions and assistance with slice culture setups, Oliver L. Eichmueller for discussions and assistance with microscopy, and E.H. Gustafson, S. Wolfinger, and D. Reumann for technical assistance regarding generation of cerebral organoids. This project received funding from the European Union’s Horizon 2020 research and innovation program under the Marie Skłodowska-Curie fellowship agreement Nr.707109 awarded to J.A.B. Work in J.A.K.'s laboratory is supported by the Austrian Federal Ministry of Education, Science and Research, the Austrian Academy of Sciences, the City of Vienna, a Research Program of the Austrian Science Fund FWF (SFBF78 Stem Cell, F 7803-B) and a European Research Council (ERC) Advanced Grant under the European 20 Union’s Horizon 2020 program (grant agreement no. 695642).","oa":1,"quality_controlled":"1","publisher":"Embo Press"},{"user_id":"c635000d-4b10-11ee-a964-aac5a93f6ac1","citation":{"ista":"Pranger CL, Singer J, Köhler VK, Pali‐Schöll I, Fiocchi A, Karagiannis SN, Zenarruzabeitia O, Borrego F, Jensen‐Jarolim E. 2021. PIPE‐cloned human IgE and IgG4 antibodies: New tools for investigating cow’s milk allergy and tolerance. Allergy. 76(5), 1553–1556.","chicago":"Pranger, Christina L., Judit Singer, Verena K. Köhler, Isabella Pali‐Schöll, Alessandro Fiocchi, Sophia N. Karagiannis, Olatz Zenarruzabeitia, Francisco Borrego, and Erika Jensen‐Jarolim. “PIPE‐cloned Human IgE and IgG4 Antibodies: New Tools for Investigating Cow’s Milk Allergy and Tolerance.” Allergy. Wiley, 2021. https://doi.org/10.1111/all.14604.","short":"C.L. Pranger, J. Singer, V.K. Köhler, I. Pali‐Schöll, A. Fiocchi, S.N. Karagiannis, O. Zenarruzabeitia, F. Borrego, E. Jensen‐Jarolim, Allergy 76 (2021) 1553–1556.","ieee":"C. L. Pranger et al., “PIPE‐cloned human IgE and IgG4 antibodies: New tools for investigating cow’s milk allergy and tolerance,” Allergy, vol. 76, no. 5. Wiley, pp. 1553–1556, 2021.","ama":"Pranger CL, Singer J, Köhler VK, et al. PIPE‐cloned human IgE and IgG4 antibodies: New tools for investigating cow’s milk allergy and tolerance. Allergy. 2021;76(5):1553-1556. doi:10.1111/all.14604","apa":"Pranger, C. L., Singer, J., Köhler, V. K., Pali‐Schöll, I., Fiocchi, A., Karagiannis, S. N., … Jensen‐Jarolim, E. (2021). PIPE‐cloned human IgE and IgG4 antibodies: New tools for investigating cow’s milk allergy and tolerance. Allergy. Wiley. https://doi.org/10.1111/all.14604","mla":"Pranger, Christina L., et al. “PIPE‐cloned Human IgE and IgG4 Antibodies: New Tools for Investigating Cow’s Milk Allergy and Tolerance.” Allergy, vol. 76, no. 5, Wiley, 2021, pp. 1553–56, doi:10.1111/all.14604."},"title":"PIPE‐cloned human IgE and IgG4 antibodies: New tools for investigating cow's milk allergy and tolerance","article_processing_charge":"No","external_id":{"isi":["000577708800001"],"pmid":["32990982"]},"author":[{"first_name":"Christina L.","full_name":"Pranger, Christina L.","last_name":"Pranger"},{"last_name":"Fazekas-Singer","orcid":"0000-0002-8777-3502","full_name":"Fazekas-Singer, Judit","first_name":"Judit","id":"36432834-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Köhler","full_name":"Köhler, Verena K.","first_name":"Verena K."},{"last_name":"Pali‐Schöll","full_name":"Pali‐Schöll, Isabella","first_name":"Isabella"},{"first_name":"Alessandro","full_name":"Fiocchi, Alessandro","last_name":"Fiocchi"},{"first_name":"Sophia N.","last_name":"Karagiannis","full_name":"Karagiannis, Sophia N."},{"full_name":"Zenarruzabeitia, Olatz","last_name":"Zenarruzabeitia","first_name":"Olatz"},{"last_name":"Borrego","full_name":"Borrego, Francisco","first_name":"Francisco"},{"last_name":"Jensen‐Jarolim","full_name":"Jensen‐Jarolim, Erika","first_name":"Erika"}],"publication":"Allergy","day":"01","year":"2021","isi":1,"has_accepted_license":"1","date_created":"2022-03-08T11:19:05Z","date_published":"2021-05-01T00:00:00Z","doi":"10.1111/all.14604","page":"1553-1556","acknowledgement":"This work was supported by the Austrian Science Fund (FWF) grants MCCA W1248-B30 and SFB F4606-B28 to EJJ. CP received a short-term research fellowship of the European Federation of Immunological Societies (EFIS-IL) for a research visit at Biocruces Bizkaia Health Research Institute, Barakaldo, Spain. VKK received an EFIS-IL short-term research fellowship for a research visit at King’s College London. The research was funded by the National Institute for Health Research (NIHR) Biomedical Research Centre (BRC) based at Guy's and St Thomas' NHS Foundation Trust and King's College London (IS-BRC-1215-20006) (SNK). The authors acknowledge support by the Medical Research Council (MR/L023091/1) (SNK); Breast Cancer Now (147; KCL-BCN-Q3)(SNK); Cancer Research UK (C30122/A11527; C30122/A15774) (SNK); Cancer Research UK King's Health Partners Centre at King's College London (C604/A25135) (SNK); CRUK/NIHR in England/DoH for Scotland, Wales and Northern Ireland Experimental Cancer Medicine Centre (C10355/A15587) (SNK). The views expressed are those of the author(s) and not necessarily those of the NHS, the NIHR or the Department of Health. Additionally, this work was funded by Instituto de Salud Carlos III through the project \"PI16/01223\" (Co-funded by European Regional Development Fund; “A way to make Europe”) to FB and by the Department of Health, Basque Government through the project “2019111031” to OZ. OZ is recipient of a Sara Borrell 2017 post-doctoral contract “CD17/00128” funded by Instituto de Salud Carlos III (Co-funded by European Social Fund; “Investing in your future”).","oa":1,"quality_controlled":"1","publisher":"Wiley","ddc":["570"],"date_updated":"2023-09-05T15:58:53Z","file_date_updated":"2022-03-08T11:23:16Z","department":[{"_id":"Bio"}],"_id":"10836","keyword":["Immunology","Immunology and Allergy"],"status":"public","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"article_type":"letter_note","type":"journal_article","language":[{"iso":"eng"}],"file":[{"date_created":"2022-03-08T11:23:16Z","file_name":"2021_Allergy_Pranger.pdf","date_updated":"2022-03-08T11:23:16Z","file_size":626081,"creator":"dernst","checksum":"9526f9554112fc027c9f7fa540c488cd","file_id":"10837","success":1,"content_type":"application/pdf","access_level":"open_access","relation":"main_file"}],"publication_status":"published","publication_identifier":{"issn":["0105-4538"],"eissn":["1398-9995"]},"issue":"5","volume":76,"pmid":1,"oa_version":"Published Version","intvolume":" 76","month":"05","scopus_import":"1"},{"publisher":"American Association for the Advancement of Science","quality_controlled":"1","oa":1,"acknowledgement":"The authors thank A. Higginbotham, E. J. H. Lee and F. R. Martins for helpful discussions. This research was supported by the Scientific Service Units of IST Austria through resources provided by the MIBA Machine Shop and the nanofabrication facility; the NOMIS Foundation and Microsoft; the European Union’s Horizon 2020 research and innovation program under the Marie SklodowskaCurie grant agreement No 844511; the FETOPEN Grant Agreement No. 828948; the European Research Commission through the grant agreement HEMs-DAM No 716655; the Spanish Ministry of Science and Innovation through Grants PGC2018-097018-B-I00, PCI2018-093026, FIS2016-80434-P (AEI/FEDER, EU), RYC2011-09345 (Ram´on y Cajal Programme), and the Mar´ıa de Maeztu Programme for Units of Excellence in R&D (CEX2018-000805-M); the CSIC Research Platform on Quantum Technologies PTI-001.","doi":"10.1126/science.abf1513","date_published":"2021-07-02T00:00:00Z","date_created":"2020-12-02T10:51:52Z","isi":1,"year":"2021","day":"02","publication":"Science","project":[{"name":"Hybrid Semiconductor - Superconductor Quantum Devices","_id":"262116AA-B435-11E9-9278-68D0E5697425"},{"grant_number":"844511","name":"Majorana bound states in Ge/SiGe heterostructures","call_identifier":"H2020","_id":"26A151DA-B435-11E9-9278-68D0E5697425"}],"article_number":"82-88","author":[{"id":"C0BB2FAC-D767-11E9-B658-BC13E6697425","first_name":"Marco","full_name":"Valentini, Marco","last_name":"Valentini"},{"last_name":"Peñaranda","full_name":"Peñaranda, Fernando","first_name":"Fernando"},{"id":"340F461A-F248-11E8-B48F-1D18A9856A87","first_name":"Andrea C","full_name":"Hofmann, Andrea C","last_name":"Hofmann"},{"id":"33F94E3C-F248-11E8-B48F-1D18A9856A87","first_name":"Matthias","last_name":"Brauns","full_name":"Brauns, Matthias"},{"last_name":"Hauschild","full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522","first_name":"Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Peter","full_name":"Krogstrup, Peter","last_name":"Krogstrup"},{"last_name":"San-Jose","full_name":"San-Jose, Pablo","first_name":"Pablo"},{"last_name":"Prada","full_name":"Prada, Elsa","first_name":"Elsa"},{"full_name":"Aguado, Ramón","last_name":"Aguado","first_name":"Ramón"},{"full_name":"Katsaros, Georgios","orcid":"0000-0001-8342-202X","last_name":"Katsaros","first_name":"Georgios","id":"38DB5788-F248-11E8-B48F-1D18A9856A87"}],"article_processing_charge":"No","external_id":{"arxiv":["2008.02348"],"isi":["000677843100034"]},"title":"Nontopological zero-bias peaks in full-shell nanowires induced by flux-tunable Andreev states","citation":{"short":"M. Valentini, F. Peñaranda, A.C. Hofmann, M. Brauns, R. Hauschild, P. Krogstrup, P. San-Jose, E. Prada, R. Aguado, G. Katsaros, Science 373 (2021).","ieee":"M. Valentini et al., “Nontopological zero-bias peaks in full-shell nanowires induced by flux-tunable Andreev states,” Science, vol. 373, no. 6550. American Association for the Advancement of Science, 2021.","apa":"Valentini, M., Peñaranda, F., Hofmann, A. C., Brauns, M., Hauschild, R., Krogstrup, P., … Katsaros, G. (2021). Nontopological zero-bias peaks in full-shell nanowires induced by flux-tunable Andreev states. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.abf1513","ama":"Valentini M, Peñaranda F, Hofmann AC, et al. Nontopological zero-bias peaks in full-shell nanowires induced by flux-tunable Andreev states. Science. 2021;373(6550). doi:10.1126/science.abf1513","mla":"Valentini, Marco, et al. “Nontopological Zero-Bias Peaks in Full-Shell Nanowires Induced by Flux-Tunable Andreev States.” Science, vol. 373, no. 6550, 82–88, American Association for the Advancement of Science, 2021, doi:10.1126/science.abf1513.","ista":"Valentini M, Peñaranda F, Hofmann AC, Brauns M, Hauschild R, Krogstrup P, San-Jose P, Prada E, Aguado R, Katsaros G. 2021. Nontopological zero-bias peaks in full-shell nanowires induced by flux-tunable Andreev states. Science. 373(6550), 82–88.","chicago":"Valentini, Marco, Fernando Peñaranda, Andrea C Hofmann, Matthias Brauns, Robert Hauschild, Peter Krogstrup, Pablo San-Jose, Elsa Prada, Ramón Aguado, and Georgios Katsaros. “Nontopological Zero-Bias Peaks in Full-Shell Nanowires Induced by Flux-Tunable Andreev States.” Science. American Association for the Advancement of Science, 2021. https://doi.org/10.1126/science.abf1513."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","scopus_import":"1","main_file_link":[{"open_access":"1","url":"https://arxiv.org/abs/2008.02348"}],"month":"07","intvolume":" 373","abstract":[{"lang":"eng","text":"A semiconducting nanowire fully wrapped by a superconducting shell has been proposed as a platform for obtaining Majorana modes at small magnetic fields. In this study, we demonstrate that the appearance of subgap states in such structures is actually governed by the junction region in tunneling spectroscopy measurements and not the full-shell nanowire itself. Short tunneling regions never show subgap states, whereas longer junctions always do. This can be understood in terms of quantum dots forming in the junction and hosting Andreev levels in the Yu-Shiba-Rusinov regime. The intricate magnetic field dependence of the Andreev levels, through both the Zeeman and Little-Parks effects, may result in robust zero-bias peaks—features that could be easily misinterpreted as originating from Majorana zero modes but are unrelated to topological superconductivity."}],"acknowledged_ssus":[{"_id":"M-Shop"},{"_id":"NanoFab"}],"oa_version":"Submitted Version","volume":373,"related_material":{"record":[{"id":"13286","status":"public","relation":"dissertation_contains"},{"relation":"research_data","status":"public","id":"9389"}],"link":[{"relation":"press_release","url":"https://ist.ac.at/en/news/unfinding-a-split-electron/","description":"News on IST Homepage"}]},"issue":"6550","ec_funded":1,"publication_identifier":{"issn":["00368075"],"eissn":["10959203"]},"publication_status":"published","language":[{"iso":"eng"}],"article_type":"original","type":"journal_article","status":"public","_id":"8910","department":[{"_id":"GeKa"},{"_id":"Bio"}],"date_updated":"2024-02-21T12:40:09Z"},{"article_number":"3058","project":[{"call_identifier":"H2020","_id":"260C2330-B435-11E9-9278-68D0E5697425","name":"ISTplus - Postdoctoral Fellowships","grant_number":"754411"},{"grant_number":"715508","name":"Probing the Reversibility of Autism Spectrum Disorders by Employing in vivo and in vitro Models","_id":"25444568-B435-11E9-9278-68D0E5697425","call_identifier":"H2020"},{"name":"Molecular Drug Targets","grant_number":"W1232-B24","_id":"2548AE96-B435-11E9-9278-68D0E5697425","call_identifier":"FWF"},{"_id":"05A0D778-7A3F-11EA-A408-12923DDC885E","grant_number":"F07807","name":"Neural stem cells in autism and epilepsy"},{"name":"Optical control of synaptic function via adhesion molecules","grant_number":"I03600","call_identifier":"FWF","_id":"265CB4D0-B435-11E9-9278-68D0E5697425"}],"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","citation":{"ista":"Morandell J, Schwarz LA, Basilico B, Tasciyan S, Dimchev GA, Nicolas A, Sommer CM, Kreuzinger C, Dotter C, Knaus L, Dobler Z, Cacci E, Schur FK, Danzl JG, Novarino G. 2021. Cul3 regulates cytoskeleton protein homeostasis and cell migration during a critical window of brain development. Nature Communications. 12(1), 3058.","chicago":"Morandell, Jasmin, Lena A Schwarz, Bernadette Basilico, Saren Tasciyan, Georgi A Dimchev, Armel Nicolas, Christoph M Sommer, et al. “Cul3 Regulates Cytoskeleton Protein Homeostasis and Cell Migration during a Critical Window of Brain Development.” Nature Communications. Springer Nature, 2021. https://doi.org/10.1038/s41467-021-23123-x.","apa":"Morandell, J., Schwarz, L. A., Basilico, B., Tasciyan, S., Dimchev, G. A., Nicolas, A., … Novarino, G. (2021). Cul3 regulates cytoskeleton protein homeostasis and cell migration during a critical window of brain development. Nature Communications. Springer Nature. https://doi.org/10.1038/s41467-021-23123-x","ama":"Morandell J, Schwarz LA, Basilico B, et al. Cul3 regulates cytoskeleton protein homeostasis and cell migration during a critical window of brain development. Nature Communications. 2021;12(1). doi:10.1038/s41467-021-23123-x","ieee":"J. Morandell et al., “Cul3 regulates cytoskeleton protein homeostasis and cell migration during a critical window of brain development,” Nature Communications, vol. 12, no. 1. Springer Nature, 2021.","short":"J. Morandell, L.A. Schwarz, B. Basilico, S. Tasciyan, G.A. Dimchev, A. Nicolas, C.M. Sommer, C. Kreuzinger, C. Dotter, L. Knaus, Z. Dobler, E. Cacci, F.K. Schur, J.G. Danzl, G. Novarino, Nature Communications 12 (2021).","mla":"Morandell, Jasmin, et al. “Cul3 Regulates Cytoskeleton Protein Homeostasis and Cell Migration during a Critical Window of Brain Development.” Nature Communications, vol. 12, no. 1, 3058, Springer Nature, 2021, doi:10.1038/s41467-021-23123-x."