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194 Publications

2021 | Journal Article | IST-REx-ID: 8582 | OA
H. Li et al., “Cellular requirements for PIN polar cargo clustering in Arabidopsis thaliana,” New Phytologist, vol. 229, no. 1. Wiley, pp. 351–369, 2021.
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2021 | Journal Article | IST-REx-ID: 8608 | OA
M. Ke et al., “Salicylic acid regulates PIN2 auxin transporter hyper-clustering and root gravitropic growth via Remorin-dependent lipid nanodomain organization in Arabidopsis thaliana,” New Phytologist, vol. 229, no. 2. Wiley, pp. 963–978, 2021.
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2021 | Journal Article | IST-REx-ID: 8824 | OA
M. Marquès-Bueno et al., “Auxin-regulated reversible inhibition of TMK1 signaling by MAKR2 modulates the dynamics of root gravitropism,” Current Biology, vol. 31, no. 1. Elsevier, 2021.
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2021 | Journal Article | IST-REx-ID: 8931 | OA
Z. Gelová et al., “Developmental roles of auxin binding protein 1 in Arabidopsis thaliana,” Plant Science, vol. 303. Elsevier, 2021.
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2021 | Journal Article | IST-REx-ID: 8992 | OA
S. Tan, C. Luschnig, and J. Friml, “Pho-view of auxin: Reversible protein phosphorylation in auxin biosynthesis, transport and signaling,” Molecular Plant, vol. 14, no. 1. Elsevier, pp. 151–165, 2021.
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2021 | Journal Article | IST-REx-ID: 8993
L. Abas et al., “Naphthylphthalamic acid associates with and inhibits PIN auxin transporters,” PNAS, vol. 118, no. 1. National Academy of Sciences, 2021.
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2021 | Journal Article | IST-REx-ID: 9010 | OA
K. Ötvös et al., “Modulation of plant root growth by nitrogen source-defined regulation of polar auxin transport,” EMBO Journal, vol. 40, no. 3. Embo Press, 2021.
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2021 | Journal Article | IST-REx-ID: 9189
Zhao Y, Wu L, Fu Q, Wang D, Li J, Yao B, Yu S, Jiang L, Qian J, Zhou X, Han L, Zhao S, Ma C, Zhang Y, Luo C, Dong Q, Li S, Zhang L, Jiang X, Li Y, Luo H, Li K, Yang J, Luo Q, Li L, Peng S, Huang H, Zuo Z, Liu C, Wang L, Li C, He X, Friml J, Du Y. 2021. INDITTO2 transposon conveys auxin-mediated DRO1 transcription for rice drought avoidance. Plant, Cell & Environment.
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2021 | Journal Article | IST-REx-ID: 9254 | OA
Y. Hu et al., “Cell kinetics of auxin transport and activity in Arabidopsis root growth and skewing,” Nature Communications, vol. 12. Springer Nature, 2021.
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2021 | Journal Article | IST-REx-ID: 9298 | OA
Klionsky DJ et al. Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition). Autophagy. 17(1).
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2021 | Journal Article | IST-REx-ID: 9290 | OA
M. Glanc et al., “AGC kinases and MAB4/MEL proteins maintain PIN polarity by limiting lateral diffusion in plant cells,” Current Biology. Elsevier, 2021.
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2021 | Journal Article | IST-REx-ID: 9287 | OA
M. Narasimhan et al., “Systematic analysis of specific and nonspecific auxin effects on endocytosis and trafficking,” Plant Physiology. Oxford University Press.
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2021 | Journal Article | IST-REx-ID: 9288
I. El Houari et al., “Seedling developmental defects upon blocking CINNAMATE-4-HYDROXYLASE are caused by perturbations in auxin transport,” New Phytologist. Wiley.
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2021 | Journal Article | IST-REx-ID: 8606 | OA
P. He et al., “GhARF16-1 modulates leaf development by transcriptionally regulating the GhKNOX2-1 gene in cotton,” Plant Biotechnology Journal, vol. 19, no. 3. Wiley, pp. 548–562, 2021.
