Temporal Fragmentation of Speciation in Bacteria

Because bacterial recombination involves the occasional transfer of small DNA fragments between strains, different sets of niche-specific genes may be maintained in populations that freely recombine at other loci. Therefore, genetic isolation may be established at different times for different chrom...

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Published inScience (American Association for the Advancement of Science) Vol. 317; no. 5841; pp. 1093 - 1096
Main Authors Retchless, Adam C, Lawrence, Jeffrey G
Format Journal Article
LanguageEnglish
Published Washington, DC American Association for the Advancement of Science 24.08.2007
The American Association for the Advancement of Science
Subjects
Algorithms
Animal genetics
bacteria
Bacteriology
Biological and medical sciences
biological speciation
Buchnera - genetics
Chromosomes
Chromosomes, Bacterial
Deoxyribonucleic acid
DNA
DNA fragmentation
E coli
Escherichia
Escherichia coli
Escherichia coli - genetics
Evolutionary biology
Evolutionary genetics
Fundamental and applied biological sciences. Psychology
Gene loci
Genes
Genes, Bacterial
Genetic loci
genetic recombination
Genetic Speciation
Genetics
Genome, Bacterial
Genomes
Human genetics
loci
microbial genetics
Microbiology
Models, Genetic
Niches
Recombination, Genetic
Salmonella
Salmonella enterica
Salmonella enterica - genetics
Speciation
Species
Species Specificity
Time Factors
Salmonella
Recombination
Escherichia coli
Chromosome
Species specificity
Strain
Molecular evolution
Gene
Bacteria
Genetics
Isolation
Models
Speciation
Enterobacteriaceae
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Abstract Because bacterial recombination involves the occasional transfer of small DNA fragments between strains, different sets of niche-specific genes may be maintained in populations that freely recombine at other loci. Therefore, genetic isolation may be established at different times for different chromosomal regions during speciation as recombination at niche-specific genes is curtailed. To test this model, we separated sequence divergence into rate and time components, revealing that different regions of the Escherichia coli and Salmonella enterica chromosomes diverged over a ~70-million-year period. Genetic isolation first occurred at regions carrying species-specific genes, indicating that physiological distinctiveness between the nascent Escherichia and Salmonella lineages was maintained for tens of millions of years before the complete genetic isolation of their chromosomes.
AbstractList Because bacterial recombination involves the occasional transfer of small DNA fragments between strains, different sets of niche-specific genes may be maintained in populations that freely recombine at other loci. Therefore, genetic isolation may be established at different times for different chromosomal regions during speciation as recombination at niche-specific genes is curtailed. To test this model, we separated sequence divergence into rate and time components, revealing that different regions of the Escherichia coli and Salmonella enterica chromosomes diverged over a ∼70-million-year period. Genetic isolation first occurred at regions carrying species-specific genes, indicating that physiological distinctiveness between the nascent Escherichia and Salmonella lineages was maintained for tens of millions of years before the complete genetic isolation of their chromosomes.
Because bacterial recombination involves the occasional transfer of small DNA fragments between strains, different sets of niche-specific genes may be maintained in populations that freely recombine at other loci. Therefore, genetic isolation may be established at different times for different chromosomal regions during speciation as recombination at niche-specific genes is curtailed. To test this model, we separated sequence divergence into rate and time components, revealing that different regions of the Escherichia coli and Salmonella enterica chromosomes diverged over a approximately 70-million-year period. Genetic isolation first occurred at regions carrying species-specific genes, indicating that physiological distinctiveness between the nascent Escherichia and Salmonella lineages was maintained for tens of millions of years before the complete genetic isolation of their chromosomes.
Because bacterial recombination involves the occasional transfer of small DNA fragments between strains, different sets of niche-specific genes may be maintained in populations that freely recombine at other loci. Therefore, genetic isolation may be established at different times for different chromosomal regions during speciation as recombination at niche-specific genes is curtailed. To test this model, we separated sequence divergence into rate and time components, revealing that different regions of the Escherichia coli and Salmonella enterica chromosomes diverged over a ∼70-million-year period. Genetic isolation first occurred at regions carrying species-specific genes, indicating that physiological distinctiveness between the nascent Escherichia and Salmonella lineages was maintained for tens of millions of years before the complete genetic isolation of their chromosomes.