},"title":"Cul3 regulates cytoskeleton protein homeostasis and cell migration during a critical window of brain development","external_id":{"isi":["000658769900010"]},"article_processing_charge":"No","author":[{"full_name":"Morandell, Jasmin","last_name":"Morandell","id":"4739D480-F248-11E8-B48F-1D18A9856A87","first_name":"Jasmin"},{"id":"29A8453C-F248-11E8-B48F-1D18A9856A87","first_name":"Lena A","full_name":"Schwarz, Lena A","last_name":"Schwarz"},{"id":"36035796-5ACA-11E9-A75E-7AF2E5697425","first_name":"Bernadette","full_name":"Basilico, Bernadette","orcid":"0000-0003-1843-3173","last_name":"Basilico"},{"last_name":"Tasciyan","orcid":"0000-0003-1671-393X","full_name":"Tasciyan, Saren","id":"4323B49C-F248-11E8-B48F-1D18A9856A87","first_name":"Saren"},{"id":"38C393BE-F248-11E8-B48F-1D18A9856A87","first_name":"Georgi A","last_name":"Dimchev","orcid":"0000-0001-8370-6161","full_name":"Dimchev, Georgi A"},{"first_name":"Armel","id":"2A103192-F248-11E8-B48F-1D18A9856A87","last_name":"Nicolas","full_name":"Nicolas, Armel"},{"last_name":"Sommer","full_name":"Sommer, Christoph M","orcid":"0000-0003-1216-9105","id":"4DF26D8C-F248-11E8-B48F-1D18A9856A87","first_name":"Christoph M"},{"first_name":"Caroline","id":"382077BA-F248-11E8-B48F-1D18A9856A87","last_name":"Kreuzinger","full_name":"Kreuzinger, Caroline"},{"first_name":"Christoph","id":"4C66542E-F248-11E8-B48F-1D18A9856A87","full_name":"Dotter, Christoph","orcid":"0000-0002-9033-9096","last_name":"Dotter"},{"id":"3B2ABCF4-F248-11E8-B48F-1D18A9856A87","first_name":"Lisa","full_name":"Knaus, Lisa","last_name":"Knaus"},{"id":"D23090A2-9057-11EA-883A-A8396FC7A38F","first_name":"Zoe","full_name":"Dobler, Zoe","last_name":"Dobler"},{"first_name":"Emanuele","last_name":"Cacci","full_name":"Cacci, Emanuele"},{"id":"48AD8942-F248-11E8-B48F-1D18A9856A87","first_name":"Florian KM","orcid":"0000-0003-4790-8078","full_name":"Schur, Florian KM","last_name":"Schur"},{"first_name":"Johann G","id":"42EFD3B6-F248-11E8-B48F-1D18A9856A87","last_name":"Danzl","full_name":"Danzl, Johann G","orcid":"0000-0001-8559-3973"},{"last_name":"Novarino","orcid":"0000-0002-7673-7178","full_name":"Novarino, Gaia","first_name":"Gaia","id":"3E57A680-F248-11E8-B48F-1D18A9856A87"}],"acknowledgement":"We thank A. Coll Manzano, F. Freeman, M. Ladron de Guevara, and A. Ç. Yahya for technical assistance, S. Deixler, A. Lepold, and A. Schlerka for the management of our animal colony, as well as M. Schunn and the Preclinical Facility team for technical assistance. We thank K. Heesom and her team at the University of Bristol Proteomics Facility for the proteomics sample preparation, data generation, and analysis support. We thank Y. B. Simon for kindly providing the plasmid for lentiviral labeling. Further, we thank M. Sixt for his advice regarding cell migration and the fruitful discussions. This work was supported by the ISTPlus postdoctoral fellowship (Grant Agreement No. 754411) to B.B., by the European Union’s Horizon 2020 research and innovation program (ERC) grant 715508 (REVERSEAUTISM), and by the Austrian Science Fund (FWF) to G.N. (DK W1232-B24 and SFB F7807-B) and to J.G.D (I3600-B27).","oa":1,"publisher":"Springer Nature","quality_controlled":"1","publication":"Nature Communications","day":"24","year":"2021","has_accepted_license":"1","isi":1,"date_created":"2021-05-28T11:49:46Z","doi":"10.1038/s41467-021-23123-x","date_published":"2021-05-24T00:00:00Z","_id":"9429","keyword":["General Biochemistry","Genetics and Molecular Biology"],"status":"public","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"article_type":"original","type":"journal_article","ddc":["572"],"date_updated":"2024-03-27T23:30:23Z","department":[{"_id":"GaNo"},{"_id":"JoDa"},{"_id":"FlSc"},{"_id":"MiSi"},{"_id":"LifeSc"},{"_id":"Bio"}],"file_date_updated":"2021-05-28T12:39:43Z","oa_version":"Published Version","abstract":[{"lang":"eng","text":"De novo loss of function mutations in the ubiquitin ligase-encoding gene Cullin3 lead to autism spectrum disorder (ASD). In mouse, constitutive haploinsufficiency leads to motor coordination deficits as well as ASD-relevant social and cognitive impairments. However, induction of Cul3 haploinsufficiency later in life does not lead to ASD-relevant behaviors, pointing to an important role of Cul3 during a critical developmental window. Here we show that Cul3 is essential to regulate neuronal migration and, therefore, constitutive Cul3 heterozygous mutant mice display cortical lamination abnormalities. At the molecular level, we found that Cul3 controls neuronal migration by tightly regulating the amount of Plastin3 (Pls3), a previously unrecognized player of neural migration. Furthermore, we found that Pls3 cell-autonomously regulates cell migration by regulating actin cytoskeleton organization, and its levels are inversely proportional to neural migration speed. Finally, we provide evidence that cellular phenotypes associated with autism-linked gene haploinsufficiency can be rescued by transcriptional activation of the intact allele in vitro, offering a proof of concept for a potential therapeutic approach for ASDs."}],"acknowledged_ssus":[{"_id":"PreCl"}],"intvolume":" 12","month":"05","language":[{"iso":"eng"}],"file":[{"access_level":"open_access","relation":"main_file","content_type":"application/pdf","checksum":"337e0f7959c35ec959984cacdcb472ba","file_id":"9430","success":1,"creator":"kschuh","date_updated":"2021-05-28T12:39:43Z","file_size":9358599,"date_created":"2021-05-28T12:39:43Z","file_name":"2021_NatureCommunications_Morandell.pdf"}],"publication_status":"published","publication_identifier":{"eissn":["2041-1723"]},"ec_funded":1,"issue":"1","volume":12,"related_material":{"record":[{"status":"public","id":"7800","relation":"earlier_version"},{"relation":"dissertation_contains","status":"public","id":"12401"}],"link":[{"relation":"press_release","url":"https://ist.ac.at/en/news/defective-gene-slows-down-brain-cells/"}]}},{"acknowledgement":"We would like to acknowledge Bioimaging and Life Science Facilities at IST Austria for continuous support and also the Plant Sciences Core Facility of CEITEC Masaryk University for their support with obtaining a part of the scientific data. We gratefully acknowledge Lindy Abas for help with ABP1::GFP-ABP1 construct design. This project has received funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program [grant agreement no. 742985] and Austrian Science Fund (FWF) [I 3630-B25] to J.F.; DOC Fellowship of the Austrian Academy of Sciences to L.L.; the European Structural and Investment Funds, Operational Programme Research, Development and Education - Project „MSCAfellow@MUNI“ [CZ.02.2.69/0.0/0.0/17_050/0008496] to M.P.. This project was also supported by the Czech Science Foundation [GA 20-20860Y] to M.Z and MEYS CR [project no.CZ.02.1.01/0.0/0.0/16_019/0000738] to M. Č.","publisher":"Elsevier","quality_controlled":"1","oa":1,"has_accepted_license":"1","isi":1,"year":"2021","day":"01","publication":"Plant Science","doi":"10.1016/j.plantsci.2020.110750","date_published":"2021-02-01T00:00:00Z","date_created":"2020-12-09T14:48:28Z","article_number":"110750","project":[{"call_identifier":"H2020","_id":"261099A6-B435-11E9-9278-68D0E5697425","name":"Tracing Evolution of Auxin Transport and Polarity in Plants","grant_number":"742985"},{"grant_number":"I03630","name":"Molecular mechanisms of endocytic cargo recognition in plants","_id":"26538374-B435-11E9-9278-68D0E5697425","call_identifier":"FWF"},{"name":"A Case Study of Plant Growth Regulation: Molecular Mechanism of Auxin-mediated Rapid Growth Inhibition in Arabidopsis Root","grant_number":"25351","_id":"26B4D67E-B435-11E9-9278-68D0E5697425"}],"citation":{"mla":"Gelová, Zuzana, et al. “Developmental Roles of Auxin Binding Protein 1 in Arabidopsis Thaliana.” Plant Science, vol. 303, 110750, Elsevier, 2021, doi:10.1016/j.plantsci.2020.110750.","ieee":"Z. Gelová et al., “Developmental roles of auxin binding protein 1 in Arabidopsis thaliana,” Plant Science, vol. 303. Elsevier, 2021.","short":"Z. Gelová, M.C. Gallei, M. Pernisová, G. Brunoud, X. Zhang, M. Glanc, L. Li, J. Michalko, Z. Pavlovicova, I. Verstraeten, H. Han, J. Hajny, R. Hauschild, M. Čovanová, M. Zwiewka, L. Hörmayer, M. Fendrych, T. Xu, T. Vernoux, J. Friml, Plant Science 303 (2021).","ama":"Gelová Z, Gallei MC, Pernisová M, et al. Developmental roles of auxin binding protein 1 in Arabidopsis thaliana. Plant Science. 2021;303. doi:10.1016/j.plantsci.2020.110750","apa":"Gelová, Z., Gallei, M. C., Pernisová, M., Brunoud, G., Zhang, X., Glanc, M., … Friml, J. (2021). Developmental roles of auxin binding protein 1 in Arabidopsis thaliana. Plant Science. Elsevier. https://doi.org/10.1016/j.plantsci.2020.110750","chicago":"Gelová, Zuzana, Michelle C Gallei, Markéta Pernisová, Géraldine Brunoud, Xixi Zhang, Matous Glanc, Lanxin Li, et al. “Developmental Roles of Auxin Binding Protein 1 in Arabidopsis Thaliana.” Plant Science. Elsevier, 2021. https://doi.org/10.1016/j.plantsci.2020.110750.","ista":"Gelová Z, Gallei MC, Pernisová M, Brunoud G, Zhang X, Glanc M, Li L, Michalko J, Pavlovicova Z, Verstraeten I, Han H, Hajny J, Hauschild R, Čovanová M, Zwiewka M, Hörmayer L, Fendrych M, Xu T, Vernoux T, Friml J. 2021. Developmental roles of auxin binding protein 1 in Arabidopsis thaliana. Plant Science. 303, 110750."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","author":[{"orcid":"0000-0003-4783-1752","full_name":"Gelová, Zuzana","last_name":"Gelová","id":"0AE74790-0E0B-11E9-ABC7-1ACFE5697425","first_name":"Zuzana"},{"first_name":"Michelle C","id":"35A03822-F248-11E8-B48F-1D18A9856A87","full_name":"Gallei, Michelle C","orcid":"0000-0003-1286-7368","last_name":"Gallei"},{"last_name":"Pernisová","full_name":"Pernisová, Markéta","first_name":"Markéta"},{"last_name":"Brunoud","full_name":"Brunoud, Géraldine","first_name":"Géraldine"},{"first_name":"Xixi","id":"61A66458-47E9-11EA-85BA-8AEAAF14E49A","last_name":"Zhang","orcid":"0000-0001-7048-4627","full_name":"Zhang, Xixi"},{"first_name":"Matous","id":"1AE1EA24-02D0-11E9-9BAA-DAF4881429F2","last_name":"Glanc","full_name":"Glanc, Matous","orcid":"0000-0003-0619-7783"},{"id":"367EF8FA-F248-11E8-B48F-1D18A9856A87","first_name":"Lanxin","last_name":"Li","orcid":"0000-0002-5607-272X","full_name":"Li, Lanxin"},{"id":"483727CA-F248-11E8-B48F-1D18A9856A87","first_name":"Jaroslav","last_name":"Michalko","full_name":"Michalko, Jaroslav"},{"first_name":"Zlata","full_name":"Pavlovicova, Zlata","last_name":"Pavlovicova"},{"first_name":"Inge","id":"362BF7FE-F248-11E8-B48F-1D18A9856A87","full_name":"Verstraeten, Inge","orcid":"0000-0001-7241-2328","last_name":"Verstraeten"},{"full_name":"Han, Huibin","last_name":"Han","id":"31435098-F248-11E8-B48F-1D18A9856A87","first_name":"Huibin"},{"last_name":"Hajny","orcid":"0000-0003-2140-7195","full_name":"Hajny, Jakub","first_name":"Jakub","id":"4800CC20-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Hauschild","orcid":"0000-0001-9843-3522","full_name":"Hauschild, Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert"},{"first_name":"Milada","last_name":"Čovanová","full_name":"Čovanová, Milada"},{"full_name":"Zwiewka, Marta","last_name":"Zwiewka","first_name":"Marta"},{"first_name":"Lukas","id":"2EEE7A2A-F248-11E8-B48F-1D18A9856A87","last_name":"Hörmayer","orcid":"0000-0001-8295-2926","full_name":"Hörmayer, Lukas"},{"first_name":"Matyas","id":"43905548-F248-11E8-B48F-1D18A9856A87","last_name":"Fendrych","full_name":"Fendrych, Matyas","orcid":"0000-0002-9767-8699"},{"last_name":"Xu","full_name":"Xu, Tongda","first_name":"Tongda"},{"last_name":"Vernoux","full_name":"Vernoux, Teva","first_name":"Teva"},{"last_name":"Friml","full_name":"Friml, Jiří","orcid":"0000-0002-8302-7596","first_name":"Jiří","id":"4159519E-F248-11E8-B48F-1D18A9856A87"}],"article_processing_charge":"Yes (via OA deal)","external_id":{"isi":["000614154500001"],"pmid":["33487339"]},"title":"Developmental roles of auxin binding protein 1 in Arabidopsis thaliana","acknowledged_ssus":[{"_id":"Bio"},{"_id":"LifeSc"}],"abstract":[{"text":"Auxin is a major plant growth regulator, but current models on auxin perception and signaling cannot explain the whole plethora of auxin effects, in particular those associated with rapid responses. A possible candidate for a component of additional auxin perception mechanisms is the AUXIN BINDING PROTEIN 1 (ABP1), whose function in planta remains unclear.\r\nHere we combined expression analysis with gain- and loss-of-function approaches to analyze the role of ABP1 in plant development. ABP1 shows a broad expression largely overlapping with, but not regulated by, transcriptional auxin response activity. Furthermore, ABP1 activity is not essential for the transcriptional auxin signaling. Genetic in planta analysis revealed that abp1 loss-of-function mutants show largely normal development with minor defects in bolting. On the other hand, ABP1 gain-of-function alleles show a broad range of growth and developmental defects, including root and hypocotyl growth and bending, lateral root and leaf development, bolting, as well as response to heat stress. At the cellular level, ABP1 gain-of-function leads to impaired auxin effect on PIN polar distribution and affects BFA-sensitive PIN intracellular aggregation.\r\nThe gain-of-function analysis suggests a broad, but still mechanistically unclear involvement of ABP1 in plant development, possibly masked in abp1 loss-of-function mutants by a functional redundancy.","lang":"eng"}],"pmid":1,"oa_version":"Published Version","scopus_import":"1","month":"02","intvolume":" 303","publication_identifier":{"issn":["0168-9452"]},"publication_status":"published","file":[{"date_created":"2021-02-04T07:49:25Z","file_name":"2021_PlantScience_Gelova.pdf","creator":"dernst","date_updated":"2021-02-04T07:49:25Z","file_size":12563728,"checksum":"a7f2562bdca62d67dfa88e271b62a629","file_id":"9083","success":1,"access_level":"open_access","relation":"main_file","content_type":"application/pdf"}],"language":[{"iso":"eng"}],"volume":303,"related_material":{"record":[{"id":"11626","status":"public","relation":"dissertation_contains"},{"relation":"dissertation_contains","id":"10083","status":"public"}]},"ec_funded":1,"_id":"8931","type":"journal_article","article_type":"original","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"status":"public","keyword":["Agronomy and Crop Science","Plant Science","Genetics","General Medicine"],"date_updated":"2024-03-27T23:30:43Z","ddc":["580"],"file_date_updated":"2021-02-04T07:49:25Z","department":[{"_id":"JiFr"},{"_id":"Bio"}]},{"type":"software","tmp":{"short":"3-Clause BSD","legal_code_url":"https://opensource.org/licenses/BSD-3-Clause","name":"The 3-Clause BSD License"},"status":"public","_id":"8181","author":[{"first_name":"Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-9843-3522","full_name":"Hauschild, Robert","last_name":"Hauschild"}],"file_date_updated":"2020-08-24T15:43:52Z","title":"Amplified centrosomes in dendritic cells promote immune cell effector functions","department":[{"_id":"Bio"}],"date_updated":"2021-01-11T15:29:08Z","citation":{"chicago":"Hauschild, Robert. “Amplified Centrosomes in Dendritic Cells Promote Immune Cell Effector Functions.” IST Austria, 2020. https://doi.org/10.15479/AT:ISTA:8181.","ista":"Hauschild R. 2020. Amplified centrosomes in dendritic cells promote immune cell effector functions, IST Austria, 10.15479/AT:ISTA:8181.","mla":"Hauschild, Robert. Amplified Centrosomes in Dendritic Cells Promote Immune Cell Effector Functions. IST Austria, 2020, doi:10.15479/AT:ISTA:8181.","short":"R. Hauschild, (2020).","ieee":"R. Hauschild, “Amplified centrosomes in dendritic cells promote immune cell effector functions.” IST Austria, 2020.","apa":"Hauschild, R. (2020). Amplified centrosomes in dendritic cells promote immune cell effector functions. IST Austria. https://doi.org/10.15479/AT:ISTA:8181","ama":"Hauschild R. Amplified centrosomes in dendritic cells promote immune cell effector functions. 2020. doi:10.15479/AT:ISTA:8181"},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","publisher":"IST Austria","oa":1,"month":"08","date_published":"2020-08-24T00:00:00Z","doi":"10.15479/AT:ISTA:8181","date_created":"2020-07-28T16:24:37Z","license":"https://opensource.org/licenses/BSD-3-Clause","has_accepted_license":"1","year":"2020","day":"24","file":[{"date_updated":"2020-08-24T15:43:49Z","file_size":6577,"creator":"rhauschild","date_created":"2020-08-24T15:43:49Z","file_name":"centriolesDistance.m","content_type":"text/plain","access_level":"open_access","relation":"main_file","checksum":"878c60885ce30afb59a884dd5eef451c","file_id":"8290","success":1},{"creator":"rhauschild","file_size":2680,"date_updated":"2020-08-24T15:43:52Z","file_name":"goTracking.m","date_created":"2020-08-24T15:43:52Z","relation":"main_file","access_level":"open_access","content_type":"text/plain","success":1,"file_id":"8291","checksum":"5a93ac7be2b66b28e4bd8b113ee6aade"}]},{"_id":"8294","status":"public","type":"software","tmp":{"short":"3-Clause BSD","legal_code_url":"https://opensource.org/licenses/BSD-3-Clause","name":"The 3-Clause BSD License"},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","ddc":["570"],"date_updated":"2021-01-12T08:17:56Z","citation":{"chicago":"Hauschild, Robert. “RGtracker.” IST Austria, 2020. https://doi.org/10.15479/AT:ISTA:8294.","ista":"Hauschild R. 2020. RGtracker, IST Austria, 10.15479/AT:ISTA:8294.","mla":"Hauschild, Robert. RGtracker. IST Austria, 2020, doi:10.15479/AT:ISTA:8294.","ieee":"R. Hauschild, “RGtracker.” IST Austria, 2020.","short":"R. Hauschild, (2020).","apa":"Hauschild, R. (2020). RGtracker. IST Austria. https://doi.org/10.15479/AT:ISTA:8294","ama":"Hauschild R. RGtracker. 2020. doi:10.15479/AT:ISTA:8294"},"title":"RGtracker","department":[{"_id":"Bio"}],"file_date_updated":"2020-09-08T14:26:33Z","author":[{"first_name":"Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522","last_name":"Hauschild"}],"abstract":[{"text":"Automated root growth analysis and tracking of root tips. ","lang":"eng"}],"month":"09","publisher":"IST Austria","oa":1,"file":[{"file_name":"readme.txt","date_created":"2020-09-08T14:26:31Z","creator":"rhauschild","file_size":882,"date_updated":"2020-09-08T14:26:31Z","success":1,"checksum":"108352149987ac6f066e4925bd56e35e","file_id":"8346","relation":"main_file","access_level":"open_access","content_type":"text/plain"},{"file_name":"RGtracker.mlappinstall","date_created":"2020-09-08T14:26:33Z","creator":"rhauschild","file_size":246121,"date_updated":"2020-09-08T14:26:33Z","success":1,"checksum":"ffd6c643b28e0cc7c6d0060a18a7e8ea","file_id":"8347","relation":"main_file","access_level":"open_access","content_type":"application/octet-stream"}],"day":"10","has_accepted_license":"1","year":"2020","date_published":"2020-09-10T00:00:00Z","doi":"10.15479/AT:ISTA:8294","date_created":"2020-08-25T12:52:48Z"},{"publisher":"Rockefeller University Press","quality_controlled":"1","oa":1,"acknowledgement":"The authors thank the Scientific Service Units (Life Sciences, Bioimaging, Preclinical) of the Institute of Science and Technology Austria for excellent support. This work was funded by the European Research Council (ERC StG 281556 and CoG 724373), two grants from the Austrian\r\nScience Fund (FWF; P29911 and DK Nanocell W1250-B20 to M. Sixt) and by the German Research Foundation (DFG SFB1032 project B09) to O. Thorn-Seshold and D. Trauner. J. Renkawitz was supported by ISTFELLOW funding from the People Program (Marie Curie Actions) of the European Union’s Seventh Framework Programme (FP7/2007-2013) under the Research Executive Agency grant agreement (291734) and a European Molecular Biology Organization long-term fellowship (ALTF 1396-2014) co-funded by the European Commission (LTFCOFUND2013, GA-2013-609409), E. Kiermaier by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) under Germany’s Excellence Strategy—EXC 2151—390873048, and H. Hacker by the American Lebanese Syrian Associated ¨Charities. K.