Add to ORKGABSTRACT: The ease with which enzymes can be adapted from their native roles and engineered to function specifically for industrial or commercial applications is crucial to enabling enzyme technology to advance beyond its current state. Directed evolution is a powerful tool for engineering enzymes with improved physical and catalytic properties and can be used to evolve enzymes where lack of structural information may thwart the use of rational design. In this study, we take the versatile and diverse α/β hydrolase fold framework, in the form of dienelactone hydrolase, and evolve it over three unique sequential evolutions with a total of 14 rounds of screening to generate a series of enzyme variants. The native enzyme has a low level of prom...
Directed evolution has become a full-grown tool in molecular biology nowadays. The methods that are ...
Present state of research on expanding enzyme catalysis beyond nature For more than twenty years thi...
Directed evolution has become a full-grown tool in molecular biology nowadays. The methods that are ...
The ease with which enzymes can be adapted from their native roles and engineered to function specif...
The ease with which enzymes can be adapted from their native roles and engineered to function specif...
Thesis (Ph.D.)--University of Washington, 2013Enzymes are the most specific and active catalysts fou...
Although enzymes are the product of millions of years of natural evolution, their properties are fre...
Enzymes have been long used in man-made biochemical processes, from brewing and fermentation to curr...
Enzymes can be tailored for optimal performance in industrial applications by directing their evolut...
There are near-to-infinite combinations of possibilities for evolution to happen within nature, maki...
Directed enzyme evolution has emerged in the past few years as a powerful alternative to rational ap...
Abstract The engineering of enzymes with altered activity, specificity and stability, using directed...
By providing a simple and reliable route to enzyme improvement, directed evolution has emerged as a ...
Enzymes are very efficient biocatalysts. While there are many examples of applications of enzym...
Directed evolution has become the preferred engineering approach to generate tailor-made enzymes. Th...
Directed evolution has become a full-grown tool in molecular biology nowadays. The methods that are ...
Present state of research on expanding enzyme catalysis beyond nature For more than twenty years thi...
Directed evolution has become a full-grown tool in molecular biology nowadays. The methods that are ...
The ease with which enzymes can be adapted from their native roles and engineered to function specif...
The ease with which enzymes can be adapted from their native roles and engineered to function specif...
Thesis (Ph.D.)--University of Washington, 2013Enzymes are the most specific and active catalysts fou...
Although enzymes are the product of millions of years of natural evolution, their properties are fre...
Enzymes have been long used in man-made biochemical processes, from brewing and fermentation to curr...
Enzymes can be tailored for optimal performance in industrial applications by directing their evolut...
There are near-to-infinite combinations of possibilities for evolution to happen within nature, maki...
Directed enzyme evolution has emerged in the past few years as a powerful alternative to rational ap...
Abstract The engineering of enzymes with altered activity, specificity and stability, using directed...
By providing a simple and reliable route to enzyme improvement, directed evolution has emerged as a ...
Enzymes are very efficient biocatalysts. While there are many examples of applications of enzym...
Directed evolution has become the preferred engineering approach to generate tailor-made enzymes. Th...
Directed evolution has become a full-grown tool in molecular biology nowadays. The methods that are ...
Present state of research on expanding enzyme catalysis beyond nature For more than twenty years thi...
Directed evolution has become a full-grown tool in molecular biology nowadays. The methods that are ...