Nature repurposes proteins via evolutionary processes. Such adaptation can come at the expense of the original protein's function, which is a trade-off of adaptation. We sought to examine other potential adaptive trade-offs. We measured the effect on ampicillin resistance of ~12,500 unique single amino acid mutants of the TEM-1, TEM-17, TEM-19, and TEM-15 β-lactamase alleles, which constitute an adaptive path in the evolution of cefotaxime resistance. These protein fitness landscapes were compared and used to calculate epistatic interactions between these mutations and the two mutations in the pathway (E104K and G238S). This series of protein fitness landscapes provides a systematic, quantitative description of pairwise/tertiary intragenic ...
For a quantitative understanding of the process of adaptation, we need to understand its “raw materi...
The principles governing protein evolution under strong selection are important because of the recen...
Because adaptation depends upon the fixation of novel beneficial mutations, the fitness effects of b...
Nature repurposes proteins via evolutionary processes. During evolution, the fitness landscapes of p...
Whether evolution is erratic due to random historical details, or is repeatedly directed along simil...
Multiple mutations often have non-additive (epistatic) phenotypic effects. Epistasis is of fundament...
Understanding epistasis is central to biology. For instance, epistatic interactions determine the to...
Understanding epistasis is central to biology. For instance, epistatic interactions determine the to...
Understanding the driving forces behind protein evolution requires the ability to correlate the mole...
The structure of fitness landscapes is critical for understanding adaptive protein evolution. Previo...
Mutations are central to evolution, providing the genetic variation upon which selection acts. A mut...
SummaryEvolvability—the capacity to generate beneficial heritable variation—is a central property of...
Epistatic interactions between resistance mutations in antibiotic-free environments potentially play...
<div><p>For a quantitative understanding of the process of adaptation, we need to understand its “ra...
Epistatic interactions between resistance mutations in antibiotic-free environments potentially play...
For a quantitative understanding of the process of adaptation, we need to understand its “raw materi...
The principles governing protein evolution under strong selection are important because of the recen...
Because adaptation depends upon the fixation of novel beneficial mutations, the fitness effects of b...
Nature repurposes proteins via evolutionary processes. During evolution, the fitness landscapes of p...
Whether evolution is erratic due to random historical details, or is repeatedly directed along simil...
Multiple mutations often have non-additive (epistatic) phenotypic effects. Epistasis is of fundament...
Understanding epistasis is central to biology. For instance, epistatic interactions determine the to...
Understanding epistasis is central to biology. For instance, epistatic interactions determine the to...
Understanding the driving forces behind protein evolution requires the ability to correlate the mole...
The structure of fitness landscapes is critical for understanding adaptive protein evolution. Previo...
Mutations are central to evolution, providing the genetic variation upon which selection acts. A mut...
SummaryEvolvability—the capacity to generate beneficial heritable variation—is a central property of...
Epistatic interactions between resistance mutations in antibiotic-free environments potentially play...
<div><p>For a quantitative understanding of the process of adaptation, we need to understand its “ra...
Epistatic interactions between resistance mutations in antibiotic-free environments potentially play...
For a quantitative understanding of the process of adaptation, we need to understand its “raw materi...
The principles governing protein evolution under strong selection are important because of the recen...
Because adaptation depends upon the fixation of novel beneficial mutations, the fitness effects of b...