[{"language":[{"iso":"eng"}],"doi":"10.1126/science.adi2982","quality_controlled":"1","external_id":{"pmid":["38175895"]},"publication_identifier":{"eissn":["1095-9203"]},"month":"01","volume":383,"date_updated":"2024-03-05T09:35:25Z","date_created":"2024-01-14T23:00:56Z","related_material":{"record":[{"id":"14812","relation":"research_data","status":"public"}],"link":[{"url":"https://ista.ac.at/en/news/the-snail-or-the-egg/","description":"News on ISTA Website","relation":"press_release"}]},"author":[{"full_name":"Stankowski, Sean","id":"43161670-5719-11EA-8025-FABC3DDC885E","last_name":"Stankowski","first_name":"Sean"},{"first_name":"Zuzanna B.","last_name":"Zagrodzka","full_name":"Zagrodzka, Zuzanna B."},{"last_name":"Garlovsky","first_name":"Martin D.","full_name":"Garlovsky, Martin D."},{"last_name":"Pal","first_name":"Arka","orcid":"0000-0002-4530-8469","id":"6AAB2240-CA9A-11E9-9C1A-D9D1E5697425","full_name":"Pal, Arka"},{"last_name":"Shipilina","first_name":"Daria","orcid":"0000-0002-1145-9226","id":"428A94B0-F248-11E8-B48F-1D18A9856A87","full_name":"Shipilina, Daria"},{"id":"ae681a14-dc74-11ea-a0a7-c6ef18161701","last_name":"Garcia Castillo","first_name":"Diego Fernando","full_name":"Garcia Castillo, Diego Fernando"},{"full_name":"Lifchitz, Hila","id":"d6ab5470-2fb3-11ed-8633-986a9b84edac","first_name":"Hila","last_name":"Lifchitz"},{"last_name":"Le Moan","first_name":"Alan","full_name":"Le Moan, Alan"},{"last_name":"Leder","first_name":"Erica","full_name":"Leder, Erica"},{"full_name":"Reeve, James","first_name":"James","last_name":"Reeve"},{"first_name":"Kerstin","last_name":"Johannesson","full_name":"Johannesson, Kerstin"},{"full_name":"Westram, Anja M","last_name":"Westram","first_name":"Anja M","orcid":"0000-0003-1050-4969","id":"3C147470-F248-11E8-B48F-1D18A9856A87"},{"full_name":"Butlin, Roger K.","last_name":"Butlin","first_name":"Roger K."}],"publisher":"American Association for the Advancement of Science","department":[{"_id":"NiBa"},{"_id":"GradSch"}],"publication_status":"published","pmid":1,"year":"2024","acknowledgement":"We thank J. Galindo, M. Montaño-Rendón, N. Mikhailova, A. Blakeslee, E. Arnason, and P. Kemppainen for providing samples; R. Turney, G. Sotelo, J. Larsson, T. Broquet, and S. Loisel for help collecting samples; Science Animated for providing the snail cartoons shown in Fig. 1; M. Dunning for help in developing bioinformatic pipelines; R. Faria, H. Morales, and V. Sousa for advice; and M. Hahn, J. Slate, M. Ravinet, J. Raeymaekers, A. Comeault, and N. Barton for feedback on a draft manuscript.\r\nThis work was supported by the Natural Environment Research Council (grant NE/P001610/1 to R.K.B.), the European Research Council (grant ERC-2015-AdG693030-BARRIERS to R.K.B.), the Norwegian Research Council (RCN Project 315287 to A.M.W.), and the Swedish Research Council (grant 2020-05385 to E.L.).","date_published":"2024-01-05T00:00:00Z","page":"114-119","article_type":"original","citation":{"ama":"Stankowski S, Zagrodzka ZB, Garlovsky MD, et al. The genetic basis of a recent transition to live-bearing in marine snails. Science. 2024;383(6678):114-119. doi:10.1126/science.adi2982","ista":"Stankowski S, Zagrodzka ZB, Garlovsky MD, Pal A, Shipilina D, Garcia Castillo DF, Lifchitz H, Le Moan A, Leder E, Reeve J, Johannesson K, Westram AM, Butlin RK. 2024. The genetic basis of a recent transition to live-bearing in marine snails. Science. 383(6678), 114–119.","ieee":"S. Stankowski et al., “The genetic basis of a recent transition to live-bearing in marine snails,” Science, vol. 383, no. 6678. American Association for the Advancement of Science, pp. 114–119, 2024.","apa":"Stankowski, S., Zagrodzka, Z. B., Garlovsky, M. D., Pal, A., Shipilina, D., Garcia Castillo, D. F., … Butlin, R. K. (2024). The genetic basis of a recent transition to live-bearing in marine snails. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.adi2982","mla":"Stankowski, Sean, et al. “The Genetic Basis of a Recent Transition to Live-Bearing in Marine Snails.” Science, vol. 383, no. 6678, American Association for the Advancement of Science, 2024, pp. 114–19, doi:10.1126/science.adi2982.","short":"S. Stankowski, Z.B. Zagrodzka, M.D. Garlovsky, A. Pal, D. Shipilina, D.F. Garcia Castillo, H. Lifchitz, A. Le Moan, E. Leder, J. Reeve, K. Johannesson, A.M. Westram, R.K. Butlin, Science 383 (2024) 114–119.","chicago":"Stankowski, Sean, Zuzanna B. Zagrodzka, Martin D. Garlovsky, Arka Pal, Daria Shipilina, Diego Fernando Garcia Castillo, Hila Lifchitz, et al. “The Genetic Basis of a Recent Transition to Live-Bearing in Marine Snails.” Science. American Association for the Advancement of Science, 2024. https://doi.org/10.1126/science.adi2982."},"publication":"Science","article_processing_charge":"No","day":"05","scopus_import":"1","oa_version":"None","intvolume":" 383","title":"The genetic basis of a recent transition to live-bearing in marine snails","status":"public","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","_id":"14796","issue":"6678","abstract":[{"lang":"eng","text":"Key innovations are fundamental to biological diversification, but their genetic basis is poorly understood. A recent transition from egg-laying to live-bearing in marine snails (Littorina spp.) provides the opportunity to study the genetic architecture of an innovation that has evolved repeatedly across animals. Individuals do not cluster by reproductive mode in a genome-wide phylogeny, but local genealogical analysis revealed numerous small genomic regions where all live-bearers carry the same core haplotype. Candidate regions show evidence for live-bearer–specific positive selection and are enriched for genes that are differentially expressed between egg-laying and live-bearing reproductive systems. Ages of selective sweeps suggest that live-bearer–specific alleles accumulated over more than 200,000 generations. Our results suggest that new functions evolve through the recruitment of many alleles rather than in a single evolutionary step."}],"type":"journal_article"},{"date_published":"2024-03-08T00:00:00Z","publication":"Science","citation":{"ista":"Vandael DH, Jonas PM. 2024. Structure, biophysics, and circuit function of a ‘giant’ cortical presynaptic terminal. Science. 383(6687), eadg6757.","apa":"Vandael, D. H., & Jonas, P. M. (2024). Structure, biophysics, and circuit function of a “giant” cortical presynaptic terminal. Science. AAAS. https://doi.org/10.1126/science.adg6757","ieee":"D. H. Vandael and P. M. Jonas, “Structure, biophysics, and circuit function of a ‘giant’ cortical presynaptic terminal,” Science, vol. 383, no. 6687. AAAS, p. eadg6757, 2024.","ama":"Vandael DH, Jonas PM. Structure, biophysics, and circuit function of a “giant” cortical presynaptic terminal. Science. 2024;383(6687):eadg6757. doi:10.1126/science.adg6757","chicago":"Vandael, David H, and Peter M Jonas. “Structure, Biophysics, and Circuit Function of a ‘Giant’ Cortical Presynaptic Terminal.” Science. AAAS, 2024. https://doi.org/10.1126/science.adg6757.","mla":"Vandael, David H., and Peter M. Jonas. “Structure, Biophysics, and Circuit Function of a ‘Giant’ Cortical Presynaptic Terminal.” Science, vol. 383, no. 6687, AAAS, 2024, p. eadg6757, doi:10.1126/science.adg6757.","short":"D.H. Vandael, P.M. Jonas, Science 383 (2024) eadg6757."},"article_type":"review","page":"eadg6757","day":"08","article_processing_charge":"No","scopus_import":"1","oa_version":"None","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","_id":"15117","title":"Structure, biophysics, and circuit function of a \"giant\" cortical presynaptic terminal","status":"public","intvolume":" 383","abstract":[{"text":"The hippocampal mossy fiber synapse, formed between axons of dentate gyrus granule cells and dendrites of CA3 pyramidal neurons, is a key synapse in the trisynaptic circuitry of the hippocampus. Because of its comparatively large size, this synapse is accessible to direct presynaptic recording, allowing a rigorous investigation of the biophysical mechanisms of synaptic transmission and plasticity. Furthermore, because of its placement in the very center of the hippocampal memory circuit, this synapse seems to be critically involved in several higher network functions, such as learning, memory, pattern separation, and pattern completion. Recent work based on new technologies in both nanoanatomy and nanophysiology, including presynaptic patch-clamp recording, paired recording, super-resolution light microscopy, and freeze-fracture and “flash-and-freeze” electron microscopy, has provided new insights into the structure, biophysics, and network function of this intriguing synapse. This brings us one step closer to answering a fundamental question in neuroscience: how basic synaptic properties shape higher network computations.","lang":"eng"}],"issue":"6687","type":"journal_article","doi":"10.1126/science.adg6757","language":[{"iso":"eng"}],"external_id":{"pmid":["38452088"]},"quality_controlled":"1","project":[{"_id":"25B7EB9E-B435-11E9-9278-68D0E5697425","grant_number":"692692","call_identifier":"H2020","name":"Biophysics and circuit function of a giant cortical glumatergic synapse"},{"name":"The Wittgenstein Prize","call_identifier":"FWF","grant_number":"Z00312","_id":"25C5A090-B435-11E9-9278-68D0E5697425"},{"name":"Mechanisms of GABA release in hippocampal circuits","grant_number":"P36232","_id":"bd88be38-d553-11ed-ba76-81d5a70a6ef5"}],"month":"03","publication_identifier":{"eissn":["1095-9203"]},"author":[{"last_name":"Vandael","first_name":"David H","orcid":"0000-0001-7577-1676","id":"3AE48E0A-F248-11E8-B48F-1D18A9856A87","full_name":"Vandael, David H"},{"id":"353C1B58-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-5001-4804","first_name":"Peter M","last_name":"Jonas","full_name":"Jonas, Peter M"}],"date_created":"2024-03-17T23:00:57Z","date_updated":"2024-03-20T07:42:52Z","volume":383,"acknowledgement":"We thank previous students, postdocs, and collaborators, particularly J. Geiger, and (in alphabetical order) H. Alle, J. Bischofberger, C. Borges-Merjane, D. Engel, M. Frotscher, S. Hallermann, M. Heckmann, S. Jamrichova, O. Kim, L. Li, K. Lichter, P. Lin, J. Lübke, Y. Okamoto, C. Pawlu, C. Schmidt-Hieber, N. Spruston, and N. Vyleta for their outstanding experimental contributions. We also thank P. Castillo, J. Geiger, T. Sakaba, S. Siegert, T. Vogels, and J. Watson for critically reading the manuscript, E. Kralli-Beller for text editing, and J. Malikovic and L. Slomianka for useful discussions. We apologize that, due to space constraints, not all relevant papers could be cited.\r\nThis project was supported by the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program (grant agreement 692692, AdG “GIANTSYN”) and the Fonds zur Förderung der Wissenschaftlichen Forschung (Z 312-B27, Wittgenstein Award; P 36232-B, stand-alone grant), both to P.J.","year":"2024","pmid":1,"publication_status":"published","department":[{"_id":"PeJo"}],"publisher":"AAAS","ec_funded":1},{"month":"03","publication_identifier":{"eissn":["1095-9203"],"issn":["0036-8075"]},"quality_controlled":"1","project":[{"_id":"9B8F7476-BA93-11EA-9121-9846C619BF3A","name":"HighTE: The Werner Siemens Laboratory for the High Throughput Discovery of Semiconductors for Waste Heat Recovery"}],"language":[{"iso":"eng"}],"doi":"10.1126/science.ado4077","publication_status":"published","publisher":"American Association for the Advancement of Science","department":[{"_id":"MaIb"}],"year":"2024","acknowledgement":"The authors thank the Werner-Siemens-Stiftung and the Institute of Science and Technology Austria for financial support.","date_updated":"2024-03-25T10:31:20Z","date_created":"2024-03-24T23:00:58Z","volume":383,"author":[{"full_name":"Navita, Navita","id":"6ebe278d-ba0b-11ee-8184-f34cdc671de4","last_name":"Navita","first_name":"Navita"},{"last_name":"Ibáñez","first_name":"Maria","orcid":"0000-0001-5013-2843","id":"43C61214-F248-11E8-B48F-1D18A9856A87","full_name":"Ibáñez, Maria"}],"scopus_import":"1","day":"14","article_processing_charge":"No","article_type":"letter_note","page":"1184","publication":"Science","citation":{"chicago":"Jakhar, Navita, and Maria Ibáñez. “Electron Highways Are Cooler.” Science. American Association for the Advancement of Science, 2024. https://doi.org/10.1126/science.ado4077.","short":"N. Jakhar, M. Ibáñez, Science 383 (2024) 1184.","mla":"Jakhar, Navita, and Maria Ibáñez. “Electron Highways Are Cooler.” Science, vol. 383, no. 6688, American Association for the Advancement of Science, 2024, p. 1184, doi:10.1126/science.ado4077.","ieee":"N. Jakhar and M. Ibáñez, “Electron highways are cooler,” Science, vol. 383, no. 6688. American Association for the Advancement of Science, p. 1184, 2024.","apa":"Jakhar, N., & Ibáñez, M. (2024). Electron highways are cooler. