聚合酶在合成遗传系统中与摆动错配的相互作用及其进化意义

Polymerase Interactions with Wobble Mismatches in Synthetic Genetic Systems and Their Evolutionary Implications.

作者信息

Winiger Christian B, Kim Myong-Jung, Hoshika Shuichi, Shaw Ryan W, Moses Jennifer D, Matsuura Mariko F, Gerloff Dietlind L, Benner Steven A

机构信息

Foundation for Applied Molecular Evolution (FfAME), 13709 Progress Blvd., Box 7, Alachua, Florida 32615, United States.

Firebird Biomolecular Sciences LLC, 13709 Progress Blvd., Box 17, Alachua, Florida 32615, United States.

出版信息

Biochemistry. 2016 Jul 19;55(28):3847-50. doi: 10.1021/acs.biochem.6b00533. Epub 2016 Jul 8.

DOI:10.1021/acs.biochem.6b00533

PMID:27347689

Abstract

In addition to completing the Watson-Crick nucleobase matching "concept" (big pairs with small, hydrogen bond donors pair with hydrogen bond acceptors), artificially expanded genetic information systems (AEGIS) also challenge DNA polymerases with a complete set of mismatches, including wobble mismatches. Here, we explore wobble mismatches with AEGIS with DNA polymerase 1 from Escherichia coli. Remarkably, we find that the polymerase tolerates an AEGIS:standard wobble that has the same geometry as the G:T wobble that polymerases have evolved to exclude but excludes a wobble geometry that polymerases have never encountered in natural history. These results suggest certain limits to "structural analogy" and "evolutionary guidance" as tools to help synthetic biologists expand DNA alphabets.

摘要

除了完成沃森-克里克碱基匹配“概念”（大的与小的配对，氢键供体与氢键受体配对）之外，人工扩展遗传信息系统（AEGIS）还用一整套错配情况挑战DNA聚合酶，包括摆动错配。在此，我们用来自大肠杆菌的DNA聚合酶1，通过AEGIS来探究摆动错配。值得注意的是，我们发现该聚合酶能容忍一种与G:T摆动具有相同几何结构的AEGIS:标准摆动，而聚合酶已经进化到会排除G:T摆动，同时该聚合酶会排除一种在自然历史中聚合酶从未遇到过的摆动几何结构。这些结果表明，“结构类比”和“进化指导”作为帮助合成生物学家扩展DNA字母表的工具存在一定局限性。

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聚合酶在合成遗传系统中与摆动错配的相互作用及其进化意义

Polymerase Interactions with Wobble Mismatches in Synthetic Genetic Systems and Their Evolutionary Implications.

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