Exploring new features of α-amylases from different source organisms by an in silico approach

Int. J. Bioinform. Res. Appl. Pub Date : 2019-05-06 DOI:10.1504/IJBRA.2019.10021066

J. Harati, S. R. Siadat, Saeed Kaboli, S. M. Motevalli, Ardeshir Hesampour

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Abstract

A total of 78 full-length protein sequences of α-amylase from different source organisms were subjected to phylogenetic analysis, multiple sequence alignment (MSA), motif search and physiochemical properties. The phylogenetic tree was built using the maximum likelihood method in molecular evolutionary genetics analysis (MEGA) software and was pointed out in two major clusters. One of the clusters included plants and animals, whereas the other one contained fungi, archaea and bacteria. Furthermore, Firmicutes and Proteobacteria are bacterial phylum that placed in the same evolutionary cluster with plants and animals. The deviations from expected clusters were explained by motif analysis. MSA declared three conserved sequence blocks, 505-527, 725-745 and 1010-1030, that were present in all studied species. Moreover, it provided information about highly conserved residues at which three glycine and one aspartic acid residues were conserved. Motif analysis with multiple EM for the motif elicitation server revealed that Motif 4 'HDTGSTQRHWPFPSDHVMQGYAYILTHPGIPCIFYDHFFDW', Motif 6 'EGAGGPSTAFDFTTKGILQEAVKGELWRLRDPQGKPPGMIGWWPERAVTF' and Motif 11 'EQIVKLIAIRKRNGIHSRSSIRILEAEGDLYVAMIDEK VCMKIG' were present only in plants. Pearson correlation analysis to clarify relationships among different physiochemical properties showed a direct correlation between average hydropathy (GRAVY) and the aliphatic index and a reverse correlation between GRAVY and pI and instability indexes.

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利用计算机方法探索不同来源生物α-淀粉酶的新特征

对来自不同来源生物的78条α-淀粉酶全长蛋白序列进行了系统发育分析、多序列比对(MSA)、基序搜索和理化性质分析。利用分子进化遗传学分析软件(MEGA)中的最大似然法构建系统发育树，并将其划分为两个主要聚类。其中一组包括植物和动物，而另一组包含真菌、古生菌和细菌。此外，厚壁菌门和变形菌门是与植物和动物处于同一进化集群的细菌门。基序分析解释了与预期聚类的偏差。MSA宣布了三个保守序列块，505-527,725-745和1010-1030，存在于所有研究物种中。此外，它还提供了高度保守残基的信息，其中三个甘氨酸和一个天冬氨酸残基是保守的。Motif 4“HDTGSTQRHWPFPSDHVMQGYAYILTHPGIPCIFYDHFFDW”、Motif 6“EGAGGPSTAFDFTTKGILQEAVKGELWRLRDPQGKPPGMIGWWPERAVTF”和Motif 11“EQIVKLIAIRKRNGIHSRSSIRILEAEGDLYVAMIDEK VCMKIG”仅存在于植物中。Pearson相关分析表明，平均亲水性(GRAVY)与脂肪族指数呈正相关，与pI和不稳定性指数呈负相关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Int. J. Bioinform. Res. Appl.

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