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.ado4077","ista":"Jakhar N, Ibáñez M. 2024. Electron highways are cooler. Science. 383(6688), 1184.","ama":"Jakhar N, Ibáñez M. Electron highways are cooler. Science. 2024;383(6688):1184. doi:10.1126/science.ado4077"},"date_published":"2024-03-14T00:00:00Z","type":"journal_article","abstract":[{"lang":"eng","text":"Reducing defects boosts room-temperature performance of a thermoelectric device"}],"issue":"6688","status":"public","title":"Electron highways are cooler","intvolume":" 383","_id":"15166","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","oa_version":"None"},{"day":"18","article_processing_charge":"No","keyword":["Multidisciplinary"],"date_published":"2023-05-18T00:00:00Z","publication":"Science","citation":{"ama":"Sahu R, Qiu L, Hease WJ, et al. Entangling microwaves with light. Science. 2023;380(6646):718-721. doi:10.1126/science.adg3812","apa":"Sahu, R., Qiu, L., Hease, W. J., Arnold, G. M., Minoguchi, Y., Rabl, P., & Fink, J. M. (2023). Entangling microwaves with light. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.adg3812","ieee":"R. Sahu et al., “Entangling microwaves with light,” Science, vol. 380, no. 6646. American Association for the Advancement of Science, pp. 718–721, 2023.","ista":"Sahu R, Qiu L, Hease WJ, Arnold GM, Minoguchi Y, Rabl P, Fink JM. 2023. Entangling microwaves with light. Science. 380(6646), 718–721.","short":"R. Sahu, L. Qiu, W.J. Hease, G.M. Arnold, Y. Minoguchi, P. Rabl, J.M. Fink, Science 380 (2023) 718–721.","mla":"Sahu, Rishabh, et al. “Entangling Microwaves with Light.” Science, vol. 380, no. 6646, American Association for the Advancement of Science, 2023, pp. 718–21, doi:10.1126/science.adg3812.","chicago":"Sahu, Rishabh, Liu Qiu, William J Hease, Georg M Arnold, Y. Minoguchi, P. Rabl, and Johannes M Fink. “Entangling Microwaves with Light.” Science. American Association for the Advancement of Science, 2023. https://doi.org/10.1126/science.adg3812."},"article_type":"original","page":"718-721","abstract":[{"lang":"eng","text":"Quantum entanglement is a key resource in currently developed quantum technologies. Sharing this fragile property between superconducting microwave circuits and optical or atomic systems would enable new functionalities, but this has been hindered by an energy scale mismatch of >104 and the resulting mutually imposed loss and noise. In this work, we created and verified entanglement between microwave and optical fields in a millikelvin environment. Using an optically pulsed superconducting electro-optical device, we show entanglement between propagating microwave and optical fields in the continuous variable domain. This achievement not only paves the way for entanglement between superconducting circuits and telecom wavelength light, but also has wide-ranging implications for hybrid quantum networks in the context of modularization, scaling, sensing, and cross-platform verification."}],"issue":"6646","type":"journal_article","oa_version":"Preprint","_id":"13106","user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","title":"Entangling microwaves with light","status":"public","intvolume":" 380","month":"05","publication_identifier":{"issn":["0036-8075"],"eissn":["1095-9203"]},"doi":"10.1126/science.adg3812","language":[{"iso":"eng"}],"main_file_link":[{"url":"https://doi.org/10.48550/arXiv.2301.03315","open_access":"1"}],"oa":1,"external_id":{"isi":["000996515200004"],"arxiv":["2301.03315"]},"isi":1,"quality_controlled":"1","project":[{"grant_number":"758053","_id":"26336814-B435-11E9-9278-68D0E5697425","name":"A Fiber Optic Transceiver for Superconducting Qubits","call_identifier":"H2020"},{"name":"Quantum Local Area Networks with Superconducting Qubits","call_identifier":"H2020","_id":"9B868D20-BA93-11EA-9121-9846C619BF3A","grant_number":"899354"},{"call_identifier":"H2020","name":"ISTplus - Postdoctoral Fellowships","grant_number":"754411","_id":"260C2330-B435-11E9-9278-68D0E5697425"},{"name":"Integrating superconducting quantum circuits","call_identifier":"FWF","grant_number":"F07105","_id":"26927A52-B435-11E9-9278-68D0E5697425"},{"name":"Quantum readout techniques and technologies","call_identifier":"H2020","grant_number":"862644","_id":"237CBA6C-32DE-11EA-91FC-C7463DDC885E"},{"name":"Coherent on-chip conversion of superconducting qubit signals from microwaves to optical frequencies","_id":"2671EB66-B435-11E9-9278-68D0E5697425"}],"ec_funded":1,"author":[{"orcid":"0000-0001-6264-2162","id":"47D26E34-F248-11E8-B48F-1D18A9856A87","last_name":"Sahu","first_name":"Rishabh","full_name":"Sahu, Rishabh"},{"last_name":"Qiu","first_name":"Liu","orcid":"0000-0003-4345-4267","id":"45e99c0d-1eb1-11eb-9b96-ed8ab2983cac","full_name":"Qiu, Liu"},{"full_name":"Hease, William J","last_name":"Hease","first_name":"William J","id":"29705398-F248-11E8-B48F-1D18A9856A87"},{"full_name":"Arnold, Georg M","first_name":"Georg M","last_name":"Arnold","id":"3770C838-F248-11E8-B48F-1D18A9856A87"},{"full_name":"Minoguchi, Y.","first_name":"Y.","last_name":"Minoguchi"},{"full_name":"Rabl, P.","last_name":"Rabl","first_name":"P."},{"id":"4B591CBA-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-8112-028X","first_name":"Johannes M","last_name":"Fink","full_name":"Fink, Johannes M"}],"related_material":{"link":[{"description":"News on ISTA Website","relation":"press_release","url":"https://ista.ac.at/en/news/wiring-up-quantum-circuits-with-light/"}],"record":[{"status":"public","relation":"research_data","id":"13122"}]},"date_updated":"2023-08-02T06:08:57Z","date_created":"2023-05-31T11:39:24Z","volume":380,"year":"2023","acknowledgement":"This work was supported by the European Research Council (grant no. 758053, ERC StG QUNNECT) and the European Union’s Horizon 2020 Research and Innovation Program (grant no. 899354, FETopen SuperQuLAN). L.Q. acknowledges generous support from the ISTFELLOW program. W.H. is the recipient of an ISTplus postdoctoral fellowship with funding from the European Union’s Horizon 2020 Research and Innovation Program (Marie Sklodowska-Curie grant no. 754411). G.A. is the recipient of a DOC fellowship of the Austrian Academy of Sciences at IST Austria. J.M.F. acknowledges support from the Austrian Science Fund (FWF) through BeyondC (grant no. F7105) and the European Union’s Horizon 2020 Research and Innovation Program (grant no. 862644, FETopen QUARTET).","publication_status":"published","department":[{"_id":"JoFi"}],"publisher":"American Association for the Advancement of Science"},{"publication":"Science","citation":{"ama":"Gemen J, Church JR, Ruoko T-P, et al. Disequilibrating azoarenes by visible-light sensitization under confinement. Science. 2023;381(6664):1357-1363. doi:10.1126/science.adh9059","ieee":"J. Gemen et al., “Disequilibrating azoarenes by visible-light sensitization under confinement,” Science, vol. 381, no. 6664. American Association for the Advancement of Science, pp. 1357–1363, 2023.","apa":"Gemen, J., Church, J. R., Ruoko, T.-P., Durandin, N., Białek, M. J., Weissenfels, M., … Klajn, R. (2023). Disequilibrating azoarenes by visible-light sensitization under confinement. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.adh9059","ista":"Gemen J, Church JR, Ruoko T-P, Durandin N, Białek MJ, Weissenfels M, Feller M, Kazes M, Borin VA, Odaybat M, Kalepu R, Diskin-Posner Y, Oron D, Fuchter MJ, Priimagi A, Schapiro I, Klajn R. 2023. Disequilibrating azoarenes by visible-light sensitization under confinement. Science. 381(6664), 1357–1363.","short":"J. Gemen, J.R. Church, T.-P. Ruoko, N. Durandin, M.J. Białek, M. Weissenfels, M. Feller, M. Kazes, V.A. Borin, M. Odaybat, R. Kalepu, Y. Diskin-Posner, D. Oron, M.J. Fuchter, A. Priimagi, I. Schapiro, R. Klajn, Science 381 (2023) 1357–1363.","mla":"Gemen, Julius, et al. “Disequilibrating Azoarenes by Visible-Light Sensitization under Confinement.” Science, vol. 381, no. 6664, American Association for the Advancement of Science, 2023, pp. 1357–63, doi:10.1126/science.adh9059.","chicago":"Gemen, Julius, Jonathan R. Church, Tero-Petri Ruoko, Nikita Durandin, Michał J. Białek, Maren Weissenfels, Moran Feller, et al. “Disequilibrating Azoarenes by Visible-Light Sensitization under Confinement.” Science. American Association for the Advancement of Science, 2023. https://doi.org/10.1126/science.adh9059."},"article_type":"original","page":"1357-1363","date_published":"2023-09-22T00:00:00Z","scopus_import":"1","day":"22","article_processing_charge":"No","_id":"13340","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","title":"Disequilibrating azoarenes by visible-light sensitization under confinement","status":"public","intvolume":" 381","oa_version":"Preprint","type":"journal_article","abstract":[{"lang":"eng","text":"Photoisomerization of azobenzenes from their stable E isomer to the metastable Z state is the basis of numerous applications of these molecules. However, this reaction typically requires ultraviolet light, which limits applicability. In this study, we introduce disequilibration by sensitization under confinement (DESC), a supramolecular approach to induce the E-to-Z isomerization by using light of a desired color, including red. DESC relies on a combination of a macrocyclic host and a photosensitizer, which act together to selectively bind and sensitize E-azobenzenes for isomerization. The Z isomer lacks strong affinity for and is expelled from the host, which can then convert additional E-azobenzenes to the Z state. In this way, the host–photosensitizer complex converts photon energy into chemical energy in the form of out-of-equilibrium photostationary states, including ones that cannot be accessed through direct photoexcitation."}],"issue":"6664","main_file_link":[{"url":"https://doi.org/10.26434/chemrxiv-2023-gq2h0","open_access":"1"}],"oa":1,"quality_controlled":"1","doi":"10.1126/science.adh9059","language":[{"iso":"eng"}],"month":"09","publication_identifier":{"eissn":["1095-9203"]},"acknowledgement":"We acknowledge funding from the European Union’s Horizon 2020 Research and Innovation Program [European Research Council grants 820008 (Ra.K.) and 101045223 (A.P.) and Marie Skłodowska-Curie grants 812868 (J.G.) and 101022777 (T.-P.R.)], the Academy of Finland [Center of Excellence Programme LIBER grant 346107 (A.P.), Flagship Programme PREIN grant 320165 (A.P.), and Postdoctoral Researcher grant 340103 (T.-P.R.)], Zuckerman STEM Leadership Program Fellowship (J.R.C.), President’s PhD Scholarship (M.O.), and the EPSRC [Established Career Fellowship grant EP/R00188X/1 (M.J.F.)].","year":"2023","publication_status":"published","department":[{"_id":"RaKl"}],"publisher":"American Association for the Advancement of Science","author":[{"full_name":"Gemen, Julius","first_name":"Julius","last_name":"Gemen"},{"last_name":"Church","first_name":"Jonathan R.","full_name":"Church, Jonathan R."},{"full_name":"Ruoko, Tero-Petri","first_name":"Tero-Petri","last_name":"Ruoko"},{"full_name":"Durandin, Nikita","last_name":"Durandin","first_name":"Nikita"},{"full_name":"Białek, Michał J.","last_name":"Białek","first_name":"Michał J."},{"first_name":"Maren","last_name":"Weissenfels","full_name":"Weissenfels, Maren"},{"full_name":"Feller, Moran","last_name":"Feller","first_name":"Moran"},{"full_name":"Kazes, Miri","first_name":"Miri","last_name":"Kazes"},{"last_name":"Borin","first_name":"Veniamin A.","full_name":"Borin, Veniamin A."},{"last_name":"Odaybat","first_name":"Magdalena","full_name":"Odaybat, Magdalena"},{"full_name":"Kalepu, Rishir","last_name":"Kalepu","first_name":"Rishir"},{"first_name":"Yael","last_name":"Diskin-Posner","full_name":"Diskin-Posner, Yael"},{"first_name":"Dan","last_name":"Oron","full_name":"Oron, Dan"},{"first_name":"Matthew J.","last_name":"Fuchter","full_name":"Fuchter, Matthew J."},{"last_name":"Priimagi","first_name":"Arri","full_name":"Priimagi, Arri"},{"full_name":"Schapiro, Igor","first_name":"Igor","last_name":"Schapiro"},{"id":"8e84690e-1e48-11ed-a02b-a1e6fb8bb53b","first_name":"Rafal","last_name":"Klajn","full_name":"Klajn, Rafal"}],"date_updated":"2023-10-03T08:11:26Z","date_created":"2023-08-01T08:26:15Z","volume":381},{"date_published":"2023-09-29T00:00:00Z","article_type":"letter_note","page":"1413-1414","publication":"Science","citation":{"ama":"Balazs D, Ibáñez M. Widening the use of 3D printing. Science. 2023;381(6665):1413-1414. doi:10.1126/science.adk3070","ista":"Balazs D, Ibáñez M. 2023. Widening the use of 3D printing. Science. 