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2021 | Journal Article | IST-REx-ID: 9368 | OA
W. Kong et al., “mRNA surveillance complex PELOTA-HBS1 eegulates phosphoinositide-sependent protein kinase1 and plant growth,” Plant Physiology. American Society of Plant Biologists, 2021.
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2020 | Journal Article | IST-REx-ID: 8002 | OA
L. Hörmayer, J. C. Montesinos López, P. Marhavá, E. Benková, S. Yoshida, and J. Friml, “Wounding-induced changes in cellular pressure and localized auxin signalling spatially coordinate restorative divisions in roots,” Proceedings of the National Academy of Sciences, vol. 117, no. 26. Proceedings of the National Academy of Sciences, 2020.
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2020 | Journal Article | IST-REx-ID: 8138 | OA
J. Zhang et al., “Strigolactones inhibit auxin feedback on PIN-dependent auxin transport canalization,” Nature Communications, vol. 11, no. 1. Springer Nature, p. 3508, 2020.
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2020 | Journal Article | IST-REx-ID: 8139
A. J. Johnson et al., “Experimental toolbox for quantitative evaluation of clathrin-mediated endocytosis in the plant model Arabidopsis,” Journal of Cell Science, vol. 133, no. 15. The Company of Biologists, 2020.
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2020 | Journal Article | IST-REx-ID: 8271
P. He, Y. Zhang, and G. Xiao, “Origin of a subgenome and genome evolution of allotetraploid cotton species,” Molecular Plant, vol. 13, no. 9. Elsevier, pp. 1238–1240, 2020.
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2020 | Journal Article | IST-REx-ID: 8283 | OA
H. Chen et al., “AcoMYB4, an Ananas comosus L. MYB transcription factor, functions in osmotic stress through negative regulation of ABA signaling,” International Journal of Molecular Sciences, vol. 21, no. 16. MDPI, 2020.
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2020 | Journal Article | IST-REx-ID: 8337 | OA
I. Antoniadi et al., “Cell-surface receptors enable perception of extracellular cytokinins,” Nature Communications, vol. 11. Springer Nature, 2020.
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2020 | Thesis | IST-REx-ID: 8589
H. Han, “Novel insights into PIN polarity regulation during Arabidopsis development,” IST Austria, 2020.
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2020 | Journal Article | IST-REx-ID: 8607 | OA
D. Liu et al., “Endocytosis of BRASSINOSTEROID INSENSITIVE1 is partly driven by a canonical tyrosine-based Motif,” Plant Cell, vol. 32, no. 11. American Society of Plant Biologists, pp. 3598–3612, 2020.
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2020 | Journal Article | IST-REx-ID: 8721
J. Hajny et al., “Receptor kinase module targets PIN-dependent auxin transport during canalization,” Science, vol. 370, no. 6516. American Association for the Advancement of Science, pp. 550–557, 2020.
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2020 | Thesis | IST-REx-ID: 8822
J. Hajny, “Identification and characterization of the molecular machinery of auxin-dependent canalization during vasculature formation and regeneration,” IST Austria, 2020.
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2020 | Journal Article | IST-REx-ID: 7204 | OA
Y. Li et al., “Root growth adaptation is mediated by PYLs ABA receptor-PP2A protein phosphatase complex,” Advanced Science, vol. 7, no. 3. Wiley, 2020.
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2020 | Journal Article | IST-REx-ID: 7219
G. Xiao and Y. Zhang, “Adaptive growth: Shaping auxin-mediated root system architecture,” Trends in Plant Science, vol. 25, no. 2. Elsevier, pp. 121–123, 2020.
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2020 | Journal Article | IST-REx-ID: 7416 | OA
S. A. Sinclair and U. Krämer, “Generation of effective zinc-deficient agar-solidified media allows identification of root morphology changes in response to zinc limitation,” Plant Signaling & Behavior, vol. 15, no. 1. Informa UK Limited, 2020.
