Unlocking a signal of introgression from codons in Lachancea kluyveri using a mutation-selection model.

IF 3.4 Q1 Agricultural and Biological Sciences
Cedric Landerer, Brian C O'Meara, Russell Zaretzki, Michael A Gilchrist
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引用次数: 3

Abstract

Background: For decades, codon usage has been used as a measure of adaptation for translational efficiency and translation accuracy of a gene's coding sequence. These patterns of codon usage reflect both the selective and mutational environment in which the coding sequences evolved. Over this same period, gene transfer between lineages has become widely recognized as an important biological phenomenon. Nevertheless, most studies of codon usage implicitly assume that all genes within a genome evolved under the same selective and mutational environment, an assumption violated when introgression occurs. In order to better understand the effects of introgression on codon usage patterns and vice versa, we examine the patterns of codon usage in Lachancea kluyveri, a yeast which has experienced a large introgression. We quantify the effects of mutation bias and selection for translation efficiency on the codon usage pattern of the endogenous and introgressed exogenous genes using a Bayesian mixture model, ROC SEMPPR, which is built on mechanistic assumptions about protein synthesis and grounded in population genetics.

Results: We find substantial differences in codon usage between the endogenous and exogenous genes, and show that these differences can be largely attributed to differences in mutation bias favoring A/T ending codons in the endogenous genes while favoring C/G ending codons in the exogenous genes. Recognizing the two different signatures of mutation bias and selection improves our ability to predict protein synthesis rate by 42% and allowed us to accurately assess the decaying signal of endogenous codon mutation and preferences. In addition, using our estimates of mutation bias and selection, we identify Eremothecium gossypii as the closest relative to the exogenous genes, providing an alternative hypothesis about the origin of the exogenous genes, estimate that the introgression occurred ∼6×108 generation ago, and estimate its historic and current selection against mismatched codon usage.

Conclusions: Our work illustrates how mechanistic, population genetic models like ROC SEMPPR can separate the effects of mutation and selection on codon usage and provide quantitative estimates from sequence data.

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利用突变选择模型解锁kluyveri Lachancea密码子渗入信号。
背景:几十年来,密码子的使用一直被用来衡量基因编码序列的翻译效率和翻译准确性。这些密码子使用模式反映了编码序列进化的选择性和突变环境。在同一时期,谱系之间的基因转移已被广泛认为是一种重要的生物学现象。然而,大多数关于密码子使用的研究隐含地假设基因组中的所有基因都是在相同的选择和突变环境下进化的,当基因渗入发生时,这一假设就被违反了。为了更好地理解基因渗入对密码子使用模式的影响,我们研究了一种经历过大量基因渗入的酵母菌Lachancea kluyveri的密码子使用模式。我们使用贝叶斯混合模型(ROC SEMPPR)量化了突变偏差和翻译效率选择对内源和渗入外源基因密码子使用模式的影响,该模型建立在蛋白质合成的机制假设上,并以群体遗传学为基础。结果:我们发现内源基因和外源基因在密码子使用上存在显著差异,这些差异很大程度上归因于内源基因偏爱A/T末端密码子而外源基因偏爱C/G末端密码子的突变偏好差异。认识到突变偏倚和选择的两种不同特征使我们预测蛋白质合成率的能力提高了42%,并使我们能够准确地评估内源性密码子突变和偏好的衰减信号。此外,利用我们对突变偏差和选择的估计,我们确定棉胚是与外源基因最接近的亲缘关系,提供了关于外源基因起源的另一种假设,估计渗入发生在6×108代之前,并估计其历史和当前对不匹配密码子使用的选择。结论:我们的工作说明了像ROC SEMPPR这样的机制群体遗传模型如何区分突变和选择对密码子使用的影响,并从序列数据中提供定量估计。
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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来源期刊
BMC Evolutionary Biology
BMC Evolutionary Biology 生物-进化生物学
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.
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