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61 Publications

2020 | Journal Article | IST-REx-ID: 7805 | OA
Hurny A, Cuesta C, Cavallari N, Ötvös K, Duclercq J, Dokládal L, Montesinos López JC, Gallemi M, Semeradova H, Rauter T, Stenzel I, Persiau G, Benade F, Bhalearo R, Sýkorová E, Gorzsás A, Sechet J, Mouille G, Heilmann I, De Jaeger G, Ludwig-Müller J, Benková E. 2020. Synergistic on Auxin and Cytokinin 1 positively regulates growth and attenuates soil pathogen resistance. Nature Communications. 11, 2170.
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2020 | Journal Article | IST-REx-ID: 7948 | OA
Maghiaoui, A., Bouguyon, E., Cuesta, C., Perrine-Walker, F., Alcon, C., Krouk, G., … Bach, L. (2020). The Arabidopsis NRT1.1 transceptor coordinately controls auxin biosynthesis and transport to regulate root branching in response to nitrate. Journal of Experimental Botany. Oxford University Press. https://doi.org/10.1093/jxb/eraa242
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2020 | Journal Article | IST-REx-ID: 8924 | OA
Nibau, C., Dadarou, D., Kargios, N., Mallioura, A., Fernandez-Fuentes, N., Cavallari, N., & Doonan, J. H. (2020). A functional kinase is necessary for cyclin-dependent kinase G1 (CDKG1) to maintain fertility at high ambient temperature in Arabidopsis. Frontiers in Plant Science. Frontiers. https://doi.org/10.3389/fpls.2020.586870
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2020 | Journal Article | IST-REx-ID: 9160 | OA
Semeradova, H., Montesinos López, J. C., & Benková, E. (2020). All roads lead to auxin: Post-translational regulation of auxin transport by multiple hormonal pathways. Plant Communications. Elsevier. https://doi.org/10.1016/j.xplc.2020.100048
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2020 | Journal Article | IST-REx-ID: 7427 | OA
Tan, S., Abas, M. F., Verstraeten, I., Glanc, M., Molnar, G., Hajny, J., … Friml, J. (2020). Salicylic acid targets protein phosphatase 2A to attenuate growth in plants. Current Biology. Cell Press. https://doi.org/10.1016/j.cub.2019.11.058
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