381(6665), 1413–1414.","apa":"Balazs, D., & Ibáñez, M. (2023). Widening the use of 3D printing. Science. AAAS. https://doi.org/10.1126/science.adk3070","ieee":"D. Balazs and M. Ibáñez, “Widening the use of 3D printing,” Science, vol. 381, no. 6665. AAAS, pp. 1413–1414, 2023.","mla":"Balazs, Daniel, and Maria Ibáñez. “Widening the Use of 3D Printing.” Science, vol. 381, no. 6665, AAAS, 2023, pp. 1413–14, doi:10.1126/science.adk3070.","short":"D. Balazs, M. Ibáñez, Science 381 (2023) 1413–1414.","chicago":"Balazs, Daniel, and Maria Ibáñez. “Widening the Use of 3D Printing.” Science. AAAS, 2023. https://doi.org/10.1126/science.adk3070."},"day":"29","article_processing_charge":"No","scopus_import":"1","oa_version":"None","title":"Widening the use of 3D printing","status":"public","intvolume":" 381","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","_id":"14404","abstract":[{"lang":"eng","text":"A light-triggered fabrication method extends the functionality of printable nanomaterials"}],"issue":"6665","type":"journal_article","language":[{"iso":"eng"}],"doi":"10.1126/science.adk3070","quality_controlled":"1","project":[{"_id":"9B8F7476-BA93-11EA-9121-9846C619BF3A","name":"HighTE: The Werner Siemens Laboratory for the High Throughput Discovery of Semiconductors for Waste Heat Recovery"}],"external_id":{"pmid":["37769110"]},"month":"09","publication_identifier":{"eissn":["1095-9203"]},"date_created":"2023-10-08T22:01:16Z","date_updated":"2023-10-09T07:32:58Z","volume":381,"author":[{"full_name":"Balazs, Daniel","last_name":"Balazs","first_name":"Daniel","orcid":"0000-0001-7597-043X","id":"302BADF6-85FC-11EA-9E3B-B9493DDC885E"},{"id":"43C61214-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-5013-2843","first_name":"Maria","last_name":"Ibáñez","full_name":"Ibáñez, Maria"}],"publication_status":"published","publisher":"AAAS","department":[{"_id":"MaIb"},{"_id":"LifeSc"}],"acknowledgement":"The authors thank the Werner-Siemens-Stiftung and the Institute of Science and Technology Austria for financial support.","year":"2023","pmid":1},{"oa_version":"None","title":"Design of stimulus-responsive two-state hinge proteins","status":"public","intvolume":" 381","_id":"14281","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","abstract":[{"lang":"eng","text":"In nature, proteins that switch between two conformations in response to environmental stimuli structurally transduce biochemical information in a manner analogous to how transistors control information flow in computing devices. Designing proteins with two distinct but fully structured conformations is a challenge for protein design as it requires sculpting an energy landscape with two distinct minima. Here we describe the design of “hinge” proteins that populate one designed state in the absence of ligand and a second designed state in the presence of ligand. X-ray crystallography, electron microscopy, double electron-electron resonance spectroscopy, and binding measurements demonstrate that despite the significant structural differences the two states are designed with atomic level accuracy and that the conformational and binding equilibria are closely coupled."}],"issue":"6659","type":"journal_article","date_published":"2023-08-17T00:00:00Z","article_type":"original","page":"754-760","publication":"Science","citation":{"chicago":"Praetorius, Florian M, Philip J. Y. Leung, Maxx H. Tessmer, Adam Broerman, Cullen Demakis, Acacia F. Dishman, Arvind Pillai, et al. “Design of Stimulus-Responsive Two-State Hinge Proteins.” Science. American Association for the Advancement of Science, 2023. https://doi.org/10.1126/science.adg7731.","mla":"Praetorius, Florian M., et al. “Design of Stimulus-Responsive Two-State Hinge Proteins.” Science, vol. 381, no. 6659, American Association for the Advancement of Science, 2023, pp. 754–60, doi:10.1126/science.adg7731.","short":"F.M. Praetorius, P.J.Y. Leung, M.H. Tessmer, A. Broerman, C. Demakis, A.F. Dishman, A. Pillai, A. Idris, D. Juergens, J. Dauparas, X. Li, P.M. Levine, M. Lamb, R.K. Ballard, S.R. Gerben, H. Nguyen, A. Kang, B. Sankaran, A.K. Bera, B.F. Volkman, J. Nivala, S. Stoll, D. Baker, Science 381 (2023) 754–760.","ista":"Praetorius FM, Leung PJY, Tessmer MH, Broerman A, Demakis C, Dishman AF, Pillai A, Idris A, Juergens D, Dauparas J, Li X, Levine PM, Lamb M, Ballard RK, Gerben SR, Nguyen H, Kang A, Sankaran B, Bera AK, Volkman BF, Nivala J, Stoll S, Baker D. 2023. Design of stimulus-responsive two-state hinge proteins. Science. 381(6659), 754–760.","ieee":"F. M. Praetorius et al., “Design of stimulus-responsive two-state hinge proteins,” Science, vol. 381, no. 6659. American Association for the Advancement of Science, pp. 754–760, 2023.","apa":"Praetorius, F. M., Leung, P. J. Y., Tessmer, M. H., Broerman, A., Demakis, C., Dishman, A. F., … Baker, D. (2023). Design of stimulus-responsive two-state hinge proteins. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.adg7731","ama":"Praetorius FM, Leung PJY, Tessmer MH, et al. Design of stimulus-responsive two-state hinge proteins. Science. 2023;381(6659):754-760. doi:10.1126/science.adg7731"},"day":"17","article_processing_charge":"No","scopus_import":"1","date_updated":"2023-11-07T12:42:09Z","date_created":"2023-09-06T12:04:23Z","volume":381,"author":[{"full_name":"Praetorius, Florian M","id":"dfec9381-4341-11ee-8fd8-faa02bba7d62","first_name":"Florian M","last_name":"Praetorius"},{"full_name":"Leung, Philip J. Y.","last_name":"Leung","first_name":"Philip J. Y."},{"full_name":"Tessmer, Maxx H.","last_name":"Tessmer","first_name":"Maxx H."},{"last_name":"Broerman","first_name":"Adam","full_name":"Broerman, Adam"},{"full_name":"Demakis, Cullen","first_name":"Cullen","last_name":"Demakis"},{"full_name":"Dishman, Acacia F.","last_name":"Dishman","first_name":"Acacia F."},{"full_name":"Pillai, Arvind","first_name":"Arvind","last_name":"Pillai"},{"full_name":"Idris, Abbas","first_name":"Abbas","last_name":"Idris"},{"full_name":"Juergens, David","first_name":"David","last_name":"Juergens"},{"full_name":"Dauparas, Justas","first_name":"Justas","last_name":"Dauparas"},{"full_name":"Li, Xinting","last_name":"Li","first_name":"Xinting"},{"full_name":"Levine, Paul M.","last_name":"Levine","first_name":"Paul M."},{"last_name":"Lamb","first_name":"Mila","full_name":"Lamb, Mila"},{"last_name":"Ballard","first_name":"Ryanne K.","full_name":"Ballard, Ryanne K."},{"last_name":"Gerben","first_name":"Stacey R.","full_name":"Gerben, Stacey R."},{"full_name":"Nguyen, Hannah","first_name":"Hannah","last_name":"Nguyen"},{"last_name":"Kang","first_name":"Alex","full_name":"Kang, Alex"},{"last_name":"Sankaran","first_name":"Banumathi","full_name":"Sankaran, Banumathi"},{"last_name":"Bera","first_name":"Asim K.","full_name":"Bera, Asim K."},{"last_name":"Volkman","first_name":"Brian F.","full_name":"Volkman, Brian F."},{"first_name":"Jeff","last_name":"Nivala","full_name":"Nivala, Jeff"},{"last_name":"Stoll","first_name":"Stefan","full_name":"Stoll, Stefan"},{"first_name":"David","last_name":"Baker","full_name":"Baker, David"}],"publication_status":"published","publisher":"American Association for the Advancement of Science","year":"2023","pmid":1,"extern":"1","language":[{"iso":"eng"}],"doi":"10.1126/science.adg7731","quality_controlled":"1","external_id":{"pmid":["37590357"]},"month":"08","publication_identifier":{"eissn":["1095-9203"],"issn":["0036-8075"]}},{"oa_version":"None","intvolume":" 382","title":"Plant size, latitude, and phylogeny explain within-population variability in herbivory","status":"public","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","_id":"14552","issue":"6671","abstract":[{"text":"Interactions between plants and herbivores are central in most ecosystems, but their strength is highly variable. The amount of variability within a system is thought to influence most aspects of plant-herbivore biology, from ecological stability to plant defense evolution. Our understanding of what influences variability, however, is limited by sparse data. We collected standardized surveys of herbivory for 503 plant species at 790 sites across 116° of latitude. With these data, we show that within-population variability in herbivory increases with latitude, decreases with plant size, and is phylogenetically structured. Differences in the magnitude of variability are thus central to how plant-herbivore biology varies across macroscale gradients. We argue that increased focus on interaction variability will advance understanding of patterns of life on Earth.","lang":"eng"}],"type":"journal_article","date_published":"2023-11-09T00:00:00Z","page":"679-683","article_type":"original","citation":{"ama":"Robinson ML, Hahn PG, Inouye BD, et al. Plant size, latitude, and phylogeny explain within-population variability in herbivory. Science. 2023;382(6671):679-683. doi:10.1126/science.adh8830","ista":"Robinson ML et al. 2023. Plant size, latitude, and phylogeny explain within-population variability in herbivory. Science. 382(6671), 679–683.","apa":"Robinson, M. L., Hahn, P. G., Inouye, B. D., Underwood, N., Whitehead, S. R., Abbott, K. C., … Wetzel, W. C. (2023). Plant size, latitude, and phylogeny explain within-population variability in herbivory. Science. AAAS. https://doi.org/10.1126/science.adh8830","ieee":"M. L. Robinson et al., “Plant size, latitude, and phylogeny explain within-population variability in herbivory,” Science, vol. 382, no. 6671. AAAS, pp. 679–683, 2023.","mla":"Robinson, M. L., et al. “Plant Size, Latitude, and Phylogeny Explain within-Population Variability in Herbivory.” Science, vol. 382, no. 6671, AAAS, 2023, pp. 679–83, doi:10.1126/science.adh8830.","short":"M.L. Robinson, P.G. Hahn, B.D. Inouye, N. Underwood, S.R. Whitehead, K.C. Abbott, E.M. Bruna, N.I. Cacho, L.A. Dyer, L. Abdala-Roberts, W.J. Allen, J.F. Andrade, D.F. Angulo, D. Anjos, D.N. Anstett, R. Bagchi, S. Bagchi, M. Barbosa, S. Barrett, C. Baskett, E. Ben-Simchon, K.J. Bloodworth, J.L. Bronstein, Y.M. Buckley, K.T. Burghardt, C. Bustos-Segura, E.S. Calixto, R.L. Carvalho, B. Castagneyrol, M.C. Chiuffo, D. Cinoğlu, E. Cinto Mejía, M.C. Cock, R. Cogni, O.L. Cope, T. Cornelissen, D.R. Cortez, D.W. Crowder, C. Dallstream, W. Dáttilo, J.K. Davis, R.D. Dimarco, H.E. Dole, I.N. Egbon, M. Eisenring, A. Ejomah, B.D. Elderd, M.J. Endara, M.D. Eubanks, S.E. Everingham, K.N. Farah, R.P. Farias, A.P. Fernandes, G.W. Fernandes, M. Ferrante, A. Finn, G.A. Florjancic, M.L. Forister, Q.N. Fox, E. Frago, F.M. França, A.S. Getman-Pickering, Z. Getman-Pickering, E. Gianoli, B. Gooden, M.M. Gossner, K.A. Greig, S. Gripenberg, R. Groenteman, P. Grof-Tisza, N. Haack, L. Hahn, S.M. Haq, A.M. Helms, J. Hennecke, S.L. Hermann, L.M. Holeski, S. Holm, M.C. Hutchinson, E.E. Jackson, S. Kagiya, A. Kalske, M. Kalwajtys, R. Karban, R. Kariyat, T. Keasar, M.F. Kersch-Becker, H.M. Kharouba, T.N. Kim, D.M. Kimuyu, J. Kluse, S.E. Koerner, K.J. Komatsu, S. Krishnan, M. Laihonen, L. Lamelas-López, M.C. Lascaleia, N. Lecomte, C.R. Lehn, X. Li, R.L. Lindroth, E.F. Lopresti, M. Losada, A.M. Louthan, V.J. Luizzi, S.C. Lynch, J.S. Lynn, N.J. Lyon, L.F. Maia, R.A. Maia, T.L. Mannall, B.S. Martin, T.J. Massad, A.C. Mccall, K. Mcgurrin, A.C. Merwin, Z. Mijango-Ramos, C.H. Mills, A.T. Moles, C.M. Moore, X. Moreira, C.R. Morrison, M.C. Moshobane, A. Muola, R. Nakadai, K. Nakajima, S. Novais, C.O. Ogbebor, H. Ohsaki, V.S. Pan, N.A. Pardikes, M. Pareja, N. Parthasarathy, R.R. Pawar, Q. Paynter, I.S. Pearse, R.M. Penczykowski, A.A. Pepi, C.C. Pereira, S.S. Phartyal, F.I. Piper, K. Poveda, E.G. Pringle, J. Puy, T. Quijano, C. Quintero, S. Rasmann, C. Rosche, L.Y. Rosenheim, J.A. Rosenheim, J.B. Runyon, A. Sadeh, Y. Sakata, D.M. Salcido, C. Salgado-Luarte, B.A. Santos, Y. Sapir, Y. Sasal, Y. Sato, M. Sawant, H. Schroeder, I. Schumann, M. Segoli, H. Segre, O. Shelef, N. Shinohara, R.P. Singh, D.S. Smith, M. Sobral, G.C. Stotz, A.J.M. Tack, M. Tayal, J.F. Tooker, D. Torrico-Bazoberry, K. Tougeron, A.M. Trowbridge, S. Utsumi, O. Uyi, J.L. Vaca-Uribe, A. Valtonen, L.J.A. Van Dijk, V. Vandvik, J. Villellas, L.P. Waller, M.G. Weber, A. Yamawo, S. Yim, P.L. Zarnetske, L.N. Zehr, Z. Zhong, W.C. Wetzel, Science 382 (2023) 679–683.","chicago":"Robinson, M. L., P. G. Hahn, B. D. Inouye, N. Underwood, S. R. Whitehead, K. C. Abbott, E. M. Bruna, et al. “Plant Size, Latitude, and Phylogeny Explain within-Population Variability in Herbivory.” Science. AAAS, 2023. https://doi.org/10.1126/science.adh8830."},"publication":"Science","article_processing_charge":"No","day":"09","scopus_import":"1","volume":382,"date_updated":"2023-11-20T11:17:34Z","date_created":"2023-11-19T23:00:54Z","related_material":{"record":[{"id":"14579","relation":"research_data","status":"public"}]},"author":[{"last_name":"Robinson","first_name":"M. L.","full_name":"Robinson, M. L."},{"full_name":"Hahn, P. G.","last_name":"Hahn","first_name":"P. G."},{"first_name":"B. D.","last_name":"Inouye","full_name":"Inouye, B. D."},{"first_name":"N.","last_name":"Underwood","full_name":"Underwood, N."},{"first_name":"S. R.","last_name":"Whitehead","full_name":"Whitehead, S. R."