Ronin Institute 127 Haddon Pl, Montclair, NJ 07043, United States of America; Supreme Vinegar LLC, 3430 Progress Dr. Suite D, Bensalem, PA 19020, United States of America.
Biosystems. 2022 Oct;220:104734. doi: 10.1016/j.biosystems.2022.104734. Epub 2022 Jul 14.
Codon usage bias is a well recognized phenomenon but the relative influence of its major causes: G+C content, mutational biases, and selection, are often difficult to disentangle. This paper presents methods to calculate modified effective codon numbers that allow the investigation of the sources of codon bias and how genes or organisms have their codon biases shaped. In particular, it demonstrates that variation in codon usage bias across organisms is likely driven more by likely mutational forces while the variation in codon usage bias within genomes is likely driven by codon selectional forces.
密码子使用偏性是一种公认的现象,但主要原因(G+C 含量、突变偏性和选择)的相对影响往往难以区分。本文介绍了计算修正有效密码子数的方法,可用于研究密码子偏性的来源以及基因或生物体如何形成其密码子偏性。具体而言,它表明生物体之间密码子使用偏性的变化可能更多地受到可能的突变力驱动,而基因组内密码子使用偏性的变化可能更多地受到密码子选择力的驱动。
