密码子使用和蛋白质表达的新视角。

Gabriel Wright, A. Rodríguez, P. Clark, S. Emrich
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引用次数: 1

摘要

%基因内翻译延伸率模型MinMax依赖于密码子使用频率。从历史上看,%MinMax使用了测量生物体中所有基因密码子使用偏差的表格,例如在HIVE-CUT中发现的表格。在本文中,我们提供的证据表明,基于所有基因的密码子使用偏差不足以准确测量绝对翻译率。我们表明,由另一个模型(ROC-SEMPPR)生成的替代“高”密码子使用表是一个很有前途的替代方案。通过创建一个混合模型,未来的密码子使用分析及其应用(例如密码子协调)可能会更准确地测量翻译延伸的“节奏”。我们还提出了密码子适应指数(CAI)的高-ξ替代方案,这是一种基于高表达基因的密码子使用偏差的经典指标。值得注意的是,我们的新替代方案与经验数据的相关性与传统CAI一样好,而不使用实验确定的表达式计数作为输入。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A New Look at Codon Usage and Protein Expression.
%MinMax, a model of intra-gene translational elongation rate, relies on codon usage frequencies. Historically, %MinMax has used tables that measure codon usage bias for all genes in an organism, such as those found at HIVE-CUT. In this paper, we provide evidence that codon usage bias based on all genes is insufficient to accurately measure absolute translation rate. We show that alternative "High-ϕ" codon usage tables, generated by another model (ROC-SEMPPR), are a promising alternative. By creating a hybrid model, future codon usage analyses and their applications (e.g., codon harmonization) are likely to more accurately measure the "tempo" of translation elongation. We also suggest a High-ϕ alternative to the Codon Adaptation Index (CAI), a classic metric of codon usage bias based on highly expressed genes. Significantly, our new alternative is equally well correlated with empirical data as traditional CAI without using experimentally determined expression counts as input.
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CiteScore
1.60
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