Consequences of Mutation, Selection, and Physico-Chemical Properties of Encoded Proteins on Synonymous Codon Usage in Adenoviruses

Sandip Paul, Sabyasachi Das, C. Dutta
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Abstract

Trends in synonymous codon usage in adenoviruses have been examined through the multivariate statistical analysis on the annotated protein-coding regions of 22 adenoviral species, for which complete genome sequences are available. One of the major determinants of such trends is the G + C content at third codon positions of the genes, the average value of which varied from one viral genome to other depending on the overall mutational bias of the species. G3S and C3S interacted synergistically along the first principal axis of Correspondence analysis on the Relative Synonymous Codon Usage of adenoviral genes, but antagonistically along the second principal axis. Other major determinants of the trends are the natural selection, putatively operative at the level of translation and quite interestingly, hydropathy of the encoded proteins. The trends in codon usage, though characterized by distinct virus-specific mutational bias, do not exhibit any sign of host-specificity. Significant variations are observed in synonymous codon choice in structural and nonstructural genes of adenoviruses.
腺病毒中编码蛋白的突变、选择和理化性质对同义密码子使用的影响
通过对22种具有完整基因组序列的腺病毒物种的注释蛋白编码区进行多元统计分析,研究了腺病毒中同义密码子使用的趋势。这种趋势的主要决定因素之一是基因第三密码子位置的G + C含量,其平均值根据物种的总体突变偏倚在不同的病毒基因组中有所不同。在腺病毒基因相对同义密码子使用的对应分析中,G3S和C3S沿第一条主轴呈协同作用,但沿第二条主轴呈拮抗作用。这种趋势的其他主要决定因素是自然选择,被认为在翻译水平上起作用,很有趣的是,编码蛋白质的亲水性。密码子使用的趋势,虽然具有明显的病毒特异性突变倾向,但没有表现出任何宿主特异性的迹象。腺病毒结构基因和非结构基因的同义密码子选择存在显著差异。
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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