质体非编码小RNA发生及调控作用机制

项目名称： 质体非编码小RNA发生及调控作用机制

项目编号： No.91540116

项目类型： 重大研究计划

立项/批准年度： 2016

项目学科： 农业科学

项目作者： 张晓明

作者单位： 中国科学院动物研究所

项目金额： 85万元

中文摘要： 非编码小RNA是真核生物内广泛存在的重要遗传信息分子，原核生物不编码典型小RNA。植物叶绿体由原核蓝藻包吞进化而来，在进化上具有特殊地位，我们对质体相关小RNA研究甚少，造成对非编码RNA调控网络认知的漏洞。申请者发现RNA结合蛋白RBP可与AGO互作，帮助AGO结合sRNA增强植物抗性，同时该基因定位于叶绿体并在叶绿体正常生物过程中起重要作用，与之互作的AGO蛋白在叶绿体内也有富集。分离叶绿体发现三类特异sRNA：29nt叶绿体基因组产生叶绿体内作用，20nt叶绿体基因组产生叶绿体外作用和21nt核基因组产生叶绿体内作用。本项目将对这些新型非编码小RNA的生成、修饰及调控功能进行研究，比较叶绿体相关小RNA和植物典型小RNA及原核内类似小RNA的区别，探讨非编码小RNA的可能起源和进化。研究结果将发掘新的非编码RNA调控元件及抗性机制，为基因信息传递过程中非编码RNA调控研究提供新思路。

中文关键词： 非编码小RNA；叶绿体；发生机制；调控机制；质体

英文摘要： Small non-coding RNAs are short regulatory non-coding RNAs that contain important genome information. They were widely present in eukaryotes but not in prokaryotes. Chloroplast is considered to originate from symbiotic cyanophyta, and evolutionally positioned between eukaryotes and prokaryotes. However, the existence, biogenesis and function of the plastid-related small non-coding RNA are far from known. The applicant has been working on the biogenesis and function of small non-coding RNAs since 2001. And recently, he makes significant progress on chloroplast related small RNA. The applicant identified an interaction between an RNA binding proteins, RBP, and AGO, which facilitate the loading of small RNAs into AGO, and subsequently increase anti-viral resistance of plant. The mutation of rbp also decreases the fecundity of aphid. Further sub-cellular analysis demonstrated that RBP is located in the chloroplast. The AGO protein interacting with RBP also accumulates in chloroplast. With chloroplast extraction and small RNA library construction, the applicant identified three types of small RNAs that related to chloroplast: 29nt sRNAs that generated from chloroplast genome and localized in chloroplast, 21nt sRNAs that generated from nucleic genome but localized in chloroplast, and 20nt sRNAs that generated from chloroplast genome but localized out of chloroplast. Based on the function of RBP and small RNA libraries, the applicant proposes to study the biogenesis, modification of small non-coding RNAs related to chloroplast and examine their possible function and regulatory mechanism. The evolution and function of small non-coding RNAs will be explored by comparative study of RNA silencing system among prokaryotes, eukaryote-localized prokaryotes, and eukaryotes. Furthermore, this project will uncover the regulatory mechanism of small RNA in plastid and the bi-directionally regulation of gene expression between plastid and nucleic. Meanwhile, this study will also improve our understanding of small non-coding RNA in molecular level.

英文关键词： small non-coding RNA;chloroplat;biogenesis pathway;regulation mechanism;plastid