Add to ORKGProteins evolve at different rates. What drives the speed of protein sequence changes? Two main factors are a protein's folding stability and aggregation propensity. By combining the hydrophobic-polar (HP) model with the Zwanzig-Szabo-Bagchi rate theory, we find that: (i) Adaptation is strongly accelerated by selection pressure, explaining the broad variation from days to thousands of years over which organisms adapt to new environments. (ii) The proteins that adapt fastest are those that are not very stably folded, because their fitness landscapes are steepest. And because heating destabilizes folded proteins, we predict that cells should adapt faster when put into warmer rather than cooler environments. (iii) Increasing protein abundance ...
<div><p>Nature has shaped the make up of proteins since their appearance, 3.8 billion years ago. How...
Evolutionary-rate variation among sites within proteins depends on functional and biophysical proper...
Motivation: Amino acid changing mutations in proteins are contstrained by purifying selection and ac...
Proteins evolve at different rates. What drives the speed of protein sequence changes? Two main fact...
SummaryThe consistent observation across all kingdoms of life that highly abundant proteins evolve s...
The consistent observation across all kingdoms of life that highly abundant proteins evolve slowly d...
requirement for highly expressed proteins to evolve slowly. Lastly, we predict from multiscale evolu...
The sequences of proteins encoded by a genome evolve at different rates. A correlate of a protein’s ...
Although molecular chaperones are essential components of protein homeostatic machinery, their mecha...
Motivation: Amino acid changing mutations in proteins are contstrained by purifying selection and ac...
The number of amino acids that occupy a given protein site during evolution reflects the selective c...
It is currently unclear whether the amino acid substitutions that occur during protein evolution are...
Classical population genetics a priori assigns fitness to alleles without considering molecular or f...
Thermodynamic stability is a crucial fitness constraint in protein evolution and is a central factor...
Distribution of species across the Earth shows strong latitudinal and altitudinal gradients with the...
<div><p>Nature has shaped the make up of proteins since their appearance, 3.8 billion years ago. How...
Evolutionary-rate variation among sites within proteins depends on functional and biophysical proper...
Motivation: Amino acid changing mutations in proteins are contstrained by purifying selection and ac...
Proteins evolve at different rates. What drives the speed of protein sequence changes? Two main fact...
SummaryThe consistent observation across all kingdoms of life that highly abundant proteins evolve s...
The consistent observation across all kingdoms of life that highly abundant proteins evolve slowly d...
requirement for highly expressed proteins to evolve slowly. Lastly, we predict from multiscale evolu...
The sequences of proteins encoded by a genome evolve at different rates. A correlate of a protein’s ...
Although molecular chaperones are essential components of protein homeostatic machinery, their mecha...
Motivation: Amino acid changing mutations in proteins are contstrained by purifying selection and ac...
The number of amino acids that occupy a given protein site during evolution reflects the selective c...
It is currently unclear whether the amino acid substitutions that occur during protein evolution are...
Classical population genetics a priori assigns fitness to alleles without considering molecular or f...
Thermodynamic stability is a crucial fitness constraint in protein evolution and is a central factor...
Distribution of species across the Earth shows strong latitudinal and altitudinal gradients with the...
<div><p>Nature has shaped the make up of proteins since their appearance, 3.8 billion years ago. How...
Evolutionary-rate variation among sites within proteins depends on functional and biophysical proper...
Motivation: Amino acid changing mutations in proteins are contstrained by purifying selection and ac...