Molecular evolution and optimization of the translation machinery

翻译机器的分子进化和优化

• 批准号: 261252-2013
• 负责人: Xia, Xuhua
• 金额: $ 3.13万
• 依托单位: University of Ottawa
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2015
• 资助国家: 加拿大
• 起止时间: 2015-01-01 至 2016-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=570984
• 关键词: Molecular; evolution; optimization; translation; machinery

Translation is the key link between genotype and phenotype. Accurate and efficient translation initiation and elongation are essential for the success of living organisms including viruses. Research questions I will address in this project include: 1. Translation initiation: What sequence features should the 5' UTR have to increase the efficiency of translation initiation (measured by ribosomal density) in model organisms such as the yeast? How do translation-related motifs in 5' UTR evolve in response to changes in translation initiation factors and poly(A) binding protein? What and where are the motifs in 5' UTR that modulate translation initiation? 2. Translation elongation: Many experimental studies have monitored translation efficiency after replacing synonymous codons either to the most preferred or the least preferred codons. Why do these experiments often have contradictory results, e.g., some finding dramatically improved protein production with optimized codons and some finding no improvement? These studies ignored translation initiation, yet codon optimization can lead to improved protein production only when translation initiation is efficient. We hypothesize that those studies finding no improved protein production with optimized codons involve mRNAs of low or mediocre translation initiation efficiency and will test the hypothesis by using ribosomal loading data available recently. 3. Bioinformatics tools for study translation: How should we develop and improve bioinformatic tools for better quantification of regulatory motifs (currently characterized mainly by position weight matrix and profiles from hidden Markov models) and codon usage bias (e.g., codon adaptation index, effective number of codons, etc.) in order to facilitate studies on translation initiation, elongation and termination? For example, current codon usage bias indices do not correct for background nucleotide frequencies and do not distinguish the effect of mutation and selection. Our research will contribute to pharmaceutical industry engaged in protein production.

翻译是基因型和表型之间的关键环节。准确和有效的翻译起始和延伸对于包括病毒在内的活生物体的成功至关重要。我将在这个项目中解决的研究问题包括： 1.翻译起始：在模式生物如酵母中，5' UTR应该具有什么样的序列特征来增加翻译起始的效率（通过核糖体密度测量）？翻译起始因子和poly（A）结合蛋白的改变如何影响5' UTR中的转录相关基序的进化？5'非翻译区中调控翻译起始的基序是什么？ 2.翻译延伸：许多实验研究已经监测了将同义密码子替换为最优选或最不优选密码子后的翻译效率。为什么这些实验经常有矛盾的结果，例如，一些发现用优化的密码子显著改善了蛋白质生产，而另一些发现没有改善？这些研究忽略了翻译起始，然而密码子优化仅在翻译起始有效时才能导致蛋白质产量的提高。我们假设，这些研究发现没有改善蛋白质生产与优化的密码子涉及低或中等翻译起始效率的mRNA，并将测试的假设，通过使用核糖体加载数据最近。 3.研究翻译的生物信息学工具：我们应该如何开发和改进生物信息学工具，以更好地量化调控基序（目前主要通过位置权重矩阵和隐马尔可夫模型的特征）和密码子使用偏倚（例如，密码子适应指数、有效密码子数等）以便于对翻译起始、延伸和终止的研究？例如，目前的密码子使用偏好指数不能校正背景核苷酸频率，也不能区分突变和选择的影响。 我们的研究将有助于从事蛋白质生产的制药行业。