Deciphering the dynamic expression network of fiber elongation and the functional role of the GhTUB5 gene for fiber length in cotton based on an introgression population of upland cotton.

Jianjiang Ma, Liupeng Yang, Yuanyue Dang, Kashif Shahzad, Jikun Song, Bing Jia, Li Wang, Juanjuan Feng, Nuohan Wang, Wenfeng Pei, Man Wu, Xuexian Zhang, Jinfa Zhang, Jianyong Wu, Jiwen Yu
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Abstract

Introduction: Interspecific introgression between Gossypium hirsutum and G. barbadense allows breeding cotton with outstanding fiber length (FL). However, the dynamic gene regulatory network of FL-related genes has not been characterized, and the functional mechanism through which the hub gene GhTUB5 mediates fiber elongation has yet to be determined.

Methods: Coexpression analyses of 277 developing fiber transcriptomes integrated with QTL mapping using 250 introgression lines of different FL phenotypes were conducted to identify genes related to fiber elongation. The function of GhTUB5 was determined by ectopic expression of two TUB5 alleles in Arabidopsis and knockout of GhTUB5 in upland cotton. Yeast two-hybrid, split-luciferase and pull-down assays were conducted to screen for interacting proteins, and upstream genes were identified by yeast one-hybrid, dual-LUC and electrophoretic mobility shift assays.

Results: The 32,612, 30,837 and 30,277 genes expressed at 5, 10 and 15 days postanthesis (dpa) were grouped into 19 distinct coexpression modules, and 988 genes in the MEblack module were enriched in the cell wall process and exhibited significant associations with FL. A total of 20 FL-QTLs were identified, each explaining 3.34-16.04 % of the phenotypic variance in the FL. Furthermore, several FL-QTLs contained 15 genes that were differentially expressed in the MEblack module including the tubulin beta gene (TUB5). Compared with the wild type, the overexpression of GhTUB5 and GbTUB5 in Arabidopsis suppressed root cell length but promoted cellulose synthesis. Knockout of GhTUB5 resulted in longer fiber lines. Protein-based experiments revealed that GhTUB5 interacts with GhZFP6. Additionally, GhTUB5 was directly activated by GhHD-ZIP7, a homeobox-leucine zipper transcription factor, and its paralogous gene was previously reported to mediate fiber elongation.

Conclusion: This study opens a new avenue to dissect functional mechanism of cotton fiber elongation. Our findings provide some molecular details on how GhTUB5 mediates the FL phenotype in cotton.

基于陆地棉引种群体,解密棉花纤维伸长的动态表达网络及 GhTUB5 基因对纤维长度的功能作用。
引言:Gossypium hirsutum 和 G. barbadense 之间的种间引种可培育出纤维长度(FL)优异的棉花。然而,纤维长度相关基因的动态基因调控网络尚未定性,枢纽基因 GhTUB5 介导纤维长度的功能机制也尚未确定:方法:对277个发育中的纤维转录组进行共表达分析,并利用250个不同FL表型的引种系进行QTL图谱绘制,以鉴定与纤维伸长相关的基因。通过在拟南芥中异位表达两个 TUB5 等位基因和在陆地棉中敲除 GhTUB5,确定了 GhTUB5 的功能。通过酵母双杂交、分离荧光素酶和下拉实验筛选相互作用蛋白,并通过酵母单杂交、双荧光素酶和电泳迁移实验确定上游基因:结果:在花后5天、10天和15天(dpa)表达的32 612、30 837和30 277个基因被分为19个不同的共表达模块,MEblack模块中的988个基因富集于细胞壁过程,并与FL表现出显著的关联。共鉴定出 20 个 FL-QTL,每个基因可解释 FL 表型变异的 3.34-16.04%。此外,几个 FL-QTLs 包含 15 个在 MEblack 模块中差异表达的基因,其中包括微管蛋白 beta 基因(TUB5)。与野生型相比,拟南芥中 GhTUB5 和 GbTUB5 的过表达抑制了根细胞的长度,但促进了纤维素的合成。敲除 GhTUB5 会导致纤维线变长。基于蛋白质的实验显示,GhTUB5 与 GhZFP6 相互作用。此外,GhTUB5直接被GhHD-ZIP7激活,GhHD-ZIP7是一种同源核-亮氨酸拉链转录因子,之前有报道称其同源基因介导纤维伸长:本研究为剖析棉纤维伸长的功能机制开辟了一条新途径。我们的研究结果提供了 GhTUB5 如何介导棉花 FL 表型的一些分子细节。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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