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2020 | Journal Article | IST-REx-ID: 7417 | OA
S. A. Sinclair, S. Gille, M. Pauly, and U. Krämer, “Regulation of acetylation of plant cell wall components is complex and responds to external stimuli,” Plant Signaling & Behavior, vol. 15, no. 1. Informa UK Limited, 2020.
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2020 | Journal Article | IST-REx-ID: 7427 | OA
S. Tan et al., “Salicylic acid targets protein phosphatase 2A to attenuate growth in plants,” Current Biology, vol. 30, no. 3. Cell Press, p. 381–395.e8, 2020.
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2020 | Journal Article | IST-REx-ID: 7465 | OA
E. Mazur, M. C. Gallei, M. Adamowski, H. Han, H. S. Robert, and J. Friml, “Clathrin-mediated trafficking and PIN trafficking are required for auxin canalization and vascular tissue formation in Arabidopsis,” Plant Science, vol. 293, no. 4. Elsevier, 2020.
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2020 | Journal Article | IST-REx-ID: 7490 | OA
M. Narasimhan et al., “Evolutionarily unique mechanistic framework of clathrin-mediated endocytosis in plants,” eLife, vol. 9. eLife Sciences Publications, 2020.
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2020 | Journal Article | IST-REx-ID: 7497
Han L, Zhou X, Zhao Y, Zhu S, Wu L, He Y, Ping X, Lu X, Huang W, Qian J, Zhang L, Jiang X, Zhu D, Luo C, Li S, Dong Q, Fu Q, Deng K, Wang X, Wang L, Peng S, Wu J, Li W, Friml J, Zhu Y, He X, Du Y. 2020. Colonization of endophyte Acremonium sp. D212 in Panax notoginseng and rice mediated by auxin and jasmonic acid. Journal of Integrative Plant Biology. 62(9), 1433–1451.
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2020 | Journal Article | IST-REx-ID: 7500 | OA
E. Mazur, I. Kulik, J. Hajny, and J. Friml, “Auxin canalization and vascular tissue formation by TIR1/AFB-mediated auxin signaling in arabidopsis,” New Phytologist, vol. 226, no. 5. Wiley, pp. 1375–1383, 2020.
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2020 | Journal Article | IST-REx-ID: 7540
I. Verstraeten, H. Buyle, S. Werbrouck, M. C. Van Labeke, and D. Geelen, “In vitro shoot growth and adventitious rooting of Wikstroemia gemmata depends on light quality,” Israel Journal of Plant Sciences, vol. 67, no. 1–2. Brill, pp. 16–26, 2020.
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2020 | Journal Article | IST-REx-ID: 7582 | OA
T. R. Moturu et al., “Molecular evolution and diversification of proteins involved in miRNA maturation pathway,” Plants, vol. 9, no. 3. MDPI, 2020.
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2020 | Journal Article | IST-REx-ID: 7600 | OA
S. Tan et al., “The lipid code-dependent phosphoswitch PDK1–D6PK activates PIN-mediated auxin efflux in Arabidopsis,” Nature Plants, vol. 6. Springer Nature, pp. 556–569, 2020.
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2020 | Preprint | IST-REx-ID: 7601 | OA
Z. Wei et al., “Plasmodesmata-like intercellular connections by plant remorin in animal cells,” bioRxiv. Cold Spring Harbor Laboratory, 2020.
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2020 | Journal Article | IST-REx-ID: 7619 | OA
X. Zhang et al., “Arabidopsis flippases cooperate with ARF GTPase exchange factors to regulate the trafficking and polarity of PIN auxin transporters,” The Plant Cell, vol. 32, no. 5. American Society of Plant Biologists, pp. 1644–1664, 2020.
