The R3-MYB Gene GhCPC Negatively Regulates Cotton Fiber Elongation

Cotton (Gossypium spp.) fibers are single-cell trichomes that arise from the outer epidermal layer of seed coat. Here, we isolated a R3-MYB gene GhCPC, identified by cDNA microarray analysis. The only conserved R3 motif and different expression between TM-1 and fuzzless-lintless mutants suggested that it might be a negative regulator in fiber development. Transgenic evidence showed that GhCPC overexpression not only delayed fiber initiation but also led to significant decreases in fiber length. Interestingly, Yeast two-hybrid analysis revealed an interaction complex, in which GhCPC and GhTTG1/4 separately interacted with GhMYC1. In transgenic plants, Q-PCR analysis showed that GhHOX3 (GL2) and GhRDL1 were significantly down regulated in −1–5 DPA ovules and fibers. In addition, Yeast one-hybrid analysis demonstrated that GhMYC1 could bind to the E-box cis-elements and the promoter of GhHOX3. These results suggested that GhHOX3 (GL2) might be downstream gene of the regulatory complex. Also, overexpression of GhCPC in tobacco led to differential loss of pigmentation. Taken together, the results suggested that GhCPC might negatively regulate cotton fiber initiation and early elongation by a potential CPC-MYC1-TTG1/4 complex. Although the fibers were shorter in transgenic cotton lines than in the wild type, no significant difference was detected in stem or leaf trichomes, even in cotton mutants (five naked seed or fuzzless), suggesting that fiber and trichome development might be regulated by two sets of genes sharing a similar model.     

Identification,isolation and expression analysis of eight stress-related <Emphasis Type="Italic">R2R3</Emphasis>-<Emphasis Type="Italic">MYB</Emphasis> genes in tartary buckwheat (<Emphasis Type="Italic">Fagopyrum tataricum</Emphasis>)

Key message

Eight R2R3 - MYB genes in tartary buckwheat were identified, and their expression patterns were comprehensively analyzed, which reveals role in plant response to abiotic stresses.

Abstract

The proteins of the R2R3-MYB superfamily play key roles in the growth and development processes as well as defense responses in plants. However, their characteristics and functions have not been fully investigated in tartary buckwheat (Fagopyrum tataricum), a strongly abiotic resistant coarse cereal. In this article, eight tartary buckwheat R2R3-MYB genes were isolated with full-length cDNA and DNA sequences. Phylogenetic analysis of the members of the R2R3-MYB superfamily between Arabidopsis and tartary buckwheat revealed that the assumed functions of the eight tartary buckwheat R2R3-MYB proteins are divided into five Arabidopsis functional subgroups that are involved in abiotic stress. Expression analysis during abiotic stress and exogenous phytohormone treatments identified that the eight R2R3-MYB genes responded to one or more treatments. This study is the first comprehensive analysis of the R2R3-MYB gene family in tartary buckwheat under abiotic stress.

     

甜荞花青素合成相关基因FeR2R3-MYB的克隆与表达分析

MYB 是一类常见的转录因子,广泛参与植物花青素生物合成的调控。为探究 MYB转录因子在甜荞花青素生物合成中的调控作用,该研究从红花甜荞和白花甜荞转录组学数据中筛选并克隆出一个和花青素生物合成相关的MYB基因,将其命名为 FeR2R3-MYB,GenBank 登录号为 MT151381.1,并对该序列进行生物信息学分析,以及利用 qRT-PCR 分析FeR2R3-MYB基因在白花甜荞和红花甜荞中的表达特征。结果表明:(1)FeR2R3-MYB基因全长 831 bp,编码 276 个氨基酸,蛋白的相对分子质量为 30.95 kD,理论等电点(pI)为 8.73,蛋白的不稳定指数为 69.64,属于不稳定蛋白,总疏水值为-0.679,整条肽链呈现亲水特性。(2)FeR2R3-MYB 具有典型的 R2R3-MYB 结构域,属于 R2R3-MYB 亚家族。(3)FeR2R3-MYB 与同属蓼科的苦荞和虎杖亲缘关系比较近。(4)FeR2R3-MYB 的启动子序列共含有 9 个光照响应元件、17 个转录因子结合位点、4 个非生物响应元件和 2 个激素响应元件。(5)亚细胞定位发现 FeR2R3-MYB 只在细胞核中表达。(6)FeR2R3-MYB 基因的表达量在叶片和花序中红花甜荞均高于白花甜荞,推测 FeR2R3-MYB 基因可以正向调节甜荞花青素生物合成。综上所述,该研究结果为进一步深化 FeR2R3-MYB 基因在甜荞花青素生物合成途径中的功能及表达调控方面的研究提供了基础。