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Functional Antagonism Of Wri1 And Tcp20 Modulates Gh3.3 Expression To Maintain Auxin Homeostasis In Roots, Que Kong, Pui Man Low, Audrey R. Q. Lim, Yuzhou Yang, Ling Yuan, Wei Ma
Functional Antagonism Of Wri1 And Tcp20 Modulates Gh3.3 Expression To Maintain Auxin Homeostasis In Roots, Que Kong, Pui Man Low, Audrey R. Q. Lim, Yuzhou Yang, Ling Yuan, Wei Ma
Kentucky Tobacco Research and Development Center Faculty Publications
Auxin is a well-studied phytohormone, vital for diverse plant developmental processes. The GH3 genes are one of the major auxin responsive genes, whose expression changes lead to modulation of plant development and auxin homeostasis. However, the transcriptional regulation of these GH3 genes remains largely unknown. WRI1 is an essential transcriptional regulator governing plant fatty acid biosynthesis. Recently, we identified that the expression of GH3.3 is increased in the roots of wri1-1 mutant. Nevertheless, in this study we found that AtWRI1 did not activate or repress the promoter of GH3.3 (proGH3.3) despite of its binding to proGH3.3. Cross-family …