A novel transcription factor OsMYB73 affects grain size and chalkiness by regulating endosperm storage substances' accumulation‐mediated auxin biosynthesis signalling pathway in rice

胚乳 生物 转录因子 MYB公司 生长素 突变体 转录组 表型 细胞生物学 基因 遗传学 基因表达
作者
Song Liu,Jiamin Wu,Amos Musyoki Mawia,Xiangjin Wei,Ruijie Cao,Guiai Jiao,Yawen Wu,Jian Zhang,Lihong Xie,Zhonghua Sheng,Shikai Hu,Sanfeng Li,Yusong Lv,Feifei Lu,Yujuan Chen,Sajid Fiaz,Javaria Tabassum,Zhimin Du,Fangyuan Gao,Guangjun Ren
出处
期刊:Plant Biotechnology Journal [Wiley]
卷期号:23 (4): 1021-1038 被引量:14
标识
DOI:10.1111/pbi.14558
摘要

Summary Enhanced grain yield and quality traits are everlasting breeding goals. It is therefore of great significance to uncover more genetic resources associated with these two important agronomic traits. Plant MYB family transcription factors play important regulatory roles in diverse biological processes. However, studies on genetic functions of MYB in rice yield and quality are rarely to be reported. Here, we investigated a nucleus‐localized transcription factor OsMYB73 which is preferentially expressed in the early developing pericarp and endosperm. We generated targeted mutagenesis of OsMYB73 in rice, and the mutants had longer grains with obvious white‐belly chalky endosperm appearance phenotype. The mutants displayed various changes in starch physicochemical characteristics and lipid components. Transcriptome sequencing analysis showed that OsMYB73 was chiefly involved in cell wall development and starch metabolism. OsMYB73 mutation affects the expression of genes related to grain size, starch and lipid biosynthesis and auxin biosynthesis. Moreover, inactivation of OsMYB73 triggers broad changes in secondary metabolites. We speculate that rice OsMYB73 and OsNF‐YB1 play synergistic pivotal role in simultaneously as transcription activators to regulate grain filling and storage compounds accumulation to affect endosperm development and grain chalkiness through binding OsISA2 , OsLTPL36 and OsYUC11 . The study provides important germplasm resources and theoretical basis for genetic improvement of rice yield and quality. In addition, we enriches the potential biological functions of rice MYB family transcription factors.
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