Dataset Information
Differential selection and mutation between dsDNA and ssDNA phages shape the evolution of their genomic AT percentage.
Ontology highlight
ABSTRACT: Background
Bacterial genomes differ dramatically in AT%. We have developed a model to show that the genomic AT% in rapidly replicating bacterial species can be used as an index of the availability of nucleotides A and T for DNA replication in cellular medium. This index is then used to (1) study the evolution and adaptation of the bacteriophage genomic AT% in response to the differential nucleotide availability of the host and (2) test the prediction that double-stranded DNA (dsDNA) phage should exhibit better adaptation than single-stranded DNA (ssDNA) phage because the rate of spontaneous deamination, which leads to C-->T or C-->U mutations depending on whether C is methylated or not, is about 100-fold greater in ssDNA than in dsDNA.Results
We retrieved 79 dsDNA phage and 27 ssDNA phage genomes together with their host genomic sequences. The dsDNA phages have their genomic AT% better adapted to the host genomic AT% than ssDNA phage. The poorer adaptation of the ssDNA phage can be partially accounted for by the C-->T(U) mutations mediated by the spontaneous deamination. For ssDNA phage, the genomic A% is more strongly correlated with their host genomic AT% than the genomic T%.Conclusion
A significant fraction of variation in the genomic AT% in the dsDNA phage, and that in the genomic A% and T% of the ssDNA phage, can be explained by the difference in selection and mutation between them.
SUBMITTER: Xia X
PROVIDER: S-EPMC1087484 | biostudies-literature | 2005 Apr
REPOSITORIES: biostudies-literature
Publications
Differential selection and mutation between dsDNA and ssDNA phages shape the evolution of their genomic AT percentage.
BMC genetics 20050411
<h4>Background</h4>Bacterial genomes differ dramatically in AT%. We have developed a model to show that the genomic AT% in rapidly replicating bacterial species can be used as an index of the availability of nucleotides A and T for DNA replication in cellular medium. This index is then used to (1) study the evolution and adaptation of the bacteriophage genomic AT% in response to the differential nucleotide availability of the host and (2) test the prediction that double-stranded DNA (dsDNA) phag ...[more]