-D. Fischer was supported by the Analysis, Imaging and Modelling of Neuronal and Inflammatory Processes graduate school funded by the Ministry of Economics, Science, and Digitisation of the State Saxony-Anhalt and by the European Funds for Social and Regional Development.","doi":"10.1083/jcb.201907154","date_published":"2020-06-01T00:00:00Z","date_created":"2020-05-24T22:00:56Z","isi":1,"has_accepted_license":"1","year":"2020","day":"01","publication":"The Journal of Cell Biology","project":[{"_id":"25A603A2-B435-11E9-9278-68D0E5697425","call_identifier":"FP7","grant_number":"281556","name":"Cytoskeletal force generation and force transduction of migrating leukocytes"},{"grant_number":"724373","name":"Cellular navigation along spatial gradients","call_identifier":"H2020","_id":"25FE9508-B435-11E9-9278-68D0E5697425"},{"grant_number":"P29911","name":"Mechanical adaptation of lamellipodial actin","_id":"26018E70-B435-11E9-9278-68D0E5697425","call_identifier":"FWF"},{"name":"Nano-Analytics of Cellular Systems","grant_number":"W 1250-B20","call_identifier":"FWF","_id":"252C3B08-B435-11E9-9278-68D0E5697425"},{"name":"International IST Postdoc Fellowship Programme","grant_number":"291734","call_identifier":"FP7","_id":"25681D80-B435-11E9-9278-68D0E5697425"},{"grant_number":"ALTF 1396-2014","name":"Molecular and system level view of immune cell migration","_id":"25A48D24-B435-11E9-9278-68D0E5697425"}],"article_number":"e201907154","author":[{"orcid":"0000-0002-2187-6656","full_name":"Kopf, Aglaja","last_name":"Kopf","id":"31DAC7B6-F248-11E8-B48F-1D18A9856A87","first_name":"Aglaja"},{"orcid":"0000-0003-2856-3369","full_name":"Renkawitz, Jörg","last_name":"Renkawitz","first_name":"Jörg","id":"3F0587C8-F248-11E8-B48F-1D18A9856A87"},{"id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert","last_name":"Hauschild","orcid":"0000-0001-9843-3522","full_name":"Hauschild, Robert"},{"first_name":"Irute","last_name":"Girkontaite","full_name":"Girkontaite, Irute"},{"first_name":"Kerry","last_name":"Tedford","full_name":"Tedford, Kerry"},{"last_name":"Merrin","orcid":"0000-0001-5145-4609","full_name":"Merrin, Jack","first_name":"Jack","id":"4515C308-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Oliver","full_name":"Thorn-Seshold, Oliver","last_name":"Thorn-Seshold"},{"full_name":"Trauner, Dirk","last_name":"Trauner","first_name":"Dirk","id":"E8F27F48-3EBA-11E9-92A1-B709E6697425"},{"full_name":"Häcker, Hans","last_name":"Häcker","first_name":"Hans"},{"first_name":"Klaus Dieter","full_name":"Fischer, Klaus Dieter","last_name":"Fischer"},{"last_name":"Kiermaier","full_name":"Kiermaier, Eva","orcid":"0000-0001-6165-5738","first_name":"Eva","id":"3EB04B78-F248-11E8-B48F-1D18A9856A87"},{"orcid":"0000-0002-6620-9179","full_name":"Sixt, Michael K","last_name":"Sixt","id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87","first_name":"Michael K"}],"article_processing_charge":"No","external_id":{"pmid":["32379884"],"isi":["000538141100020"]},"title":"Microtubules control cellular shape and coherence in amoeboid migrating cells","citation":{"chicago":"Kopf, Aglaja, Jörg Renkawitz, Robert Hauschild, Irute Girkontaite, Kerry Tedford, Jack Merrin, Oliver Thorn-Seshold, et al. “Microtubules Control Cellular Shape and Coherence in Amoeboid Migrating Cells.” The Journal of Cell Biology. Rockefeller University Press, 2020. https://doi.org/10.1083/jcb.201907154.","ista":"Kopf A, Renkawitz J, Hauschild R, Girkontaite I, Tedford K, Merrin J, Thorn-Seshold O, Trauner D, Häcker H, Fischer KD, Kiermaier E, Sixt MK. 2020. Microtubules control cellular shape and coherence in amoeboid migrating cells. The Journal of Cell Biology. 219(6), e201907154.","mla":"Kopf, Aglaja, et al. “Microtubules Control Cellular Shape and Coherence in Amoeboid Migrating Cells.” The Journal of Cell Biology, vol. 219, no. 6, e201907154, Rockefeller University Press, 2020, doi:10.1083/jcb.201907154.","ama":"Kopf A, Renkawitz J, Hauschild R, et al. Microtubules control cellular shape and coherence in amoeboid migrating cells. The Journal of Cell Biology. 2020;219(6). doi:10.1083/jcb.201907154","apa":"Kopf, A., Renkawitz, J., Hauschild, R., Girkontaite, I., Tedford, K., Merrin, J., … Sixt, M. K. (2020). Microtubules control cellular shape and coherence in amoeboid migrating cells. The Journal of Cell Biology. Rockefeller University Press. https://doi.org/10.1083/jcb.201907154","ieee":"A. Kopf et al., “Microtubules control cellular shape and coherence in amoeboid migrating cells,” The Journal of Cell Biology, vol. 219, no. 6. Rockefeller University Press, 2020.","short":"A. Kopf, J. Renkawitz, R. Hauschild, I. Girkontaite, K. Tedford, J. Merrin, O. Thorn-Seshold, D. Trauner, H. Häcker, K.D. Fischer, E. Kiermaier, M.K. Sixt, The Journal of Cell Biology 219 (2020)."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","scopus_import":"1","month":"06","intvolume":" 219","acknowledged_ssus":[{"_id":"LifeSc"},{"_id":"Bio"},{"_id":"PreCl"}],"abstract":[{"lang":"eng","text":"Cells navigating through complex tissues face a fundamental challenge: while multiple protrusions explore different paths, the cell needs to avoid entanglement. How a cell surveys and then corrects its own shape is poorly understood. Here, we demonstrate that spatially distinct microtubule dynamics regulate amoeboid cell migration by locally promoting the retraction of protrusions. In migrating dendritic cells, local microtubule depolymerization within protrusions remote from the microtubule organizing center triggers actomyosin contractility controlled by RhoA and its exchange factor Lfc. Depletion of Lfc leads to aberrant myosin localization, thereby causing two effects that rate-limit locomotion: (1) impaired cell edge coordination during path finding and (2) defective adhesion resolution. Compromised shape control is particularly hindering in geometrically complex microenvironments, where it leads to entanglement and ultimately fragmentation of the cell body. We thus demonstrate that microtubules can act as a proprioceptive device: they sense cell shape and control actomyosin retraction to sustain cellular coherence."}],"oa_version":"Published Version","pmid":1,"issue":"6","volume":219,"ec_funded":1,"publication_identifier":{"eissn":["1540-8140"]},"publication_status":"published","file":[{"date_updated":"2020-11-24T13:25:13Z","file_size":7536712,"creator":"dernst","date_created":"2020-11-24T13:25:13Z","file_name":"2020_JCellBiol_Kopf.pdf","content_type":"application/pdf","access_level":"open_access","relation":"main_file","file_id":"8801","checksum":"cb0b9c77842ae1214caade7b77e4d82d","success":1}],"language":[{"iso":"eng"}],"type":"journal_article","article_type":"original","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"status":"public","_id":"7875","department":[{"_id":"MiSi"},{"_id":"Bio"},{"_id":"NanoFab"}],"file_date_updated":"2020-11-24T13:25:13Z","date_updated":"2023-08-21T06:28:17Z","ddc":["570"]},{"oa":1,"publisher":"eLife Sciences Publications","quality_controlled":"1","publication":"eLife","day":"06","year":"2020","isi":1,"has_accepted_license":"1","date_created":"2020-05-25T15:01:40Z","doi":"10.7554/elife.55190","date_published":"2020-04-06T00:00:00Z","article_number":"e55190","project":[{"_id":"260F1432-B435-11E9-9278-68D0E5697425","call_identifier":"H2020","grant_number":"742573","name":"Interaction and feedback between cell mechanics and fate specification in vertebrate gastrulation"},{"name":"Mesendoderm specification in zebrafish: The role of extraembryonic tissues","grant_number":"25239","_id":"26B1E39C-B435-11E9-9278-68D0E5697425"},{"grant_number":"ALTF 850-2017","name":"Coordination of mesendoderm cell fate specification and internalization during zebrafish gastrulation","_id":"26520D1E-B435-11E9-9278-68D0E5697425"},{"name":"Coordination of mesendoderm fate specification and internalization during zebrafish gastrulation","grant_number":"LT000429","_id":"266BC5CE-B435-11E9-9278-68D0E5697425"}],"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","citation":{"ieee":"A. Schauer, D. C. Nunes Pinheiro, R. Hauschild, and C.-P. J. Heisenberg, “Zebrafish embryonic explants undergo genetically encoded self-assembly,” eLife, vol. 9. eLife Sciences Publications, 2020.","short":"A. Schauer, D.C. Nunes Pinheiro, R. Hauschild, C.-P.J. Heisenberg, ELife 9 (2020).","apa":"Schauer, A., Nunes Pinheiro, D. C., Hauschild, R., & Heisenberg, C.-P. J. (2020). Zebrafish embryonic explants undergo genetically encoded self-assembly. ELife. eLife Sciences Publications. https://doi.org/10.7554/elife.55190","ama":"Schauer A, Nunes Pinheiro DC, Hauschild R, Heisenberg C-PJ. Zebrafish embryonic explants undergo genetically encoded self-assembly. eLife. 2020;9. doi:10.7554/elife.55190","mla":"Schauer, Alexandra, et al. “Zebrafish Embryonic Explants Undergo Genetically Encoded Self-Assembly.” ELife, vol. 9, e55190, eLife Sciences Publications, 2020, doi:10.7554/elife.55190.","ista":"Schauer A, Nunes Pinheiro DC, Hauschild R, Heisenberg C-PJ. 2020. Zebrafish embryonic explants undergo genetically encoded self-assembly. eLife. 9, e55190.","chicago":"Schauer, Alexandra, Diana C Nunes Pinheiro, Robert Hauschild, and Carl-Philipp J Heisenberg. “Zebrafish Embryonic Explants Undergo Genetically Encoded Self-Assembly.” ELife. eLife Sciences Publications, 2020. https://doi.org/10.7554/elife.55190."},"title":"Zebrafish embryonic explants undergo genetically encoded self-assembly","external_id":{"pmid":["32250246"],"isi":["000531544400001"]},"article_processing_charge":"No","author":[{"first_name":"Alexandra","id":"30A536BA-F248-11E8-B48F-1D18A9856A87","last_name":"Schauer","orcid":"0000-0001-7659-9142","full_name":"Schauer, Alexandra"},{"id":"2E839F16-F248-11E8-B48F-1D18A9856A87","first_name":"Diana C","last_name":"Nunes Pinheiro","orcid":"0000-0003-4333-7503","full_name":"Nunes Pinheiro, Diana C"},{"full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522","last_name":"Hauschild","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert"},{"full_name":"Heisenberg, Carl-Philipp J","orcid":"0000-0002-0912-4566","last_name":"Heisenberg","id":"39427864-F248-11E8-B48F-1D18A9856A87","first_name":"Carl-Philipp J"}],"oa_version":"Published Version","pmid":1,"abstract":[{"text":"Embryonic stem cell cultures are thought to self-organize into embryoid bodies, able to undergo symmetry-breaking, germ layer specification and even morphogenesis. Yet, it is unclear how to reconcile this remarkable self-organization capacity with classical experiments demonstrating key roles for extrinsic biases by maternal factors and/or extraembryonic tissues in embryogenesis. Here, we show that zebrafish embryonic tissue explants, prepared prior to germ layer induction and lacking extraembryonic tissues, can specify all germ layers and form a seemingly complete mesendoderm anlage. Importantly, explant organization requires polarized inheritance of maternal factors from dorsal-marginal regions of the blastoderm. Moreover, induction of endoderm and head-mesoderm, which require peak Nodal-signaling levels, is highly variable in explants, reminiscent of embryos with reduced Nodal signals from the extraembryonic tissues. Together, these data suggest that zebrafish explants do not undergo bona fide self-organization, but rather display features of genetically encoded self-assembly, where intrinsic genetic programs control the emergence of order.","lang":"eng"}],"intvolume":" 9","month":"04","scopus_import":"1","language":[{"iso":"eng"}],"file":[{"creator":"dernst","file_size":7744848,"date_updated":"2020-07-14T12:48:04Z","file_name":"2020_eLife_Schauer.pdf","date_created":"2020-05-25T15:15:43Z","relation":"main_file","access_level":"open_access","content_type":"application/pdf","checksum":"f6aad884cf706846ae9357fcd728f8b5","file_id":"7890"}],"publication_status":"published","publication_identifier":{"issn":["2050-084X"]},"ec_funded":1,"related_material":{"record":[{"id":"12891","status":"public","relation":"dissertation_contains"}]},"volume":9,"_id":"7888","status":"public","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"article_type":"original","type":"journal_article","ddc":["570"],"date_updated":"2023-08-21T06:25:49Z","file_date_updated":"2020-07-14T12:48:04Z","department":[{"_id":"CaHe"},{"_id":"Bio"}]},{"article_type":"original","type":"journal_article","status":"public","_id":"7864","department":[{"_id":"Bio"}],"date_updated":"2023-08-21T06:28:52Z","scopus_import":"1","month":"06","intvolume":" 20","abstract":[{"text":"Purpose of review: Cancer is one of the leading causes of death and the incidence rates are constantly rising. The heterogeneity of tumors poses a big challenge for the treatment of the disease and natural antibodies additionally affect disease progression. The introduction of engineered mAbs for anticancer immunotherapies has substantially improved progression-free and overall survival of cancer patients, but little efforts have been made to exploit other antibody isotypes than IgG.\r\nRecent findings: In order to improve these therapies, ‘next-generation antibodies’ were engineered to enhance a specific feature of classical antibodies and form a group of highly effective and precise therapy compounds. Advanced antibody approaches include among others antibody-drug conjugates, glyco-engineered and Fc-engineered antibodies, antibody fragments, radioimmunotherapy compounds, bispecific antibodies and alternative (non-IgG) immunoglobulin classes, especially IgE.\r\nSummary: The current review describes solutions for the needs of next-generation antibody therapies through different approaches. Careful selection of the best-suited engineering methodology is a key factor in developing personalized, more specific and more efficient mAbs against cancer to improve the outcomes of cancer patients. We highlight here the large evidence of IgE exploiting a highly cytotoxic effector arm as potential next-generation anticancer immunotherapy.","lang":"eng"}],"oa_version":"None","issue":"3","volume":20,"publication_identifier":{"eissn":["14736322"]},"publication_status":"published","language":[{"iso":"eng"}],"author":[{"first_name":"Judit","id":"36432834-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0002-8777-3502","full_name":"Singer, Judit","last_name":"Singer"},{"first_name":"Josef","full_name":"Singer, Josef","last_name":"Singer"},{"full_name":"Jensen-Jarolim, Erika","last_name":"Jensen-Jarolim","first_name":"Erika"}],"external_id":{"isi":["000561358300010"]},"article_processing_charge":"No","title":"Precision medicine in clinical oncology: the journey from IgG antibody to IgE","citation":{"ista":"Singer J, Singer J, Jensen-Jarolim E. 2020. Precision medicine in clinical oncology: the journey from IgG antibody to IgE. Current opinion in allergy and clinical immunology. 20(3), 282–289.","chicago":"Singer, Judit, Josef Singer, and Erika Jensen-Jarolim. “Precision Medicine in Clinical Oncology: The Journey from IgG Antibody to IgE.” Current Opinion in Allergy and Clinical Immunology. Wolters Kluwer, 2020. https://doi.org/10.1097/ACI.0000000000000637.","ama":"Singer J, Singer J, Jensen-Jarolim E. Precision medicine in clinical oncology: the journey from IgG antibody to IgE. Current opinion in allergy and clinical immunology. 2020;20(3):282-289. doi:10.1097/ACI.0000000000000637","apa":"Singer, J., Singer, J., & Jensen-Jarolim, E. (2020). Precision medicine in clinical oncology: the journey from IgG antibody to IgE. Current Opinion in Allergy and Clinical Immunology. Wolters Kluwer. https://doi.org/10.1097/ACI.0000000000000637","ieee":"J. Singer, J. Singer, and E. Jensen-Jarolim, “Precision medicine in clinical oncology: the journey from IgG antibody to IgE,” Current opinion in allergy and clinical immunology, vol. 20, no. 3. Wolters Kluwer, pp. 282–289, 2020.","short":"J. Singer, J. Singer, E. Jensen-Jarolim, Current Opinion in Allergy and Clinical Immunology 20 (2020) 282–289.","mla":"Singer, Judit, et al. “Precision Medicine in Clinical Oncology: The Journey from IgG Antibody to IgE.” Current Opinion in Allergy and Clinical Immunology, vol. 20, no. 3, Wolters Kluwer, 2020, pp. 282–89, doi:10.1097/ACI.0000000000000637."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","quality_controlled":"1","publisher":"Wolters Kluwer","page":"282-289","date_published":"2020-06-01T00:00:00Z","doi":"10.1097/ACI.0000000000000637","date_created":"2020-05-17T22:00:44Z","isi":1,"year":"2020","day":"01","publication":"Current opinion in allergy and clinical immunology"},{"month":"11","publisher":"Cold Spring Harbor Laboratory","oa":1,"main_file_link":[{"open_access":"1","url":"https://doi.org/10.1101/2020.11.20.391284"}],"oa_version":"Preprint","acknowledgement":"We would like to thank Edouard Hannezo for discussions, Shayan Shami Pour and Daniel Capek for help with data analysis, Vanessa Barone and other members of the Heisenberg laboratory for thoughtful discussions and comments on the manuscript. We also thank Jack Merrin for preparing the microwells, and the Scientific Service Units at IST Austria, specifically Bioimaging and Electron Microscopy, and the Zebrafish Facility for continuous support. We acknowledge Hitoshi Morita for the kind gift of VinculinB-GFP plasmid. This research was supported by an ERC Advanced Grant (MECSPEC) to C.