The diverse array of protein functions depends upon these molecules' reliable ability to fold into the native structures determined by their amino-acid sequences. Because mutations that alter a protein's sequence frequently disrupt its folding, protein evolution explores protein sequence space conservatively, either by point mutations or recombination between related sequences. Attempts to engineer proteins by co-opting the evolutionary algorithm have also largely proceeded by the stepwise accumulation of beneficial mutations. Other strategies for directed evolution have focused on introducing many mutations at once as a way to increase the likelihood of finding improved variants, attempting to balance higher mutational diversity with lo...
Proteins are tiny models of biological complexity: specific interactions among their many amino acid...
Genetic recombination is a common evolutionary mechanism that produces molecular diversity. However,...
The consistent observation across all kingdoms of life that highly abundant proteins evolve slowly d...
Proteins are evolvable in the sense that they are readily able to acquire new or improved functions ...
Directed evolution circumvents our profound ignorance of how a protein's sequence encodes its functi...
What determines the rate of protein evolution is a fundamental question in biology. Recent genomic s...
Mathematical and statistical models are useful for describing and understanding observations in gene...
Directed evolution has proven a successful strategy for protein engineering. To accelerate the disco...
Understanding the protein fitness landscape is important for describing how natural proteins evolve ...
Mutations are central to evolution, providing the genetic variation upon which selection acts. A mut...
Much recent work has explored molecular and population-genetic constraints on the rate of protein se...
Genetic variation among orthologous proteins can cause cryptic phenotypic properties that only manif...
How do proteins evolve? How do changes in sequence mediate changes in protein structure, and in turn...
Proteins are integral to all cellular processes and underpin the function of all extant organisms, m...
Protein evolution is a critical component of organismal evolution and a valuable method for the gene...
Proteins are tiny models of biological complexity: specific interactions among their many amino acid...
Genetic recombination is a common evolutionary mechanism that produces molecular diversity. However,...
The consistent observation across all kingdoms of life that highly abundant proteins evolve slowly d...
Proteins are evolvable in the sense that they are readily able to acquire new or improved functions ...
Directed evolution circumvents our profound ignorance of how a protein's sequence encodes its functi...
What determines the rate of protein evolution is a fundamental question in biology. Recent genomic s...
Mathematical and statistical models are useful for describing and understanding observations in gene...
Directed evolution has proven a successful strategy for protein engineering. To accelerate the disco...
Understanding the protein fitness landscape is important for describing how natural proteins evolve ...
Mutations are central to evolution, providing the genetic variation upon which selection acts. A mut...
Much recent work has explored molecular and population-genetic constraints on the rate of protein se...
Genetic variation among orthologous proteins can cause cryptic phenotypic properties that only manif...
How do proteins evolve? How do changes in sequence mediate changes in protein structure, and in turn...
Proteins are integral to all cellular processes and underpin the function of all extant organisms, m...
Protein evolution is a critical component of organismal evolution and a valuable method for the gene...
Proteins are tiny models of biological complexity: specific interactions among their many amino acid...
Genetic recombination is a common evolutionary mechanism that produces molecular diversity. However,...
The consistent observation across all kingdoms of life that highly abundant proteins evolve slowly d...