| Literature DB >> 28177830 |
Yan Wen1,1, Ziliang Zou1,1, Hongshun Li1,1, Zhonghuai Xiang1,1, Ningjia He1,1.
Abstract
Codons play important roles in regulating gene expression levels and mRNA half-lives. However, codon usage and related studies in multicellular organisms still lag far behind those in unicellular organisms. In this study, we describe for the first time genome-wide patterns of codon bias in Morus notabilis (mulberry tree), and analyze genome-wide codon usage in 12 other species within the order Rosales. The codon usage of M. notabilis was affected by nucleotide composition, mutation pressure, nature selection, and gene expression level. Translational selection optimal codons were identified and highly expressed genes of M. notabilis tended to use the optimal codons. Genes with higher expression levels have shorter coding region and lower amino acid complexity. Housekeeping genes showed stronger translational selection, which, notably, was not caused by the large differences between the expression level of housekeeping genes and other genes.Entities:
Keywords: Morus notabilis; codon usage; gène domestique; housekeeping gene; sélection transcriptionnelle; transcriptional selection; usage des codons
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Year: 2017 PMID: 28177830 DOI: 10.1139/gen-2016-0129
Source DB: PubMed Journal: Genome ISSN: 0831-2796 Impact factor: 2.166