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生长素介导的 PaC3H17-PaMYB199 模块对杨树木质部形成的双重调控。

Dual regulation of xylem formation by an auxin-mediated PaC3H17-PaMYB199 module in Populus.

机构信息

Key Laboratory of Biofuels, Qingdao Institute of BioEnergy and Bioprocess Technology, Chinese Academy of Sciences, Qingdao, 266101, China.

College of Resources and Environment, Qingdao Agricultural University, Qingdao, 266109, China.

出版信息

New Phytol. 2020 Feb;225(4):1545-1561. doi: 10.1111/nph.16244. Epub 2019 Nov 23.

DOI:10.1111/nph.16244
PMID:31596964
Abstract

Wood (secondary xylem) formation in tree species is dependent on auxin-mediated vascular cambium activity in stems. However, the complex regulatory networks underlying xylem formation remain elusive. Xylem development in Populus was characterized based on microscopic observations of stem sections in transgenic plants. Transcriptomic, quantitative real-time PCR, chromatin immunoprecipitation PCR, and electrophoretic mobility shift assay analyses were conducted to identify target genes involved in xylem development. Yeast two-hybrid, pull-down, bimolecular fluorescence complementation, and co-immunoprecipitation assays were used to validate protein-protein interactions. PaC3H17 and its target PaMYB199 were found to be predominantly expressed in the vascular cambium and developing secondary xylem in Populus stems and play opposite roles in controlling cambial cell proliferation and secondary cell wall thickening through an overlapping pathway. Further, PaC3H17 interacts with PaMYB199 to form a complex, attenuating PaMYB199-driven suppression of its xylem targets. Exogenous auxin application enhances the dual control of the PaC3H17-PaMYB199 module during cambium division, thereby promoting secondary cell wall deposition. Dual regulation of xylem formation by an auxin-mediated PaC3H17-PaMYB199 module represents a novel regulatory mechanism in Populus, increasing our understanding of the regulatory networks involved in wood formation.

摘要

树木木质部(次生木质部)的形成依赖于茎中生长素介导的维管形成层活性。然而,木质部形成背后的复杂调控网络仍难以捉摸。本研究基于转基因植物茎段的组织学观察,对杨树木质部发育进行了研究。进行了转录组、定量实时 PCR、染色质免疫沉淀 PCR 和电泳迁移率变动分析,以鉴定参与木质部发育的靶基因。利用酵母双杂交、下拉、双分子荧光互补和共免疫沉淀实验,验证了蛋白质-蛋白质相互作用。发现 PaC3H17 及其靶基因 PaMYB199 在杨树茎的维管形成层和发育中的次生木质部中主要表达,通过重叠途径在控制形成层细胞增殖和次生细胞壁增厚方面发挥相反作用。此外,PaC3H17 与 PaMYB199 相互作用形成复合物,减弱 PaMYB199 对其木质部靶标的抑制作用。外源生长素的应用增强了 PaC3H17-PaMYB199 模块在形成层分裂过程中的双重控制,从而促进次生细胞壁的沉积。生长素介导的 PaC3H17-PaMYB199 模块对木质部形成的双重调控代表了杨树中一个新的调控机制,增加了我们对参与木材形成的调控网络的理解。

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