Ribosome Subunit Stapling for Orthogonal Translation in E.coli.

Stephen D Fried, Wolfgang H Schmied, Chayasith Uttamapinant, Jason W Chin
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引用次数: 45

Abstract

The creation of orthogonal large and small ribosomal subunits, which interact with each other but not with endogenous ribosomal subunits, would extend our capacity to create new functions in the ribosome by making the large subunit evolvable. To this end, we rationally designed a ribosomal RNA that covalently links the ribosome subunits via an RNA staple. The stapled ribosome is directed to an orthogonal mRNA, allowing the introduction of mutations into the large subunit that reduce orthogonal translation, but have minimal effects on cell growth. Our approach provides a promising route towards orthogonal subunit association, which may enable the evolution of key functional centers in the large subunit, including the peptidyl-transferase center, for unnatural polymer synthesis in cells.

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Abstract Image

Abstract Image

大肠杆菌正交翻译的核糖体亚基钉接。
大核糖体亚基和小核糖体亚基相互作用,但不与内源性核糖体亚基相互作用,这将通过使大亚基可进化来扩展我们在核糖体中创造新功能的能力。为此,我们合理设计了一种核糖体RNA,通过RNA短链将核糖体亚基共价连接起来。钉接核糖体被定向到一个正交的mRNA,允许将突变引入大亚基,减少正交翻译,但对细胞生长的影响最小。我们的方法为正交亚基结合提供了一条有希望的途径,这可能使包括肽基转移酶中心在内的大亚基关键功能中心的进化成为可能,用于细胞中的非自然聚合物合成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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