Christian S. Diercks, Philipp Sondermann, Cynthia Rong, David A. Dik, Thomas G. Gillis, Yahui Ban, Peter G. Schultz
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引用次数: 0
摘要
在不损害宿主基因组完整性的情况下对指定基因进行连续超突变的系统可以大大加速新的或增强的蛋白质功能的进化。我们描述了一种基于噬菌体 T7 复制体受控表达的大肠杆菌正交 DNA 复制系统。该系统可复制环形质粒,从而实现高转化效率,并无缝集成到标准分子生物学工作流程中。通过对 T7 DNA 聚合酶进行工程改造,产生了变异蛋白质,其体内每个碱基的突变率为 1.7 x 10-5 次置换,比基因组突变率高出 10 万倍。通过扩大 TEM-1 β-内酰胺酶的底物范围,并在不到一周的时间内将其对临床相关单内酰胺类和头孢菌素类抗生素的活性提高 1000 倍,证明了诱变 T7 复制体的持续进化。
An Orthogonal T7 Replisome for Continuous Hypermutation and Accelerated Evolution in E. coli
Systems that perform continuous hypermutation of designated genes without compromising the integrity of the host genome can dramatically accelerate the evolution of new or enhanced protein functions. We describe an orthogonal DNA replication system in E. coli based on the controlled expression of the replisome of bacteriophage T7. The system replicates circular plasmids that enable high transformation efficiencies and seamless integration into standard molecular biology workflows. Engineering of T7 DNA polymerase yielded variant proteins with mutation rates of 1.7 x 10-5 substitutions per base in vivo - 100,000-fold above the genomic mutation rate. Continuous evolution using the mutagenic T7 replisome was demonstrated by expanding the substrate scope of TEM-1 β-lactamase and increase activity 1,000-fold against clinically relevant monobactam and cephalosporin antibiotics in less than one week.
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