OsPGL3A 编码一种 DYW 型五角肽重复蛋白,参与叶绿体 RNA 处理和叶绿体发育调控

IF 2.6 3区 农林科学 Q1 AGRONOMY
Min Xu, Xinying Zhang, Jinzhe Cao, Jiali Liu, Yiyuan He, Qingjie Guan, Xiaojie Tian, Jiaqi Tang, Xiufeng Li, Deyong Ren, Qingyun Bu, Zhenyu Wang
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引用次数: 0

摘要

叶绿体是光合作用的主要场所,它的发育对植物的生长和形态发生起着至关重要的调控作用。五肽重复序列(PPR)蛋白是一个庞大的蛋白家族,在植物细胞器内对 RNA 进行转录后修饰。在这项研究中,我们对水稻叶色淡绿突变体(pgl3a)进行了鉴定。与野生型(WT)相比,pgl3a 在幼苗期的叶绿素含量明显降低。透射电子显微镜(TEM)和定量 PCR 分析表明,与野生型(WT)相比,pgl3a 的叶绿体发育异常,与叶绿体发育和光合作用相关的基因表达水平也发生了显著变化。Mutmap分析显示,pgl3a中Os03g0136700的编码区存在单碱基缺失。通过 CRISPR/Cas9 介导的基因编辑,产生了两个同源的 cr-pgl3a 突变体,并表现出与 pgl3a 相似的表型,从而证实 Os03g0136700 是 pgl3a 的元凶。因此,它被命名为 OsPGL3A。OsPGL3A 属于 DYW 型 PPR 蛋白家族,定位于叶绿体。此外,我们还发现,与 WT 相比,pgl3a 突变体中 rps8-182 和 rpoC2-4106 的 RNA 编辑效率以及 ycf3-1 的剪接效率明显降低。这些结果表明,OsPGL3A通过调控水稻叶绿体基因的编辑和剪接,在叶绿体的发育过程中发挥了重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

OsPGL3A encodes a DYW-type pentatricopeptide repeat protein involved in chloroplast RNA processing and regulated chloroplast development

OsPGL3A encodes a DYW-type pentatricopeptide repeat protein involved in chloroplast RNA processing and regulated chloroplast development

The chloroplast serves as the primary site of photosynthesis, and its development plays a crucial role in regulating plant growth and morphogenesis. The Pentatricopeptide Repeat Sequence (PPR) proteins constitute a vast protein family that function in the post-transcriptional modification of RNA within plant organelles. In this study, we characterized mutant of rice with pale green leaves (pgl3a). The chlorophyll content of pgl3a at the seedling stage was significantly reduced compared to the wild type (WT). Transmission electron microscopy (TEM) and quantitative PCR analysis revealed that pgl3a exhibited aberrant chloroplast development compared to the wild type (WT), accompanied by significant alterations in gene expression levels associated with chloroplast development and photosynthesis. The Mutmap analysis revealed that a single base deletionin the coding region of Os03g0136700 in pgl3a. By employing CRISPR/Cas9 mediated gene editing, two homozygous cr-pgl3a mutants were generated and exhibited a similar phenotype to pgl3a, thereby confirming that Os03g0136700 was responsible for pgl3a. Consequently, it was designated as OsPGL3A. OsPGL3A belongs to the DYW-type PPR protein family and is localized in chloroplasts. Furthermore, we demonstrated that the RNA editing efficiency of rps8-182 and rpoC2-4106, and the splicing efficiency of ycf3-1 were significantly decreased in pgl3a mutants compared to WT. Collectively, these results indicate that OsPGL3A plays a crucial role in chloroplast development by regulating the editing and splicing of chloroplast genes in rice.

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来源期刊
Molecular Breeding
Molecular Breeding 农林科学-农艺学
CiteScore
5.60
自引率
6.50%
发文量
67
审稿时长
1.5 months
期刊介绍: Molecular Breeding is an international journal publishing papers on applications of plant molecular biology, i.e., research most likely leading to practical applications. The practical applications might relate to the Developing as well as the industrialised World and have demonstrable benefits for the seed industry, farmers, processing industry, the environment and the consumer. All papers published should contribute to the understanding and progress of modern plant breeding, encompassing the scientific disciplines of molecular biology, biochemistry, genetics, physiology, pathology, plant breeding, and ecology among others. Molecular Breeding welcomes the following categories of papers: full papers, short communications, papers describing novel methods and review papers. All submission will be subject to peer review ensuring the highest possible scientific quality standards. Molecular Breeding core areas: Molecular Breeding will consider manuscripts describing contemporary methods of molecular genetics and genomic analysis, structural and functional genomics in crops, proteomics and metabolic profiling, abiotic stress and field evaluation of transgenic crops containing particular traits. Manuscripts on marker assisted breeding are also of major interest, in particular novel approaches and new results of marker assisted breeding, QTL cloning, integration of conventional and marker assisted breeding, and QTL studies in crop plants.
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