Because bacterial recombination involves the occasional transfer of small DNA fragments between strains, different sets of niche-specific genes may be maintained in populations that freely recombine at other loci. Therefore, genetic isolation may be established at different times for different chromosomal regions during speciation as recombination at niche-specific genes is curtailed. To test this model, we separated sequence divergence into rate and time components, revealing that different regions of the Escherichia coli and Salmonella enterica chromosomes diverged over a ~70-million-year period. Genetic isolation first occurred at regions carrying species-specific genes, indicating that physiological distinctiveness between the nascent Escherichia and Salmonella lineages was maintained for tens of millions of years before the complete genetic isolation of their chromosomes.
Because bacterial recombination involves the occasional transfer of small DNA fragments between strains, different sets of niche-specific genes may be maintained in populations that freely recombine at other loci. Therefore, genetic isolation may be established at different times for different chromosomal regions during speciation as recombination at niche-specific genes is curtailed. To test this model, we separated sequence divergence into rate and time components, revealing that different regions of the Escherichia coli and Salmonella enterica chromosomes diverged over a approximately 70-million-year period. Genetic isolation first occurred at regions carrying species-specific genes, indicating that physiological distinctiveness between the nascent Escherichia and Salmonella lineages was maintained for tens of millions of years before the complete genetic isolation of their chromosomes.Because bacterial recombination involves the occasional transfer of small DNA fragments between strains, different sets of niche-specific genes may be maintained in populations that freely recombine at other loci. Therefore, genetic isolation may be established at different times for different chromosomal regions during speciation as recombination at niche-specific genes is curtailed. To test this model, we separated sequence divergence into rate and time components, revealing that different regions of the Escherichia coli and Salmonella enterica chromosomes diverged over a approximately 70-million-year period. Genetic isolation first occurred at regions carrying species-specific genes, indicating that physiological distinctiveness between the nascent Escherichia and Salmonella lineages was maintained for tens of millions of years before the complete genetic isolation of their chromosomes.
Because bacterial recombination involves the occasional transfer of small DNA fragments between strains, different sets of niche-specific genes may be maintained in populations that freely recombine at other loci. Therefore, genetic isolation may be established at different times for different chromosomal regions during speciation as recombination at niche-specific genes is curtailed. To test this model, we separated sequence divergence into rate and time components, revealing that different regions of the Escherichia coli and Salmonella enterica chromosomes diverged over a ~70-million-year period. Genetic isolation first occurred at regions carrying species-specific genes, indicating that physiological distinctiveness between the nascent Escherichia and Salmonella lineages was maintained for tens of millions of years before the complete genetic isolation of their chromosomes. [PUBLICATION ABSTRACT]
Author Lawrence, Jeffrey G
Retchless, Adam C
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IsPeerReviewed true
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Issue 5841
Keywords Salmonella
Recombination
Escherichia coli
Chromosome
Species specificity
Strain
Molecular evolution
Gene
Bacteria
Genetics
Isolation
Models
Speciation
Enterobacteriaceae
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Snippet Because bacterial recombination involves the occasional transfer of small DNA fragments between strains, different sets of niche-specific genes may be...
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SubjectTerms Algorithms
Animal genetics
bacteria
Bacteriology
Biological and medical sciences
biological speciation
Buchnera - genetics
Chromosomes
Chromosomes, Bacterial
Deoxyribonucleic acid
DNA
DNA fragmentation
E coli
Escherichia
Escherichia coli
Escherichia coli - genetics
Evolutionary biology
Evolutionary genetics
Fundamental and applied biological sciences. Psychology
Gene loci
Genes
Genes, Bacterial
Genetic loci
genetic recombination
Genetic Speciation
Genetics
Genome, Bacterial
Genomes
Human genetics
loci
microbial genetics
Microbiology
Models, Genetic
Niches
Recombination, Genetic
Salmonella
Salmonella enterica
Salmonella enterica - genetics
Speciation
Species
Species Specificity
Time Factors
Title Temporal Fragmentation of Speciation in Bacteria
URI https://www.jstor.org/stable/20037662
https://www.ncbi.nlm.nih.gov/pubmed/17717188
https://www.proquest.com/docview/213586781
https://www.proquest.com/docview/47418376
https://www.proquest.com/docview/68197264
Volume 317
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