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304 Publications
2022 |
Published |
Journal Article |
IST-REx-ID: 10717 |
Wang, R., Himschoot, E., Grenzi, M., Chen, J., Safi, A., Krebs, M., … Vanneste, S. (2022). Auxin analog-induced Ca2+ signaling is independent of inhibition of endosomal aggregation in Arabidopsis roots. Journal of Experimental Botany. Oxford University Press. https://doi.org/10.1093/jxb/erac019
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2022 |
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Journal Article |
IST-REx-ID: 10719 |
Yu, Z., Zhang, F., Friml, J., & Ding, Z. (2022). Auxin signaling: Research advances over the past 30 years. Journal of Integrative Plant Biology. Wiley. https://doi.org/10.1111/jipb.13225
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2022 |
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Journal Article |
IST-REx-ID: 10768 |
Hajny, J., Tan, S., & Friml, J. (2022). Auxin canalization: From speculative models toward molecular players. Current Opinion in Plant Biology. Elsevier. https://doi.org/10.1016/j.pbi.2022.102174
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2022 |
Published |
Journal Article |
IST-REx-ID: 10841 |
Dahhan, D., Reynolds, G., Cárdenas, J., Eeckhout, D., Johnson, A. J., Yperman, K., … Bednarek, S. (2022). Proteomic characterization of isolated Arabidopsis clathrin-coated vesicles reveals evolutionarily conserved and plant-specific components. Plant Cell. Oxford University Press. https://doi.org/10.1093/plcell/koac071
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2022 |
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Journal Article |
IST-REx-ID: 10888 |
Lu, Q., Zhang, Y., Hellner, J., Giannini, C., Xu, X., Pauwels, J., … Russinova, E. (2022). Proteome-wide cellular thermal shift assay reveals unexpected cross-talk between brassinosteroid and auxin signaling. Proceedings of the National Academy of Sciences of the United States of America. National Academy of Sciences. https://doi.org/10.1073/pnas.2118220119
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2022 |
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Journal Article |
IST-REx-ID: 10016 |
Friml, J. (2022). Fourteen stations of auxin. Cold Spring Harbor Perspectives in Biology. Cold Spring Harbor Laboratory Press. https://doi.org/10.1101/cshperspect.a039859
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2022 |
Published |
Journal Article |
IST-REx-ID: 10282 |
Kashkan, I., Hrtyan, M., Retzer, K., Humpolíčková, J., Jayasree, A., Filepová, R., … Růžička, K. (2022). Mutually opposing activity of PIN7 splicing isoforms is required for auxin-mediated tropic responses in Arabidopsis thaliana. New Phytologist. Wiley. https://doi.org/10.1111/nph.17792
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2022 |
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Journal Article |
IST-REx-ID: 10411 |
Li, L., Gallei, M. C., & Friml, J. (2022). Bending to auxin: Fast acid growth for tropisms. Trends in Plant Science. Cell Press. https://doi.org/10.1016/j.tplants.2021.11.006
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2022 |
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Journal Article |
IST-REx-ID: 17068 |
Navarrete, F., Gallei, M. C., Kornienko, A. E., Saado, I., Khan, M., Chia, K.-S., … Djamei, A. (2022). TOPLESS promotes plant immunity by repressing auxin signaling and is targeted by the fungal effector Naked1. Plant Communications. Elsevier. https://doi.org/10.1016/j.xplc.2021.100269
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2022 |
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Journal Article |
IST-REx-ID: 17069 |
Zhong S, Li L, Wang Z, Ge Z, Li Q, Bleckmann A, Wang J, Song Z, Shi Y, Liu T, Li L, Zhou H, Wang Y, Zhang L, Wu H-M, Lai L, Gu H, Dong J, Cheung AY, Dresselhaus T, Qu L-J. 2022. RALF peptide signaling controls the polytubey block in Arabidopsis. Science. 375(6578), 290–296.
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2022 |
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Book Chapter |
IST-REx-ID: 17085 |
Floriach-Clark, J., Tang, H., & Willemsen, V. (2022). Mosses: Accessible Systems for Plant Development Studies. In I. Y. Abdurakhmonov (Ed.), Model Organisms in Plant Genetics. IntechOpen. https://doi.org/10.5772/intechopen.100535
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2021 |
Research Data Reference |
IST-REx-ID: 14988 |
Johnson, A. J. (2021). Raw data from Johnson et al, PNAS, 2021. Zenodo. https://doi.org/10.5281/ZENODO.5747100
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2021 |
Published |
Journal Article |
IST-REx-ID: 15266 |
Overdijk, E. J. R., Putker, V., Smits, J., Tang, H., Bouwmeester, K., Govers, F., & Ketelaar, T. (2021). Phytophthora infestans RXLR effector AVR1 disturbs the growth of Physcomitrium patens without affecting Sec5 localization. PLoS One. Public Library of Science. https://doi.org/10.1371/journal.pone.0249637
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2021 |
Published |
Journal Article |
IST-REx-ID: 15276 |
Navarrete, F., Grujic, N., Stirnberg, A., Saado, I., Aleksza, D., Gallei, M. C., … Djamei, A. (2021). The Pleiades are a cluster of fungal effectors that inhibit host defenses. PLOS Pathogens. Public Library of Science. https://doi.org/10.1371/journal.ppat.1009641
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2021 |
Published |
Journal Article |
IST-REx-ID: 10223 |
Li, L., Verstraeten, I., Roosjen, M., Takahashi, K., Rodriguez Solovey, L., Merrin, J., … Friml, J. (2021). Cell surface and intracellular auxin signalling for H+ fluxes in root growth. Nature. Springer Nature. https://doi.org/10.1038/s41586-021-04037-6
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2021 |
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Book Chapter |
IST-REx-ID: 10267
Zhang, Y., Li, L., & Friml, J. (2021). Evaluation of gravitropism in non-seed plants. In E. B. Blancaflor (Ed.), Plant Gravitropism (Vol. 2368, pp. 43–51). Springer Nature. https://doi.org/10.1007/978-1-0716-1677-2_2
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2021 |
Published |
Book Chapter |
IST-REx-ID: 10268
Hörmayer, L., Friml, J., & Glanc, M. (2021). Automated time-lapse imaging and manipulation of cell divisions in Arabidopsis roots by vertical-stage confocal microscopy. In Plant Cell Division (Vol. 2382, pp. 105–114). Humana Press. https://doi.org/10.1007/978-1-0716-1744-1_6
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2021 |
Published |
Journal Article |
IST-REx-ID: 10326 |
Xu, E., Chai, L., Zhang, S., Yu, R., Zhang, X., Xu, C., & Hu, Y. (2021). Catabolism of strigolactones by a carboxylesterase. Nature Plants. Springer Nature. https://doi.org/10.1038/s41477-021-01011-y
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2021 |
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Journal Article |
IST-REx-ID: 8582 |
Li, H., von Wangenheim, D., Zhang, X., Tan, S., Darwish-Miranda, N., Naramoto, S., … Friml, J. (2021). Cellular requirements for PIN polar cargo clustering in Arabidopsis thaliana. New Phytologist. Wiley. https://doi.org/10.1111/nph.16887
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2021 |
Published |
Journal Article |
IST-REx-ID: 8606 |
He, P., Zhang, Y., Li, H., Fu, X., Shang, H., Zou, C., … Xiao, G. (2021). GhARF16-1 modulates leaf development by transcriptionally regulating the GhKNOX2-1 gene in cotton. Plant Biotechnology Journal. Wiley. https://doi.org/10.1111/pbi.13484
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