合成改组通过允许氨基酸独立重组来扩展功能性蛋白质的多样性。

Synthetic shuffling expands functional protein diversity by allowing amino acids to recombine independently.

作者信息

Ness Jon E, Kim Seran, Gottman Andrea, Pak Rob, Krebber Anke, Borchert Torben V, Govindarajan Sridhar, Mundorff Emily C, Minshull Jeremy

机构信息

Maxygen, 515 Galveston Drive, Redwood City, CA 94063, USA.

出版信息

Nat Biotechnol. 2002 Dec;20(12):1251-5. doi: 10.1038/nbt754. Epub 2002 Nov 11.

DOI:10.1038/nbt754

PMID:12426575

Abstract

We describe synthetic shuffling, an evolutionary protein engineering technology in which every amino acid from a set of parents is allowed to recombine independently of every other amino acid. With the use of degenerate oligonucleotides, synthetic shuffling provides a direct route from database sequence information to functional libraries. Physical starting genes are unnecessary, and additional design criteria such as optimal codon usage or known beneficial mutations can also be incorporated. We performed synthetic shuffling of 15 subtilisin genes and obtained active and highly chimeric enzymes with desirable combinations of properties that we did not obtain by other directed-evolution methods.

摘要

我们描述了合成洗牌法，这是一种蛋白质进化工程技术，其中一组亲本的每个氨基酸都可以独立于其他氨基酸进行重组。通过使用简并寡核苷酸，合成洗牌法提供了一条从数据库序列信息到功能文库的直接途径。不需要物理起始基因，还可以纳入其他设计标准，如最佳密码子使用或已知的有益突变。我们对15个枯草杆菌蛋白酶基因进行了合成洗牌，获得了具有所需特性组合的活性和高度嵌合的酶，这些特性是我们通过其他定向进化方法无法获得的。

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合成改组通过允许氨基酸独立重组来扩展功能性蛋白质的多样性。

Synthetic shuffling expands functional protein diversity by allowing amino acids to recombine independently.

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