©2001 by Cold Spring Harbor LaboratoryDOI: 10.1101/ gr.87703Gene duplication is an important mechanistic antecedent to the evolution of new genes and novel biochemical functions. In an attempt to assess the contribution of gene duplication to genome evolution in archaea and bacteria, clusters of related genes that appear to have expanded subsequent to the diversification of the major prokaryotic lineages (lineage-specific expansions) were analyzed. Analysis of 21 completely sequenced prokaryotic genomes shows that lineage-specific expansions comprise a substantial fraction (∼5%–33%) of their coding capacities. A positive correlation exists between the fraction of the genes taken up by lineage-specific expansions and the total number of gene...
Gene duplication followed by neo- or sub-functionalization deeply impacts the evolution of protein f...
The common ancestry of archaea and eukaryotes is evident in their genome architecture. All eukaryoti...
What determines variation in genome size, gene content and genetic diversity at the broadest scales ...
Abstract Background Comparison of complete genomes of Bacteria and Archaea shows that gene content v...
The mechanisms that underlie the origin of major prokaryotic groups are poorly understood. In princi...
The mechanisms that underlie the origin of major prokaryotic groups are poorly understood. In princi...
Genomes of Bacteria and Archaea are extremely compact, almost devoid of noncoding DNA. Sizes of thes...
Explaining the diversity of gene repertoires has been a major problem in modern evolutionary biology...
© 2009 The Authors. This article is distributed under the terms of the Creative Commons Attribution ...
Over 3000 microbial (bacterial and archaeal) genomes have been made publically available to date, pr...
In the course of evolution, genomes are shaped by processes like gene loss, gene duplication, horizo...
Gene duplication followed by neo- or sub-functionalization deeply impacts the evolution of protein f...
The increase in phenotypic or morphological complexity in organisms may stem from a corresponding in...
Ammonia-oxidising archaea of the phylum Thaumarchaeota are important organisms in the nitrogen cycle...
In the course of evolution, genomes are shaped by processes like gene loss, gene duplication, horizo...
Gene duplication followed by neo- or sub-functionalization deeply impacts the evolution of protein f...
The common ancestry of archaea and eukaryotes is evident in their genome architecture. All eukaryoti...
What determines variation in genome size, gene content and genetic diversity at the broadest scales ...
Abstract Background Comparison of complete genomes of Bacteria and Archaea shows that gene content v...
The mechanisms that underlie the origin of major prokaryotic groups are poorly understood. In princi...
The mechanisms that underlie the origin of major prokaryotic groups are poorly understood. In princi...
Genomes of Bacteria and Archaea are extremely compact, almost devoid of noncoding DNA. Sizes of thes...
Explaining the diversity of gene repertoires has been a major problem in modern evolutionary biology...
© 2009 The Authors. This article is distributed under the terms of the Creative Commons Attribution ...
Over 3000 microbial (bacterial and archaeal) genomes have been made publically available to date, pr...
In the course of evolution, genomes are shaped by processes like gene loss, gene duplication, horizo...
Gene duplication followed by neo- or sub-functionalization deeply impacts the evolution of protein f...
The increase in phenotypic or morphological complexity in organisms may stem from a corresponding in...
Ammonia-oxidising archaea of the phylum Thaumarchaeota are important organisms in the nitrogen cycle...
In the course of evolution, genomes are shaped by processes like gene loss, gene duplication, horizo...
Gene duplication followed by neo- or sub-functionalization deeply impacts the evolution of protein f...
The common ancestry of archaea and eukaryotes is evident in their genome architecture. All eukaryoti...
What determines variation in genome size, gene content and genetic diversity at the broadest scales ...