-P.H, EMBO Long Term grant (ALTF 187-2013) to M.S and IST Fellow Marie-Curie COFUND No. P_IST_EU01 to J.S.","abstract":[{"text":"Tension of the actomyosin cell cortex plays a key role in determining cell-cell contact growth and size. The level of cortical tension outside of the cell-cell contact, when pulling at the contact edge, scales with the total size to which a cell-cell contact can grow1,2. Here we show in zebrafish primary germ layer progenitor cells that this monotonic relationship only applies to a narrow range of cortical tension increase, and that above a critical threshold, contact size inversely scales with cortical tension. This switch from cortical tension increasing to decreasing progenitor cell-cell contact size is caused by cortical tension promoting E-cadherin anchoring to the actomyosin cytoskeleton, thereby increasing clustering and stability of E-cadherin at the contact. Once tension-mediated E-cadherin stabilization at the contact exceeds a critical threshold level, the rate by which the contact expands in response to pulling forces from the cortex sharply drops, leading to smaller contacts at physiologically relevant timescales of contact formation. Thus, the activity of cortical tension in expanding cell-cell contact size is limited by tension stabilizing E-cadherin-actin complexes at the contact.","lang":"eng"}],"acknowledged_ssus":[{"_id":"Bio"},{"_id":"EM-Fac"},{"_id":"SSU"}],"doi":"10.1101/2020.11.20.391284","related_material":{"record":[{"relation":"later_version","status":"public","id":"10766"},{"relation":"dissertation_contains","status":"public","id":"9623"}]},"date_published":"2020-11-20T00:00:00Z","ec_funded":1,"date_created":"2021-07-29T11:29:50Z","page":"41","day":"20","language":[{"iso":"eng"}],"publication":"bioRxiv","publication_status":"published","year":"2020","project":[{"call_identifier":"FP7","_id":"25681D80-B435-11E9-9278-68D0E5697425","grant_number":"291734","name":"International IST Postdoc Fellowship Programme"},{"_id":"260F1432-B435-11E9-9278-68D0E5697425","call_identifier":"H2020","grant_number":"742573","name":"Interaction and feedback between cell mechanics and fate specification in vertebrate gastrulation"},{"grant_number":"187-2013","name":"Modulation of adhesion function in cell-cell contact formation by cortical tension","_id":"2521E28E-B435-11E9-9278-68D0E5697425"}],"status":"public","type":"preprint","_id":"9750","title":"Tension-dependent stabilization of E-cadherin limits cell-cell contact expansion","department":[{"_id":"CaHe"},{"_id":"EM-Fac"},{"_id":"Bio"}],"author":[{"first_name":"Jana","id":"30F3F2F0-F248-11E8-B48F-1D18A9856A87","full_name":"Slovakova, Jana","last_name":"Slovakova"},{"first_name":"Mateusz K","id":"2F74BCDE-F248-11E8-B48F-1D18A9856A87","full_name":"Sikora, Mateusz K","last_name":"Sikora"},{"id":"2F1E1758-F248-11E8-B48F-1D18A9856A87","first_name":"Silvia","last_name":"Caballero Mancebo","orcid":"0000-0002-5223-3346","full_name":"Caballero Mancebo, Silvia"},{"last_name":"Krens","full_name":"Krens, Gabriel","orcid":"0000-0003-4761-5996","first_name":"Gabriel","id":"2B819732-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Kaufmann","orcid":"0000-0001-9735-5315","full_name":"Kaufmann, Walter","first_name":"Walter","id":"3F99E422-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Huljev","full_name":"Huljev, Karla","first_name":"Karla","id":"44C6F6A6-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Carl-Philipp J","id":"39427864-F248-11E8-B48F-1D18A9856A87","last_name":"Heisenberg","full_name":"Heisenberg, Carl-Philipp J","orcid":"0000-0002-0912-4566"}],"article_processing_charge":"No","user_id":"8b945eb4-e2f2-11eb-945a-df72226e66a9","date_updated":"2024-03-27T23:30:18Z","citation":{"ista":"Slovakova J, Sikora MK, Caballero Mancebo S, Krens G, Kaufmann W, Huljev K, Heisenberg C-PJ. 2020. Tension-dependent stabilization of E-cadherin limits cell-cell contact expansion. bioRxiv, 10.1101/2020.11.20.391284.","chicago":"Slovakova, Jana, Mateusz K Sikora, Silvia Caballero Mancebo, Gabriel Krens, Walter Kaufmann, Karla Huljev, and Carl-Philipp J Heisenberg. “Tension-Dependent Stabilization of E-Cadherin Limits Cell-Cell Contact Expansion.” BioRxiv. Cold Spring Harbor Laboratory, 2020. https://doi.org/10.1101/2020.11.20.391284.","ieee":"J. Slovakova et al., “Tension-dependent stabilization of E-cadherin limits cell-cell contact expansion,” bioRxiv. Cold Spring Harbor Laboratory, 2020.","short":"J. Slovakova, M.K. Sikora, S. Caballero Mancebo, G. Krens, W. Kaufmann, K. Huljev, C.-P.J. Heisenberg, BioRxiv (2020).","ama":"Slovakova J, Sikora MK, Caballero Mancebo S, et al. Tension-dependent stabilization of E-cadherin limits cell-cell contact expansion. bioRxiv. 2020. doi:10.1101/2020.11.20.391284","apa":"Slovakova, J., Sikora, M. K., Caballero Mancebo, S., Krens, G., Kaufmann, W., Huljev, K., & Heisenberg, C.-P. J. (2020). Tension-dependent stabilization of E-cadherin limits cell-cell contact expansion. bioRxiv. Cold Spring Harbor Laboratory. https://doi.org/10.1101/2020.11.20.391284","mla":"Slovakova, Jana, et al. “Tension-Dependent Stabilization of E-Cadherin Limits Cell-Cell Contact Expansion.” BioRxiv, Cold Spring Harbor Laboratory, 2020, doi:10.1101/2020.11.20.391284."}},{"acknowledgement":"We thank A. Leithner and J. Renkawitz for discussion and critical reading of the manuscript; J. Schwarz and M. Mehling for establishing the microfluidic setups; the Bioimaging Facility of IST Austria for excellent support, as well as the Life Science Facility and the Miba Machine Shop of IST Austria; and F. N. Arslan, L. E. Burnett and L. Li for their work during their rotation in the IST PhD programme. This work was supported by the European Research Council (ERC StG 281556 and CoG 724373) to M.S. and grants from the Austrian Science Fund (FWF P29911) and the WWTF to M.S. M.H. was supported by the European Regional Development Fund Project (CZ.02.1.01/0.0/0.0/15_003/0000476). F.G. received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement no. 747687.","publisher":"Springer Nature","quality_controlled":"1","isi":1,"year":"2020","day":"25","publication":"Nature","page":"582–585","date_published":"2020-06-25T00:00:00Z","doi":"10.1038/s41586-020-2283-z","date_created":"2020-05-24T22:01:01Z","project":[{"name":"Cytoskeletal force generation and force transduction of migrating leukocytes","grant_number":"281556","_id":"25A603A2-B435-11E9-9278-68D0E5697425","call_identifier":"FP7"},{"_id":"25FE9508-B435-11E9-9278-68D0E5697425","call_identifier":"H2020","grant_number":"724373","name":"Cellular navigation along spatial gradients"},{"name":"Mechanical adaptation of lamellipodial actin","grant_number":"P29911","call_identifier":"FWF","_id":"26018E70-B435-11E9-9278-68D0E5697425"},{"grant_number":"747687","name":"Mechanical Adaptation of Lamellipodial Actin Networks in Migrating Cells","_id":"260AA4E2-B435-11E9-9278-68D0E5697425","call_identifier":"H2020"}],"citation":{"ista":"Reversat A, Gärtner FR, Merrin J, Stopp JA, Tasciyan S, Aguilera Servin JL, de Vries I, Hauschild R, Hons M, Piel M, Callan-Jones A, Voituriez R, Sixt MK. 2020. Cellular locomotion using environmental topography. Nature. 582, 582–585.","chicago":"Reversat, Anne, Florian R Gärtner, Jack Merrin, Julian A Stopp, Saren Tasciyan, Juan L Aguilera Servin, Ingrid de Vries, et al. “Cellular Locomotion Using Environmental Topography.” Nature. Springer Nature, 2020. https://doi.org/10.1038/s41586-020-2283-z.","short":"A. Reversat, F.R. Gärtner, J. Merrin, J.A. Stopp, S. Tasciyan, J.L. Aguilera Servin, I. de Vries, R. Hauschild, M. Hons, M. Piel, A. Callan-Jones, R. Voituriez, M.K. Sixt, Nature 582 (2020) 582–585.","ieee":"A. Reversat et al., “Cellular locomotion using environmental topography,” Nature, vol. 582. Springer Nature, pp. 582–585, 2020.","ama":"Reversat A, Gärtner FR, Merrin J, et al. Cellular locomotion using environmental topography. Nature. 2020;582:582–585. doi:10.1038/s41586-020-2283-z","apa":"Reversat, A., Gärtner, F. R., Merrin, J., Stopp, J. A., Tasciyan, S., Aguilera Servin, J. L., … Sixt, M. K. (2020). Cellular locomotion using environmental topography. Nature. Springer Nature. https://doi.org/10.1038/s41586-020-2283-z","mla":"Reversat, Anne, et al. “Cellular Locomotion Using Environmental Topography.” Nature, vol. 582, Springer Nature, 2020, pp. 582–585, doi:10.1038/s41586-020-2283-z."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","author":[{"full_name":"Reversat, Anne","orcid":"0000-0003-0666-8928","last_name":"Reversat","id":"35B76592-F248-11E8-B48F-1D18A9856A87","first_name":"Anne"},{"first_name":"Florian R","id":"397A88EE-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-6120-3723","full_name":"Gärtner, Florian R","last_name":"Gärtner"},{"last_name":"Merrin","orcid":"0000-0001-5145-4609","full_name":"Merrin, Jack","first_name":"Jack","id":"4515C308-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Stopp","full_name":"Stopp, Julian A","id":"489E3F00-F248-11E8-B48F-1D18A9856A87","first_name":"Julian A"},{"id":"4323B49C-F248-11E8-B48F-1D18A9856A87","first_name":"Saren","orcid":"0000-0003-1671-393X","full_name":"Tasciyan, Saren","last_name":"Tasciyan"},{"id":"2A67C376-F248-11E8-B48F-1D18A9856A87","first_name":"Juan L","last_name":"Aguilera Servin","orcid":"0000-0002-2862-8372","full_name":"Aguilera Servin, Juan L"},{"id":"4C7D837E-F248-11E8-B48F-1D18A9856A87","first_name":"Ingrid","full_name":"De Vries, Ingrid","last_name":"De Vries"},{"full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522","last_name":"Hauschild","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert"},{"last_name":"Hons","orcid":"0000-0002-6625-3348","full_name":"Hons, Miroslav","first_name":"Miroslav","id":"4167FE56-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Matthieu","last_name":"Piel","full_name":"Piel, Matthieu"},{"full_name":"Callan-Jones, Andrew","last_name":"Callan-Jones","first_name":"Andrew"},{"first_name":"Raphael","full_name":"Voituriez, Raphael","last_name":"Voituriez"},{"last_name":"Sixt","full_name":"Sixt, Michael K","orcid":"0000-0002-6620-9179","first_name":"Michael K","id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87"}],"external_id":{"isi":["000532688300008"]},"article_processing_charge":"No","title":"Cellular locomotion using environmental topography","acknowledged_ssus":[{"_id":"Bio"},{"_id":"LifeSc"},{"_id":"M-Shop"}],"abstract":[{"lang":"eng","text":"Eukaryotic cells migrate by coupling the intracellular force of the actin cytoskeleton to the environment. While force coupling is usually mediated by transmembrane adhesion receptors, especially those of the integrin family, amoeboid cells such as leukocytes can migrate extremely fast despite very low adhesive forces1. Here we show that leukocytes cannot only migrate under low adhesion but can also transmit forces in the complete absence of transmembrane force coupling. When confined within three-dimensional environments, they use the topographical features of the substrate to propel themselves. Here the retrograde flow of the actin cytoskeleton follows the texture of the substrate, creating retrograde shear forces that are sufficient to drive the cell body forwards. Notably, adhesion-dependent and adhesion-independent migration are not mutually exclusive, but rather are variants of the same principle of coupling retrograde actin flow to the environment and thus can potentially operate interchangeably and simultaneously. As adhesion-free migration is independent of the chemical composition of the environment, it renders cells completely autonomous in their locomotive behaviour."}],"oa_version":"None","scopus_import":"1","month":"06","intvolume":" 582","publication_identifier":{"eissn":["14764687"],"issn":["00280836"]},"publication_status":"published","language":[{"iso":"eng"}],"volume":582,"related_material":{"record":[{"id":"14697","status":"public","relation":"dissertation_contains"},{"relation":"dissertation_contains","id":"12401","status":"public"}],"link":[{"relation":"press_release","url":"https://ist.ac.at/en/news/off-road-mode-enables-mobile-cells-to-move-freely/","description":"News on IST Homepage"}]},"ec_funded":1,"_id":"7885","type":"journal_article","article_type":"original","status":"public","date_updated":"2024-03-27T23:30:23Z","department":[{"_id":"NanoFab"},{"_id":"Bio"},{"_id":"MiSi"}]},{"project":[{"grant_number":"754411","name":"ISTplus - Postdoctoral Fellowships","_id":"260C2330-B435-11E9-9278-68D0E5697425","call_identifier":"H2020"},{"grant_number":"I03600","name":"Optical control of synaptic function via adhesion molecules","_id":"265CB4D0-B435-11E9-9278-68D0E5697425","call_identifier":"FWF"}],"article_processing_charge":"No","external_id":{"pmid":["30778205"],"isi":["000459890700008"]},"author":[{"full_name":"Truckenbrodt, Sven M","last_name":"Truckenbrodt","id":"45812BD4-F248-11E8-B48F-1D18A9856A87","first_name":"Sven M"},{"id":"4DF26D8C-F248-11E8-B48F-1D18A9856A87","first_name":"Christoph M","full_name":"Sommer, Christoph M","orcid":"0000-0003-1216-9105","last_name":"Sommer"},{"first_name":"Silvio O","last_name":"Rizzoli","full_name":"Rizzoli, Silvio O"},{"orcid":"0000-0001-8559-3973","full_name":"Danzl, Johann G","last_name":"Danzl","first_name":"Johann G","id":"42EFD3B6-F248-11E8-B48F-1D18A9856A87"}],"title":"A practical guide to optimization in X10 expansion microscopy","citation":{"ista":"Truckenbrodt SM, Sommer CM, Rizzoli SO, Danzl JG. 2019. A practical guide to optimization in X10 expansion microscopy. Nature Protocols. 14(3), 832–863.","chicago":"Truckenbrodt, Sven M, Christoph M Sommer, Silvio O Rizzoli, and Johann G Danzl. “A Practical Guide to Optimization in X10 Expansion Microscopy.” Nature Protocols. Nature Publishing Group, 2019. https://doi.org/10.1038/s41596-018-0117-3.","ama":"Truckenbrodt SM, Sommer CM, Rizzoli SO, Danzl JG. A practical guide to optimization in X10 expansion microscopy. Nature Protocols. 2019;14(3):832–863. doi:10.1038/s41596-018-0117-3","apa":"Truckenbrodt, S. M., Sommer, C. M., Rizzoli, S. O., & Danzl, J. G. (2019). A practical guide to optimization in X10 expansion microscopy. Nature Protocols. Nature Publishing Group. https://doi.org/10.1038/s41596-018-0117-3","short":"S.M. Truckenbrodt, C.M. Sommer, S.O. Rizzoli, J.G. Danzl, Nature Protocols 14 (2019) 832–863.","ieee":"S. M. Truckenbrodt, C. M. Sommer, S. O. Rizzoli, and J. G. Danzl, “A practical guide to optimization in X10 expansion microscopy,” Nature Protocols, vol. 14, no. 3. Nature Publishing Group, pp. 832–863, 2019.","mla":"Truckenbrodt, Sven M., et al. “A Practical Guide to Optimization in X10 Expansion Microscopy.” Nature Protocols, vol. 14, no. 3, Nature Publishing Group, 2019, pp. 832–863, doi:10.1038/s41596-018-0117-3."},"user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","oa":1,"publisher":"Nature Publishing Group","quality_controlled":"1","page":"832–863","date_created":"2019-02-24T22:59:20Z","doi":"10.1038/s41596-018-0117-3","date_published":"2019-03-01T00:00:00Z","year":"2019","isi":1,"has_accepted_license":"1","publication":"Nature Protocols","day":"01","type":"journal_article","article_type":"original","status":"public","_id":"6052","department":[{"_id":"JoDa"},{"_id":"Bio"}],"file_date_updated":"2021-06-29T14:41:46Z","date_updated":"2023-08-24T14:48:33Z","ddc":["570"],"scopus_import":"1","intvolume":" 14","month":"03","abstract":[{"text":"Expansion microscopy is a relatively new approach to super-resolution imaging that uses expandable hydrogels to isotropically increase the physical distance between fluorophores in biological samples such as cell cultures or tissue slices. The classic gel recipe results in an expansion factor of ~4×, with a resolution of 60–80 nm. We have recently developed X10 microscopy, which uses a gel that achieves an expansion factor of ~10×, with a resolution of ~25 nm. Here, we provide a step-by-step protocol for X10 expansion microscopy. A typical experiment consists of seven sequential stages: (i) immunostaining, (ii) anchoring, (iii) polymerization, (iv) homogenization, (v) expansion, (vi) imaging, and (vii) validation. The protocol presented here includes recommendations for optimization, pitfalls and their solutions, and detailed guidelines that should increase reproducibility. Although our protocol focuses on X10 expansion microscopy, we detail which of these suggestions are also applicable to classic fourfold expansion microscopy. We exemplify our protocol using primary hippocampal neurons from rats, but our approach can be used with other primary cells or cultured cell lines of interest. This protocol will enable any researcher with basic experience in immunostainings and access to an epifluorescence microscope to perform super-resolution microscopy with X10. The procedure takes 3 d and requires ~5 h of actively handling the sample for labeling and expansion, and another ~3 h for imaging and analysis.","lang":"eng"}],"oa_version":"Submitted Version","pmid":1,"ec_funded":1,"issue":"3","volume":14,"publication_status":"published","language":[{"iso":"eng"}],"file":[{"relation":"main_file","access_level":"open_access","content_type":"application/vnd.openxmlformats-officedocument.wordprocessingml.document","success":1,"checksum":"7efb9951e7ddf3e3dcc2fb92b859c623","file_id":"9619","creator":"kschuh","file_size":84478958,"date_updated":"2021-06-29T14:41:46Z","file_name":"181031_Truckenbrodt_ExM_NatProtoc.docx","date_created":"2021-06-29T14:41:46Z"}]},{"language":[{"iso":"eng"}],"file":[{"date_updated":"2020-07-14T12:47:42Z","file_size":3523795,"creator":"dernst","date_created":"2019-09-16T12:42:40Z","file_name":"2019_ScientificReports_Fenu.pdf","content_type":"application/pdf","access_level":"open_access","relation":"main_file","checksum":"9cfd986d4108e288cc72276ef047ab0c","file_id":"6879"}],"publication_status":"published","publication_identifier":{"eissn":["20452322"]},"issue":"1","volume":9,"oa_version":"Published Version","pmid":1,"abstract":[{"lang":"eng","text":"A novel magnetic scratch method achieves repeatability, reproducibility and geometric control greater than pipette scratch assays and closely approximating the precision of cell exclusion assays while inducing the cell injury inherently necessary for wound healing assays. The magnetic scratch is affordable, easily implemented and standardisable and thus may contribute toward better comparability of data generated in different studies and laboratories."}],"intvolume":" 9","month":"09","scopus_import":"1","ddc":["570"],"date_updated":"2023-08-29T07:55:15Z","department":[{"_id":"Bio"}],"file_date_updated":"2020-07-14T12:47:42Z","_id":"6867","status":"public","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"type":"journal_article","publication":"Scientific Reports","day":"02","year":"2019","isi":1,"has_accepted_license":"1","date_created":"2019-09-15T22:00:42Z","date_published":"2019-09-02T00:00:00Z","doi":"10.1038/s41598-019-48930-7","oa":1,"quality_controlled":"1","publisher":"Springer Nature","user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","citation":{"ista":"Fenu M, Bettermann T, Vogl C, Darwish-Miranda N, Schramel J, Jenner F, Ribitsch I. 2019. A novel magnet-based scratch method for standardisation of wound-healing assays. Scientific Reports. 