AFB1 生长素受体控制拟南芥中的细胞质生长素反应途径。

The AFB1 auxin receptor controls the cytoplasmic auxin response pathway in Arabidopsis thaliana.

机构信息

Department of Experimental Plant Biology, Faculty of Sciences, Charles University, Prague, Czech Republic.

Section of Cell and Developmental Biology, University of California San Diego, La Jolla, CA, USA.

出版信息

Mol Plant. 2023 Jul 3;16(7):1120-1130. doi: 10.1016/j.molp.2023.06.008. Epub 2023 Jun 29.

DOI:10.1016/j.molp.2023.06.008

PMID:37391902

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10720607/

Abstract

The phytohormone auxin triggers root growth inhibition within seconds via a non-transcriptional pathway. Among members of the TIR1/AFB auxin receptor family, AFB1 has a primary role in this rapid response. However, the unique features that confer this specific function have not been identified. Here we show that the N-terminal region of AFB1, including the F-box domain and residues that contribute to auxin binding, is essential and sufficient for its specific role in the rapid response. Substitution of the N-terminal region of AFB1 with that of TIR1 disrupts its distinct cytoplasm-enriched localization and activity in rapid root growth inhibition by auxin. Importantly, the N-terminal region of AFB1 is indispensable for auxin-triggered calcium influx, which is a prerequisite for rapid root growth inhibition. Furthermore, AFB1 negatively regulates lateral root formation and transcription of auxin-induced genes, suggesting that it plays an inhibitory role in canonical auxin signaling. These results suggest that AFB1 may buffer the transcriptional auxin response, whereas it regulates rapid changes in cell growth that contribute to root gravitropism.

摘要

植物激素生长素在几秒钟内通过非转录途径触发根生长抑制。在 TIR1/AFB 生长素受体家族成员中，AFB1 在这种快速反应中起主要作用。然而，赋予这种特定功能的独特特征尚未确定。在这里，我们表明 AFB1 的 N 端区域，包括 F-box 结构域和有助于生长素结合的残基，对于其在快速反应中特定作用是必需且充分的。用 TIR1 的 N 端区域替换 AFB1 的 N 端区域会破坏其在生长素快速抑制根生长过程中的独特细胞质富集定位和活性。重要的是，AFB1 的 N 端区域对于生长素触发的钙内流是必不可少的，而钙内流是快速抑制根生长的前提。此外，AFB1 负调控侧根形成和生长素诱导基因的转录，表明它在经典生长素信号传导中起抑制作用。这些结果表明，AFB1 可能缓冲转录的生长素反应，同时调节细胞生长的快速变化，有助于根向地性。

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