Nett Nathalie, Duewel Sabine, Richter Alexandra Annelis, Hoebenreich Sabrina
Department of Chemistry, Philipps-Universität Marburg, Hans-Meerwein-Strasse 4, 35032, Marburg, Germany.
Chembiochem. 2017 Apr 4;18(7):685-691. doi: 10.1002/cbic.201600688. Epub 2017 Mar 2.
Every year numerous protein engineering and directed evolution studies are published, increasing the knowledge that could be used by protein engineers. Here we test a protein engineering strategy that allows quick access to improved biocatalysts with very little screening effort. Conceptually it is assumed that engineered residues previously identified by rational and random methods induce similar improvements when transferred to family members. In an application to ene-reductases from the Old Yellow Enzyme (OYE) family, the newly created variants were tested with three compounds, revealing more stereocomplementary OYE pairs with potent turnover frequencies (up to 660 h ) and excellent stereoselectivities (up to >99 %). Although systematic prediction of absolute enantioselectivity of OYE variants remains a challenge, "scaffold sampling" was confirmed as a promising addition to protein engineers' collection of strategies.
每年都有大量蛋白质工程和定向进化研究成果发表,这增加了蛋白质工程师可用的知识。在此,我们测试了一种蛋白质工程策略,该策略能够以极少的筛选工作量快速获得改良的生物催化剂。从概念上讲,假定先前通过理性和随机方法鉴定出的工程化残基转移到家族成员中时会产生类似的改良效果。在应用于老黄色酶(OYE)家族的烯还原酶时,用三种化合物对新创建的变体进行了测试,结果显示出更多具有高效周转频率(高达660 h⁻¹)和出色立体选择性(高达>99%)的立体互补OYE对。尽管对OYE变体的绝对对映选择性进行系统预测仍然是一项挑战,但“支架采样”被确认为蛋白质工程师策略库中一项有前景的补充方法。
