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194 Publications

2013 | Journal Article | IST-REx-ID: 2448 | OA
E. Remy, P. Baster, J. Friml, and P. Duque, “ZIFL1.1 transporter modulates polar auxin transport by stabilizing membrane abundance of multiple PINs in Arabidopsis root tip,” Plant Signaling & Behavior, vol. 8, no. 10. Landes Bioscience, 2013.
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2013 | Journal Article | IST-REx-ID: 2449
T. Nodzyński et al., “Retromer subunits VPS35A and VPS29 mediate prevacuolar compartment (PVC) function in Arabidopsis,” Molecular Plant, vol. 6, no. 6. Cell Press, pp. 1849–1862, 2013.
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2013 | Journal Article | IST-REx-ID: 2470 | OA
M. Čovanová, M. Sauer, J. Rychtář, J. Friml, J. Petrášek, and E. Zažímalová, “Overexpression of the auxin binding PROTEIN1 modulates PIN-dependent auxin transport in tobacco cells,” PLoS One, vol. 8, no. 7. Public Library of Science, 2013.
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2013 | Journal Article | IST-REx-ID: 2472 | OA
C. Cazzonelli et al., “Role of the Arabidopsis PIN6 auxin transporter in auxin homeostasis and auxin-mediated development,” PLoS One, vol. 8, no. 7. Public Library of Science, 2013.
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2013 | Journal Article | IST-REx-ID: 2808 | OA
K. Landberg et al., “The moss physcomitrella patens reproductive organ development is highly organized, affected by the two SHI/STY genes and by the level of active auxin in the SHI/STY expression domain,” Plant Physiology, vol. 162, no. 3. American Society of Plant Biologists, pp. 1406–1419, 2013.
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2013 | Journal Article | IST-REx-ID: 2821 | OA
E. Remy et al., “A major facilitator superfamily transporter plays a dual role in polar auxin transport and drought stress tolerance in Arabidopsis,” Plant Cell, vol. 25, no. 3. American Society of Plant Biologists, pp. 901–926, 2013.
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2013 | Journal Article | IST-REx-ID: 2827 | OA
Y. Du et al., “Salicylic acid interferes with clathrin-mediated endocytic protein trafficking,” PNAS, vol. 110, no. 19. National Academy of Sciences, pp. 7946–7951, 2013.
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2013 | Journal Article | IST-REx-ID: 2832 | OA
H. Tanaka et al., “Cell polarity and patterning by PIN trafficking through early endosomal compartments in arabidopsis thaliana,” PLoS Genetics, vol. 9, no. 5. Public Library of Science, 2013.
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2013 | Journal Article | IST-REx-ID: 2835 | OA
H. Yu et al., “Root ultraviolet b-sensitive1/weak auxin response3 is essential for polar auxin transport in arabidopsis,” Plant Physiology, vol. 162, no. 2. American Society of Plant Biologists, pp. 965–976, 2013.
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2013 | Journal Article | IST-REx-ID: 2844
M. Rosquete et al., “An auxin transport mechanism restricts positive orthogravitropism in lateral roots,” Current Biology, vol. 23, no. 9. Cell Press, pp. 817–822, 2013.
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2013 | Journal Article | IST-REx-ID: 2882 | OA
C. Löfke, M. Zwiewka, I. Heilmann, M. Van Montagu, T. Teichmann, and J. Friml, “Asymmetric gibberellin signaling regulates vacuolar trafficking of PIN auxin transporters during root gravitropism,” PNAS, vol. 110, no. 9. National Academy of Sciences, pp. 3627–3632, 2013.
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2013 | Journal Article | IST-REx-ID: 2883 | OA
B. Wang et al., “Arabidopsis TWISTED DWARF1 functionally interacts with auxin exporter ABCB1 on the root plasma membrane,” Plant Cell, vol. 25, no. 1. American Society of Plant Biologists, pp. 202–214, 2013.
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2013 | Journal Article | IST-REx-ID: 2919 | OA
P. Baster et al., “SCF^TIR1 AFB-auxin signalling regulates PIN vacuolar trafficking and auxin fluxes during root gravitropism,” EMBO Journal, vol. 32, no. 2. Wiley-Blackwell, pp. 260–274, 2013.
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2013 | Journal Article | IST-REx-ID: 507 | OA
S. Kim et al., “Adaptor protein complex 2-mediated endocytosis is crucial for male reproductive organ development in arabidopsis,” Plant Cell, vol. 25, no. 8. American Society of Plant Biologists, pp. 2970–2985, 2013.
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2013 | Journal Article | IST-REx-ID: 509 | OA
S. Di Rubbo et al., “The clathrin adaptor complex AP-2 mediates endocytosis of brassinosteroid INSENSITIVE1 in arabidopsis,” Plant Cell, vol. 25, no. 8. American Society of Plant Biologists, pp. 2986–2997, 2013.
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2013 | Journal Article | IST-REx-ID: 511 | OA
A. Pěnčík et al., “Regulation of auxin homeostasis and gradients in Arabidopsis roots through the formation of the indole-3-acetic acid catabolite 2-oxindole-3-acetic acid,” Plant Cell, vol. 25, no. 10. American Society of Plant Biologists, pp. 3858–3870, 2013.
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2013 | Journal Article | IST-REx-ID: 516 | OA
B. Bargmann et al., “A map of cell type‐specific auxin responses,” Molecular Systems Biology, vol. 9, no. 1. Nature Publishing Group, 2013.
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2013 | Journal Article | IST-REx-ID: 527
K. T. Wabnik, H. Robert, R. Smith, and J. Friml, “Modeling framework for the establishment of the apical-basal embryonic axis in plants,” Current Biology, vol. 23, no. 24. Cell Press, pp. 2513–2518, 2013.
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2013 | Journal Article | IST-REx-ID: 528
H. Robert et al., “Local auxin sources orient the apical basal axis in arabidopsis embryos,” Current Biology, vol. 23, no. 24. Cell Press, pp. 2506–2512, 2013.
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