Conventional in vivo directed evolution methods have primarily linked the biomolecule’s activity to bacterial cell growth. Recent developments instead rely on the conditional growth of bacteriophages (phages), viruses that infect and replicate within bacteria. Here we review recent phage-based selection systems for in vivo directed evolution. These approaches have been applied to evolve a wide range of proteins including transcription factors, polymerases, proteases, DNA-binding proteins, and protein-protein interactions. Advances in this field expand the possible applications of protein and RNA engineering. This will ultimately result in new biomolecules with tailor-made properties, as well as giving us a better understanding of basic evol...
Although enzymes are the product of millions of years of natural evolution, their properties are fre...
Constructing novel biological systems that function in a robust and predictable manner requires bett...
Life on Earth is incredibly diverse. Yet, underneath that diversity, there are a number of constants...
Conventional in vivo directed evolution methods have primarily linked the biomolecule's activity to ...
Directed evolution is a powerful tool to improve the characteristics of biomolecules. Here we presen...
Protein evolution is a critical component of organismal evolution and a valuable method for the gene...
Laboratory evolution has generated many biomolecules with desired properties, but a single round of ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemistry, February, 2020Catalo...
Phage-assisted continuous evolution (PACE) uses a modified filamentous bacteriophage life cycle to d...
Protein engineering has been the most attractive strategy for biologists to redesign enzymes. As the...
The development and application of methods for the laboratory evolution of biomolecules has rapidly ...
Since the establishment of molecular biology until the present, a shift has taken place by which eng...
Proteins, large biological molecules synthesized by living organisms, serve a wide array of function...
Developing technologies such as unnatural amino acid mutagenesis, non-natural cofactor engineering, ...
A review. Directed evolution consists of repetitive cycles of random mutagenesis of the protein/pept...
Although enzymes are the product of millions of years of natural evolution, their properties are fre...
Constructing novel biological systems that function in a robust and predictable manner requires bett...
Life on Earth is incredibly diverse. Yet, underneath that diversity, there are a number of constants...
Conventional in vivo directed evolution methods have primarily linked the biomolecule's activity to ...
Directed evolution is a powerful tool to improve the characteristics of biomolecules. Here we presen...
Protein evolution is a critical component of organismal evolution and a valuable method for the gene...
Laboratory evolution has generated many biomolecules with desired properties, but a single round of ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemistry, February, 2020Catalo...
Phage-assisted continuous evolution (PACE) uses a modified filamentous bacteriophage life cycle to d...
Protein engineering has been the most attractive strategy for biologists to redesign enzymes. As the...
The development and application of methods for the laboratory evolution of biomolecules has rapidly ...
Since the establishment of molecular biology until the present, a shift has taken place by which eng...
Proteins, large biological molecules synthesized by living organisms, serve a wide array of function...
Developing technologies such as unnatural amino acid mutagenesis, non-natural cofactor engineering, ...
A review. Directed evolution consists of repetitive cycles of random mutagenesis of the protein/pept...
Although enzymes are the product of millions of years of natural evolution, their properties are fre...
Constructing novel biological systems that function in a robust and predictable manner requires bett...
Life on Earth is incredibly diverse. Yet, underneath that diversity, there are a number of constants...