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2020 | Journal Article | IST-REx-ID: 7643 | OA
H. Han, H. Rakusova, I. Verstraeten, Y. Zhang, and J. Friml, “SCF TIR1/AFB auxin signaling for bending termination during shoot gravitropism,” Plant Physiology, vol. 183, no. 5. American Society of Plant Biologists, pp. 37–40, 2020.
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2020 | Journal Article | IST-REx-ID: 7646 | OA
E. Lee et al., “Rare earth elements induce cytoskeleton-dependent and PI4P-associated rearrangement of SYT1/SYT5 ER-PM contact site complexes in Arabidopsis,” Journal of Experimental Botany, vol. 71, no. 14. Oxford University Press, pp. 3986–3998, 2020.
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2020 | Journal Article | IST-REx-ID: 7686
H. Xue, Y. Zhang, and G. Xiao, “Neo-gibberellin signaling: Guiding the next generation of the green revolution,” Trends in Plant Science, vol. 25, no. 6. Elsevier, pp. 520–522, 2020.
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2020 | Journal Article | IST-REx-ID: 7695 | OA
J. Wang et al., “High temporal resolution reveals simultaneous plasma membrane recruitment of TPLATE complex subunits,” Plant Physiology, vol. 183, no. 3. American Society of Plant Biologists, pp. 986–997, 2020.
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2020 | Journal Article | IST-REx-ID: 7697 | OA
Y. Zhang, C. Hartinger, X. Wang, and J. Friml, “Directional auxin fluxes in plants by intramolecular domain‐domain co‐evolution of PIN auxin transporters,” New Phytologist, vol. 227, no. 5. Wiley, pp. 1406–1416, 2020.
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2020 | Journal Article | IST-REx-ID: 7793 | OA
A. Kuhn et al., “Direct ETTIN-auxin interaction controls chromatin states in gynoecium development,” eLife, vol. 9. eLife Sciences Publications, 2020.
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2020 | Journal Article | IST-REx-ID: 6997 | OA
Y. Zhang and J. Friml, “Auxin guides roots to avoid obstacles during gravitropic growth,” New Phytologist, vol. 225, no. 3. Wiley, pp. 1049–1052, 2020.
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2020 | Journal Article | IST-REx-ID: 7142 | OA
M. C. Gallei, C. Luschnig, and J. Friml, “Auxin signalling in growth: Schrödinger’s cat out of the bag,” Current Opinion in Plant Biology, vol. 53, no. 2. Elsevier, pp. 43–49, 2020.
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2020 | Journal Article | IST-REx-ID: 8943 | OA
S. Tan et al., “Non-steroidal anti-inflammatory drugs target TWISTED DWARF1-regulated actin dynamics and auxin transport-mediated plant development,” Cell Reports, vol. 33, no. 9. Elsevier, 2020.
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2020 | Journal Article | IST-REx-ID: 8986 | OA
Y. Zhang, L. Rodriguez Solovey, L. Li, X. Zhang, and J. Friml, “Functional innovations of PIN auxin transporters mark crucial evolutionary transitions during rise of flowering plants,” Science Advances, vol. 6, no. 50. AAAS, 2020.
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2020 | Journal Article | IST-REx-ID: 7949 | OA
Smith S, Zhu S, Joos L, Roberts I, Nikonorova N, Vu L, Stes E, Cho H, Larrieu A, Xuan W, Goodall B, van de Cotte B, Waite J, Rigal A, R Harborough S, Persiau G, Vanneste S, Kirschner G, Vandermarliere E, Martens L, Stahl Y, Audenaert D, Friml J, Felix G, Simon R, Bennett M, Bishopp A, De Jaeger G, Ljung K, Kepinski S, Robert S, Nemhauser J, Hwang I, Gevaert K, Beeckman T, De Smet I. 2020. The CEP5 peptide promotes abiotic stress tolerance, as revealed by quantitative proteomics, and attenuates the AUX/IAA equilibrium in Arabidopsis. Molecular & Cellular Proteomics. 19(8), 1248–1262.
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