The Single-Stranded Genome of Phage CTX Is the Form Used for Integration into the Genome of Vibrio cholerae

A major determinant of Vibrio cholerae pathogenicity, the cholera enterotoxin, is encoded in the genome of an integrated phage, CTX ϕ. CTX ϕ integration depends on two host-encoded tyrosine recombinases, XerC and XerD. It occurs at dif1, a 28 bp site on V. cholerae chromosome 1 normally used by XerC...

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Bibliographic Details
Published in:Molecular cell 2005-08, Vol.19 (4), p.559-566
Main Authors: Val, Marie-Eve, Bouvier, Marie, Campos, Javier, Sherratt, David, Cornet, François, Mazel, Didier, Barre, François-Xavier
Format: Article
Language:English
Subjects:
Base Sequence
Biochemistry, Molecular Biology
DNA, Single-Stranded - genetics
Genome, Bacterial
Genome, Viral
Life Sciences
Models, Biological
Molecular Sequence Data
Molecular Structure
Pseudomonas Phages - genetics
Vibrio cholerae - genetics
Virus Integration - genetics
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Summary:A major determinant of Vibrio cholerae pathogenicity, the cholera enterotoxin, is encoded in the genome of an integrated phage, CTX ϕ. CTX ϕ integration depends on two host-encoded tyrosine recombinases, XerC and XerD. It occurs at dif1, a 28 bp site on V. cholerae chromosome 1 normally used by XerCD for chromosome dimer resolution. The replicative form of the phage contains two pairs of binding sites for XerC and XerD in inverted orientations. Here we show that in the single-stranded genome of the phage, these sites fold into a hairpin structure, which creates a recombination target for XerCD. In the presence of XerD, XerC can catalyze a single pair of strand exchanges between this target and dif1, resulting in integration of the phage. This integration strategy explains why the rules that normally apply to tyrosine recombinase reactions seemed not to apply to CTX ϕ integration and, in particular, why integration is irreversible.
ISSN:1097-2765
1097-4164
DOI:10.1016/j.molcel.2005.07.002