Add to ORKGComparing gene expression profiles over many different conditions has led to insights that were not obvious from single experiments. In the same way, comparing patterns of natural selection across a set of ecologically distinct species may extend what can be learned from individual genome-wide surveys. Toward this end, we show how variation in protein evolutionary rates, after correcting for genome-wide effects such as mutation rate and demographic factors, can be used to estimate the level and types of natural selection acting on genes across different species. We identify unusually rapidly and slowly evolving genes, relative to empirically derived genome-wide and gene family-specific background rates for 744 core protein families in 30 ga...
Biology is primarily concerned with the study of all phenotypic aspects of living organisms and evol...
To fully understand the genetic basis of adaptation, we need to know its predictability—the extent t...
Directed evolution circumvents our profound ignorance of how a protein's sequence encodes its functi...
Comparing gene expression profiles over many different conditions has led to insights that were not ...
Comparing gene expression profiles over many different conditions has led to insights that were not ...
Continued genome sequencing has fueled progress in statistical methods for understanding the action ...
Different microbial species are thought to occupy distinct ecological niches, subjecting each specie...
Populations evolve as mutations arise in individual organisms and, through hereditary transmission, ...
Abstract Adaptation in protein-coding sequences can be detected from multiple sequence alignments ac...
Over the past four decades, the predominant view of molecular evolution saw little connection betwee...
<p><strong>Introduction.</strong> Over 3500 microbial genomes have been sequenced and this number ri...
Research presented in this thesis focuses on using evolutionary rates to detect the fingerprint of n...
Experimental evolution is relevant to ecology because it can connect physiology, and in particular m...
A complete understanding of the role of natural selection in driving evolutionary change requires ac...
Abstract Different microbial species are thought to occupy distinct ecological niches, subjecting ea...
Biology is primarily concerned with the study of all phenotypic aspects of living organisms and evol...
To fully understand the genetic basis of adaptation, we need to know its predictability—the extent t...
Directed evolution circumvents our profound ignorance of how a protein's sequence encodes its functi...
Comparing gene expression profiles over many different conditions has led to insights that were not ...
Comparing gene expression profiles over many different conditions has led to insights that were not ...
Continued genome sequencing has fueled progress in statistical methods for understanding the action ...
Different microbial species are thought to occupy distinct ecological niches, subjecting each specie...
Populations evolve as mutations arise in individual organisms and, through hereditary transmission, ...
Abstract Adaptation in protein-coding sequences can be detected from multiple sequence alignments ac...
Over the past four decades, the predominant view of molecular evolution saw little connection betwee...
<p><strong>Introduction.</strong> Over 3500 microbial genomes have been sequenced and this number ri...
Research presented in this thesis focuses on using evolutionary rates to detect the fingerprint of n...
Experimental evolution is relevant to ecology because it can connect physiology, and in particular m...
A complete understanding of the role of natural selection in driving evolutionary change requires ac...
Abstract Different microbial species are thought to occupy distinct ecological niches, subjecting ea...
Biology is primarily concerned with the study of all phenotypic aspects of living organisms and evol...
To fully understand the genetic basis of adaptation, we need to know its predictability—the extent t...
Directed evolution circumvents our profound ignorance of how a protein's sequence encodes its functi...