},{"last_name":"Abbott","first_name":"K. C.","full_name":"Abbott, K. C."},{"full_name":"Bruna, E. M.","first_name":"E. M.","last_name":"Bruna"},{"full_name":"Cacho, N. I.","last_name":"Cacho","first_name":"N. I."},{"first_name":"L. A.","last_name":"Dyer","full_name":"Dyer, L. A."},{"full_name":"Abdala-Roberts, L.","last_name":"Abdala-Roberts","first_name":"L."},{"last_name":"Allen","first_name":"W. J.","full_name":"Allen, W. J."},{"full_name":"Andrade, J. F.","last_name":"Andrade","first_name":"J. F."},{"full_name":"Angulo, D. F.","last_name":"Angulo","first_name":"D. F."},{"full_name":"Anjos, D.","first_name":"D.","last_name":"Anjos"},{"first_name":"D. N.","last_name":"Anstett","full_name":"Anstett, D. N."},{"first_name":"R.","last_name":"Bagchi","full_name":"Bagchi, R."},{"first_name":"S.","last_name":"Bagchi","full_name":"Bagchi, S."},{"full_name":"Barbosa, M.","first_name":"M.","last_name":"Barbosa"},{"first_name":"S.","last_name":"Barrett","full_name":"Barrett, S."},{"full_name":"Baskett, Carina","orcid":"0000-0002-7354-8574","id":"3B4A7CE2-F248-11E8-B48F-1D18A9856A87","last_name":"Baskett","first_name":"Carina"},{"last_name":"Ben-Simchon","first_name":"E.","full_name":"Ben-Simchon, E."},{"full_name":"Bloodworth, K. J.","first_name":"K. J.","last_name":"Bloodworth"},{"full_name":"Bronstein, J. L.","last_name":"Bronstein","first_name":"J. L."},{"full_name":"Buckley, Y. M.","last_name":"Buckley","first_name":"Y. M."},{"full_name":"Burghardt, K. T.","first_name":"K. T.","last_name":"Burghardt"},{"last_name":"Bustos-Segura","first_name":"C.","full_name":"Bustos-Segura, C."},{"last_name":"Calixto","first_name":"E. S.","full_name":"Calixto, E. S."},{"full_name":"Carvalho, R. L.","first_name":"R. L.","last_name":"Carvalho"},{"last_name":"Castagneyrol","first_name":"B.","full_name":"Castagneyrol, B."},{"first_name":"M. C.","last_name":"Chiuffo","full_name":"Chiuffo, M. C."},{"first_name":"D.","last_name":"Cinoğlu","full_name":"Cinoğlu, D."},{"last_name":"Cinto Mejía","first_name":"E.","full_name":"Cinto Mejía, E."},{"full_name":"Cock, M. C.","last_name":"Cock","first_name":"M. C."},{"first_name":"R.","last_name":"Cogni","full_name":"Cogni, R."},{"full_name":"Cope, O. L.","first_name":"O. L.","last_name":"Cope"},{"last_name":"Cornelissen","first_name":"T.","full_name":"Cornelissen, T."},{"first_name":"D. R.","last_name":"Cortez","full_name":"Cortez, D. R."},{"full_name":"Crowder, D. W.","first_name":"D. W.","last_name":"Crowder"},{"full_name":"Dallstream, C.","first_name":"C.","last_name":"Dallstream"},{"full_name":"Dáttilo, W.","last_name":"Dáttilo","first_name":"W."},{"full_name":"Davis, J. K.","last_name":"Davis","first_name":"J. K."},{"full_name":"Dimarco, R. D.","last_name":"Dimarco","first_name":"R. D."},{"last_name":"Dole","first_name":"H. E.","full_name":"Dole, H. E."},{"full_name":"Egbon, I. N.","first_name":"I. N.","last_name":"Egbon"},{"full_name":"Eisenring, M.","last_name":"Eisenring","first_name":"M."},{"last_name":"Ejomah","first_name":"A.","full_name":"Ejomah, A."},{"first_name":"B. D.","last_name":"Elderd","full_name":"Elderd, B. D."},{"first_name":"M. J.","last_name":"Endara","full_name":"Endara, M. J."},{"first_name":"M. D.","last_name":"Eubanks","full_name":"Eubanks, M. D."},{"full_name":"Everingham, S. E.","first_name":"S. E.","last_name":"Everingham"},{"full_name":"Farah, K. N.","last_name":"Farah","first_name":"K. N."},{"full_name":"Farias, R. P.","last_name":"Farias","first_name":"R. P."},{"full_name":"Fernandes, A. P.","last_name":"Fernandes","first_name":"A. P."},{"first_name":"G. W.","last_name":"Fernandes","full_name":"Fernandes, G. W."},{"full_name":"Ferrante, M.","first_name":"M.","last_name":"Ferrante"},{"first_name":"A.","last_name":"Finn","full_name":"Finn, A."},{"first_name":"G. A.","last_name":"Florjancic","full_name":"Florjancic, G. A."},{"last_name":"Forister","first_name":"M. L.","full_name":"Forister, M. L."},{"full_name":"Fox, Q. N.","first_name":"Q. N.","last_name":"Fox"},{"first_name":"E.","last_name":"Frago","full_name":"Frago, E."},{"first_name":"F. M.","last_name":"França","full_name":"França, F. M."},{"full_name":"Getman-Pickering, A. S.","first_name":"A. S.","last_name":"Getman-Pickering"},{"full_name":"Getman-Pickering, Z.","first_name":"Z.","last_name":"Getman-Pickering"},{"last_name":"Gianoli","first_name":"E.","full_name":"Gianoli, E."},{"full_name":"Gooden, B.","last_name":"Gooden","first_name":"B."},{"full_name":"Gossner, M. M.","last_name":"Gossner","first_name":"M. M."},{"full_name":"Greig, K. A.","last_name":"Greig","first_name":"K. A."},{"full_name":"Gripenberg, S.","last_name":"Gripenberg","first_name":"S."},{"first_name":"R.","last_name":"Groenteman","full_name":"Groenteman, R."},{"first_name":"P.","last_name":"Grof-Tisza","full_name":"Grof-Tisza, P."},{"full_name":"Haack, N.","last_name":"Haack","first_name":"N."},{"last_name":"Hahn","first_name":"L.","full_name":"Hahn, L."},{"full_name":"Haq, S. M.","last_name":"Haq","first_name":"S. M."},{"full_name":"Helms, A. M.","first_name":"A. M.","last_name":"Helms"},{"last_name":"Hennecke","first_name":"J.","full_name":"Hennecke, J."},{"full_name":"Hermann, S. 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A."},{"first_name":"Y.","last_name":"Sapir","full_name":"Sapir, Y."},{"first_name":"Y.","last_name":"Sasal","full_name":"Sasal, Y."},{"last_name":"Sato","first_name":"Y.","full_name":"Sato, Y."},{"full_name":"Sawant, M.","last_name":"Sawant","first_name":"M."},{"full_name":"Schroeder, H.","first_name":"H.","last_name":"Schroeder"},{"first_name":"I.","last_name":"Schumann","full_name":"Schumann, I."},{"full_name":"Segoli, M.","last_name":"Segoli","first_name":"M."},{"first_name":"H.","last_name":"Segre","full_name":"Segre, H."},{"full_name":"Shelef, O.","first_name":"O.","last_name":"Shelef"},{"last_name":"Shinohara","first_name":"N.","full_name":"Shinohara, N."},{"last_name":"Singh","first_name":"R. P.","full_name":"Singh, R. P."},{"full_name":"Smith, D. S.","last_name":"Smith","first_name":"D. S."},{"last_name":"Sobral","first_name":"M.","full_name":"Sobral, M."},{"full_name":"Stotz, G. C.","first_name":"G. C.","last_name":"Stotz"},{"full_name":"Tack, A. J.M.","first_name":"A. J.M.","last_name":"Tack"},{"full_name":"Tayal, M.","last_name":"Tayal","first_name":"M."},{"first_name":"J. F.","last_name":"Tooker","full_name":"Tooker, J. F."},{"full_name":"Torrico-Bazoberry, D.","last_name":"Torrico-Bazoberry","first_name":"D."},{"last_name":"Tougeron","first_name":"K.","full_name":"Tougeron, K."},{"last_name":"Trowbridge","first_name":"A. M.","full_name":"Trowbridge, A. M."},{"last_name":"Utsumi","first_name":"S.","full_name":"Utsumi, S."},{"full_name":"Uyi, O.","last_name":"Uyi","first_name":"O."},{"first_name":"J. L.","last_name":"Vaca-Uribe","full_name":"Vaca-Uribe, J. L."},{"last_name":"Valtonen","first_name":"A.","full_name":"Valtonen, A."},{"first_name":"L. J.A.","last_name":"Van Dijk","full_name":"Van Dijk, L. J.A."},{"full_name":"Vandvik, V.","last_name":"Vandvik","first_name":"V."},{"last_name":"Villellas","first_name":"J.","full_name":"Villellas, J."},{"full_name":"Waller, L. P.","first_name":"L. P.","last_name":"Waller"},{"full_name":"Weber, M. G.","first_name":"M. G.","last_name":"Weber"},{"last_name":"Yamawo","first_name":"A.","full_name":"Yamawo, A."},{"full_name":"Yim, S.","first_name":"S.","last_name":"Yim"},{"last_name":"Zarnetske","first_name":"P. L.","full_name":"Zarnetske, P. L."},{"full_name":"Zehr, L. N.","last_name":"Zehr","first_name":"L. N."},{"full_name":"Zhong, Z.","last_name":"Zhong","first_name":"Z."},{"first_name":"W. C.","last_name":"Wetzel","full_name":"Wetzel, W. C."}],"department":[{"_id":"NiBa"}],"publisher":"AAAS","publication_status":"published","pmid":1,"year":"2023","acknowledgement":"The authors acknowledge funding for central project coordination from NSF Research Coordination Network grant DEB-2203582; the Ecology, Evolution, and Behavior Program at Michigan State University; and AgBioResearch at Michigan State University. Site-specific funding is listed in the supplementary materials.","language":[{"iso":"eng"}],"doi":"10.1126/science.adh8830","quality_controlled":"1","external_id":{"pmid":["37943897"]},"publication_identifier":{"eissn":["1095-9203"]},"month":"11"},{"day":"29","article_processing_charge":"No","scopus_import":"1","date_published":"2023-06-29T00:00:00Z","article_type":"original","page":"1357-1362","publication":"Science","citation":{"ama":"Brückner D, Chen H, Barinov L, Zoller B, Gregor T. Stochastic motion and transcriptional dynamics of pairs of distal DNA loci on a compacted chromosome. Science. 2023;380(6652):1357-1362. doi:10.1126/science.adf5568","ieee":"D. Brückner, H. Chen, L. Barinov, B. Zoller, and T. Gregor, “Stochastic motion and transcriptional dynamics of pairs of distal DNA loci on a compacted chromosome,” Science, vol. 380, no. 6652. American Association for the Advancement of Science, pp. 1357–1362, 2023.","apa":"Brückner, D., Chen, H., Barinov, L., Zoller, B., & Gregor, T. (2023). Stochastic motion and transcriptional dynamics of pairs of distal DNA loci on a compacted chromosome. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.adf5568","ista":"Brückner D, Chen H, Barinov L, Zoller B, Gregor T. 2023. Stochastic motion and transcriptional dynamics of pairs of distal DNA loci on a compacted chromosome. Science. 380(6652), 1357–1362.","short":"D. Brückner, H. Chen, L. Barinov, B. Zoller, T. Gregor, Science 380 (2023) 1357–1362.","mla":"Brückner, David, et al. “Stochastic Motion and Transcriptional Dynamics of Pairs of Distal DNA Loci on a Compacted Chromosome.” Science, vol. 380, no. 6652, American Association for the Advancement of Science, 2023, pp. 1357–62, doi:10.1126/science.adf5568.","chicago":"Brückner, David, Hongtao Chen, Lev Barinov, Benjamin Zoller, and Thomas Gregor. “Stochastic Motion and Transcriptional Dynamics of Pairs of Distal DNA Loci on a Compacted Chromosome.” Science. American Association for the Advancement of Science, 2023. https://doi.org/10.1126/science.adf5568."},"abstract":[{"lang":"eng","text":"Chromosomes in the eukaryotic nucleus are highly compacted. However, for many functional processes, including transcription initiation, the pairwise motion of distal chromosomal elements such as enhancers and promoters is essential and necessitates dynamic fluidity. Here, we used a live-imaging assay to simultaneously measure the positions of pairs of enhancers and promoters and their transcriptional output while systematically varying the genomic separation between these two DNA loci. Our analysis reveals the coexistence of a compact globular organization and fast subdiffusive dynamics. These combined features cause an anomalous scaling of polymer relaxation times with genomic separation leading to long-ranged correlations. Thus, encounter times of DNA loci are much less dependent on genomic distance than predicted by existing polymer models, with potential consequences for eukaryotic gene expression."}],"issue":"6652","type":"journal_article","oa_version":"Preprint","status":"public","title":"Stochastic motion and transcriptional dynamics of pairs of distal DNA loci on a compacted chromosome","intvolume":" 380","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","_id":"13261","month":"06","publication_identifier":{"eissn":["1095-9203"]},"language":[{"iso":"eng"}],"doi":"10.1126/science.adf5568","isi":1,"quality_controlled":"1","project":[{"_id":"34e2a5b5-11ca-11ed-8bc3-b2265616ef0b","grant_number":"343-2022","name":"A mechano-chemical theory for stem cell fate decisions in organoid development"}],"main_file_link":[{"open_access":"1","url":"https://doi.org/10.1126/science.adf5568"}],"oa":1,"external_id":{"isi":["001106405600028"]},"date_created":"2023-07-23T22:01:12Z","date_updated":"2023-12-13T11:41:07Z","volume":380,"author":[{"full_name":"Brückner, David","last_name":"Brückner","first_name":"David","orcid":"0000-0001-7205-2975","id":"e1e86031-6537-11eb-953a-f7ab92be508d"},{"full_name":"Chen, Hongtao","first_name":"Hongtao","last_name":"Chen"},{"first_name":"Lev","last_name":"Barinov","full_name":"Barinov, Lev"},{"first_name":"Benjamin","last_name":"Zoller","full_name":"Zoller, Benjamin"},{"full_name":"Gregor, Thomas","last_name":"Gregor","first_name":"Thomas"}],"publication_status":"published","department":[{"_id":"EdHa"}],"publisher":"American Association for the Advancement of Science","year":"2023","acknowledgement":"This work was supported in part by the U.S. National Science Foundation, the Center for the Physics of Biological Function (grant PHY-1734030), and the National Institutes of Health (grants R01GM097275, U01DA047730, and U01DK127429). D.B.B. was supported by the NOMIS Foundation as a fellow and by an EMBO postdoctoral fellowship (ALTF 343-2022). H.C. was supported by a Charles H. Revson Biomedical Science Fellowship."