Developing technologies such as unnatural amino acid mutagenesis, non-natural cofactor engineering, and computational design are generating proteins with novel functions; these proteins, however, often do not reach performance targets and would benefit from further optimization. Evolutionary methods can complement these approaches: recent work combining unnatural amino acid mutagenesis and phage selection has created useful proteins of novel composition. Weak initial activity in a computationally designed enzyme has been improved by iterative rounds of mutagenesis and screening. A marriage of ingenuity and evolution will expand the scope of protein function well beyond Mother Nature's designs
Conventional in vivo directed evolution methods have primarily linked the biomolecule’s activity to ...
Both natural mutations occurring in a homologous enzyme family and mutations engineered in a given p...
The rational design of enzymes is an important goal for both fundamental and practical reasons. Here...
The stunning array of features and functions exhibited by proteins in nature should convince most sc...
Protein design is a challenging problem. We do not fully understand the rules of protein folding, an...
Directed evolution can generate a remarkable range of new enzyme properties. Alternate substrate spe...
AbstractRecent molecular techniques have made it feasible to simulate evolutionary processes and app...
Enzyme design and evolution strategies rely exclusively on Nature’s standard amino acid alphabet of ...
Directed evolution circumvents our profound ignorance of how a protein's sequence encodes its functi...
Constructing novel biological systems that function in a robust and predictable manner requires bett...
Protein engineering has been the most attractive strategy for biologists to redesign enzymes. As the...
Biocatalysis offers an attractive alternative to traditional chemical catalysis. However, it is ofte...
AbstractBackground: Molecular diversity in nature is developed through a combination of genetic and ...
The emergence of robust methods to expand the genetic code allows incorporation of non-canonical ami...
Tailor-made: Discussed herein is the ability to adapt biology's mechanisms for innovation and optimi...
Conventional in vivo directed evolution methods have primarily linked the biomolecule’s activity to ...
Both natural mutations occurring in a homologous enzyme family and mutations engineered in a given p...
The rational design of enzymes is an important goal for both fundamental and practical reasons. Here...
The stunning array of features and functions exhibited by proteins in nature should convince most sc...
Protein design is a challenging problem. We do not fully understand the rules of protein folding, an...
Directed evolution can generate a remarkable range of new enzyme properties. Alternate substrate spe...
AbstractRecent molecular techniques have made it feasible to simulate evolutionary processes and app...
Enzyme design and evolution strategies rely exclusively on Nature’s standard amino acid alphabet of ...
Directed evolution circumvents our profound ignorance of how a protein's sequence encodes its functi...
Constructing novel biological systems that function in a robust and predictable manner requires bett...
Protein engineering has been the most attractive strategy for biologists to redesign enzymes. As the...
Biocatalysis offers an attractive alternative to traditional chemical catalysis. However, it is ofte...
AbstractBackground: Molecular diversity in nature is developed through a combination of genetic and ...
The emergence of robust methods to expand the genetic code allows incorporation of non-canonical ami...
Tailor-made: Discussed herein is the ability to adapt biology's mechanisms for innovation and optimi...
Conventional in vivo directed evolution methods have primarily linked the biomolecule’s activity to ...
Both natural mutations occurring in a homologous enzyme family and mutations engineered in a given p...
The rational design of enzymes is an important goal for both fundamental and practical reasons. Here...