在体外翻译过程中，氢键强度的改变会影响框架内UAG终止密码子密码子-反密码子相互作用的稳定性

ChemRxiv : the preprint server for chemistry Pub Date : 2021-09-06 DOI:10.33774/chemrxiv-2021-zr8nt-v2

Purnima Mala, Ishu Saraogi

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引用次数: 0

摘要

我们研究了非标准核碱基修饰的tRNA对非天然氨基酸突变的解码能力。在tRNA反密码子的第3位插入2，6-二氨基嘌呤（D）碱基使我们能够评估翻译过程中额外氢键的作用。在蛋白质翻译过程中，由于D的N2外环胺和尿嘧啶的C2羰基之间的额外氢键，D在tRNA反密码子处的存在导致密码子-反密码子相互作用的稳定。在使用终止密码子抑制方法解码UAG密码子时，增强的密码子-反密码子相互作用改善了密码子的通读，并在多个位点合成了具有非天然氨基酸的修饰蛋白。我们的研究结果表明，tRNA-信使核糖核酸双链界面的氢键数量是信使核糖核酸解码过程中的一个重要标准，并改善了多个UAG终止位点的蛋白质翻译。这项工作为改进非天然氨基酸诱变创造功能蛋白提供了有价值的投入。

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Alteration in H-bond strength affects the stability of codon-anticodon interaction at in-frame UAG stop codon during in vitro translation

We have studied the decoding ability of a non-standard nucleobase modified tRNA for non-natural amino acid mutagenesis. The insertion of 2, 6-diaminopurine (D) base at the 3rd position of a tRNA anticodon enabled us to evaluate the effect of an additional hydrogen bond during translation. The presence of D at the tRNA anticodon led to stabilization of the codon-anticodon interaction due to an additional H-bond between the N2-exocyclic amine of D and the C2 carbonyl group of uracil during protein translation. While decoding UAG codons using stop codon suppression methodology, the enhanced codon-anticodon interaction improved codon readthrough and synthesis of modified protein with a non-natural amino acid at multiple sites. Our findings imply that the number of hydrogen bonds at the tRNA-mRNA duplex interface is an important criterion during mRNA decoding and improves protein translation at multiple UAG stop sites. This work provides valuable inputs towards improved non-natural amino acid mutagenesis for creating functional proteins.

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ChemRxiv : the preprint server for chemistry

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