},{"oa":1,"external_id":{"pmid":["38096420"],"arxiv":["2307.00061"]},"main_file_link":[{"url":"https://doi.org/10.48550/arXiv.2307.00061","open_access":"1"}],"quality_controlled":"1","doi":"10.1126/science.ade4970","language":[{"iso":"eng"}],"publication_identifier":{"issn":["0036-8075"],"eissn":["1095-9203"]},"month":"12","pmid":1,"year":"2023","publisher":"American Association for the Advancement of Science","publication_status":"published","related_material":{"link":[{"description":"News on ISTA Website","relation":"press_release","url":"https://ista.ac.at/en/news/reaching-for-the-invisible-stars/"}]},"author":[{"first_name":"M. R.","last_name":"Drout","full_name":"Drout, M. R."},{"orcid":"0000-0002-6960-6911","id":"d0648d0c-0f64-11ee-a2e0-dd0faa2e4f7d","last_name":"Götberg","first_name":"Ylva Louise Linsdotter","full_name":"Götberg, Ylva Louise Linsdotter"},{"full_name":"Ludwig, B. A.","last_name":"Ludwig","first_name":"B. A."},{"last_name":"Groh","first_name":"J. H.","full_name":"Groh, J. H."},{"last_name":"de Mink","first_name":"S. E.","full_name":"de Mink, S. E."},{"last_name":"O’Grady","first_name":"A. J. G.","full_name":"O’Grady, A. J. G."},{"full_name":"Smith, N.","last_name":"Smith","first_name":"N."}],"volume":382,"date_created":"2024-03-05T09:40:28Z","date_updated":"2024-03-13T07:40:04Z","extern":"1","citation":{"short":"M.R. Drout, Y.L.L. Götberg, B.A. Ludwig, J.H. Groh, S.E. de Mink, A.J.G. O’Grady, N. Smith, Science 382 (2023) 1287–1291.","mla":"Drout, M. R., et al. “An Observed Population of Intermediate-Mass Helium Stars That Have Been Stripped in Binaries.” Science, vol. 382, no. 6676, American Association for the Advancement of Science, 2023, pp. 1287–91, doi:10.1126/science.ade4970.","chicago":"Drout, M. R., Ylva Louise Linsdotter Götberg, B. A. Ludwig, J. H. Groh, S. E. de Mink, A. J. G. O’Grady, and N. Smith. “An Observed Population of Intermediate-Mass Helium Stars That Have Been Stripped in Binaries.” Science. American Association for the Advancement of Science, 2023. https://doi.org/10.1126/science.ade4970.","ama":"Drout MR, Götberg YLL, Ludwig BA, et al. An observed population of intermediate-mass helium stars that have been stripped in binaries. Science. 2023;382(6676):1287-1291. doi:10.1126/science.ade4970","ieee":"M. R. Drout et al., “An observed population of intermediate-mass helium stars that have been stripped in binaries,” Science, vol. 382, no. 6676. American Association for the Advancement of Science, pp. 1287–1291, 2023.","apa":"Drout, M. R., Götberg, Y. L. L., Ludwig, B. A., Groh, J. H., de Mink, S. E., O’Grady, A. J. G., & Smith, N. (2023). An observed population of intermediate-mass helium stars that have been stripped in binaries. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.ade4970","ista":"Drout MR, Götberg YLL, Ludwig BA, Groh JH, de Mink SE, O’Grady AJG, Smith N. 2023. An observed population of intermediate-mass helium stars that have been stripped in binaries. Science. 382(6676), 1287–1291."},"publication":"Science","page":"1287-1291","article_type":"original","date_published":"2023-12-14T00:00:00Z","scopus_import":"1","keyword":["Stellar Astrophysics"],"article_processing_charge":"No","day":"14","_id":"15085","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","intvolume":" 382","status":"public","title":"An observed population of intermediate-mass helium stars that have been stripped in binaries","oa_version":"None","type":"journal_article","issue":"6676","abstract":[{"text":"The hydrogen-rich outer layers of massive stars can be removed by interactions with a binary companion. Theoretical models predict that this stripping produces a population of hot helium stars of ~2 to 8 solar masses (M☉), however, only one such system has been identified thus far. We used ultraviolet photometry to identify potential stripped helium stars then investigated 25 of them using optical spectroscopy. We identified stars with high temperatures (~60,000 to 100,000 kelvin), high surface gravities, and hydrogen-depleted surfaces; 16 stars also showed binary motion. These properties match expectations for stars with initial masses of 8 to 25 M☉ that were stripped by binary interaction. Their masses fall in the gap between subdwarf helium stars and Wolf-Rayet stars. We propose that these stars could be progenitors of stripped-envelope supernovae.","lang":"eng"}]},{"user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","_id":"11996","title":"A soft active matter that can climb walls","status":"public","intvolume":" 377","oa_version":"None","type":"journal_article","abstract":[{"text":"If you mix fruit syrups with alcohol to make a schnapps, the two liquids will remain perfectly blended forever. But if you mix oil with vinegar to make a vinaigrette, the oil and vinegar will soon separate back into their previous selves. Such liquid-liquid phase separation is a thermodynamically driven phenomenon and plays an important role in many biological processes (1). Although energy injection at the macroscale can reverse the phase separation—a strong shake is the normal response to a separated vinaigrette—little is known about the effect of energy added at the microscopic level on phase separation. This fundamental question has deep ramifications, notably in biology, because active processes also make the interior of a living cell different from a dead one. On page 768 of this issue, Adkins et al. (2) examine how mechanical activity at the microscopic scale affects liquid-liquid phase separation and allows liquids to climb surfaces.","lang":"eng"}],"issue":"6607","publication":"Science","citation":{"ista":"Palacci JA. 2022. A soft active matter that can climb walls. Science. 377(6607), 710–711.","ieee":"J. A. Palacci, “A soft active matter that can climb walls,” Science, vol. 377, no. 6607. American Association for the Advancement of Science, pp. 710–711, 2022.","apa":"Palacci, J. A. (2022). A soft active matter that can climb walls. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.adc9202","ama":"Palacci JA. A soft active matter that can climb walls. Science. 2022;377(6607):710-711. doi:10.1126/science.adc9202","chicago":"Palacci, Jérémie A. “A Soft Active Matter That Can Climb Walls.” Science. American Association for the Advancement of Science, 2022. https://doi.org/10.1126/science.adc9202.","mla":"Palacci, Jérémie A. “A Soft Active Matter That Can Climb Walls.” Science, vol. 377, no. 6607, American Association for the Advancement of Science, 2022, pp. 710–11, doi:10.1126/science.adc9202.","short":"J.A. Palacci, Science 377 (2022) 710–711."},"article_type":"letter_note","page":"710-711","date_published":"2022-08-12T00:00:00Z","scopus_import":"1","day":"12","article_processing_charge":"No","year":"2022","pmid":1,"publication_status":"published","department":[{"_id":"JePa"}],"publisher":"American Association for the Advancement of Science","author":[{"first_name":"Jérémie A","last_name":"Palacci","id":"8fb92548-2b22-11eb-b7c1-a3f0d08d7c7d","orcid":"0000-0002-7253-9465","full_name":"Palacci, Jérémie A"}],"date_updated":"2022-09-05T07:37:37Z","date_created":"2022-08-28T22:02:00Z","volume":377,"external_id":{"pmid":["35951689 "]},"quality_controlled":"1","doi":"10.1126/science.adc9202","language":[{"iso":"eng"}],"month":"08","publication_identifier":{"issn":["0036-8075"],"eissn":["1095-9203"]}},{"language":[{"iso":"eng"}],"doi":"10.1126/science.adg0797","isi":1,"quality_controlled":"1","main_file_link":[{"open_access":"1","url":"https://doi.org/10.1126/science.adg0797"}],"external_id":{"isi":["000963463700023"]},"oa":1,"month":"12","publication_identifier":{"issn":["0036-8075"],"eissn":["1095-9203"]},"date_created":"2023-01-12T11:56:30Z","date_updated":"2023-10-03T11:01:06Z","volume":378,"author":[{"full_name":"Chhugani, Karishma","last_name":"Chhugani","first_name":"Karishma"},{"full_name":"Frolova, Alina","last_name":"Frolova","first_name":"Alina"},{"first_name":"Yuriy","last_name":"Salyha","full_name":"Salyha, Yuriy"},{"full_name":"Fiscutean, Andrada","last_name":"Fiscutean","first_name":"Andrada"},{"first_name":"Oksana","last_name":"Zlenko","full_name":"Zlenko, Oksana"},{"full_name":"Reinsone, Sanita","first_name":"Sanita","last_name":"Reinsone"},{"last_name":"Wolfsberger","first_name":"Walter W.","full_name":"Wolfsberger, Walter W."},{"full_name":"Ivashchenko, Oleksandra V.","last_name":"Ivashchenko","first_name":"Oleksandra V."},{"last_name":"Maci","first_name":"Megi","full_name":"Maci, Megi"},{"last_name":"Dziuba","first_name":"Dmytro","full_name":"Dziuba, Dmytro"},{"last_name":"Parkhomenko","first_name":"Andrii","full_name":"Parkhomenko, Andrii"},{"full_name":"Bortz, Eric","last_name":"Bortz","first_name":"Eric"},{"full_name":"Kondrashov, Fyodor","last_name":"Kondrashov","first_name":"Fyodor","orcid":"0000-0001-8243-4694","id":"44FDEF62-F248-11E8-B48F-1D18A9856A87"},{"first_name":"Paweł P.","last_name":"Łabaj","full_name":"Łabaj, Paweł P."},{"last_name":"Romero","first_name":"Veronika","full_name":"Romero, Veronika"},{"full_name":"Hlávka, Jakub","first_name":"Jakub","last_name":"Hlávka"},{"full_name":"Oleksyk, Taras K.","last_name":"Oleksyk","first_name":"Taras K."},{"first_name":"Serghei","last_name":"Mangul","full_name":"Mangul, Serghei"}],"publication_status":"published","publisher":"American Association for the Advancement of Science","department":[{"_id":"FyKo"}],"year":"2022","date_published":"2022-12-22T00:00:00Z","article_type":"letter_note","page":"1285-1286","publication":"Science","citation":{"short":"K. Chhugani, A. Frolova, Y. Salyha, A. Fiscutean, O. Zlenko, S. Reinsone, W.W. Wolfsberger, O.V. Ivashchenko, M. Maci, D. Dziuba, A. Parkhomenko, E. Bortz, F. Kondrashov, P.P. Łabaj, V. Romero, J. Hlávka, T.K. Oleksyk, S. Mangul, Science 378 (2022) 1285–1286.","mla":"Chhugani, Karishma, et al. “Remote Opportunities for Scholars in Ukraine.” Science, vol. 378, no. 6626, American Association for the Advancement of Science, 2022, pp. 1285–86, doi:10.1126/science.adg0797.","chicago":"Chhugani, Karishma, Alina Frolova, Yuriy Salyha, Andrada Fiscutean, Oksana Zlenko, Sanita Reinsone, Walter W. Wolfsberger, et al. “Remote Opportunities for Scholars in Ukraine.” Science. American Association for the Advancement of Science, 2022. https://doi.org/10.1126/science.adg0797.","ama":"Chhugani K, Frolova A, Salyha Y, et al. Remote opportunities for scholars in Ukraine. Science. 2022;378(6626):1285-1286. doi:10.1126/science.adg0797","ieee":"K. Chhugani et al., “Remote opportunities for scholars in Ukraine,” Science, vol. 378, no. 6626. American Association for the Advancement of Science, pp. 1285–1286, 2022.","apa":"Chhugani, K., Frolova, A., Salyha, Y., Fiscutean, A., Zlenko, O., Reinsone, S., … Mangul, S. (2022). Remote opportunities for scholars in Ukraine. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.adg0797","ista":"Chhugani K, Frolova A, Salyha Y, Fiscutean A, Zlenko O, Reinsone S, Wolfsberger WW, Ivashchenko OV, Maci M, Dziuba D, Parkhomenko A, Bortz E, Kondrashov F, Łabaj PP, Romero V, Hlávka J, Oleksyk TK, Mangul S. 2022. Remote opportunities for scholars in Ukraine. Science. 378(6626), 1285–1286."},"day":"22","article_processing_charge":"No","scopus_import":"1","oa_version":"Published Version","status":"public","title":"Remote opportunities for scholars in Ukraine","intvolume":" 378","_id":"12116","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","abstract":[{"lang":"eng","text":"Russia’s unprovoked attack on Ukraine has destroyed civilian infrastructure, including universities, research centers, and other academic infrastructure (1). Many Ukrainian scholars and researchers remain in Ukraine, and their work has suffered from major setbacks (2–4). We call on international scientists and institutions to support them."}],"issue":"6626","type":"journal_article"},{"volume":375,"date_updated":"2023-10-16T09:10:36Z","date_created":"2022-04-10T22:01:40Z","author":[{"last_name":"Su","first_name":"Lizhong","full_name":"Su, Lizhong"},{"full_name":"Wang, Dongyang","first_name":"Dongyang","last_name":"Wang"},{"full_name":"Wang, Sining","first_name":"Sining","last_name":"Wang"},{"last_name":"Qin","first_name":"Bingchao","full_name":"Qin, Bingchao"},{"first_name":"Yuping","last_name":"Wang","full_name":"Wang, Yuping"},{"first_name":"Yongxin","last_name":"Qin","full_name":"Qin, Yongxin"},{"full_name":"Jin, Yang","first_name":"Yang","last_name":"Jin"},{"first_name":"Cheng","last_name":"Chang","id":"9E331C2E-9F27-11E9-AE48-5033E6697425","orcid":"0000-0002-9515-4277","full_name":"Chang, Cheng"},{"first_name":"Li Dong","last_name":"Zhao","full_name":"Zhao, Li Dong"}],"department":[{"_id":"MaIb"}],"publisher":"American Association for the Advancement of Science","publication_status":"published","pmid":1,"year":"2022","acknowledgement":"This work was supported by the Basic Science Center Project of the National Natural Science Foundation of China (51788104), the National Key Research and Development Program of China (2018YFA0702100), the National Science Fund for Distinguished Young Scholars (51925101), the 111 Project (B17002), the Lise Meitner Project (M2889-N), and the National Key Research and Development Program of China (2018YFB0703600). This work is also supported by the National Postdoctoral Program for Innovative Talents (BX20200028). L.