Add to ORKGThe boundaries between prokaryotes, unicellular eukaryotes, and multicellular eukaryotes are accompanied by orders-of-magnitude reductions in effective population size, with concurrent amplifications of the effects of random genetic drift and mutation1. The resultant decline in the efficiency of selection appears to be sufficient to influence a wide range of attributes at the genomic level in a nonadaptive manner2. A key remaining question concerns the extent to which variation in the power of random genetic drift is capable of influencing phylogenetic diversity at the subcellular and cellular levels2–4. Should this be the case, population size would have to be considered as a potential determinant of the mechanistic pathways underlying lon...
By analyzing complex biological networks, I explore the nascent field of systems biology to address ...
Evolutionary dynamics are controlled by a number of driving forces, such as natural selection, rando...
<div><p>Biological systems exhibit two structural features on many levels of organization: sparsenes...
The boundaries between prokaryotes, unicellular eukaryotes, and multicellular eukaryotes are accompa...
Abstract. Protein associations, whether transient or long-lasting, determine cellular processes and ...
Recent observations on rates of mutation, recombination, and random genetic drift highlight the dram...
The distribution of fitness effects (DFE) of new mutations plays a fundamental role in evolutionary ...
A major aim of evolutionary biology is to explain the respective roles of adaptive versus non-adapti...
Although the mechanisms by which complex cellular features evolve constitute one of the great unsolv...
Abstract That population size affects the fate of new mutations arising in genomes, modulating both ...
The nuclear genomes of multicellular animals and plants contain large amounts of noncoding DNA, the ...
The consistent observation across all kingdoms of life that highly abundant proteins evolve slowly d...
Developmental system drift is a likely mechanism for the origin of hybrid incompatibilities between ...
Biological phenomena can be examined at multiple levels of organization. For example, the role of in...
SummaryThe consistent observation across all kingdoms of life that highly abundant proteins evolve s...
By analyzing complex biological networks, I explore the nascent field of systems biology to address ...
Evolutionary dynamics are controlled by a number of driving forces, such as natural selection, rando...
<div><p>Biological systems exhibit two structural features on many levels of organization: sparsenes...
The boundaries between prokaryotes, unicellular eukaryotes, and multicellular eukaryotes are accompa...
Abstract. Protein associations, whether transient or long-lasting, determine cellular processes and ...
Recent observations on rates of mutation, recombination, and random genetic drift highlight the dram...
The distribution of fitness effects (DFE) of new mutations plays a fundamental role in evolutionary ...
A major aim of evolutionary biology is to explain the respective roles of adaptive versus non-adapti...
Although the mechanisms by which complex cellular features evolve constitute one of the great unsolv...
Abstract That population size affects the fate of new mutations arising in genomes, modulating both ...
The nuclear genomes of multicellular animals and plants contain large amounts of noncoding DNA, the ...
The consistent observation across all kingdoms of life that highly abundant proteins evolve slowly d...
Developmental system drift is a likely mechanism for the origin of hybrid incompatibilities between ...
Biological phenomena can be examined at multiple levels of organization. For example, the role of in...
SummaryThe consistent observation across all kingdoms of life that highly abundant proteins evolve s...
By analyzing complex biological networks, I explore the nascent field of systems biology to address ...
Evolutionary dynamics are controlled by a number of driving forces, such as natural selection, rando...
<div><p>Biological systems exhibit two structural features on many levels of organization: sparsenes...