Experts and Doctors on indoleacetic acids in Kyoto, Japan

Summary

Locale: Kyoto, Japan
Topic: indoleacetic acids

Top Publications

  1. Li R, Li J, Li S, Qin G, Novak O, Pencík A, et al. ADP1 affects plant architecture by regulating local auxin biosynthesis. PLoS Genet. 2014;10:e1003954 pubmed publisher
    ..Our results indicated that ADP1-mediated regulation of the local auxin level in meristematic regions is an essential determinant for plant architecture maintenance by restraining the outgrowth of lateral organs. ..
  2. Proust H, Honkanen S, Jones V, Morieri G, Prescott H, Kelly S, et al. RSL Class I Genes Controlled the Development of Epidermal Structures in the Common Ancestor of Land Plants. Curr Biol. 2016;26:93-9 pubmed publisher
    ..Class I RSL genes therefore controlled the generation of adaptive morphological diversity as plants colonized the land from the water. ..
  3. Terasaka K, Blakeslee J, Titapiwatanakun B, Peer W, Bandyopadhyay A, Makam S, et al. PGP4, an ATP binding cassette P-glycoprotein, catalyzes auxin transport in Arabidopsis thaliana roots. Plant Cell. 2005;17:2922-39 pubmed
    ..These results indicate that PGP4 functions primarily in the uptake of redirected or newly synthesized auxin in epidermal root cells...
  4. Hirano T, Matsuzawa T, Takegawa K, Sato M. Loss-of-function and gain-of-function mutations in FAB1A/B impair endomembrane homeostasis, conferring pleiotropic developmental abnormalities in Arabidopsis. Plant Physiol. 2011;155:797-807 pubmed publisher
  5. Tsujimoto M, Nagano Y, Hosoda S, Shiraishi A, Miyoshi A, Hiraoka S, et al. Effects of decreased vitamin D and accumulated uremic toxin on human CYP3A4 activity in patients with end-stage renal disease. Toxins (Basel). 2013;5:1475-85 pubmed publisher
    ..The present study suggests that the decrease of 1,25-dihydroxyvitamin D and the accumulation of uremic toxins contributed to the decreased hepatic clearance of CYP3A4 substrates in patients with end-stage renal disease. ..
  6. Okamoto K, Ueda H, Shimada T, Tamura K, Koumoto Y, Tasaka M, et al. An ABC transporter B family protein, ABCB19, is required for cytoplasmic streaming and gravitropism of the inflorescence stems. Plant Signal Behav. 2016;11:e1010947 pubmed publisher
    ..These results suggest that ABCB19-mediated auxin transport plays a role not only in tropism regulation, but also in cytoplasmic streaming. ..
  7. Nishimura T, Wada T, Yamamoto K, Okada K. The Arabidopsis STV1 protein, responsible for translation reinitiation, is required for auxin-mediated gynoecium patterning. Plant Cell. 2005;17:2940-53 pubmed
    ..Taken together, we propose that perturbation of translation reinitiation of the ARF transcripts causes the defects in gynoecium patterning observed in the stv1 mutant. ..
  8. Shirakawa M, Ueda H, Shimada T, Nishiyama C, Hara Nishimura I. Vacuolar SNAREs function in the formation of the leaf vascular network by regulating auxin distribution. Plant Cell Physiol. 2009;50:1319-28 pubmed publisher
    ..Our findings demonstrate that the PVC-vacuole pathway is required for the formation of auxin maxima, which regulates the polar localization of PIN1, which, in turn, is required for the formation of the leaf vascular network. ..
  9. Tsugeki R, Ditengou F, Sumi Y, Teale W, Palme K, Okada K. NO VEIN mediates auxin-dependent specification and patterning in the Arabidopsis embryo, shoot, and root. Plant Cell. 2009;21:3133-51 pubmed publisher
    ..We propose that NOV mediates the acquisition of competence to undergo auxin-dependent coordinated cell specification and patterning, thereby eliciting context-dependent auxin-mediated developmental responses...

More Information

Publications13

  1. Koyama T, Mitsuda N, Seki M, Shinozaki K, Ohme Takagi M. TCP transcription factors regulate the activities of ASYMMETRIC LEAVES1 and miR164, as well as the auxin response, during differentiation of leaves in Arabidopsis. Plant Cell. 2010;22:3574-88 pubmed publisher
  2. Hirano T, Sato M. Arabidopsis FAB1A/B is possibly involved in the recycling of auxin transporters. Plant Signal Behav. 2011;6:583-5 pubmed
  3. Ishizaki K, Nonomura M, Kato H, Yamato K, Kohchi T. Visualization of auxin-mediated transcriptional activation using a common auxin-responsive reporter system in the liverwort Marchantia polymorpha. J Plant Res. 2012;125:643-51 pubmed publisher
    ..polymorpha, and that the mechanism for auxin-mediated transcriptional activation had already been established when plants emerged on the terrestrial environment...
  4. Nishihama R, Kohchi T. Evolutionary insights into photoregulation of the cell cycle in the green lineage. Curr Opin Plant Biol. 2013;16:630-7 pubmed publisher
    ..Recent advances show that light-dependent cell-cycle control involves global changes in transcription of cell-cycle genes, and is mediated by auxin and cytokinin. ..