-D.Z. is thankful for the high-performance computing resources at Beihang University.","language":[{"iso":"eng"}],"doi":"10.1126/science.abn8997","project":[{"grant_number":"M02889","_id":"9B8804FC-BA93-11EA-9121-9846C619BF3A","name":"Bottom-up Engineering for Thermoelectric Applications"}],"quality_controlled":"1","isi":1,"external_id":{"pmid":["35324303"],"isi":["000778894800038"]},"publication_identifier":{"eissn":["1095-9203"]},"month":"03","oa_version":"None","intvolume":" 375","status":"public","title":"High thermoelectric performance realized through manipulating layered phonon-electron decoupling","_id":"11144","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","issue":"6587","abstract":[{"text":"Thermoelectric materials allow for direct conversion between heat and electricity, offering the potential for power generation. The average dimensionless figure of merit ZTave determines device efficiency. N-type tin selenide crystals exhibit outstanding three-dimensional charge and two-dimensional phonon transport along the out-of-plane direction, contributing to a high maximum figure of merit Zmax of ~3.6 × 10−3 per kelvin but a moderate ZTave of ~1.1. We found an attractive high Zmax of ~4.1 × 10−3 per kelvin at 748 kelvin and a ZTave of ~1.7 at 300 to 773 kelvin in chlorine-doped and lead-alloyed tin selenide crystals by phonon-electron decoupling. The chlorine-induced low deformation potential improved the carrier mobility. The lead-induced mass and strain fluctuations reduced the lattice thermal conductivity. Phonon-electron decoupling plays a critical role to achieve high-performance thermoelectrics.","lang":"eng"}],"type":"journal_article","date_published":"2022-03-25T00:00:00Z","page":"1385-1389","article_type":"original","citation":{"short":"L. Su, D. Wang, S. Wang, B. Qin, Y. Wang, Y. Qin, Y. Jin, C. Chang, L.D. Zhao, Science 375 (2022) 1385–1389.","mla":"Su, Lizhong, et al. “High Thermoelectric Performance Realized through Manipulating Layered Phonon-Electron Decoupling.” Science, vol. 375, no. 6587, American Association for the Advancement of Science, 2022, pp. 1385–89, doi:10.1126/science.abn8997.","chicago":"Su, Lizhong, Dongyang Wang, Sining Wang, Bingchao Qin, Yuping Wang, Yongxin Qin, Yang Jin, Cheng Chang, and Li Dong Zhao. “High Thermoelectric Performance Realized through Manipulating Layered Phonon-Electron Decoupling.” Science. American Association for the Advancement of Science, 2022. https://doi.org/10.1126/science.abn8997.","ama":"Su L, Wang D, Wang S, et al. High thermoelectric performance realized through manipulating layered phonon-electron decoupling. Science. 2022;375(6587):1385-1389. doi:10.1126/science.abn8997","ieee":"L. Su et al., “High thermoelectric performance realized through manipulating layered phonon-electron decoupling,” Science, vol. 375, no. 6587. American Association for the Advancement of Science, pp. 1385–1389, 2022.","apa":"Su, L., Wang, D., Wang, S., Qin, B., Wang, Y., Qin, Y., … Zhao, L. D. (2022). High thermoelectric performance realized through manipulating layered phonon-electron decoupling. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.abn8997","ista":"Su L, Wang D, Wang S, Qin B, Wang Y, Qin Y, Jin Y, Chang C, Zhao LD. 2022. High thermoelectric performance realized through manipulating layered phonon-electron decoupling. Science. 375(6587), 1385–1389."},"publication":"Science","article_processing_charge":"No","day":"25","scopus_import":"1"},{"month":"01","publication_identifier":{"issn":["0036-8075"],"eissn":["1095-9203"]},"doi":"10.1126/science.abj7662","language":[{"iso":"eng"}],"external_id":{"pmid":["35050655"]},"quality_controlled":"1","extern":"1","article_number":"abj7662","author":[{"first_name":"Danny D.","last_name":"Sahtoe","full_name":"Sahtoe, Danny D."},{"full_name":"Praetorius, Florian M","id":"dfec9381-4341-11ee-8fd8-faa02bba7d62","last_name":"Praetorius","first_name":"Florian M"},{"full_name":"Courbet, Alexis","first_name":"Alexis","last_name":"Courbet"},{"full_name":"Hsia, Yang","last_name":"Hsia","first_name":"Yang"},{"last_name":"Wicky","first_name":"Basile I. M.","full_name":"Wicky, Basile I. M."},{"full_name":"Edman, Natasha I.","first_name":"Natasha I.","last_name":"Edman"},{"first_name":"Lauren M.","last_name":"Miller","full_name":"Miller, Lauren M."},{"full_name":"Timmermans, Bart J. R.","last_name":"Timmermans","first_name":"Bart J. R."},{"full_name":"Decarreau, Justin","last_name":"Decarreau","first_name":"Justin"},{"first_name":"Hana M.","last_name":"Morris","full_name":"Morris, Hana M."},{"full_name":"Kang, Alex","last_name":"Kang","first_name":"Alex"},{"last_name":"Bera","first_name":"Asim K.","full_name":"Bera, Asim K."},{"last_name":"Baker","first_name":"David","full_name":"Baker, David"}],"date_created":"2023-09-06T12:05:42Z","date_updated":"2023-11-07T12:39:56Z","volume":375,"year":"2022","pmid":1,"publication_status":"published","publisher":"American Association for the Advancement of Science","day":"21","article_processing_charge":"No","scopus_import":"1","date_published":"2022-01-21T00:00:00Z","publication":"Science","citation":{"short":"D.D. Sahtoe, F.M. Praetorius, A. Courbet, Y. Hsia, B.I.M. Wicky, N.I. Edman, L.M. Miller, B.J.R. Timmermans, J. Decarreau, H.M. Morris, A. Kang, A.K. Bera, D. Baker, Science 375 (2022).","mla":"Sahtoe, Danny D., et al. “Reconfigurable Asymmetric Protein Assemblies through Implicit Negative Design.” Science, vol. 375, no. 6578, abj7662, American Association for the Advancement of Science, 2022, doi:10.1126/science.abj7662.","chicago":"Sahtoe, Danny D., Florian M Praetorius, Alexis Courbet, Yang Hsia, Basile I. M. Wicky, Natasha I. Edman, Lauren M. Miller, et al. “Reconfigurable Asymmetric Protein Assemblies through Implicit Negative Design.” Science. American Association for the Advancement of Science, 2022. https://doi.org/10.1126/science.abj7662.","ama":"Sahtoe DD, Praetorius FM, Courbet A, et al. Reconfigurable asymmetric protein assemblies through implicit negative design. Science. 2022;375(6578). doi:10.1126/science.abj7662","apa":"Sahtoe, D. D., Praetorius, F. M., Courbet, A., Hsia, Y., Wicky, B. I. M., Edman, N. I., … Baker, D. (2022). Reconfigurable asymmetric protein assemblies through implicit negative design. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.abj7662","ieee":"D. D. Sahtoe et al., “Reconfigurable asymmetric protein assemblies through implicit negative design,” Science, vol. 375, no. 6578. American Association for the Advancement of Science, 2022.","ista":"Sahtoe DD, Praetorius FM, Courbet A, Hsia Y, Wicky BIM, Edman NI, Miller LM, Timmermans BJR, Decarreau J, Morris HM, Kang A, Bera AK, Baker D. 2022. Reconfigurable asymmetric protein assemblies through implicit negative design. Science. 375(6578), abj7662."},"article_type":"original","abstract":[{"text":"Asymmetric multiprotein complexes that undergo subunit exchange play central roles in biology but present a challenge for design because the components must not only contain interfaces that enable reversible association but also be stable and well behaved in isolation. We use implicit negative design to generate β sheet–mediated heterodimers that can be assembled into a wide variety of complexes. The designs are stable, folded, and soluble in isolation and rapidly assemble upon mixing, and crystal structures are close to the computational models. We construct linearly arranged hetero-oligomers with up to six different components, branched hetero-oligomers, closed C4-symmetric two-component rings, and hetero-oligomers assembled on a cyclic homo-oligomeric central hub and demonstrate that such complexes can readily reconfigure through subunit exchange. Our approach provides a general route to designing asymmetric reconfigurable protein systems.","lang":"eng"}],"issue":"6578","type":"journal_article","oa_version":"None","_id":"14282","user_id":"2DF688A6-F248-11E8-B48F-1D18A9856A87","status":"public","title":"Reconfigurable asymmetric protein assemblies through implicit negative design","intvolume":" 375"},{"issue":"6620","abstract":[{"lang":"eng","text":"Magnetars are neutron stars with ultrastrong magnetic fields, which can be observed in x-rays. Polarization measurements could provide information on their magnetic fields and surface properties. We observed polarized x-rays from the magnetar 4U 0142+61 using the Imaging X-ray Polarimetry Explorer and found a linear polarization degree of 13.5 ± 0.8% averaged over the 2– to 8–kilo–electron volt band. The polarization changes with energy: The degree is 15.0 ± 1.0% at 2 to 4 kilo–electron volts, drops below the instrumental sensitivity ~4 to 5 kilo–electron volts, and rises to 35.2 ± 7.1% at 5.5 to 8 kilo–electron volts. The polarization angle also changes by 90° at ~4 to 5 kilo–electron volts. These results are consistent with a model in which thermal radiation from the magnetar surface is reprocessed by scattering off charged particles in the magnetosphere."}],"type":"journal_article","oa_version":"Preprint","intvolume":" 378","title":"Polarized x-rays from a magnetar","status":"public","user_id":"8b945eb4-e2f2-11eb-945a-df72226e66a9","_id":"15205","article_processing_charge":"No","day":"03","keyword":["Multidisciplinary"],"scopus_import":"1","date_published":"2022-11-03T00:00:00Z","page":"646-650","article_type":"original","citation":{"apa":"Taverna, R., Turolla, R., Muleri, F., Heyl, J., Zane, S., Baldini, L., … Xie, F. (2022). Polarized x-rays from a magnetar. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.add0080","ieee":"R. Taverna et al., “Polarized x-rays from a magnetar,” Science, vol. 378, no. 6620. American Association for the Advancement of Science, pp. 646–650, 2022.","ista":"Taverna R, Turolla R, Muleri F, Heyl J, Zane S, Baldini L, González-Caniulef D, Bachetti M, Rankin J, Caiazzo I, Di Lalla N, Doroshenko V, Errando M, Gau E, Kırmızıbayrak D, Krawczynski H, Negro M, Ng M, Omodei N, Possenti A, Tamagawa T, Uchiyama K, Weisskopf MC, Agudo I, Antonelli LA, Baumgartner WH, Bellazzini R, Bianchi S, Bongiorno SD, Bonino R, Brez A, Bucciantini N, Capitanio F, Castellano S, Cavazzuti E, Ciprini S, Costa E, De Rosa A, Del Monte E, Di Gesu L, Di Marco A, Donnarumma I, Dovčiak M, Ehlert SR, Enoto T, Evangelista Y, Fabiani S, Ferrazzoli R, Garcia JA, Gunji S, Hayashida K, Iwakiri W, Jorstad SG, Karas V, Kitaguchi T, Kolodziejczak JJ, La Monaca F, Latronico L, Liodakis I, Maldera S, Manfreda A, Marin F, Marinucci A, Marscher AP, Marshall HL, Matt G, Mitsuishi I, Mizuno T, Ng SC-Y, O’Dell SL, Oppedisano C, Papitto A, Pavlov GG, Peirson AL, Perri M, Pesce-Rollins M, Pilia M, Poutanen J, Puccetti S, Ramsey BD, Ratheesh A, Romani RW, Sgrò C, Slane P, Soffitta P, Spandre G, Tavecchio F, Tawara Y, Tennant AF, Thomas NE, Tombesi F, Trois A, Tsygankov SS, Vink J, Wu K, Xie F. 2022. Polarized x-rays from a magnetar. Science. 378(6620), 646–650.","ama":"Taverna R, Turolla R, Muleri F, et al. Polarized x-rays from a magnetar. Science. 2022;378(6620):646-650. doi:10.1126/science.add0080","chicago":"Taverna, Roberto, Roberto Turolla, Fabio Muleri, Jeremy Heyl, Silvia Zane, Luca Baldini, Denis González-Caniulef, et al. “Polarized X-Rays from a Magnetar.” Science. American Association for the Advancement of Science, 2022. https://doi.org/10.1126/science.add0080.","short":"R. Taverna, R. Turolla, F. Muleri, J. Heyl, S. Zane, L. Baldini, D. González-Caniulef, M. Bachetti, J. Rankin, I. Caiazzo, N. Di Lalla, V. Doroshenko, M. Errando, E. Gau, D. Kırmızıbayrak, H. Krawczynski, M. Negro, M. Ng, N. Omodei, A. Possenti, T. Tamagawa, K. Uchiyama, M.C. Weisskopf, I. Agudo, L.A. Antonelli, W.H. Baumgartner, R. Bellazzini, S. Bianchi, S.D. Bongiorno, R. Bonino, A. Brez, N. Bucciantini, F. Capitanio, S. Castellano, E. Cavazzuti, S. Ciprini, E. Costa, A. De Rosa, E. Del Monte, L. Di Gesu, A. Di Marco, I. Donnarumma, M. Dovčiak, S.R. Ehlert, T. Enoto, Y. Evangelista, S. Fabiani, R. Ferrazzoli, J.A. Garcia, S. Gunji, K. Hayashida, W. Iwakiri, S.G. Jorstad, V. Karas, T. Kitaguchi, J.J. Kolodziejczak, F. La Monaca, L. Latronico, I. Liodakis, S. Maldera, A. Manfreda, F. Marin, A. Marinucci, A.P. Marscher, H.L. Marshall, G. Matt, I. Mitsuishi, T. Mizuno, S.C.