9(1), 12625.","chicago":"Fenu, M., T. Bettermann, C. Vogl, Nasser Darwish-Miranda, J. Schramel, F. Jenner, and I. Ribitsch. “A Novel Magnet-Based Scratch Method for Standardisation of Wound-Healing Assays.” Scientific Reports. Springer Nature, 2019. https://doi.org/10.1038/s41598-019-48930-7.","apa":"Fenu, M., Bettermann, T., Vogl, C., Darwish-Miranda, N., Schramel, J., Jenner, F., & Ribitsch, I. (2019). A novel magnet-based scratch method for standardisation of wound-healing assays. Scientific Reports. Springer Nature. https://doi.org/10.1038/s41598-019-48930-7","ama":"Fenu M, Bettermann T, Vogl C, et al. A novel magnet-based scratch method for standardisation of wound-healing assays. Scientific Reports. 2019;9(1). doi:10.1038/s41598-019-48930-7","ieee":"M. Fenu et al., “A novel magnet-based scratch method for standardisation of wound-healing assays,” Scientific Reports, vol. 9, no. 1. Springer Nature, 2019.","short":"M. Fenu, T. Bettermann, C. Vogl, N. Darwish-Miranda, J. Schramel, F. Jenner, I. Ribitsch, Scientific Reports 9 (2019).","mla":"Fenu, M., et al. “A Novel Magnet-Based Scratch Method for Standardisation of Wound-Healing Assays.” Scientific Reports, vol. 9, no. 1, 12625, Springer Nature, 2019, doi:10.1038/s41598-019-48930-7."},"title":"A novel magnet-based scratch method for standardisation of wound-healing assays","external_id":{"isi":["000483697800007"],"pmid":["31477739"]},"article_processing_charge":"No","author":[{"full_name":"Fenu, M.","last_name":"Fenu","first_name":"M."},{"last_name":"Bettermann","full_name":"Bettermann, T.","first_name":"T."},{"first_name":"C.","full_name":"Vogl, C.","last_name":"Vogl"},{"id":"39CD9926-F248-11E8-B48F-1D18A9856A87","first_name":"Nasser","full_name":"Darwish-Miranda, Nasser","orcid":"0000-0002-8821-8236","last_name":"Darwish-Miranda"},{"full_name":"Schramel, J.","last_name":"Schramel","first_name":"J."},{"first_name":"F.","full_name":"Jenner, F.","last_name":"Jenner"},{"last_name":"Ribitsch","full_name":"Ribitsch, I.","first_name":"I."}],"article_number":"12625"},{"date_updated":"2023-09-06T15:27:29Z","department":[{"_id":"HaJa"},{"_id":"Bio"}],"_id":"7406","status":"public","type":"journal_article","article_type":"original","language":[{"iso":"eng"}],"publication_status":"published","publication_identifier":{"issn":["0165-0270"]},"ec_funded":1,"volume":312,"oa_version":"None","pmid":1,"abstract":[{"lang":"eng","text":"Background\r\nSynaptic vesicles (SVs) are an integral part of the neurotransmission machinery, and isolation of SVs from their host neuron is necessary to reveal their most fundamental biochemical and functional properties in in vitro assays. Isolated SVs from neurons that have been genetically engineered, e.g. to introduce genetically encoded indicators, are not readily available but would permit new insights into SV structure and function. Furthermore, it is unclear if cultured neurons can provide sufficient starting material for SV isolation procedures.\r\n\r\nNew method\r\nHere, we demonstrate an efficient ex vivo procedure to obtain functional SVs from cultured rat cortical neurons after genetic engineering with a lentivirus.\r\n\r\nResults\r\nWe show that ∼108 plated cortical neurons allow isolation of suitable SV amounts for functional analysis and imaging. We found that SVs isolated from cultured neurons have neurotransmitter uptake comparable to that of SVs isolated from intact cortex. Using total internal reflection fluorescence (TIRF) microscopy, we visualized an exogenous SV-targeted marker protein and demonstrated the high efficiency of SV modification.\r\n\r\nComparison with existing methods\r\nObtaining SVs from genetically engineered neurons currently generally requires the availability of transgenic animals, which is constrained by technical (e.g. cost and time) and biological (e.g. developmental defects and lethality) limitations.\r\n\r\nConclusions\r\nThese results demonstrate the modification and isolation of functional SVs using cultured neurons and viral transduction. The ability to readily obtain SVs from genetically engineered neurons will permit linking in situ studies to in vitro experiments in a variety of genetic contexts."}],"acknowledged_ssus":[{"_id":"Bio"},{"_id":"EM-Fac"}],"intvolume":" 312","month":"01","scopus_import":"1","user_id":"c635000d-4b10-11ee-a964-aac5a93f6ac1","citation":{"apa":"Mckenzie, C., Spanova, M., Johnson, A. J., Kainrath, S., Zheden, V., Sitte, H. H., & Janovjak, H. L. (2019). Isolation of synaptic vesicles from genetically engineered cultured neurons. Journal of Neuroscience Methods. Elsevier. https://doi.org/10.1016/j.jneumeth.2018.11.018","ama":"Mckenzie C, Spanova M, Johnson AJ, et al. Isolation of synaptic vesicles from genetically engineered cultured neurons. Journal of Neuroscience Methods. 2019;312:114-121. doi:10.1016/j.jneumeth.2018.11.018","short":"C. Mckenzie, M. Spanova, A.J. Johnson, S. Kainrath, V. Zheden, H.H. Sitte, H.L. Janovjak, Journal of Neuroscience Methods 312 (2019) 114–121.","ieee":"C. Mckenzie et al., “Isolation of synaptic vesicles from genetically engineered cultured neurons,” Journal of Neuroscience Methods, vol. 312. Elsevier, pp. 114–121, 2019.","mla":"Mckenzie, Catherine, et al. “Isolation of Synaptic Vesicles from Genetically Engineered Cultured Neurons.” Journal of Neuroscience Methods, vol. 312, Elsevier, 2019, pp. 114–21, doi:10.1016/j.jneumeth.2018.11.018.","ista":"Mckenzie C, Spanova M, Johnson AJ, Kainrath S, Zheden V, Sitte HH, Janovjak HL. 2019. Isolation of synaptic vesicles from genetically engineered cultured neurons. Journal of Neuroscience Methods. 312, 114–121.","chicago":"Mckenzie, Catherine, Miroslava Spanova, Alexander J Johnson, Stephanie Kainrath, Vanessa Zheden, Harald H. Sitte, and Harald L Janovjak. “Isolation of Synaptic Vesicles from Genetically Engineered Cultured Neurons.” Journal of Neuroscience Methods. Elsevier, 2019. https://doi.org/10.1016/j.jneumeth.2018.11.018."},"title":"Isolation of synaptic vesicles from genetically engineered cultured neurons","article_processing_charge":"No","external_id":{"isi":["000456220900013"],"pmid":["30496761"]},"author":[{"full_name":"Mckenzie, Catherine","last_name":"Mckenzie","first_name":"Catherine","id":"3EEDE19A-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Miroslava","id":"44A924DC-F248-11E8-B48F-1D18A9856A87","last_name":"Spanova","full_name":"Spanova, Miroslava"},{"id":"46A62C3A-F248-11E8-B48F-1D18A9856A87","first_name":"Alexander J","last_name":"Johnson","orcid":"0000-0002-2739-8843","full_name":"Johnson, Alexander J"},{"first_name":"Stephanie","id":"32CFBA64-F248-11E8-B48F-1D18A9856A87","last_name":"Kainrath","full_name":"Kainrath, Stephanie"},{"last_name":"Zheden","full_name":"Zheden, Vanessa","orcid":"0000-0002-9438-4783","first_name":"Vanessa","id":"39C5A68A-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Sitte","full_name":"Sitte, Harald H.","first_name":"Harald H."},{"id":"33BA6C30-F248-11E8-B48F-1D18A9856A87","first_name":"Harald L","full_name":"Janovjak, Harald L","orcid":"0000-0002-8023-9315","last_name":"Janovjak"}],"project":[{"name":"Microbial Ion Channels for Synthetic Neurobiology","grant_number":"303564","_id":"25548C20-B435-11E9-9278-68D0E5697425","call_identifier":"FP7"},{"call_identifier":"FWF","_id":"26538374-B435-11E9-9278-68D0E5697425","grant_number":"I03630","name":"Molecular mechanisms of endocytic cargo recognition in plants"},{"call_identifier":"FWF","_id":"2548AE96-B435-11E9-9278-68D0E5697425","grant_number":"W1232-B24","name":"Molecular Drug Targets"}],"publication":"Journal of Neuroscience Methods","day":"15","year":"2019","isi":1,"date_created":"2020-01-30T09:12:19Z","date_published":"2019-01-15T00:00:00Z","doi":"10.1016/j.jneumeth.2018.11.018","page":"114-121","quality_controlled":"1","publisher":"Elsevier"},{"_id":"6093","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"type":"journal_article","status":"public","date_updated":"2023-09-19T14:46:47Z","ddc":["570"],"department":[{"_id":"Bio"}],"file_date_updated":"2020-07-14T12:47:19Z","abstract":[{"lang":"eng","text":"Blebs are cellular protrusions observed in migrating cells and in cells undergoing spreading, cytokinesis, and apoptosis. Here we investigate the flow of cytoplasm during bleb formation and the concurrent changes in cell volume using zebrafish primordial germ cells (PGCs) as an in vivo model. We show that bleb inflation occurs concomitantly with cytoplasmic inflow into it and that during this process the total cell volume does not change. We thus show that bleb formation in primordial germ cells results primarily from redistribution of material within the cell rather than being driven by flow of water from an external source."}],"oa_version":"Published Version","scopus_import":"1","intvolume":" 14","month":"02","publication_status":"published","language":[{"iso":"eng"}],"file":[{"content_type":"application/pdf","access_level":"open_access","relation":"main_file","file_id":"6096","checksum":"b885de050ed4bb3c86f706487a47197f","date_updated":"2020-07-14T12:47:19Z","file_size":2967731,"creator":"dernst","date_created":"2019-03-11T16:09:23Z","file_name":"2019_PLoSOne_Goudarzi.pdf"}],"issue":"2","volume":14,"article_number":"e0212699","citation":{"chicago":"Goudarzi, Mohammad, Aleix Boquet-Pujadas, Jean Christophe Olivo-Marin, and Erez Raz. “Fluid Dynamics during Bleb Formation in Migrating Cells in Vivo.” PLOS ONE. Public Library of Science, 2019. https://doi.org/10.1371/journal.pone.0212699.","ista":"Goudarzi M, Boquet-Pujadas A, Olivo-Marin JC, Raz E. 2019. Fluid dynamics during bleb formation in migrating cells in vivo. PLOS ONE. 14(2), e0212699.","mla":"Goudarzi, Mohammad, et al. “Fluid Dynamics during Bleb Formation in Migrating Cells in Vivo.” PLOS ONE, vol. 14, no. 2, e0212699, Public Library of Science, 2019, doi:10.1371/journal.pone.0212699.","short":"M. Goudarzi, A. Boquet-Pujadas, J.C. Olivo-Marin, E. Raz, PLOS ONE 14 (2019).","ieee":"M. Goudarzi, A. Boquet-Pujadas, J. C. Olivo-Marin, and E. Raz, “Fluid dynamics during bleb formation in migrating cells in vivo,” PLOS ONE, vol. 14, no. 2. Public Library of Science, 2019.","ama":"Goudarzi M, Boquet-Pujadas A, Olivo-Marin JC, Raz E. Fluid dynamics during bleb formation in migrating cells in vivo. PLOS ONE. 2019;14(2). doi:10.1371/journal.pone.0212699","apa":"Goudarzi, M., Boquet-Pujadas, A., Olivo-Marin, J. C., & Raz, E. (2019). Fluid dynamics during bleb formation in migrating cells in vivo. PLOS ONE. Public Library of Science. https://doi.org/10.1371/journal.pone.0212699"},"user_id":"c635000d-4b10-11ee-a964-aac5a93f6ac1","external_id":{"isi":["000459712100022"]},"article_processing_charge":"No","author":[{"full_name":"Goudarzi, Mohammad","last_name":"Goudarzi","id":"3384113A-F248-11E8-B48F-1D18A9856A87","first_name":"Mohammad"},{"first_name":"Aleix","full_name":"Boquet-Pujadas, Aleix","last_name":"Boquet-Pujadas"},{"first_name":"Jean Christophe","full_name":"Olivo-Marin, Jean Christophe","last_name":"Olivo-Marin"},{"last_name":"Raz","full_name":"Raz, Erez","first_name":"Erez"}],"title":"Fluid dynamics during bleb formation in migrating cells in vivo","oa":1,"quality_controlled":"1","publisher":"Public Library of Science","year":"2019","has_accepted_license":"1","isi":1,"publication":"PLOS ONE","day":"26","date_created":"2019-03-10T22:59:21Z","doi":"10.1371/journal.pone.0212699","date_published":"2019-02-26T00:00:00Z"},{"quality_controlled":"1","publisher":"Springer Nature","oa":1,"date_published":"2019-04-25T00:00:00Z","doi":"10.1038/s41586-019-1087-5","date_created":"2019-04-17T06:52:28Z","page":"546-550","day":"25","publication":"Nature","isi":1,"year":"2019","project":[{"_id":"25A603A2-B435-11E9-9278-68D0E5697425","call_identifier":"FP7","grant_number":"281556","name":"Cytoskeletal force generation and force transduction of migrating leukocytes (EU)"},{"call_identifier":"H2020","_id":"25FE9508-B435-11E9-9278-68D0E5697425","name":"Cellular navigation along spatial gradients","grant_number":"724373"},{"name":"Nano-Analytics of Cellular Systems","grant_number":"W01250-B20","_id":"265FAEBA-B435-11E9-9278-68D0E5697425","call_identifier":"FWF"},{"name":"International IST Postdoc Fellowship Programme","grant_number":"291734","_id":"25681D80-B435-11E9-9278-68D0E5697425","call_identifier":"FP7"},{"_id":"25A48D24-B435-11E9-9278-68D0E5697425","grant_number":"ALTF 1396-2014","name":"Molecular and system level view of immune cell migration"}],"title":"Nuclear positioning facilitates amoeboid migration along the path of least resistance","author":[{"first_name":"Jörg","id":"3F0587C8-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0003-2856-3369","full_name":"Renkawitz, Jörg","last_name":"Renkawitz"},{"last_name":"Kopf","full_name":"Kopf, Aglaja","orcid":"0000-0002-2187-6656","first_name":"Aglaja","id":"31DAC7B6-F248-11E8-B48F-1D18A9856A87"},{"last_name":"Stopp","full_name":"Stopp, Julian A","id":"489E3F00-F248-11E8-B48F-1D18A9856A87","first_name":"Julian A"},{"id":"4C7D837E-F248-11E8-B48F-1D18A9856A87","first_name":"Ingrid","full_name":"de Vries, Ingrid","last_name":"de Vries"},{"full_name":"Driscoll, Meghan K.","last_name":"Driscoll","first_name":"Meghan K."},{"last_name":"Merrin","orcid":"0000-0001-5145-4609","full_name":"Merrin, Jack","id":"4515C308-F248-11E8-B48F-1D18A9856A87","first_name":"Jack"},{"last_name":"Hauschild","orcid":"0000-0001-9843-3522","full_name":"Hauschild, Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert"},{"full_name":"Welf, Erik S.","last_name":"Welf","first_name":"Erik S."},{"first_name":"Gaudenz","last_name":"Danuser","full_name":"Danuser, Gaudenz"},{"first_name":"Reto","full_name":"Fiolka, Reto","last_name":"Fiolka"},{"id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87","first_name":"Michael K","full_name":"Sixt, Michael K","orcid":"0000-0002-6620-9179","last_name":"Sixt"}],"external_id":{"isi":["000465594200050"],"pmid":["30944468"]},"article_processing_charge":"No","user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","citation":{"chicago":"Renkawitz, Jörg, Aglaja Kopf, Julian A Stopp, Ingrid de Vries, Meghan K. Driscoll, Jack Merrin, Robert Hauschild, et al. “Nuclear Positioning Facilitates Amoeboid Migration along the Path of Least Resistance.” Nature. Springer Nature, 2019. https://doi.org/10.1038/s41586-019-1087-5.","ista":"Renkawitz J, Kopf A, Stopp JA, de Vries I, Driscoll MK, Merrin J, Hauschild R, Welf ES, Danuser G, Fiolka R, Sixt MK. 2019. Nuclear positioning facilitates amoeboid migration along the path of least resistance. Nature. 568, 546–550.","mla":"Renkawitz, Jörg, et al. “Nuclear Positioning Facilitates Amoeboid Migration along the Path of Least Resistance.” Nature, vol. 568, Springer Nature, 2019, pp. 546–50, doi:10.1038/s41586-019-1087-5.","apa":"Renkawitz, J., Kopf, A., Stopp, J. A., de Vries, I., Driscoll, M. K., Merrin, J., … Sixt, M. K. (2019). Nuclear positioning facilitates amoeboid migration along the path of least resistance. Nature. Springer Nature. https://doi.org/10.1038/s41586-019-1087-5","ama":"Renkawitz J, Kopf A, Stopp JA, et al. Nuclear positioning facilitates amoeboid migration along the path of least resistance. Nature. 2019;568:546-550. doi:10.1038/s41586-019-1087-5","ieee":"J. Renkawitz et al., “Nuclear positioning facilitates amoeboid migration along the path of least resistance,” Nature, vol. 568. Springer Nature, pp. 546–550, 2019.","short":"J. Renkawitz, A. Kopf, J.A. Stopp, I. de Vries, M.K. Driscoll, J. Merrin, R. Hauschild, E.S. Welf, G. Danuser, R. Fiolka, M.K. Sixt, Nature 568 (2019) 546–550."},"month":"04","intvolume":" 568","scopus_import":"1","main_file_link":[{"open_access":"1","url":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7217284/"}],"pmid":1,"oa_version":"Submitted Version","abstract":[{"lang":"eng","text":"During metazoan development, immune surveillance and cancer dissemination, cells migrate in complex three-dimensional microenvironments1,2,3. These spaces are crowded by cells and extracellular matrix, generating mazes with differently sized gaps that are typically smaller than the diameter of the migrating cell4,5. Most mesenchymal and epithelial cells and some—but not all—cancer cells actively generate their migratory path using pericellular tissue proteolysis6. By contrast, amoeboid cells such as leukocytes use non-destructive strategies of locomotion7, raising the question how these extremely fast cells navigate through dense tissues. Here we reveal that leukocytes sample their immediate vicinity for large pore sizes, and are thereby able to choose the path of least resistance. This allows them to circumnavigate local obstacles while effectively following global directional cues such as chemotactic gradients. Pore-size discrimination is facilitated by frontward positioning of the nucleus, which enables the cells to use their bulkiest compartment as a mechanical gauge. Once the nucleus and the closely associated microtubule organizing centre pass the largest pore, cytoplasmic protrusions still lingering in smaller pores are retracted. These retractions are coordinated by dynamic microtubules; when microtubules are disrupted, migrating cells lose coherence and frequently fragment into migratory cytoplasmic pieces. As nuclear positioning in front of the microtubule organizing centre is a typical feature of amoeboid migration, our findings link the fundamental organization of cellular polarity to the strategy of locomotion."