IBR5磷酸酶通过一种不同于TIR1介导的阻遏物降解的新机制促进拟南芥生长素反应。

The IBR5 phosphatase promotes Arabidopsis auxin responses through a novel mechanism distinct from TIR1-mediated repressor degradation.

作者信息

Strader Lucia C, Monroe-Augustus Melanie, Bartel Bonnie

机构信息

Department of Biochemistry and Cell Biology, Rice University, Houston, Texas 77005, USA.

出版信息

BMC Plant Biol. 2008 Apr 18;8:41. doi: 10.1186/1471-2229-8-41.

DOI:10.1186/1471-2229-8-41

PMID:18423007

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2374786/

Abstract

BACKGROUND

In Arabidopsis, INDOLE-3-BUTYRIC ACID RESPONSE5 (IBR5), a putative dual-specificity protein phosphatase, is a positive regulator of auxin response. Mutations in IBR5 result in decreased plant height, defective vascular development, increased leaf serration, fewer lateral roots, and resistance to the phytohormones auxin and abscisic acid. However, the pathways through which IBR5 influences auxin responses are not fully understood.

RESULTS

We analyzed double mutants of ibr5 with other mutants that dampen auxin responses and found that combining ibr5 with an auxin receptor mutant, tir1, enhanced auxin resistance relative to either parent. Like other auxin-response mutants, auxin-responsive reporter accumulation was reduced in ibr5. Unlike other auxin-resistant mutants, the Aux/IAA repressor reporter protein AXR3NT-GUS was not stabilized in ibr5. Similarly, the Aux/IAA repressor IAA28 was less abundant in ibr5 than in wild type. ibr5 defects were not fully rescued by overexpression of a mutant form of IBR5 lacking the catalytic cysteine residue.

CONCLUSION

Our genetic and molecular evidence suggests that IBR5 is a phosphatase that promotes auxin responses, including auxin-inducible transcription, differently than the TIR1 auxin receptor and without destabilizing Aux/IAA repressor proteins. Our data are consistent with the possibility that auxin-responsive transcription can be modulated downstream of TIR1-mediated repressor degradation.

摘要

背景

在拟南芥中，吲哚 - 3 - 丁酸反应蛋白5（IBR5）是一种假定的双特异性蛋白磷酸酶，是生长素反应的正向调节因子。IBR5中的突变会导致植株高度降低、维管发育缺陷、叶片锯齿增加、侧根减少以及对植物激素生长素和脱落酸产生抗性。然而，IBR5影响生长素反应的途径尚未完全了解。

结果

我们分析了ibr5与其他减弱生长素反应的突变体的双突变体，发现将ibr5与生长素受体突变体tir1结合，相对于任一亲本，增强了对生长素的抗性。与其他生长素反应突变体一样，ibr5中生长素反应报告基因的积累减少。与其他抗生长素突变体不同，Aux/IAA阻遏蛋白报告基因蛋白AXR3NT - GUS在ibr5中不稳定。同样，Aux/IAA阻遏蛋白IAA28在ibr5中的丰度低于野生型。缺乏催化性半胱氨酸残基的IBR5突变形式的过表达并不能完全挽救ibr5的缺陷。

结论

我们的遗传和分子证据表明IBR5是一种磷酸酶，它促进生长素反应包括生长素诱导的转录，其方式不同于TIR1生长素受体，且不会使Aux/IAA阻遏蛋白不稳定。我们的数据与生长素反应性转录可在TIR1介导的阻遏蛋白降解下游受到调节这一可能性一致。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9db0/2374786/e2703086df12/1471-2229-8-41-1.jpg

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IBR5磷酸酶通过一种不同于TIR1介导的阻遏物降解的新机制促进拟南芥生长素反应。

The IBR5 phosphatase promotes Arabidopsis auxin responses through a novel mechanism distinct from TIR1-mediated repressor degradation.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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