-Y. Ng, S.L. O’Dell, C. Oppedisano, A. Papitto, G.G. Pavlov, A.L. Peirson, M. Perri, M. Pesce-Rollins, M. Pilia, J. Poutanen, S. Puccetti, B.D. Ramsey, A. Ratheesh, R.W. Romani, C. Sgrò, P. Slane, P. Soffitta, G. Spandre, F. Tavecchio, Y. Tawara, A.F. Tennant, N.E. Thomas, F. Tombesi, A. Trois, S.S. Tsygankov, J. Vink, K. Wu, F. Xie, Science 378 (2022) 646–650.","mla":"Taverna, Roberto, et al. “Polarized X-Rays from a Magnetar.” Science, vol. 378, no. 6620, American Association for the Advancement of Science, 2022, pp. 646–50, doi:10.1126/science.add0080."},"publication":"Science","extern":"1","volume":378,"date_updated":"2024-03-29T12:33:21Z","date_created":"2024-03-26T09:51:30Z","author":[{"full_name":"Taverna, Roberto","last_name":"Taverna","first_name":"Roberto"},{"last_name":"Turolla","first_name":"Roberto","full_name":"Turolla, Roberto"},{"full_name":"Muleri, Fabio","last_name":"Muleri","first_name":"Fabio"},{"full_name":"Heyl, Jeremy","last_name":"Heyl","first_name":"Jeremy"},{"last_name":"Zane","first_name":"Silvia","full_name":"Zane, Silvia"},{"full_name":"Baldini, Luca","first_name":"Luca","last_name":"Baldini"},{"last_name":"González-Caniulef","first_name":"Denis","full_name":"González-Caniulef, Denis"},{"first_name":"Matteo","last_name":"Bachetti","full_name":"Bachetti, 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L.","last_name":"Tschirhart","first_name":"C. L."},{"full_name":"Serlin, M.","last_name":"Serlin","first_name":"M."},{"full_name":"Polshyn, Hryhoriy","id":"edfc7cb1-526e-11ec-b05a-e6ecc27e4e48","orcid":"0000-0001-8223-8896","first_name":"Hryhoriy","last_name":"Polshyn"},{"full_name":"Shragai, A.","last_name":"Shragai","first_name":"A."},{"full_name":"Xia, Z.","first_name":"Z.","last_name":"Xia"},{"full_name":"Zhu, J.","last_name":"Zhu","first_name":"J."},{"full_name":"Zhang, Y.","first_name":"Y.","last_name":"Zhang"},{"full_name":"Watanabe, K.","first_name":"K.","last_name":"Watanabe"},{"full_name":"Taniguchi, T.","first_name":"T.","last_name":"Taniguchi"},{"last_name":"Huber","first_name":"M. E.","full_name":"Huber, M. E."},{"full_name":"Young, A. F.","last_name":"Young","first_name":"A. F."}],"publisher":"American Association for the Advancement of Science","publication_status":"published","pmid":1,"acknowledgement":"We thank A. H. Macdonald, J. Zhu, M. Zaletel, and D. Xiao for discussions of the results and E. Lachman for comments on the manuscript. Funding: The work was primarily funded by the US Department of Energy under DE-SC0020043, with additional support for instrumentation development supported by the Army Research Office under grant W911NF-16-1-0361. K.W. and T.T. acknowledge support from the Elemental Strategy Initiative conducted by MEXT, Japan, grant JPMXP0112101001; JSPS KAKENHI grant JP20H00354 and CREST grant JPMJCR15F3, JST. C.L.T. acknowledges support from the Hertz Foundation and from the National Science Foundation Graduate Research Fellowship Program under grant 1650114. This project is funded in part by the Gordon and Betty Moore Foundation’s EPiQS Initiative, grant GBMF9471 to A.F.Y.","year":"2021","extern":"1","language":[{"iso":"eng"}],"doi":"10.1126/science.abd3190","quality_controlled":"1","main_file_link":[{"open_access":"1","url":"https://arxiv.org/abs/2006.08053"}],"external_id":{"pmid":["34045322"],"arxiv":["2006.08053"]},"oa":1,"publication_identifier":{"eissn":["1095-9203"],"issn":["0036-8075"]},"month":"05","oa_version":"Preprint","intvolume":" 372","status":"public","title":"Imaging orbital ferromagnetism in a moiré Chern insulator","user_id":"8b945eb4-e2f2-11eb-945a-df72226e66a9","_id":"10616","issue":"6548","abstract":[{"text":"Electrons in moiré flat band systems can spontaneously break time-reversal symmetry, giving rise to a quantized anomalous Hall effect. In this study, we use a superconducting quantum interference device to image stray magnetic fields in twisted bilayer graphene aligned to hexagonal boron nitride. We find a magnetization of several Bohr magnetons per charge carrier, demonstrating that the magnetism is primarily orbital in nature. Our measurements reveal a large change in the magnetization as the chemical potential is swept across the quantum anomalous Hall gap, consistent with the expected contribution of chiral edge states to the magnetization of an orbital Chern insulator. Mapping the spatial evolution of field-driven magnetic reversal, we find a series of reproducible micrometer-scale domains pinned to structural disorder.","lang":"eng"}],"type":"journal_article","date_published":"2021-05-27T00:00:00Z","page":"1323-1327","article_type":"original","citation":{"chicago":"Tschirhart, C. L., M. Serlin, Hryhoriy Polshyn, A. Shragai, Z. Xia, J. Zhu, Y. Zhang, et al. “Imaging Orbital Ferromagnetism in a Moiré Chern Insulator.” Science. American Association for the Advancement of Science, 2021. https://doi.org/10.1126/science.abd3190.","short":"C.L. Tschirhart, M. Serlin, H. Polshyn, A. Shragai, Z. Xia, J. Zhu, Y. Zhang, K. Watanabe, T. Taniguchi, M.E. Huber, A.F. Young, Science 372 (2021) 1323–1327.","mla":"Tschirhart, C. L., et al. “Imaging Orbital Ferromagnetism in a Moiré Chern Insulator.” Science, vol. 372, no. 6548, American Association for the Advancement of Science, 2021, pp. 1323–27, doi:10.1126/science.abd3190.","apa":"Tschirhart, C. L., Serlin, M., Polshyn, H., Shragai, A., Xia, Z., Zhu, J., … Young, A. F. (2021). Imaging orbital ferromagnetism in a moiré Chern insulator. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.abd3190","ieee":"C. L. Tschirhart et al., “Imaging orbital ferromagnetism in a moiré Chern insulator,” Science, vol. 372, no. 6548. American Association for the Advancement of Science, pp. 1323–1327, 2021.","ista":"Tschirhart CL, Serlin M, Polshyn H, Shragai A, Xia Z, Zhu J, Zhang Y, Watanabe K, Taniguchi T, Huber ME, Young AF. 2021. Imaging orbital ferromagnetism in a moiré Chern insulator. Science. 372(6548), 1323–1327.","ama":"Tschirhart CL, Serlin M, Polshyn H, et al. Imaging orbital ferromagnetism in a moiré Chern insulator. 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We investigate nonequilibrium dynamics after rapid quenches in a many-body system composed of 3 to 200 strongly interacting qubits in one and two spatial dimensions. Using a programmable quantum simulator based on Rydberg atom arrays, we show that coherent revivals associated with so-called quantum many-body scars can be stabilized by periodic driving, which generates a robust subharmonic response akin to discrete time-crystalline order. We map Hilbert space dynamics, geometry dependence, phase diagrams, and system-size dependence of this emergent phenomenon, demonstrating new ways to steer complex dynamics in many-body systems and enabling potential applications in quantum information science.","lang":"eng"}],"issue":"6536","publication":"Science","citation":{"short":"D. Bluvstein, A. Omran, H. Levine, A. Keesling, G. Semeghini, S. Ebadi, T.T. Wang, A. Michailidis, N. Maskara, W.W. Ho, S. Choi, M. Serbyn, M. Greiner, V. Vuletić, M.D. Lukin, Science 371 (2021) 1355–1359.","mla":"Bluvstein, D., et al. “Controlling Quantum Many-Body Dynamics in Driven Rydberg Atom Arrays.” Science, vol. 371, no. 6536, AAAS, 2021, pp. 1355–59, doi:10.1126/science.abg2530.","chicago":"Bluvstein, D., A. Omran, H. Levine, A. Keesling, G. Semeghini, S. Ebadi, T. T. Wang, et al. “Controlling Quantum Many-Body Dynamics in Driven Rydberg Atom Arrays.” Science. AAAS, 2021. https://doi.org/10.1126/science.abg2530.","ama":"Bluvstein D, Omran A, Levine H, et al. Controlling quantum many-body dynamics in driven Rydberg atom arrays. Science. 2021;371(6536):1355-1359. doi:10.1126/science.abg2530","ieee":"D. Bluvstein et al., “Controlling quantum many-body dynamics in driven Rydberg atom arrays,” Science, vol. 371, no. 6536. AAAS, pp. 1355–1359, 2021.","apa":"Bluvstein, D., Omran, A., Levine, H., Keesling, A., Semeghini, G., Ebadi, S., … Lukin, M. D. (2021). Controlling quantum many-body dynamics in driven Rydberg atom arrays. Science. AAAS. https://doi.org/10.1126/science.abg2530","ista":"Bluvstein D, Omran A, Levine H, Keesling A, Semeghini G, Ebadi S, Wang TT, Michailidis A, Maskara N, Ho WW, Choi S, Serbyn M, Greiner M, Vuletić V, Lukin MD. 2021. Controlling quantum many-body dynamics in driven Rydberg atom arrays. Science. 371(6536), 1355–1359."},"article_type":"original","page":"1355-1359","date_published":"2021-03-26T00:00:00Z","scopus_import":"1","keyword":["Multidisciplinary"],"day":"26","has_accepted_license":"1","article_processing_charge":"No","year":"2021","acknowledgement":"We thank many members of the Harvard AMO community, particularly E. Urbach, S. Dakoulas, and J. Doyle for their efforts enabling safe and productive operation of our laboratories during 2020. We thank D. Abanin, I. Cong, F. Machado, H. Pichler, N. Yao, B. Ye, and H. Zhou for stimulating discussions. Funding: We acknowledge financial support from the Center for Ultracold Atoms, the National Science Foundation, the Vannevar Bush Faculty Fellowship, the U.S. Department of Energy (LBNL QSA Center and grant no. DE-SC0021013), the Office of Naval Research, the Army Research Office MURI, the DARPA DRINQS program (grant no. D18AC00033), and the DARPA ONISQ program (grant no. W911NF2010021). The authors acknowledge support from the NSF Graduate Research Fellowship Program (grant DGE1745303) and The Fannie and John Hertz Foundation (D.B.); a National Defense Science and Engineering Graduate (NDSEG) fellowship (H.L.); a fellowship from the Max Planck/Harvard Research Center for Quantum Optics (G.S.); Gordon College (T.T.W.); the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program (grant agreement no. 850899) (A.A.M. and M.S.); a Department of Energy Computational Science Graduate Fellowship under award number DE-SC0021110 (N.M.); the Moore Foundation’s EPiQS Initiative grant no. GBMF4306, the NUS Development grant AY2019/2020, and the Stanford Institute of Theoretical Physics (W.W.H.); and the Miller Institute for Basic Research in Science (S.C.). Author contributions: D.B., A.O., H.L., A.K., G.S., S.E., and T.T.W. contributed to the building of the experimental setup, performed the measurements, and analyzed the data. A.A.M., N.M., W.W.H., S.C., and M.S. performed theoretical analysis. All work was supervised by M.G., V.V., and M.D.L. All authors discussed the results and contributed to the manuscript. Competing interests: M.G., V.V., and M.D.L. are co-founders and shareholders of QuEra Computing. A.O. is a shareholder of QuEra Computing. Data and materials availability: All data needed to evaluate the conclusions in the paper are present in the paper and the supplementary materials.","pmid":1,"publication_status":"published","department":[{"_id":"MaSe"}],"publisher":"AAAS","author":[{"full_name":"Bluvstein, D.","first_name":"D.","last_name":"Bluvstein"},{"last_name":"Omran","first_name":"A.","full_name":"Omran, A."},{"full_name":"Levine, H.","first_name":"H.","last_name":"Levine"},{"first_name":"A.","last_name":"Keesling","full_name":"Keesling, A."},{"full_name":"Semeghini, G.","last_name":"Semeghini","first_name":"G."},{"full_name":"Ebadi, S.","last_name":"Ebadi","first_name":"S."},{"full_name":"Wang, T. T.","last_name":"Wang","first_name":"T. T."},{"full_name":"Michailidis, Alexios","last_name":"Michailidis","first_name":"Alexios","orcid":"0000-0002-8443-1064","id":"36EBAD38-F248-11E8-B48F-1D18A9856A87"},{"first_name":"N.","last_name":"Maskara","full_name":"Maskara, N."},{"full_name":"Ho, W. W.","first_name":"W. 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Science. 2021;371(6530):678-679. doi:10.1126/science.abg0886"},"publication":"Science","issue":"6530","abstract":[{"lang":"eng","text":"Thermoelectric materials are engines that convert heat into an electrical current. Intuitively, the efficiency of this process depends on how many electrons (charge carriers) can move and how easily they do so, how much energy those moving electrons transport, and how easily the temperature gradient is maintained. In terms of material properties, an excellent thermoelectric material requires a high electrical conductivity σ, a high Seebeck coefficient S (a measure of the induced thermoelectric voltage as a function of temperature gradient), and a low thermal conductivity κ. The challenge is that these three properties are strongly interrelated in a conflicting manner (1). On page 722 of this issue, Roychowdhury et al. (2) have found a way to partially break these ties in silver antimony telluride (AgSbTe2) with the addition of cadmium (Cd) cations, which increase the ordering in this inherently disordered thermoelectric material."