}],"acknowledged_ssus":[{"_id":"SSU"}],"related_material":{"link":[{"description":"News on IST Homepage","relation":"press_release","url":"https://ist.ac.at/en/news/leukocytes-use-their-nucleus-as-a-ruler-to-choose-path-of-least-resistance/"}],"record":[{"status":"public","id":"14697","relation":"dissertation_contains"},{"status":"public","id":"6891","relation":"dissertation_contains"}]},"volume":568,"ec_funded":1,"language":[{"iso":"eng"}],"publication_status":"published","status":"public","type":"journal_article","article_type":"letter_note","_id":"6328","department":[{"_id":"MiSi"},{"_id":"NanoFab"},{"_id":"Bio"}],"date_updated":"2024-03-27T23:30:39Z"},{"article_type":"original","type":"journal_article","status":"public","_id":"308","department":[{"_id":"DaSi"},{"_id":"CaHe"},{"_id":"Bio"},{"_id":"EM-Fac"},{"_id":"MiSi"}],"date_updated":"2023-09-11T13:22:13Z","main_file_link":[{"url":"https://doi.org/10.1016/j.devcel.2018.04.002","open_access":"1"}],"scopus_import":"1","intvolume":" 45","month":"05","abstract":[{"text":"Migrating cells penetrate tissue barriers during development, inflammatory responses, and tumor metastasis. We study if migration in vivo in such three-dimensionally confined environments requires changes in the mechanical properties of the surrounding cells using embryonic Drosophila melanogaster hemocytes, also called macrophages, as a model. We find that macrophage invasion into the germband through transient separation of the apposing ectoderm and mesoderm requires cell deformations and reductions in apical tension in the ectoderm. Interestingly, the genetic pathway governing these mechanical shifts acts downstream of the only known tumor necrosis factor superfamily member in Drosophila, Eiger, and its receptor, Grindelwald. Eiger-Grindelwald signaling reduces levels of active Myosin in the germband ectodermal cortex through the localization of a Crumbs complex component, Patj (Pals-1-associated tight junction protein). We therefore elucidate a distinct molecular pathway that controls tissue tension and demonstrate the importance of such regulation for invasive migration in vivo.","lang":"eng"}],"acknowledged_ssus":[{"_id":"SSU"}],"pmid":1,"oa_version":"Published Version","ec_funded":1,"volume":45,"related_material":{"link":[{"description":"News on IST Homepage","url":"https://ist.ac.at/en/news/cells-change-tension-to-make-tissue-barriers-easier-to-get-through/","relation":"press_release"}]},"issue":"3","publication_status":"published","language":[{"iso":"eng"}],"project":[{"grant_number":"P29638","name":"Drosophila TNFa´s Funktion in Immunzellen","call_identifier":"FWF","_id":"253B6E48-B435-11E9-9278-68D0E5697425"},{"grant_number":"334077","name":"Investigating the role of transporters in invasive migration through junctions","call_identifier":"FP7","_id":"2536F660-B435-11E9-9278-68D0E5697425"}],"external_id":{"isi":["000432461400009"],"pmid":["29738712"]},"article_processing_charge":"No","author":[{"full_name":"Ratheesh, Aparna","orcid":"0000-0001-7190-0776","last_name":"Ratheesh","id":"2F064CFE-F248-11E8-B48F-1D18A9856A87","first_name":"Aparna"},{"full_name":"Biebl, Julia","last_name":"Biebl","id":"3CCBB46E-F248-11E8-B48F-1D18A9856A87","first_name":"Julia"},{"first_name":"Michael","last_name":"Smutny","full_name":"Smutny, Michael"},{"first_name":"Jana","id":"433253EE-F248-11E8-B48F-1D18A9856A87","full_name":"Veselá, Jana","last_name":"Veselá"},{"id":"41DB591E-F248-11E8-B48F-1D18A9856A87","first_name":"Ekaterina","full_name":"Papusheva, Ekaterina","last_name":"Papusheva"},{"id":"2B819732-F248-11E8-B48F-1D18A9856A87","first_name":"Gabriel","orcid":"0000-0003-4761-5996","full_name":"Krens, Gabriel","last_name":"Krens"},{"first_name":"Walter","id":"3F99E422-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-9735-5315","full_name":"Kaufmann, Walter","last_name":"Kaufmann"},{"orcid":"0000-0002-1819-198X","full_name":"György, Attila","last_name":"György","id":"3BCEDBE0-F248-11E8-B48F-1D18A9856A87","first_name":"Attila"},{"first_name":"Alessandra M","id":"3DBA3F4E-F248-11E8-B48F-1D18A9856A87","last_name":"Casano","orcid":"0000-0002-6009-6804","full_name":"Casano, Alessandra M"},{"orcid":"0000-0001-8323-8353","full_name":"Siekhaus, Daria E","last_name":"Siekhaus","id":"3D224B9E-F248-11E8-B48F-1D18A9856A87","first_name":"Daria E"}],"title":"Drosophila TNF modulates tissue tension in the embryo to facilitate macrophage invasive migration","citation":{"chicago":"Ratheesh, Aparna, Julia Bicher, Michael Smutny, Jana Veselá, Ekaterina Papusheva, Gabriel Krens, Walter Kaufmann, Attila György, Alessandra M Casano, and Daria E Siekhaus. “Drosophila TNF Modulates Tissue Tension in the Embryo to Facilitate Macrophage Invasive Migration.” Developmental Cell. Elsevier, 2018. https://doi.org/10.1016/j.devcel.2018.04.002.","ista":"Ratheesh A, Bicher J, Smutny M, Veselá J, Papusheva E, Krens G, Kaufmann W, György A, Casano AM, Siekhaus DE. 2018. Drosophila TNF modulates tissue tension in the embryo to facilitate macrophage invasive migration. Developmental Cell. 45(3), 331–346.","mla":"Ratheesh, Aparna, et al. “Drosophila TNF Modulates Tissue Tension in the Embryo to Facilitate Macrophage Invasive Migration.” Developmental Cell, vol. 45, no. 3, Elsevier, 2018, pp. 331–46, doi:10.1016/j.devcel.2018.04.002.","apa":"Ratheesh, A., Bicher, J., Smutny, M., Veselá, J., Papusheva, E., Krens, G., … Siekhaus, D. E. (2018). Drosophila TNF modulates tissue tension in the embryo to facilitate macrophage invasive migration. Developmental Cell. Elsevier. https://doi.org/10.1016/j.devcel.2018.04.002","ama":"Ratheesh A, Bicher J, Smutny M, et al. Drosophila TNF modulates tissue tension in the embryo to facilitate macrophage invasive migration. Developmental Cell. 2018;45(3):331-346. doi:10.1016/j.devcel.2018.04.002","short":"A. Ratheesh, J. Bicher, M. Smutny, J. Veselá, E. Papusheva, G. Krens, W. Kaufmann, A. György, A.M. Casano, D.E. Siekhaus, Developmental Cell 45 (2018) 331–346.","ieee":"A. Ratheesh et al., “Drosophila TNF modulates tissue tension in the embryo to facilitate macrophage invasive migration,” Developmental Cell, vol. 45, no. 3. Elsevier, pp. 331–346, 2018."},"user_id":"c635000d-4b10-11ee-a964-aac5a93f6ac1","oa":1,"publisher":"Elsevier","quality_controlled":"1","page":"331 - 346","date_created":"2018-12-11T11:45:44Z","doi":"10.1016/j.devcel.2018.04.002","date_published":"2018-05-07T00:00:00Z","year":"2018","isi":1,"publication":"Developmental Cell","day":"07"},{"project":[{"name":"Cellular navigation along spatial gradients","grant_number":"724373","_id":"25FE9508-B435-11E9-9278-68D0E5697425","call_identifier":"H2020"}],"citation":{"mla":"Leithner, Alexander F., et al. “Fast and Efficient Genetic Engineering of Hematopoietic Precursor Cells for the Study of Dendritic Cell Migration.” European Journal of Immunology, vol. 48, no. 6, Wiley-Blackwell, 2018, pp. 1074–77, doi:10.1002/eji.201747358.","apa":"Leithner, A. F., Renkawitz, J., de Vries, I., Hauschild, R., Haecker, H., & Sixt, M. K. (2018). Fast and efficient genetic engineering of hematopoietic precursor cells for the study of dendritic cell migration. European Journal of Immunology. Wiley-Blackwell. https://doi.org/10.1002/eji.201747358","ama":"Leithner AF, Renkawitz J, de Vries I, Hauschild R, Haecker H, Sixt MK. Fast and efficient genetic engineering of hematopoietic precursor cells for the study of dendritic cell migration. European Journal of Immunology. 2018;48(6):1074-1077. doi:10.1002/eji.201747358","ieee":"A. F. Leithner, J. Renkawitz, I. de Vries, R. Hauschild, H. Haecker, and M. K. Sixt, “Fast and efficient genetic engineering of hematopoietic precursor cells for the study of dendritic cell migration,” European Journal of Immunology, vol. 48, no. 6. Wiley-Blackwell, pp. 1074–1077, 2018.","short":"A.F. Leithner, J. Renkawitz, I. de Vries, R. Hauschild, H. Haecker, M.K. Sixt, European Journal of Immunology 48 (2018) 1074–1077.","chicago":"Leithner, Alexander F, Jörg Renkawitz, Ingrid de Vries, Robert Hauschild, Hans Haecker, and Michael K Sixt. “Fast and Efficient Genetic Engineering of Hematopoietic Precursor Cells for the Study of Dendritic Cell Migration.” European Journal of Immunology. Wiley-Blackwell, 2018. https://doi.org/10.1002/eji.201747358.","ista":"Leithner AF, Renkawitz J, de Vries I, Hauschild R, Haecker H, Sixt MK. 2018. Fast and efficient genetic engineering of hematopoietic precursor cells for the study of dendritic cell migration. European Journal of Immunology. 48(6), 1074–1077."},"user_id":"c635000d-4b10-11ee-a964-aac5a93f6ac1","external_id":{"isi":["000434963700016"]},"article_processing_charge":"Yes (via OA deal)","author":[{"last_name":"Leithner","full_name":"Leithner, Alexander F","orcid":"0000-0002-1073-744X","id":"3B1B77E4-F248-11E8-B48F-1D18A9856A87","first_name":"Alexander F"},{"id":"3F0587C8-F248-11E8-B48F-1D18A9856A87","first_name":"Jörg","full_name":"Renkawitz, Jörg","orcid":"0000-0003-2856-3369","last_name":"Renkawitz"},{"id":"4C7D837E-F248-11E8-B48F-1D18A9856A87","first_name":"Ingrid","full_name":"De Vries, Ingrid","last_name":"De Vries"},{"id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert","last_name":"Hauschild","full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522"},{"first_name":"Hans","full_name":"Haecker, Hans","last_name":"Haecker"},{"last_name":"Sixt","orcid":"0000-0002-6620-9179","full_name":"Sixt, Michael K","id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87","first_name":"Michael K"}],"publist_id":"7386","title":"Fast and efficient genetic engineering of hematopoietic precursor cells for the study of dendritic cell migration","acknowledgement":"This work was supported by grants of the European Research Council (ERC CoG 724373) and the Austrian Science Fund (FWF) to M.S. We thank the scientific support units at IST Austria for excellent technical support.\r\nWe thank the scientific support units at IST Austria for excellent technical support. ","oa":1,"publisher":"Wiley-Blackwell","quality_controlled":"1","year":"2018","has_accepted_license":"1","isi":1,"publication":"European Journal of Immunology","day":"13","page":"1074 - 1077","date_created":"2018-12-11T11:46:28Z","date_published":"2018-02-13T00:00:00Z","doi":"10.1002/eji.201747358","_id":"437","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by-nc/4.0/legalcode","image":"/images/cc_by_nc.png","name":"Creative Commons Attribution-NonCommercial 4.0 International (CC BY-NC 4.0)","short":"CC BY-NC (4.0)"},"type":"journal_article","pubrep_id":"1067","status":"public","date_updated":"2023-09-11T14:01:18Z","ddc":["570"],"file_date_updated":"2020-07-14T12:46:27Z","department":[{"_id":"MiSi"},{"_id":"Bio"}],"acknowledged_ssus":[{"_id":"SSU"}],"abstract":[{"text":"Dendritic cells (DCs) are sentinels of the adaptive immune system that reside in peripheral organs of mammals. Upon pathogen encounter, they undergo maturation and up-regulate the chemokine receptor CCR7 that guides them along gradients of its chemokine ligands CCL19 and 21 to the next draining lymph node. There, DCs present peripherally acquired antigen to naïve T cells, thereby triggering adaptive immunity.","lang":"eng"}],"oa_version":"Published Version","scopus_import":"1","intvolume":" 48","month":"02","publication_status":"published","language":[{"iso":"eng"}],"file":[{"file_name":"IST-2018-1067-v1+2_Leithner_et_al-2018-European_Journal_of_Immunology.pdf","date_created":"2018-12-12T10:13:56Z","file_size":590106,"date_updated":"2020-07-14T12:46:27Z","creator":"system","file_id":"5044","checksum":"9d5b74cd016505aeb9a4c2d33bbedaeb","content_type":"application/pdf","relation":"main_file","access_level":"open_access"}],"ec_funded":1,"issue":"6","volume":48},{"pmid":1,"oa_version":"Published Version","abstract":[{"text":"Lymphatic endothelial cells (LECs) release extracellular chemokines to guide the migration of dendritic cells. In this study, we report that LECs also release basolateral exosome-rich endothelial vesicles (EEVs) that are secreted in greater numbers in the presence of inflammatory cytokines and accumulate in the perivascular stroma of small lymphatic vessels in human chronic inflammatory diseases. Proteomic analyses of EEV fractions identified > 1,700 cargo proteins and revealed a dominant motility-promoting protein signature. In vitro and ex vivo EEV fractions augmented cellular protrusion formation in a CX3CL1/fractalkine-dependent fashion and enhanced the directional migratory response of human dendritic cells along guidance cues. We conclude that perilymphatic LEC exosomes enhance exploratory behavior and thus promote directional migration of CX3CR1-expressing cells in complex tissue environments.","lang":"eng"}],"month":"04","intvolume":" 217","scopus_import":"1","file":[{"checksum":"9c7eba51a35c62da8c13f98120b64df4","file_id":"5704","relation":"main_file","access_level":"open_access","content_type":"application/pdf","file_name":"2018_JournalCellBiology_Brown.pdf","date_created":"2018-12-17T12:50:07Z","creator":"dernst","file_size":2252043,"date_updated":"2020-07-14T12:45:45Z"}],"language":[{"iso":"eng"}],"publication_status":"published","issue":"6","volume":217,"ec_funded":1,"_id":"275","status":"public","type":"journal_article","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"ddc":["570"],"date_updated":"2023-09-13T08:51:29Z","department":[{"_id":"MiSi"},{"_id":"Bio"}],"file_date_updated":"2020-07-14T12:45:45Z","acknowledgement":"M. Brown was supported by the Cell Communication in Health and Disease Graduate Study Program of the Austrian Science Fund and Medizinische Universität Wien, M. Sixt by the European Research Council (ERC GA 281556) and an Austrian Science Fund START award, K.L. Bennett by the Austrian Academy of Sciences, D.G. Jackson and L.A. Johnson by Unit Funding (MC_UU_12010/2) and project grants from the Medical Research Council (G1100134 and MR/L008610/1), and M. Detmar by the Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung and Advanced European Research Council grant LYVICAM. K. Vaahtomeri was supported by an Academy of Finland postdoctoral research grant (287853). This project has received funding from the European Union’s Horizon 2020 research and innovation program under grant agreement No. 668036 (RELENT).","quality_controlled":"1","publisher":"Rockefeller University Press","oa":1,"day":"12","publication":"Journal of Cell Biology","has_accepted_license":"1","isi":1,"year":"2018","doi":"10.1083/jcb.201612051","date_published":"2018-04-12T00:00:00Z","date_created":"2018-12-11T11:45:33Z","page":"2205 - 2221","project":[{"call_identifier":"FWF","_id":"25A8E5EA-B435-11E9-9278-68D0E5697425","grant_number":"Y 564-B12","name":"Cytoskeletal force generation and transduction of leukocytes (FWF)"},{"call_identifier":"FP7","_id":"25A603A2-B435-11E9-9278-68D0E5697425","name":"Cytoskeletal force generation and force transduction of migrating leukocytes (EU)","grant_number":"281556"}],"user_id":"c635000d-4b10-11ee-a964-aac5a93f6ac1","citation":{"mla":"Brown, Markus, et al. “Lymphatic Exosomes Promote Dendritic Cell Migration along Guidance Cues.” Journal of Cell Biology, vol. 217, no. 6, Rockefeller University Press, 2018, pp. 2205–21, doi:10.1083/jcb.201612051.","short":"M. Brown, L. Johnson, D. Leone, P. Májek, K. Vaahtomeri, D. Senfter, N. Bukosza, H. Schachner, G. Asfour, B. Langer, R. Hauschild, K. Parapatics, Y. Hong, K. Bennett, R. Kain, M. Detmar, M.K. Sixt, D. Jackson, D. Kerjaschki, Journal of Cell Biology 217 (2018) 2205–2221.","ieee":"M. Brown et al., “Lymphatic exosomes promote dendritic cell migration along guidance cues,” Journal of Cell Biology, vol. 217, no. 6. Rockefeller University Press, pp. 2205–2221, 2018.","ama":"Brown M, Johnson L, Leone D, et al. Lymphatic exosomes promote dendritic cell migration along guidance cues. Journal of Cell Biology. 2018;217(6):2205-2221. doi:10.1083/jcb.201612051","apa":"Brown, M., Johnson, L., Leone, D., Májek, P., Vaahtomeri, K., Senfter, D., … Kerjaschki, D. (2018). Lymphatic exosomes promote dendritic cell migration along guidance cues. Journal of Cell Biology. Rockefeller University Press. https://doi.org/10.1083/jcb.201612051","chicago":"Brown, Markus, Louise Johnson, Dario Leone, Peter Májek, Kari Vaahtomeri, Daniel Senfter, Nora Bukosza, et al. “Lymphatic Exosomes Promote Dendritic Cell Migration along Guidance Cues.” Journal of Cell Biology. Rockefeller University Press, 2018. https://doi.org/10.1083/jcb.201612051.","ista":"Brown M, Johnson L, Leone D, Májek P, Vaahtomeri K, Senfter D, Bukosza N, Schachner H, Asfour G, Langer B, Hauschild R, Parapatics K, Hong Y, Bennett K, Kain R, Detmar M, Sixt MK, Jackson D, Kerjaschki D. 2018. Lymphatic exosomes promote dendritic cell migration along guidance cues. Journal of Cell Biology. 217(6), 2205–2221."},"title":"Lymphatic exosomes promote dendritic cell migration along guidance cues","author":[{"full_name":"Brown, Markus","last_name":"Brown","first_name":"Markus","id":"3DAB9AFC-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Louise","full_name":"Johnson, Louise","last_name":"Johnson"},{"full_name":"Leone, Dario","last_name":"Leone","first_name":"Dario"},{"last_name":"Májek","full_name":"Májek, Peter","first_name":"Peter"},{"orcid":"0000-0001-7829-3518","full_name":"Vaahtomeri, Kari","last_name":"Vaahtomeri","id":"368EE576-F248-11E8-B48F-1D18A9856A87","first_name":"Kari"},{"first_name":"Daniel","full_name":"Senfter, Daniel","last_name":"Senfter"},{"last_name":"Bukosza","full_name":"Bukosza, Nora","first_name":"Nora"},{"full_name":"Schachner, Helga","last_name":"Schachner","first_name":"Helga"},{"first_name":"Gabriele","last_name":"Asfour","full_name":"Asfour, Gabriele"},{"first_name":"Brigitte","full_name":"Langer, Brigitte","last_name":"Langer"},{"id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert","orcid":"0000-0001-9843-3522","full_name":"Hauschild, Robert","last_name":"Hauschild"},{"last_name":"Parapatics","full_name":"Parapatics, Katja","first_name":"Katja"},{"full_name":"Hong, Young","last_name":"Hong","first_name":"Young"},{"first_name":"Keiryn","full_name":"Bennett, Keiryn","last_name":"Bennett"},{"last_name":"Kain","full_name":"Kain, Renate","first_name":"Renate"},{"full_name":"Detmar, Michael","last_name":"Detmar","first_name":"Michael"},{"last_name":"Sixt","orcid":"0000-0002-6620-9179","full_name":"Sixt, Michael K","id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87","first_name":"Michael K"},{"full_name":"Jackson, David","last_name":"Jackson","first_name":"David"},{"full_name":"Kerjaschki, Dontscho","last_name":"Kerjaschki","first_name":"Dontscho"}],"publist_id":"7627","article_processing_charge":"No","external_id":{"isi":["000438077800026"],"pmid":["29650776"]}},{"article_processing_charge":"No","author":[{"last_name":"Hauschild","orcid":"0000-0001-9843-3522","full_name":"Hauschild, Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert"}],"file_date_updated":"2020-07-14T12:47:08Z","department":[{"_id":"Bio"}],"title":"Fluorescence lifetime analysis of FLIM X16 TCSPC data","date_updated":"2024-02-21T13:44:21Z","citation":{"chicago":"Hauschild, Robert. “Fluorescence Lifetime Analysis of FLIM X16 TCSPC Data.” Institute of Science and Technology Austria, 2018. https://doi.org/10.15479/AT:ISTA:0113.","ista":"Hauschild R. 2018. Fluorescence lifetime analysis of FLIM X16 TCSPC data, Institute of Science and Technology Austria, 10.15479/AT:ISTA:0113.","mla":"Hauschild, Robert. Fluorescence Lifetime Analysis of FLIM X16 TCSPC Data. Institute of Science and Technology Austria, 2018, doi:10.15479/AT:ISTA:0113.","apa":"Hauschild, R. (2018). Fluorescence lifetime analysis of FLIM X16 TCSPC data. Institute of Science and Technology Austria. https://doi.org/10.15479/AT:ISTA:0113","ama":"Hauschild R. Fluorescence lifetime analysis of FLIM X16 TCSPC data. 2018. doi:10.15479/AT:ISTA:0113","short":"R. Hauschild, (2018).","ieee":"R. Hauschild, “Fluorescence lifetime analysis of FLIM X16 TCSPC data.” Institute of Science and Technology Austria, 2018."