科扎克序列上游的核苷酸对酵母中的基因表达有强烈影响。

Nucleotides upstream of the Kozak sequence strongly influence gene expression in the yeast .

作者信息

Li Jing, Liang Qiang, Song Wenjiang, Marchisio Mario Andrea

机构信息

School of Life Science and Technology, Harbin Institute of Technology, 2 Yikuang Street, Nan Gang District, Harbin, 150080 People's Republic of China.

出版信息

J Biol Eng. 2017 Aug 21;11:25. doi: 10.1186/s13036-017-0068-1. eCollection 2017.

DOI:10.1186/s13036-017-0068-1

PMID:28835771

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5563945/

Abstract

BACKGROUND

In the yeast , as in every eukaryotic organism, the mRNA 5-untranslated region (UTR) is important for translation initiation. However, the patterns and mechanisms that determine the efficiency with which ribozomes bind mRNA, the elongation of ribosomes through the 5-UTR, and the formation of a stable translation initiation complex are not clear. Genes that are highly expressed in seem to prefer a 5-UTR rich in adenine and poor in guanine, particularly in the Kozak sequence, which occupies roughly the first six nucleotides upstream of the START codon.

RESULTS

We measured the fluorescence produced by 58 synthetic versions of the minimal promoter (pCYC1min), each containing a different 5-UTR. First, we replaced with adenine the last 15 nucleotides of the original pCYC1min 5-UTR-a theoretically optimal configuration for high gene expression. Next, we carried out single and multiple point mutations on it. Protein synthesis was highly affected by both single and multiple point mutations upstream of the Kozak sequence. RNAfold simulations revealed that significant changes in the mRNA secondary structures occur by mutating more than three adenines into guanines between positions -15 and -9. Furthermore, the effect of point mutations turned out to be strongly context-dependent, indicating that adenines placed just upstream of the START codon do not guarantee an increase in gene expression, as previously suggested.

CONCLUSIONS

New synthetic eukaryotic promoters, which differ for their translation initiation rate, can be built by acting on the nucleotides upstream of the Kozak sequence. Translation efficiency could, potentially, be influenced by another portion of the 5-UTR further upstream of the START codon. A deeper understanding of the role of the 5-UTR in gene expression would improve criteria for choosing and using promoters inside yeast synthetic gene circuits.

摘要

背景

与所有真核生物一样，在酵母中，mRNA的5'非翻译区（UTR）对于翻译起始很重要。然而，决定核糖体与mRNA结合效率、核糖体通过5'UTR延伸以及稳定翻译起始复合物形成的模式和机制尚不清楚。在酵母中高表达的基因似乎更喜欢富含腺嘌呤而鸟嘌呤含量低的5'UTR，特别是在科扎克序列中，该序列大致占据起始密码子上游的前六个核苷酸。

结果

我们测量了58个合成的最小启动子（pCYC1min）的荧光，每个启动子都包含不同的5'UTR。首先，我们用腺嘌呤替换了原始pCYC1min 5'UTR的最后15个核苷酸——这是一种理论上高基因表达的最佳配置。接下来，我们对其进行了单点和多点突变。蛋白质合成受到科扎克序列上游单点和多点突变的高度影响。RNAfold模拟显示，通过将-15至-9位之间的三个以上腺嘌呤突变为鸟嘌呤，mRNA二级结构会发生显著变化。此外，点突变的影响结果强烈依赖于上下文，这表明如先前所建议的，位于起始密码子正上游的腺嘌呤并不能保证基因表达增加。

结论

通过作用于科扎克序列上游的核苷酸，可以构建出翻译起始速率不同的新型合成真核启动子。翻译效率可能会受到起始密码子上游5'UTR另一部分的影响。对5'UTR在基因表达中的作用有更深入的了解将改善酵母合成基因回路中启动子选择和使用的标准。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d997/5563945/582b501368cd/13036_2017_68_Fig1_HTML.jpg

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科扎克序列上游的核苷酸对酵母中的基因表达有强烈影响。

Nucleotides upstream of the Kozak sequence strongly influence gene expression in the yeast .

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