}],"type":"journal_article","oa_version":"None","intvolume":" 371","status":"public","title":"Tidying up the mess","user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","_id":"10809","publication_identifier":{"issn":["0036-8075"],"eissn":["1095-9203"]},"month":"02","language":[{"iso":"eng"}],"doi":"10.1126/science.abg0886","isi":1,"quality_controlled":"1","external_id":{"pmid":["33574201"],"isi":["000617551600027"]},"volume":371,"date_created":"2022-03-03T09:51:48Z","date_updated":"2023-08-17T07:00:35Z","author":[{"full_name":"Liu, Yu","last_name":"Liu","first_name":"Yu","orcid":"0000-0001-7313-6740","id":"2A70014E-F248-11E8-B48F-1D18A9856A87"},{"id":"43C61214-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0001-5013-2843","first_name":"Maria","last_name":"Ibáñez","full_name":"Ibáñez, Maria"}],"publisher":"American Association for the Advancement of Science","department":[{"_id":"MaIb"}],"publication_status":"published","pmid":1,"year":"2021"},{"extern":"1","date_created":"2021-11-26T08:21:34Z","date_updated":"2021-11-26T08:58:33Z","volume":369,"author":[{"last_name":"Tarrason Risa","first_name":"Gabriel","full_name":"Tarrason Risa, Gabriel"},{"first_name":"Fredrik","last_name":"Hurtig","full_name":"Hurtig, Fredrik"},{"full_name":"Bray, Sian","last_name":"Bray","first_name":"Sian"},{"last_name":"Hafner","first_name":"Anne E.","full_name":"Hafner, Anne E."},{"first_name":"Lena","last_name":"Harker-Kirschneck","full_name":"Harker-Kirschneck, Lena"},{"last_name":"Faull","first_name":"Peter","full_name":"Faull, Peter"},{"first_name":"Colin","last_name":"Davis","full_name":"Davis, Colin"},{"full_name":"Papatziamou, Dimitra","first_name":"Dimitra","last_name":"Papatziamou"},{"full_name":"Mutavchiev, Delyan R.","first_name":"Delyan R.","last_name":"Mutavchiev"},{"last_name":"Fan","first_name":"Catherine","full_name":"Fan, Catherine"},{"full_name":"Meneguello, Leticia","first_name":"Leticia","last_name":"Meneguello"},{"last_name":"Arashiro Pulschen","first_name":"Andre","full_name":"Arashiro Pulschen, Andre"},{"last_name":"Dey","first_name":"Gautam","full_name":"Dey, Gautam"},{"full_name":"Culley, Siân","first_name":"Siân","last_name":"Culley"},{"first_name":"Mairi","last_name":"Kilkenny","full_name":"Kilkenny, Mairi"},{"first_name":"Diorge P.","last_name":"Souza","full_name":"Souza, Diorge P."},{"last_name":"Pellegrini","first_name":"Luca","full_name":"Pellegrini, Luca"},{"full_name":"de Bruin, Robertus A. M.","first_name":"Robertus A. M.","last_name":"de Bruin"},{"last_name":"Henriques","first_name":"Ricardo","full_name":"Henriques, Ricardo"},{"last_name":"Snijders","first_name":"Ambrosius P.","full_name":"Snijders, Ambrosius P."},{"full_name":"Šarić, Anđela","id":"bf63d406-f056-11eb-b41d-f263a6566d8b","orcid":"0000-0002-7854-2139","first_name":"Anđela","last_name":"Šarić"},{"full_name":"Lindås, Ann-Christin","first_name":"Ann-Christin","last_name":"Lindås"},{"full_name":"Robinson, Nicholas P.","first_name":"Nicholas P.","last_name":"Robinson"},{"full_name":"Baum, Buzz","last_name":"Baum","first_name":"Buzz"}],"publication_status":"published","publisher":"American Association for the Advancement of Science","acknowledgement":"We thank the MRC LMCB at UCL for their support; the flow cytometry STP at the Francis Crick Institute for assistance, with special thanks to S. Purewal and D. Davis; C. Bertoli for mentorship\r\nand advice; J. M. Garcia-Arcos for help early on in this project; the entire Baum lab for their input throughout the project; the Albers lab for advice and reagents, with special thanks to M. Van Wolferen and S. Albers; the members of the Wellcome consortium for archaeal cytoskeleton studies for advice and comments; and J. Löwe, S. Oliferenko, M. Balasubramanian, and D. Gerlich for discussions and advice on the manuscript. N.P.R. and S.B. would like to thank N. Rzechorzek, A. Simon, and S. Anjum for discussion and advice.","year":"2020","pmid":1,"month":"08","publication_identifier":{"issn":["0036-8075"],"eissn":["1095-9203"]},"language":[{"iso":"eng"}],"doi":"10.1126/science.aaz2532","quality_controlled":"1","oa":1,"main_file_link":[{"url":"https://www.biorxiv.org/content/10.1101/774273v1","open_access":"1"}],"external_id":{"pmid":["32764038"]},"abstract":[{"lang":"eng","text":"Sulfolobus acidocaldarius is the closest experimentally tractable archaeal relative of eukaryotes and, despite lacking obvious cyclin-dependent kinase and cyclin homologs, has an ordered eukaryote-like cell cycle with distinct phases of DNA replication and division. Here, in exploring the mechanism of cell division in S. acidocaldarius, we identify a role for the archaeal proteasome in regulating the transition from the end of one cell cycle to the beginning of the next. Further, we identify the archaeal ESCRT-III homolog, CdvB, as a key target of the proteasome and show that its degradation triggers division by allowing constriction of the CdvB1:CdvB2 ESCRT-III division ring. These findings offer a minimal mechanism for ESCRT-III–mediated membrane remodeling and point to a conserved role for the proteasome in eukaryotic and archaeal cell cycle control."}],"issue":"6504","type":"journal_article","oa_version":"Preprint","status":"public","title":"The proteasome controls ESCRT-III–mediated cell division in an archaeon","intvolume":" 369","_id":"10349","user_id":"8b945eb4-e2f2-11eb-945a-df72226e66a9","day":"07","article_processing_charge":"No","keyword":["multidisciplinary"],"scopus_import":"1","date_published":"2020-08-07T00:00:00Z","article_type":"original","publication":"Science","citation":{"ista":"Tarrason Risa G, Hurtig F, Bray S, Hafner AE, Harker-Kirschneck L, Faull P, Davis C, Papatziamou D, Mutavchiev DR, Fan C, Meneguello L, Arashiro Pulschen A, Dey G, Culley S, Kilkenny M, Souza DP, Pellegrini L, de Bruin RAM, Henriques R, Snijders AP, Šarić A, Lindås A-C, Robinson NP, Baum B. 2020. The proteasome controls ESCRT-III–mediated cell division in an archaeon. Science. 369(6504).","ieee":"G. Tarrason Risa et al., “The proteasome controls ESCRT-III–mediated cell division in an archaeon,” Science, vol. 369, no. 6504. American Association for the Advancement of Science, 2020.","apa":"Tarrason Risa, G., Hurtig, F., Bray, S., Hafner, A. E., Harker-Kirschneck, L., Faull, P., … Baum, B. (2020). The proteasome controls ESCRT-III–mediated cell division in an archaeon. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.aaz2532","ama":"Tarrason Risa G, Hurtig F, Bray S, et al. The proteasome controls ESCRT-III–mediated cell division in an archaeon. Science. 2020;369(6504). doi:10.1126/science.aaz2532","chicago":"Tarrason Risa, Gabriel, Fredrik Hurtig, Sian Bray, Anne E. Hafner, Lena Harker-Kirschneck, Peter Faull, Colin Davis, et al. “The Proteasome Controls ESCRT-III–Mediated Cell Division in an Archaeon.” Science. American Association for the Advancement of Science, 2020. https://doi.org/10.1126/science.aaz2532.","mla":"Tarrason Risa, Gabriel, et al. “The Proteasome Controls ESCRT-III–Mediated Cell Division in an Archaeon.” Science, vol. 369, no. 6504, American Association for the Advancement of Science, 2020, doi:10.1126/science.aaz2532.","short":"G. Tarrason Risa, F. Hurtig, S. Bray, A.E. Hafner, L. Harker-Kirschneck, P. Faull, C. Davis, D. Papatziamou, D.R. Mutavchiev, C. Fan, L. Meneguello, A. Arashiro Pulschen, G. Dey, S. Culley, M. Kilkenny, D.P. Souza, L. Pellegrini, R.A.M. de Bruin, R. Henriques, A.P. Snijders, A. Šarić, A.-C. Lindås, N.P. Robinson, B. Baum, Science 369 (2020)."}},{"month":"10","publication_identifier":{"eissn":["1095-9203"],"issn":["0036-8075"]},"isi":1,"quality_controlled":"1","project":[{"grant_number":"742573","_id":"260F1432-B435-11E9-9278-68D0E5697425","name":"Interaction and feedback between cell mechanics and fate specification in vertebrate gastrulation","call_identifier":"H2020"}],"main_file_link":[{"open_access":"1","url":"https://www.biorxiv.org/content/10.1101/803635v1"}],"external_id":{"isi":["000579169000053"]},"oa":1,"language":[{"iso":"eng"}],"doi":"10.1126/science.aba6637","ec_funded":1,"publication_status":"published","publisher":"American Association for the Advancement of Science","department":[{"_id":"CaHe"}],"acknowledgement":"We thank the members of the Megason and Heisenberg labs for critical discussions of and technical assistance during the work and B. Appel, S. Holley, J. Jontes, and D. Gilmour for transgenic fish. This work is supported by the Damon Runyon Cancer Foundation, a NICHD K99 fellowship (1K99HD092623), a Travelling Fellowship of the Company of Biologists, a Collaborative Research grant from the Burroughs Wellcome Foundation (T.Y.-C.T.), NIH grant 01GM107733 (T.Y.-C.T. and S.G.M.), NIH grant R01NS102322 (T.C.-C. and H.K.), and an ERC advanced grant\r\n(MECSPEC) (C.-P.H.).","year":"2020","date_created":"2020-10-19T14:09:38Z","date_updated":"2023-08-22T10:36:35Z","volume":370,"author":[{"full_name":"Tsai, Tony Y.-C.","first_name":"Tony Y.-C.","last_name":"Tsai"},{"first_name":"Mateusz K","last_name":"Sikora","id":"2F74BCDE-F248-11E8-B48F-1D18A9856A87","full_name":"Sikora, Mateusz K"},{"orcid":"0000-0002-5419-7756","id":"4AB6C7D0-F248-11E8-B48F-1D18A9856A87","last_name":"Xia","first_name":"Peng","full_name":"Xia, Peng"},{"full_name":"Colak-Champollion, Tugba","last_name":"Colak-Champollion","first_name":"Tugba"},{"last_name":"Knaut","first_name":"Holger","full_name":"Knaut, Holger"},{"id":"39427864-F248-11E8-B48F-1D18A9856A87","orcid":"0000-0002-0912-4566","first_name":"Carl-Philipp J","last_name":"Heisenberg","full_name":"Heisenberg, Carl-Philipp J"},{"full_name":"Megason, Sean G.","first_name":"Sean G.","last_name":"Megason"}],"related_material":{"link":[{"relation":"press_release","description":"News on IST Homepage","url":"https://ist.ac.at/en/news/sticking-together/"}]},"keyword":["Multidisciplinary"],"scopus_import":"1","day":"02","article_processing_charge":"No","article_type":"original","page":"113-116","publication":"Science","citation":{"chicago":"Tsai, Tony Y.-C., Mateusz K Sikora, Peng Xia, Tugba Colak-Champollion, Holger Knaut, Carl-Philipp J Heisenberg, and Sean G. Megason. “An Adhesion Code Ensures Robust Pattern Formation during Tissue Morphogenesis.” Science. American Association for the Advancement of Science, 2020. https://doi.org/10.1126/science.aba6637.","short":"T.Y.-C. Tsai, M.K. Sikora, P. Xia, T. Colak-Champollion, H. Knaut, C.-P.J. Heisenberg, S.G. Megason, Science 370 (2020) 113–116.","mla":"Tsai, Tony Y. C., et al. “An Adhesion Code Ensures Robust Pattern Formation during Tissue Morphogenesis.” Science, vol. 370, no. 6512, American Association for the Advancement of Science, 2020, pp. 113–16, doi:10.1126/science.aba6637.","ieee":"T. Y.-C. Tsai et al., “An adhesion code ensures robust pattern formation during tissue morphogenesis,” Science, vol. 370, no. 6512. American Association for the Advancement of Science, pp. 113–116, 2020.","apa":"Tsai, T. Y.-C., Sikora, M. K., Xia, P., Colak-Champollion, T., Knaut, H., Heisenberg, C.-P. J., & Megason, S. G. (2020). An adhesion code ensures robust pattern formation during tissue morphogenesis. Science. American Association for the Advancement of Science. https://doi.org/10.1126/science.aba6637","ista":"Tsai TY-C, Sikora MK, Xia P, Colak-Champollion T, Knaut H, Heisenberg C-PJ, Megason SG. 2020. An adhesion code ensures robust pattern formation during tissue morphogenesis. Science. 370(6512), 113–116.","ama":"Tsai TY-C, Sikora MK, Xia P, et al. An adhesion code ensures robust pattern formation during tissue morphogenesis. Science. 2020;370(6512):113-116. doi:10.1126/science.aba6637"},"date_published":"2020-10-02T00:00:00Z","type":"journal_article","abstract":[{"lang":"eng","text":"Animal development entails the organization of specific cell types in space and time, and spatial patterns must form in a robust manner. In the zebrafish spinal cord, neural progenitors form stereotypic patterns despite noisy morphogen signaling and large-scale cellular rearrangements during morphogenesis and growth. By directly measuring adhesion forces and preferences for three types of endogenous neural progenitors, we provide evidence for the differential adhesion model in which differences in intercellular adhesion mediate cell sorting. Cell type–specific combinatorial expression of different classes of cadherins (N-cadherin, cadherin 11, and protocadherin 19) results in homotypic preference ex vivo and patterning robustness in vivo. Furthermore, the differential adhesion code is regulated by the sonic hedgehog morphogen gradient. We propose that robust patterning during tissue morphogenesis results from interplay between adhesion-based self-organization and morphogen-directed patterning."}],"issue":"6512","title":"An adhesion code ensures robust pattern formation during tissue morphogenesis","status":"public","intvolume":" 370","_id":"8680","user_id":"4359f0d1-fa6c-11eb-b949-802e58b17ae8","oa_version":"Preprint"}]