},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","ddc":["570"],"tmp":{"image":"/images/cc_0.png","legal_code_url":"https://creativecommons.org/publicdomain/zero/1.0/legalcode","name":"Creative Commons Public Domain Dedication (CC0 1.0)","short":"CC0 (1.0)"},"type":"research_data","keyword":["FLIM","FRET","fluorescence lifetime imaging"],"status":"public","_id":"5588","license":"https://creativecommons.org/publicdomain/zero/1.0/","date_created":"2018-12-12T12:31:41Z","date_published":"2018-11-07T00:00:00Z","doi":"10.15479/AT:ISTA:0113","datarep_id":"113","year":"2018","has_accepted_license":"1","file":[{"file_name":"IST-2018-113-v1+1_FLIMX16TCSPCLifeTimeFit.zip","date_created":"2019-04-11T18:15:01Z","file_size":47866557,"date_updated":"2020-07-14T12:47:08Z","creator":"rhauschild","file_id":"6296","checksum":"a4e160054c9114600624cf89a925fd7d","content_type":"application/x-zip-compressed","relation":"main_file","access_level":"open_access"}],"day":"07","oa":1,"publisher":"Institute of Science and Technology Austria","month":"11","abstract":[{"text":"Script to perform a simple exponential lifetime fit of a ROI on time stacks acquired with a FLIM X16 TCSPC detector (+example data)","lang":"eng"}],"oa_version":"Published Version"},{"_id":"15","type":"journal_article","status":"public","date_updated":"2024-03-27T23:30:39Z","department":[{"_id":"MiSi"},{"_id":"Bio"}],"acknowledged_ssus":[{"_id":"SSU"}],"abstract":[{"lang":"eng","text":"Although much is known about the physiological framework of T cell motility, and numerous rate-limiting molecules have been identified through loss-of-function approaches, an integrated functional concept of T cell motility is lacking. Here, we used in vivo precision morphometry together with analysis of cytoskeletal dynamics in vitro to deconstruct the basic mechanisms of T cell migration within lymphatic organs. We show that the contributions of the integrin LFA-1 and the chemokine receptor CCR7 are complementary rather than positioned in a linear pathway, as they are during leukocyte extravasation from the blood vasculature. Our data demonstrate that CCR7 controls cortical actin flows, whereas integrins mediate substrate friction that is sufficient to drive locomotion in the absence of considerable surface adhesions and plasma membrane flux."}],"oa_version":"Published Version","pmid":1,"main_file_link":[{"url":"https://www.ncbi.nlm.nih.gov/pubmed/29777221","open_access":"1"}],"scopus_import":"1","intvolume":" 19","month":"05","publication_status":"published","language":[{"iso":"eng"}],"ec_funded":1,"volume":19,"issue":"6","related_material":{"record":[{"id":"6891","status":"public","relation":"dissertation_contains"}]},"project":[{"call_identifier":"H2020","_id":"25FE9508-B435-11E9-9278-68D0E5697425","name":"Cellular navigation along spatial gradients","grant_number":"724373"},{"call_identifier":"H2020","_id":"260AA4E2-B435-11E9-9278-68D0E5697425","name":"Mechanical Adaptation of Lamellipodial Actin Networks in Migrating Cells","grant_number":"747687"},{"grant_number":"ALTF 1396-2014","name":"Molecular and system level view of immune cell migration","_id":"25A48D24-B435-11E9-9278-68D0E5697425"},{"name":"Cytoskeletal force generation and force transduction of migrating leukocytes (EU)","grant_number":"281556","_id":"25A603A2-B435-11E9-9278-68D0E5697425","call_identifier":"FP7"}],"citation":{"chicago":"Hons, Miroslav, Aglaja Kopf, Robert Hauschild, Alexander F Leithner, Florian R Gärtner, Jun Abe, Jörg Renkawitz, Jens Stein, and Michael K Sixt. “Chemokines and Integrins Independently Tune Actin Flow and Substrate Friction during Intranodal Migration of T Cells.” Nature Immunology. Nature Publishing Group, 2018. https://doi.org/10.1038/s41590-018-0109-z.","ista":"Hons M, Kopf A, Hauschild R, Leithner AF, Gärtner FR, Abe J, Renkawitz J, Stein J, Sixt MK. 2018. Chemokines and integrins independently tune actin flow and substrate friction during intranodal migration of T cells. Nature Immunology. 19(6), 606–616.","mla":"Hons, Miroslav, et al. “Chemokines and Integrins Independently Tune Actin Flow and Substrate Friction during Intranodal Migration of T Cells.” Nature Immunology, vol. 19, no. 6, Nature Publishing Group, 2018, pp. 606–16, doi:10.1038/s41590-018-0109-z.","ieee":"M. Hons et al., “Chemokines and integrins independently tune actin flow and substrate friction during intranodal migration of T cells,” Nature Immunology, vol. 19, no. 6. Nature Publishing Group, pp. 606–616, 2018.","short":"M. Hons, A. Kopf, R. Hauschild, A.F. Leithner, F.R. Gärtner, J. Abe, J. Renkawitz, J. Stein, M.K. Sixt, Nature Immunology 19 (2018) 606–616.","ama":"Hons M, Kopf A, Hauschild R, et al. Chemokines and integrins independently tune actin flow and substrate friction during intranodal migration of T cells. Nature Immunology. 2018;19(6):606-616. doi:10.1038/s41590-018-0109-z","apa":"Hons, M., Kopf, A., Hauschild, R., Leithner, A. F., Gärtner, F. R., Abe, J., … Sixt, M. K. (2018). Chemokines and integrins independently tune actin flow and substrate friction during intranodal migration of T cells. Nature Immunology. Nature Publishing Group. https://doi.org/10.1038/s41590-018-0109-z"},"user_id":"c635000d-4b10-11ee-a964-aac5a93f6ac1","external_id":{"isi":["000433041500026"],"pmid":["29777221"]},"article_processing_charge":"No","publist_id":"8040","author":[{"full_name":"Hons, Miroslav","orcid":"0000-0002-6625-3348","last_name":"Hons","id":"4167FE56-F248-11E8-B48F-1D18A9856A87","first_name":"Miroslav"},{"orcid":"0000-0002-2187-6656","full_name":"Kopf, Aglaja","last_name":"Kopf","first_name":"Aglaja","id":"31DAC7B6-F248-11E8-B48F-1D18A9856A87"},{"id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert","full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522","last_name":"Hauschild"},{"orcid":"0000-0002-1073-744X","full_name":"Leithner, Alexander F","last_name":"Leithner","id":"3B1B77E4-F248-11E8-B48F-1D18A9856A87","first_name":"Alexander F"},{"full_name":"Gärtner, Florian R","orcid":"0000-0001-6120-3723","last_name":"Gärtner","id":"397A88EE-F248-11E8-B48F-1D18A9856A87","first_name":"Florian R"},{"last_name":"Abe","full_name":"Abe, Jun","first_name":"Jun"},{"first_name":"Jörg","id":"3F0587C8-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0003-2856-3369","full_name":"Renkawitz, Jörg","last_name":"Renkawitz"},{"last_name":"Stein","full_name":"Stein, Jens","first_name":"Jens"},{"full_name":"Sixt, Michael K","orcid":"0000-0002-6620-9179","last_name":"Sixt","first_name":"Michael K","id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87"}],"title":"Chemokines and integrins independently tune actin flow and substrate friction during intranodal migration of T cells","acknowledgement":"This work was funded by grants from the European Research Council (ERC StG 281556 and CoG 724373) and the Austrian Science Foundation (FWF) to M.S. and by Swiss National Foundation (SNF) project grants 31003A_135649, 31003A_153457 and CR23I3_156234 to J.V.S. F.G. received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement no. 747687, and J.R. was funded by an EMBO long-term fellowship (ALTF 1396-2014).","oa":1,"quality_controlled":"1","publisher":"Nature Publishing Group","year":"2018","isi":1,"publication":"Nature Immunology","day":"18","page":"606 - 616","date_created":"2018-12-11T11:44:10Z","date_published":"2018-05-18T00:00:00Z","doi":"10.1038/s41590-018-0109-z"},{"date_published":"2018-01-05T00:00:00Z","doi":"10.21769/BioProtoc.2685","date_created":"2018-12-11T11:46:30Z","has_accepted_license":"1","year":"2018","day":"05","publication":"Bio-protocol","publisher":"Bio-protocol","quality_controlled":"1","oa":1,"acknowledgement":"This protocol was adapted from Fendrych et al., 2016. This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie Grant Agreement No. 665385, and Austrian Science Fund (FWF) [M 2128-B21]. ","publist_id":"7381","author":[{"orcid":"0000-0002-5607-272X","full_name":"Li, Lanxin","last_name":"Li","id":"367EF8FA-F248-11E8-B48F-1D18A9856A87","first_name":"Lanxin"},{"id":"2B819732-F248-11E8-B48F-1D18A9856A87","first_name":"Gabriel","last_name":"Krens","full_name":"Krens, Gabriel","orcid":"0000-0003-4761-5996"},{"last_name":"Fendrych","orcid":"0000-0002-9767-8699","full_name":"Fendrych, Matyas","id":"43905548-F248-11E8-B48F-1D18A9856A87","first_name":"Matyas"},{"orcid":"0000-0002-8302-7596","full_name":"Friml, Jirí","last_name":"Friml","id":"4159519E-F248-11E8-B48F-1D18A9856A87","first_name":"Jirí"}],"article_processing_charge":"No","title":"Real-time analysis of auxin response, cell wall pH and elongation in Arabidopsis thaliana Hypocotyls","citation":{"apa":"Li, L., Krens, G., Fendrych, M., & Friml, J. (2018). Real-time analysis of auxin response, cell wall pH and elongation in Arabidopsis thaliana Hypocotyls. Bio-Protocol. Bio-protocol. https://doi.org/10.21769/BioProtoc.2685","ama":"Li L, Krens G, Fendrych M, Friml J. Real-time analysis of auxin response, cell wall pH and elongation in Arabidopsis thaliana Hypocotyls. Bio-protocol. 2018;8(1). doi:10.21769/BioProtoc.2685","short":"L. Li, G. Krens, M. Fendrych, J. Friml, Bio-Protocol 8 (2018).","ieee":"L. Li, G. Krens, M. Fendrych, and J. Friml, “Real-time analysis of auxin response, cell wall pH and elongation in Arabidopsis thaliana Hypocotyls,” Bio-protocol, vol. 8, no. 1. Bio-protocol, 2018.","mla":"Li, Lanxin, et al. “Real-Time Analysis of Auxin Response, Cell Wall PH and Elongation in Arabidopsis Thaliana Hypocotyls.” Bio-Protocol, vol. 8, no. 1, Bio-protocol, 2018, doi:10.21769/BioProtoc.2685.","ista":"Li L, Krens G, Fendrych M, Friml J. 2018. Real-time analysis of auxin response, cell wall pH and elongation in Arabidopsis thaliana Hypocotyls. Bio-protocol. 8(1).","chicago":"Li, Lanxin, Gabriel Krens, Matyas Fendrych, and Jiří Friml. “Real-Time Analysis of Auxin Response, Cell Wall PH and Elongation in Arabidopsis Thaliana Hypocotyls.” Bio-Protocol. Bio-protocol, 2018. https://doi.org/10.21769/BioProtoc.2685."},"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","project":[{"name":"International IST Doctoral Program","grant_number":"665385","_id":"2564DBCA-B435-11E9-9278-68D0E5697425","call_identifier":"H2020"}],"volume":8,"issue":"1","related_material":{"record":[{"status":"public","id":"10083","relation":"dissertation_contains"}]},"ec_funded":1,"publication_identifier":{"eissn":["2331-8325"]},"publication_status":"published","file":[{"file_id":"5299","checksum":"6644ba698206eda32b0abf09128e63e3","access_level":"open_access","relation":"main_file","content_type":"application/pdf","date_created":"2018-12-12T10:17:43Z","file_name":"IST-2018-970-v1+1_2018_Lanxin_Real-time_analysis.pdf","creator":"system","date_updated":"2020-07-14T12:46:29Z","file_size":11352389}],"language":[{"iso":"eng"}],"month":"01","intvolume":" 8","abstract":[{"text":"The rapid auxin-triggered growth of the Arabidopsis hypocotyls involves the nuclear TIR1/AFB-Aux/IAA signaling and is accompanied by acidification of the apoplast and cell walls (Fendrych et al., 2016). Here, we describe in detail the method for analysis of the elongation and the TIR1/AFB-Aux/IAA-dependent auxin response in hypocotyl segments as well as the determination of relative values of the cell wall pH.","lang":"eng"}],"oa_version":"Published Version","department":[{"_id":"JiFr"},{"_id":"Bio"}],"file_date_updated":"2020-07-14T12:46:29Z","date_updated":"2024-03-27T23:30:42Z","ddc":["576","581"],"article_type":"original","type":"journal_article","tmp":{"legal_code_url":"https://creativecommons.org/licenses/by/4.0/legalcode","image":"/images/cc_by.png","name":"Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)","short":"CC BY (4.0)"},"status":"public","pubrep_id":"970","_id":"442"},{"project":[{"name":"Cytoskeletal force generation and force transduction of migrating leukocytes (EU)","grant_number":"281556","call_identifier":"FP7","_id":"25A603A2-B435-11E9-9278-68D0E5697425"},{"name":"Cytoskeletal force generation and transduction of leukocytes (FWF)","grant_number":"Y 564-B12","_id":"25A8E5EA-B435-11E9-9278-68D0E5697425","call_identifier":"FWF"}],"citation":{"chicago":"Vaahtomeri, Kari, Markus Brown, Robert Hauschild, Ingrid de Vries, Alexander F Leithner, Matthias Mehling, Walter Kaufmann, and Michael K Sixt. “Locally Triggered Release of the Chemokine CCL21 Promotes Dendritic Cell Transmigration across Lymphatic Endothelia.” Cell Reports. Cell Press, 2017. https://doi.org/10.1016/j.celrep.2017.04.027.","ista":"Vaahtomeri K, Brown M, Hauschild R, de Vries I, Leithner AF, Mehling M, Kaufmann W, Sixt MK. 2017. Locally triggered release of the chemokine CCL21 promotes dendritic cell transmigration across lymphatic endothelia. Cell Reports. 19(5), 902–909.","mla":"Vaahtomeri, Kari, et al. “Locally Triggered Release of the Chemokine CCL21 Promotes Dendritic Cell Transmigration across Lymphatic Endothelia.” Cell Reports, vol. 19, no. 5, Cell Press, 2017, pp. 902–09, doi:10.1016/j.celrep.2017.04.027.","short":"K. Vaahtomeri, M. Brown, R. Hauschild, I. de Vries, A.F. Leithner, M. Mehling, W. Kaufmann, M.K. Sixt, Cell Reports 19 (2017) 902–909.","ieee":"K. Vaahtomeri et al., “Locally triggered release of the chemokine CCL21 promotes dendritic cell transmigration across lymphatic endothelia,” Cell Reports, vol. 19, no. 5. Cell Press, pp. 902–909, 2017.","apa":"Vaahtomeri, K., Brown, M., Hauschild, R., de Vries, I., Leithner, A. F., Mehling, M., … Sixt, M. K. (2017). Locally triggered release of the chemokine CCL21 promotes dendritic cell transmigration across lymphatic endothelia. Cell Reports. Cell Press. https://doi.org/10.1016/j.celrep.2017.04.027","ama":"Vaahtomeri K, Brown M, Hauschild R, et al. Locally triggered release of the chemokine CCL21 promotes dendritic cell transmigration across lymphatic endothelia. Cell Reports. 2017;19(5):902-909. doi:10.1016/j.celrep.2017.04.027"},"user_id":"3E5EF7F0-F248-11E8-B48F-1D18A9856A87","author":[{"last_name":"Vaahtomeri","orcid":"0000-0001-7829-3518","full_name":"Vaahtomeri, Kari","first_name":"Kari","id":"368EE576-F248-11E8-B48F-1D18A9856A87"},{"id":"3DAB9AFC-F248-11E8-B48F-1D18A9856A87","first_name":"Markus","last_name":"Brown","full_name":"Brown, Markus"},{"id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert","full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522","last_name":"Hauschild"},{"id":"4C7D837E-F248-11E8-B48F-1D18A9856A87","first_name":"Ingrid","last_name":"De Vries","full_name":"De Vries, Ingrid"},{"first_name":"Alexander F","id":"3B1B77E4-F248-11E8-B48F-1D18A9856A87","full_name":"Leithner, Alexander F","last_name":"Leithner"},{"first_name":"Matthias","id":"3C23B994-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-8599-1226","full_name":"Mehling, Matthias","last_name":"Mehling"},{"last_name":"Kaufmann","orcid":"0000-0001-9735-5315","full_name":"Kaufmann, Walter","id":"3F99E422-F248-11E8-B48F-1D18A9856A87","first_name":"Walter"},{"last_name":"Sixt","full_name":"Sixt, Michael K","orcid":"0000-0002-6620-9179","first_name":"Michael K","id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87"}],"publist_id":"7052","article_processing_charge":"Yes","title":"Locally triggered release of the chemokine CCL21 promotes dendritic cell transmigration across lymphatic endothelia","quality_controlled":"1","publisher":"Cell Press","oa":1,"has_accepted_license":"1","year":"2017","day":"02","publication":"Cell Reports","page":"902 - 909","doi":"10.1016/j.celrep.2017.04.027","date_published":"2017-05-02T00:00:00Z","date_created":"2018-12-11T11:47:50Z","_id":"672","type":"journal_article","tmp":{"short":"CC BY-NC-ND (4.0)","name":"Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0)","legal_code_url":"https://creativecommons.org/licenses/by-nc-nd/4.0/legalcode","image":"/images/cc_by_nc_nd.png"},"status":"public","pubrep_id":"900","date_updated":"2023-02-23T12:50:09Z","ddc":["570"],"department":[{"_id":"MiSi"},{"_id":"Bio"},{"_id":"EM-Fac"}],"file_date_updated":"2020-07-14T12:47:38Z","abstract":[{"text":"Trafficking cells frequently transmigrate through epithelial and endothelial monolayers. How monolayers cooperate with the penetrating cells to support their transit is poorly understood. We studied dendritic cell (DC) entry into lymphatic capillaries as a model system for transendothelial migration. We find that the chemokine CCL21, which is the decisive guidance cue for intravasation, mainly localizes in the trans-Golgi network and intracellular vesicles of lymphatic endothelial cells. Upon DC transmigration, these Golgi deposits disperse and CCL21 becomes extracellularly enriched at the sites of endothelial cell-cell junctions. When we reconstitute the transmigration process in vitro, we find that secretion of CCL21-positive