Designed divergent evolution of enzyme function

被引:0
|
作者
Yasuo Yoshikuni
Thomas E. Ferrin
Jay D. Keasling
机构
[1] UCSF/UCB Joint Graduate Group in Bioengineering,California Institute for Quantitative Biomedical Research (QB3)
[2] Department of Chemical Engineering,Synthetic Biology Department, Physical Bioscience Division
[3] University of California at Berkeley,Department of Pharmaceutical Chemistry and Biopharmaceutical Sciences
[4] Lawrence Berkeley National Laboratory,undefined
[5] University of California at San Francisco,undefined
来源
Nature | 2006年 / 440卷
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摘要
Natural molecular evolution has created enzymes designed to catalyse a single reaction, by modifying enzymes that were once much less choosy. Yoshikuni et al. have developed a method of designing synthetic enzymes using a mathematical model that mimics the mechanisms of molecular evolution. They use the system to produce a series of novel sesquiterpene cyclases that use different reaction pathways to produce different end-products. This demonstrates the feasibility of exploiting the evolvability of an enzyme scaffold to produce more pure versions of existing molecules or to create new molecules that do not exist in nature.
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页码:1078 / 1082
页数:4
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