高等植物中dicer样蛋白(DCLs)序列的计算机分析

E. Filiz, I. Koc
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引用次数: 4

摘要

Dicer和Dicer样(DCLs)蛋白是小RNA生物发生途径的重要组成部分,是一种将长dsRNA (pre-miRNA)消化为小RNA片段(miRNA)的RNase III。利用生物信息学工具对NCBI中20个不同生物的Dicer样蛋白(DCL1、DCL2、DCL3和DCL4)进行了特性分析、结构域分析、多序列比对和系统发育树构建。所有DCLs蛋白序列均含有含有RNaseIII结构域的核糖核酸酶III蛋白家族,包括解旋酶atp结合型-1、解旋酶c端、Dicer双链rna结合折叠、PAZ、核糖核酸酶III、双链rna结合结构域(dsRB)。理化分析提供了这些酶的pI、EC、Al、GRAVY等数据和不稳定性指数。我们还确定了在植物物种中被认为是保守的磷酸化位点,结果表明最丰富的磷酸化位点是DCLs蛋白中的丝氨酸残基。使用Prosite和保守的蛋白基序进行模式和剖面分析,以获得最佳的匹配。系统发育树由3个主要簇构成,不同植物种类的相似DCLs蛋白序列聚在一起。所得结果可用于进一步的硅分析和同源性建模研究。关键词:Dicer, dcl, miRNA, RNase,硅分析*通讯作者:Ertugrul Filiz (e-mail: ertugrulfiliz@gmail.com)。(收稿日期:25.05.2012,收稿日期:24.01.2013)
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In silico analysis of dicer-like protein (DCLs) sequences from higher plant species
Dicer and Dicer like (DCLs) proteins are essential part of small RNA biogenesis pathway, is a type of RNase III digesting long dsRNA (pre-miRNA) to small RNA segments (miRNA). A total of 20 full length of Dicer like proteins (DCL1, DCL2, DCL3 and DCL4) from different organisms available in NCBI were evaluated by bioinformatics tools to investigate properties, structure of DCLs, domain analysis, multiple sequence alignment and phylogenetics tree construction. All DCLs protein sequences have Ribonuclease III protein family that contains RNaseIII domain including Helicase ATP-binding type-1, Helicase C-terminal, Dicer double-stranded RNA-binding fold, PAZ, Ribonuclease III, Double stranded RNA-binding domain (dsRB). Physicochemical analysis offers data such as pI, EC, Al, GRAVY and instability index about these enzymes. Putative phosphorylation sites were also identified which are found to be conserved in plant species and the results showed that the most abundant phosphorylation site is Serine residues in DCLs proteins. Patterns and profile analysis were performed using Prosite and conserved protein motifs subjected to MEME to obtain the best possible matches. The phylogenetics tree represented three major clusters and similar DCLs protein sequences of different plant species clustered together. The obtained results could be used for further in silico analysis and homology modeling studies. Keywords: Dicer, DCLs, miRNA, RNase, In silico analysis. *Corresponding Author: Ertugrul Filiz (e-mail: ertugrulfiliz@gmail.com). (Received: 25.05.2012 Accepted: 24.01.2013)
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