微小RNA起源及功能和动植物基因寻找计算方法

罗海丹; 杨惠玲

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主管单位 工业和信息化部 主办单位 哈尔滨工业大学主编任南琪 国际刊号ISSN 1672-5565 国内刊号CN 23-1513/Q

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引用本文:	罗海丹,杨惠玲.微小RNA起源及功能和动植物基因寻找计算方法[J].生物信息学,2013,11(3):196-200.
	LUO Hai-dan,YANG Hui-ling.The biogenesis and function of microRNA and the computational methods of microRNA gene finding[J].Chinese Journal of Bioinformatics,2013,11(3):196-200.

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微小RNA起源及功能和动植物基因寻找计算方法
罗海丹^1,2,杨惠玲²
(1.中山大学中山医学院,广东广州 510080;;2.中山大学中山医学院病理生理学教研室,广东广州 510080)

摘要:

微小RNAs(microRNAs,miRNAs)是长度约为22个核苷酸(nt)的内源性非编码小分子RNA。miRNA作为重要的基因调节因子,通过多种机制抑制其靶mRNA的表达。miRNA的表达和/或功能异常与人类多种疾病密切相关。因此,近年miRNA与人类疾病的相关研究备受关注,寻找miRNA基因显得尤为重要。过去对miRNA基因进行研究的范围较为局限,获得的新miRNA基因很少。目前,对miRNA基因目录的补充主要依赖于复杂计算工具的发展,随着计算工具的发展获得多种简易的寻找miRNA基因的方法,但对miRNA基因目录的补充仍未能起有效作用。本文在简单介绍动植物miRNA生物起源和功能及作用机制的基础上,主要关注动植物miRNA基因寻找的计算方法,可望为探索动植物miRNAs基因寻找的新的计算方法提供有价值的参考。

关键词: 微小RNA 基困寻找计算方法

DOI：10.3969/j.issn.1672-5565.2013-03.20130307

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基金项目:国家自然科学基金(81071837；30670627),广东省自然科学基金重点项目(9251008901000005),2013年国家大学生创新训练计划项目,中山大学中山医学院学生科研训练专项基金。

The biogenesis and function of microRNA and the computational methods of microRNA gene finding

LUO Hai-dan ^1,2, YANG Hui-ling²

(1.The second department of Clinical medicine,Zhongshan Medical School,Sun Yat-sen University, Guangzhou 510080,China; ;2.Department of Pathophysiology,Zhongshan Medical School,Sun Yat-sen University,Guangzhou 510080,China)

Abstract:

MicroRNA(miRNA)is a kind of small non-coding endogenous RNA molecules which is ~22nt in length. As important regulatory factor of gene, miRNA inhibits the expression of its target mRNA, through a variety of mechanism. Abnormality of miRNA expression and function is closely related with various human diseases. Therefore, people has paid much attention to study the correlation between miRNA and human disease in recent years, especially finding the miRNA genes. In past years, the range of studies about miRNA genes is limited, which have a great limitation of finding new miRNA genes. The supplement of our catalogue of miRNA genes owe much to the development of sophisticated computational tools, which produce many simple methods. However, these still can’t have a effectively influence on the supplement of the catalogue. In these article, we mainly introduce the computational methods for miRNA gene finding in animals and plants, based on introducing the biogenesis and function of miRNA, which will provide some valueable reference for the finding of the next generation of computational methods.

Key words: MicroRNA Gene Finding Computational Tools

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