Defective mitochondrial function by mutation in THICK ALEURONE 1 encoding a mitochondrion-targeted single-stranded DNA-binding protein leads to increased aleurone cell layers and improved nutrition in rice

糊粉 生物 线粒体 线粒体DNA 细胞生物学 突变 DNA 功能(生物学) 遗传学 基因
作者
Dongqi Li,Xiaoba Wu,Haifeng Wang,Xue Feng,Shijuan Yan,Shengyang Wu,Jinxin Liu,Xuefeng Yao,Ai‐Ning Bai,Heng Zhao,Xiu‐Fen Song,Lin Guo,Shiyong Zhang,Chunming Liu
出处
期刊:Molecular Plant [Elsevier BV]
卷期号:14 (8): 1343-1361 被引量:29
标识
DOI:10.1016/j.molp.2021.05.016
摘要

Cereal endosperm comprises an outer aleurone and an inner starchy endosperm. Although these two tissues have the same developmental origin, they differ in morphology, cell fate, and storage product accumulation, with the mechanism largely unknown. Here, we report the identification and characterization of rice thick aleurone 1 (ta1) mutant that shows an increased number of aleurone cell layers and increased contents of nutritional factors including proteins, lipids, vitamins, dietary fibers, and micronutrients. We identified that the TA1 gene, which is expressed in embryo, aleurone, and subaleurone in caryopses, encodes a mitochondrion-targeted protein with single-stranded DNA-binding activity named OsmtSSB1. Cytological analyses revealed that the increased aleurone cell layers in ta1 originate from a developmental switch of subaleurone toward aleurone instead of starchy endosperm in the wild type. We found that TA1/OsmtSSB1 interacts with mitochondrial DNA recombinase RECA3 and DNA helicase TWINKLE, and downregulation of RECA3 or TWINKLE also leads to ta1-like phenotypes. We further showed that mutation in TA1/OsmtSSB1 causes elevated illegitimate recombinations in the mitochondrial genome, altered mitochondrial morphology, and compromised energy supply, suggesting that the OsmtSSB1-mediated mitochondrial function plays a critical role in subaleurone cell-fate determination in rice.
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