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基因长度与最优密码子使用之间出人意料的负相关——在酵母中从 GC 偏向性基因转换中分离翻译选择。

The surprising negative correlation of gene length and optimal codon use--disentangling translational selection from GC-biased gene conversion in yeast.

机构信息

Ludwig-Maximilan Universität, Biocenter, Grosshadernerstr, 2, D-82152 Planegg-Martinsried, Germany.

出版信息

BMC Evol Biol. 2011 Apr 11;11:93. doi: 10.1186/1471-2148-11-93.

DOI:10.1186/1471-2148-11-93
PMID:21481245
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3096941/
Abstract

BACKGROUND

Surprisingly, in several multi-cellular eukaryotes optimal codon use correlates negatively with gene length. This contrasts with the expectation under selection for translational accuracy. While suggested explanations focus on variation in strength and efficiency of translational selection, it has rarely been noticed that the negative correlation is reported only in organisms whose optimal codons are biased towards codons that end with G or C (-GC). This raises the question whether forces that affect base composition--such as GC-biased gene conversion--contribute to the negative correlation between optimal codon use and gene length.

RESULTS

Yeast is a good organism to study this as equal numbers of optimal codons end in -GC and -AT and one may hence compare frequencies of optimal GC- with optimal AT-ending codons to disentangle the forces. Results of this study demonstrate in yeast frequencies of GC-ending (optimal AND non-optimal) codons decrease with gene length and increase with recombination. A decrease of GC-ending codons along genes contributes to the negative correlation with gene length. Correlations with recombination and gene expression differentiate between GC-ending and optimal codons, and also substitution patterns support effects of GC-biased gene conversion.

CONCLUSION

While the general effect of GC-biased gene conversion is well known, the negative correlation of optimal codon use with gene length has not been considered in this context before. Initiation of gene conversion events in promoter regions and the presence of a gene conversion gradient most likely explain the observed decrease of GC-ending codons with gene length and gene position.

摘要

背景

令人惊讶的是,在几种多细胞真核生物中,最优密码子的使用与基因长度呈负相关。这与翻译准确性选择的预期相反。虽然提出的解释集中在翻译选择的强度和效率的变化上,但很少有人注意到,这种负相关仅在最优密码子偏向于以 G 或 C 结尾的密码子(-GC)的生物体中报告。这就提出了一个问题,即影响碱基组成的力量——例如 GC 偏向性基因转换——是否有助于最优密码子使用与基因长度之间的负相关。

结果

酵母是研究这个问题的一个很好的生物体,因为相同数量的最优密码子以 -GC 和 -AT 结尾,因此可以比较最优 GC-和最优 AT-结尾密码子的频率,以区分这些力量。这项研究的结果表明,在酵母中,GC 结尾(最优和非最优)密码子的频率随基因长度的增加而减少,随重组的增加而增加。基因中 GC 结尾密码子的减少导致与基因长度呈负相关。与重组和基因表达的相关性区分了 GC 结尾和最优密码子,并且替代模式也支持 GC 偏向性基因转换的影响。

结论

虽然 GC 偏向性基因转换的一般影响是众所周知的,但最优密码子使用与基因长度的负相关在这种情况下以前尚未被考虑过。启动子区域中基因转换事件的启动以及基因转换梯度的存在很可能解释了观察到的 GC 结尾密码子随基因长度和基因位置的减少。

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本文引用的文献

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Biased gene conversion affects patterns of codon usage and amino acid usage in the Saccharomyces sensu stricto group of yeasts.偏倚性基因转换影响了酿酒酵母组中密码子使用和氨基酸使用的模式。
Mol Biol Evol. 2011 Jan;28(1):117-29. doi: 10.1093/molbev/msq191. Epub 2010 Jul 23.
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Protein rates of evolution are predicted by double-strand break events, independent of crossing-over rates.蛋白质的进化速率由双链断裂事件预测,与交叉率无关。
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GC-biased gene conversion promotes the fixation of deleterious amino acid changes in primates.GC 偏向性基因转换促进了灵长类动物中有害氨基酸变化的固定。
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Conflicting selection pressures on synonymous codon use in yeast suggest selection on mRNA secondary structures.酵母中同义密码子使用上相互冲突的选择压力表明对mRNA二级结构存在选择。
BMC Evol Biol. 2008 Jul 31;8:224. doi: 10.1186/1471-2148-8-224.
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Mistranslation-induced protein misfolding as a dominant constraint on coding-sequence evolution.错误翻译导致的蛋白质错误折叠是编码序列进化的主要限制因素。
Cell. 2008 Jul 25;134(2):341-52. doi: 10.1016/j.cell.2008.05.042.
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High-resolution mapping of meiotic crossovers and non-crossovers in yeast.酵母减数分裂交换与非交换的高分辨率图谱绘制。
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A genome-wide view of the spectrum of spontaneous mutations in yeast.酵母中自发突变谱的全基因组视角。
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The impact of recombination on nucleotide substitutions in the human genome.重组对人类基因组中核苷酸替换的影响。
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