vesicles is triggered by a DC contact-induced calcium signal, and selective calcium chelation in lymphatic endothelium attenuates transmigration. Altogether, our data demonstrate a chemokine-mediated feedback between DCs and lymphatic endothelium, which facilitates transendothelial migration.","lang":"eng"}],"oa_version":"Published Version","scopus_import":1,"month":"05","intvolume":" 19","publication_identifier":{"issn":["22111247"]},"publication_status":"published","file":[{"content_type":"application/pdf","relation":"main_file","access_level":"open_access","checksum":"8fdddaab1f1d76a6ec9ca94dcb6b07a2","file_id":"5109","file_size":2248814,"date_updated":"2020-07-14T12:47:38Z","creator":"system","file_name":"IST-2017-900-v1+1_1-s2.0-S2211124717305211-main.pdf","date_created":"2018-12-12T10:14:54Z"}],"language":[{"iso":"eng"}],"issue":"5","volume":19,"ec_funded":1},{"volume":27,"issue":"9","ec_funded":1,"language":[{"iso":"eng"}],"publication_identifier":{"issn":["09609822"]},"publication_status":"published","month":"05","intvolume":" 27","scopus_import":1,"oa_version":"None","abstract":[{"text":"Navigation of cells along gradients of guidance cues is a determining step in many developmental and immunological processes. Gradients can either be soluble or immobilized to tissues as demonstrated for the haptotactic migration of dendritic cells (DCs) toward higher concentrations of immobilized chemokine CCL21. To elucidate how gradient characteristics govern cellular response patterns, we here introduce an in vitro system allowing to track migratory responses of DCs to precisely controlled immobilized gradients of CCL21. We find that haptotactic sensing depends on the absolute CCL21 concentration and local steepness of the gradient, consistent with a scenario where DC directionality is governed by the signal-to-noise ratio of CCL21 binding to the receptor CCR7. We find that the conditions for optimal DC guidance are perfectly provided by the CCL21 gradients we measure in vivo. Furthermore, we find that CCR7 signal termination by the G-protein-coupled receptor kinase 6 (GRK6) is crucial for haptotactic but dispensable for chemotactic CCL21 gradient sensing in vitro and confirm those observations in vivo. These findings suggest that stable, tissue-bound CCL21 gradients as sustainable “roads” ensure optimal guidance in vivo.","lang":"eng"}],"department":[{"_id":"MiSi"},{"_id":"Bio"},{"_id":"NanoFab"}],"date_updated":"2023-02-23T12:50:44Z","status":"public","type":"journal_article","_id":"674","date_published":"2017-05-09T00:00:00Z","doi":"10.1016/j.cub.2017.04.004","date_created":"2018-12-11T11:47:51Z","page":"1314 - 1325","day":"09","publication":"Current Biology","year":"2017","quality_controlled":"1","publisher":"Cell Press","title":"Dendritic cells interpret haptotactic chemokine gradients in a manner governed by signal to noise ratio and dependent on GRK6","author":[{"id":"346C1EC6-F248-11E8-B48F-1D18A9856A87","first_name":"Jan","full_name":"Schwarz, Jan","last_name":"Schwarz"},{"first_name":"Veronika","id":"3FD04378-F248-11E8-B48F-1D18A9856A87","full_name":"Bierbaum, Veronika","last_name":"Bierbaum"},{"last_name":"Vaahtomeri","orcid":"0000-0001-7829-3518","full_name":"Vaahtomeri, Kari","id":"368EE576-F248-11E8-B48F-1D18A9856A87","first_name":"Kari"},{"full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522","last_name":"Hauschild","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert"},{"first_name":"Markus","id":"3DAB9AFC-F248-11E8-B48F-1D18A9856A87","last_name":"Brown","full_name":"Brown, Markus"},{"full_name":"De Vries, Ingrid","last_name":"De Vries","first_name":"Ingrid","id":"4C7D837E-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Alexander F","id":"3B1B77E4-F248-11E8-B48F-1D18A9856A87","full_name":"Leithner, Alexander F","last_name":"Leithner"},{"id":"35B76592-F248-11E8-B48F-1D18A9856A87","first_name":"Anne","full_name":"Reversat, Anne","orcid":"0000-0003-0666-8928","last_name":"Reversat"},{"orcid":"0000-0001-5145-4609","full_name":"Merrin, Jack","last_name":"Merrin","id":"4515C308-F248-11E8-B48F-1D18A9856A87","first_name":"Jack"},{"full_name":"Tarrant, Teresa","last_name":"Tarrant","first_name":"Teresa"},{"orcid":"0000-0003-4398-476X","full_name":"Bollenbach, Tobias","last_name":"Bollenbach","id":"3E6DB97A-F248-11E8-B48F-1D18A9856A87","first_name":"Tobias"},{"full_name":"Sixt, Michael K","orcid":"0000-0002-6620-9179","last_name":"Sixt","first_name":"Michael K","id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87"}],"publist_id":"7050","user_id":"4435EBFC-F248-11E8-B48F-1D18A9856A87","citation":{"chicago":"Schwarz, Jan, Veronika Bierbaum, Kari Vaahtomeri, Robert Hauschild, Markus Brown, Ingrid de Vries, Alexander F Leithner, et al. “Dendritic Cells Interpret Haptotactic Chemokine Gradients in a Manner Governed by Signal to Noise Ratio and Dependent on GRK6.” Current Biology. Cell Press, 2017. https://doi.org/10.1016/j.cub.2017.04.004.","ista":"Schwarz J, Bierbaum V, Vaahtomeri K, Hauschild R, Brown M, de Vries I, Leithner AF, Reversat A, Merrin J, Tarrant T, Bollenbach MT, Sixt MK. 2017. Dendritic cells interpret haptotactic chemokine gradients in a manner governed by signal to noise ratio and dependent on GRK6. Current Biology. 27(9), 1314–1325.","mla":"Schwarz, Jan, et al. “Dendritic Cells Interpret Haptotactic Chemokine Gradients in a Manner Governed by Signal to Noise Ratio and Dependent on GRK6.” Current Biology, vol. 27, no. 9, Cell Press, 2017, pp. 1314–25, doi:10.1016/j.cub.2017.04.004.","apa":"Schwarz, J., Bierbaum, V., Vaahtomeri, K., Hauschild, R., Brown, M., de Vries, I., … Sixt, M. K. (2017). Dendritic cells interpret haptotactic chemokine gradients in a manner governed by signal to noise ratio and dependent on GRK6. Current Biology. Cell Press. https://doi.org/10.1016/j.cub.2017.04.004","ama":"Schwarz J, Bierbaum V, Vaahtomeri K, et al. Dendritic cells interpret haptotactic chemokine gradients in a manner governed by signal to noise ratio and dependent on GRK6. Current Biology. 2017;27(9):1314-1325. doi:10.1016/j.cub.2017.04.004","short":"J. Schwarz, V. Bierbaum, K. Vaahtomeri, R. Hauschild, M. Brown, I. de Vries, A.F. Leithner, A. Reversat, J. Merrin, T. Tarrant, M.T. Bollenbach, M.K. Sixt, Current Biology 27 (2017) 1314–1325.","ieee":"J. Schwarz et al., “Dendritic cells interpret haptotactic chemokine gradients in a manner governed by signal to noise ratio and dependent on GRK6,” Current Biology, vol. 27, no. 9. Cell Press, pp. 1314–1325, 2017."},"project":[{"name":"International IST Postdoc Fellowship Programme","grant_number":"291734","_id":"25681D80-B435-11E9-9278-68D0E5697425","call_identifier":"FP7"},{"grant_number":"Y 564-B12","name":"Cytoskeletal force generation and transduction of leukocytes (FWF)","_id":"25A8E5EA-B435-11E9-9278-68D0E5697425","call_identifier":"FWF"}]},{"page":"188 - 200","date_created":"2018-12-11T11:48:10Z","doi":"10.1016/j.cell.2017.07.051","date_published":"2017-09-21T00:00:00Z","year":"2017","isi":1,"publication":"Cell","day":"21","quality_controlled":"1","publisher":"Cell Press","external_id":{"isi":["000411331800020"]},"article_processing_charge":"No","author":[{"first_name":"Jan","last_name":"Mueller","full_name":"Mueller, Jan"},{"last_name":"Szep","full_name":"Szep, Gregory","first_name":"Gregory","id":"4BFB7762-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Maria","id":"34E27F1C-F248-11E8-B48F-1D18A9856A87","last_name":"Nemethova","full_name":"Nemethova, Maria"},{"first_name":"Ingrid","id":"4C7D837E-F248-11E8-B48F-1D18A9856A87","last_name":"De Vries","full_name":"De Vries, Ingrid"},{"last_name":"Lieber","full_name":"Lieber, Arnon","first_name":"Arnon"},{"full_name":"Winkler, Christoph","last_name":"Winkler","first_name":"Christoph"},{"last_name":"Kruse","full_name":"Kruse, Karsten","first_name":"Karsten"},{"full_name":"Small, John","last_name":"Small","first_name":"John"},{"first_name":"Christian","last_name":"Schmeiser","full_name":"Schmeiser, Christian"},{"full_name":"Keren, Kinneret","last_name":"Keren","first_name":"Kinneret"},{"first_name":"Robert","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","last_name":"Hauschild","full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522"},{"last_name":"Sixt","orcid":"0000-0002-6620-9179","full_name":"Sixt, Michael K","id":"41E9FBEA-F248-11E8-B48F-1D18A9856A87","first_name":"Michael K"}],"publist_id":"6951","title":"Load adaptation of lamellipodial actin networks","citation":{"ista":"Mueller J, Szep G, Nemethova M, de Vries I, Lieber A, Winkler C, Kruse K, Small J, Schmeiser C, Keren K, Hauschild R, Sixt MK. 2017. Load adaptation of lamellipodial actin networks. Cell. 171(1), 188–200.","chicago":"Mueller, Jan, Gregory Szep, Maria Nemethova, Ingrid de Vries, Arnon Lieber, Christoph Winkler, Karsten Kruse, et al. “Load Adaptation of Lamellipodial Actin Networks.” Cell. Cell Press, 2017. https://doi.org/10.1016/j.cell.2017.07.051.","short":"J. Mueller, G. Szep, M. Nemethova, I. de Vries, A. Lieber, C. Winkler, K. Kruse, J. Small, C. Schmeiser, K. Keren, R. Hauschild, M.K. Sixt, Cell 171 (2017) 188–200.","ieee":"J. Mueller et al., “Load adaptation of lamellipodial actin networks,” Cell, vol. 171, no. 1. Cell Press, pp. 188–200, 2017.","apa":"Mueller, J., Szep, G., Nemethova, M., de Vries, I., Lieber, A., Winkler, C., … Sixt, M. K. (2017). Load adaptation of lamellipodial actin networks. Cell. Cell Press. https://doi.org/10.1016/j.cell.2017.07.051","ama":"Mueller J, Szep G, Nemethova M, et al. Load adaptation of lamellipodial actin networks. Cell. 2017;171(1):188-200. doi:10.1016/j.cell.2017.07.051","mla":"Mueller, Jan, et al. “Load Adaptation of Lamellipodial Actin Networks.” Cell, vol. 171, no. 1, Cell Press, 2017, pp. 188–200, doi:10.1016/j.cell.2017.07.051."},"user_id":"c635000d-4b10-11ee-a964-aac5a93f6ac1","project":[{"name":"Modeling of Polarization and Motility of Leukocytes in Three-Dimensional Environments","grant_number":"LS13-029","_id":"25AD6156-B435-11E9-9278-68D0E5697425"},{"call_identifier":"FP7","_id":"25A603A2-B435-11E9-9278-68D0E5697425","name":"Cytoskeletal force generation and force transduction of migrating leukocytes (EU)","grant_number":"281556"}],"ec_funded":1,"issue":"1","volume":171,"publication_status":"published","publication_identifier":{"issn":["00928674"]},"language":[{"iso":"eng"}],"scopus_import":"1","intvolume":" 171","month":"09","abstract":[{"text":"Actin filaments polymerizing against membranes power endocytosis, vesicular traffic, and cell motility. In vitro reconstitution studies suggest that the structure and the dynamics of actin networks respond to mechanical forces. We demonstrate that lamellipodial actin of migrating cells responds to mechanical load when membrane tension is modulated. In a steady state, migrating cell filaments assume the canonical dendritic geometry, defined by Arp2/3-generated 70° branch points. Increased tension triggers a dense network with a broadened range of angles, whereas decreased tension causes a shift to a sparse configuration dominated by filaments growing perpendicularly to the plasma membrane. We show that these responses emerge from the geometry of branched actin: when load per filament decreases, elongation speed increases and perpendicular filaments gradually outcompete others because they polymerize the shortest distance to the membrane, where they are protected from capping. This network-intrinsic geometrical adaptation mechanism tunes protrusive force in response to mechanical load.","lang":"eng"}],"acknowledged_ssus":[{"_id":"ScienComp"}],"oa_version":"None","department":[{"_id":"MiSi"},{"_id":"Bio"}],"date_updated":"2023-09-28T11:33:49Z","type":"journal_article","status":"public","_id":"727"},{"type":"research_data","tmp":{"image":"/images/cc_0.png","legal_code_url":"https://creativecommons.org/publicdomain/zero/1.0/legalcode","name":"Creative Commons Public Domain Dedication (CC0 1.0)","short":"CC0 (1.0)"},"status":"public","keyword":["Cell migration","tracking","forward migration index","FMI"],"_id":"5570","author":[{"orcid":"0000-0001-9843-3522","full_name":"Hauschild, Robert","last_name":"Hauschild","id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert"}],"article_processing_charge":"No","file_date_updated":"2020-07-14T12:47:04Z","department":[{"_id":"Bio"}],"title":"Forward migration indexes","citation":{"ista":"Hauschild R. 2017. Forward migration indexes, Institute of Science and Technology Austria, 10.15479/AT:ISTA:75.","chicago":"Hauschild, Robert. “Forward Migration Indexes.” Institute of Science and Technology Austria, 2017. https://doi.org/10.15479/AT:ISTA:75.","apa":"Hauschild, R. (2017). Forward migration indexes. Institute of Science and Technology Austria. https://doi.org/10.15479/AT:ISTA:75","ama":"Hauschild R. Forward migration indexes. 2017. doi:10.15479/AT:ISTA:75","short":"R. Hauschild, (2017).","ieee":"R. Hauschild, “Forward migration indexes.” Institute of Science and Technology Austria, 2017.","mla":"Hauschild, Robert. Forward Migration Indexes. Institute of Science and Technology Austria, 2017, doi:10.15479/AT:ISTA:75."},"date_updated":"2024-02-21T13:47:14Z","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","ddc":["570"],"publisher":"Institute of Science and Technology Austria","oa":1,"month":"10","abstract":[{"lang":"eng","text":"Matlab script to calculate the forward migration indexes (/) from TrackMate spot-statistics files."}],"oa_version":"Published Version","date_published":"2017-10-04T00:00:00Z","doi":"10.15479/AT:ISTA:75","date_created":"2018-12-12T12:31:35Z","has_accepted_license":"1","year":"2017","datarep_id":"75","day":"04","file":[{"creator":"system","date_updated":"2020-07-14T12:47:04Z","file_size":799,"date_created":"2018-12-12T13:02:29Z","file_name":"IST-2017-75-v1+1_FMI.m","access_level":"open_access","relation":"main_file","content_type":"application/octet-stream","file_id":"5596","checksum":"cb7a2fa622460eca6231d659ce590e32"}]},{"type":"research_data","tmp":{"image":"/images/cc_0.png","legal_code_url":"https://creativecommons.org/publicdomain/zero/1.0/legalcode","name":"Creative Commons Public Domain Dedication (CC0 1.0)","short":"CC0 (1.0)"},"status":"public","keyword":["single cell microscopy","mother machine microfluidic device","AcrAB-TolC pump","multi-drug efflux","Escherichia coli"],"_id":"5560","author":[{"last_name":"Bergmiller","full_name":"Bergmiller, Tobias","orcid":"0000-0001-5396-4346","id":"2C471CFA-F248-11E8-B48F-1D18A9856A87","first_name":"Tobias"},{"last_name":"Andersson","full_name":"Andersson, Anna M","orcid":"0000-0003-2912-6769","id":"2B8A40DA-F248-11E8-B48F-1D18A9856A87","first_name":"Anna M"},{"full_name":"Tomasek, Kathrin","orcid":"0000-0003-3768-877X","last_name":"Tomasek","first_name":"Kathrin","id":"3AEC8556-F248-11E8-B48F-1D18A9856A87"},{"full_name":"Balleza, Enrique","last_name":"Balleza","first_name":"Enrique"},{"full_name":"Kiviet, Daniel","last_name":"Kiviet","first_name":"Daniel"},{"id":"4E01D6B4-F248-11E8-B48F-1D18A9856A87","first_name":"Robert","last_name":"Hauschild","full_name":"Hauschild, Robert","orcid":"0000-0001-9843-3522"},{"orcid":"0000-0002-6699-1455","full_name":"Tkacik, Gasper","last_name":"Tkacik","id":"3D494DCA-F248-11E8-B48F-1D18A9856A87","first_name":"Gasper"},{"last_name":"Guet","orcid":"0000-0001-6220-2052","full_name":"Guet, Calin C","first_name":"Calin C","id":"47F8433E-F248-11E8-B48F-1D18A9856A87"}],"article_processing_charge":"No","department":[{"_id":"CaGu"},{"_id":"GaTk"},{"_id":"Bio"}],"title":"Biased partitioning of the multi-drug efflux pump AcrAB-TolC underlies long-lived phenotypic heterogeneity","file_date_updated":"2020-07-14T12:47:03Z","citation":{"apa":"Bergmiller, T., Andersson, A. M., Tomasek, K., Balleza, E., Kiviet, D., Hauschild, R., … Guet, C. C. (2017). Biased partitioning of the multi-drug efflux pump AcrAB-TolC underlies long-lived phenotypic heterogeneity. Institute of Science and Technology Austria. https://doi.org/10.15479/AT:ISTA:53","ama":"Bergmiller T, Andersson AM, Tomasek K, et al. Biased partitioning of the multi-drug efflux pump AcrAB-TolC underlies long-lived phenotypic heterogeneity. 2017. doi:10.15479/AT:ISTA:53","short":"T. Bergmiller, A.M. Andersson, K. Tomasek, E. Balleza, D. Kiviet, R. Hauschild, G. Tkačik, C.C. Guet, (2017).","ieee":"T. Bergmiller et al., “Biased partitioning of the multi-drug efflux pump AcrAB-TolC underlies long-lived phenotypic heterogeneity.” Institute of Science and Technology Austria, 2017.","mla":"Bergmiller, Tobias, et al. Biased Partitioning of the Multi-Drug Efflux Pump AcrAB-TolC Underlies Long-Lived Phenotypic Heterogeneity. Institute of Science and Technology Austria, 2017, doi:10.15479/AT:ISTA:53.","ista":"Bergmiller T, Andersson AM, Tomasek K, Balleza E, Kiviet D, Hauschild R, Tkačik G, Guet CC. 2017. Biased partitioning of the multi-drug efflux pump AcrAB-TolC underlies long-lived phenotypic heterogeneity, Institute of Science and Technology Austria, 10.15479/AT:ISTA:53.","chicago":"Bergmiller, Tobias, Anna M Andersson, Kathrin Tomasek, Enrique Balleza, Daniel Kiviet, Robert Hauschild, Gašper Tkačik, and Calin C Guet. “Biased Partitioning of the Multi-Drug Efflux Pump AcrAB-TolC Underlies Long-Lived Phenotypic Heterogeneity.” Institute of Science and Technology Austria, 2017. https://doi.org/10.15479/AT:ISTA:53."},"date_updated":"2024-02-21T13:49:00Z","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","ddc":["571"],"publisher":"Institute of Science and Technology Austria","oa":1,"month":"03","abstract":[{"lang":"eng","text":"This repository contains the data collected for the manuscript \"Biased partitioning of the multi-drug efflux pump AcrAB-TolC underlies long-lived phenotypic heterogeneity\".\r\nThe data is compressed into a single archive. Within the archive, different folders correspond to figures of the main text and the SI of the related publication.\r\nData is saved as plain text, with each folder containing a separate readme file describing the format. 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