Directed evolution can generate a remarkable range of new enzyme properties. Alternate substrate specificities and reaction selectivities are readily accessible in enzymes from families that are naturally functionally diverse. Activities on new substrates can be obtained by improving variants with broadened specificities or by step-wise evolution through a sequence of more and more challenging substrates. Evolution of highly specific enzymes has been demonstrated, even with positive selection alone. It is apparent that many solutions exist for any given problem, and there are often many paths that lead uphill, one step at a time
Directed evolution is a method to tune the properties of enzymes for use in organic chemistry and bi...
The stunning array of features and functions exhibited by proteins in nature should convince most sc...
Directed evolution is a method to tune the properties of enzymes for use in organic chemistry and bi...
Directed evolution circumvents our profound ignorance of how a protein's sequence encodes its functi...
Directed evolution is a widely-used engineering strategy for improving the stabilities or biochemica...
There are near-to-infinite combinations of possibilities for evolution to happen within nature, maki...
Protein engineering has been the most attractive strategy for biologists to redesign enzymes. As the...
Enzymes have been evolving to catalyze new chemical reactions for billions of years, and will contin...
Present state of research on expanding enzyme catalysis beyond nature For more than twenty years thi...
For more than twenty years this laboratory has used directed evolution to modify enzymes. It is now...
Although enzymes are the product of millions of years of natural evolution, their properties are fre...
Tailor-made: Discussed herein is the ability to adapt biology's mechanisms for innovation and optimi...
Developing technologies such as unnatural amino acid mutagenesis, non-natural cofactor engineering, ...
AbstractRecent molecular techniques have made it feasible to simulate evolutionary processes and app...
Directed evolution is a method to tune the properties of enzymes for use in organic chemistry and bi...
Directed evolution is a method to tune the properties of enzymes for use in organic chemistry and bi...
The stunning array of features and functions exhibited by proteins in nature should convince most sc...
Directed evolution is a method to tune the properties of enzymes for use in organic chemistry and bi...
Directed evolution circumvents our profound ignorance of how a protein's sequence encodes its functi...
Directed evolution is a widely-used engineering strategy for improving the stabilities or biochemica...
There are near-to-infinite combinations of possibilities for evolution to happen within nature, maki...
Protein engineering has been the most attractive strategy for biologists to redesign enzymes. As the...
Enzymes have been evolving to catalyze new chemical reactions for billions of years, and will contin...
Present state of research on expanding enzyme catalysis beyond nature For more than twenty years thi...
For more than twenty years this laboratory has used directed evolution to modify enzymes. It is now...
Although enzymes are the product of millions of years of natural evolution, their properties are fre...
Tailor-made: Discussed herein is the ability to adapt biology's mechanisms for innovation and optimi...
Developing technologies such as unnatural amino acid mutagenesis, non-natural cofactor engineering, ...
AbstractRecent molecular techniques have made it feasible to simulate evolutionary processes and app...
Directed evolution is a method to tune the properties of enzymes for use in organic chemistry and bi...
Directed evolution is a method to tune the properties of enzymes for use in organic chemistry and bi...
The stunning array of features and functions exhibited by proteins in nature should convince most sc...
Directed evolution is a method to tune the properties of enzymes for use in organic chemistry and bi...