Analysis of Vibrio cholerae genome sequences reveals unique rtxA variants in environmental strains and an rtxA-null mutation in recent altered EL tor isolates

Jazel Dolores, Karla J.F. Satchell

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24 Scopus citations

Abstract

Vibrio cholerae genome sequences were analyzed for variation in the rtxA gene that encodes the multifunctional autoprocessing RTX (MARTX) toxin. To accommodate genomic analysis, a discrepancy in the annotated rtxA start site was resolved experimentally. The correct start site is an ATG downstream from rtxC resulting in a gene of 13,638 bp and deduced protein of 4,545 amino acids. Among the El Tor O1 and closely related O139 and O37 genomes, rtxA was highly conserved, with nine alleles differing by only 1 to 6 nucleotides in 100 years. In contrast, 12 alleles from environment-associated isolates are highly variable, at 1 to 3% by nucleotide and 3 to 7% by amino acid. The difference in variation rates did not represent a bias for conservation of the El Tor rtxA compared to that of other strains but rather reflected the lack of gene variation in overall genomes. Three alleles were identified that would affect the function of the MARTX toxin. Two environmental isolates carry novel arrangements of effector domains. These include a variant from RC385 that would suggest an adenylate cyclase toxin and from HE-09 that may have actin ADP-ribosylating activity. Within the recently emerged altered El Tor strains that have a classical ctxB gene, a mutation arose in rtxA that introduces a premature stop codon that disabled toxin function. This null mutant is the genetic background for subsequent emergence of the ctxB7 allele resulting in the strain that spread into Haiti in 2010. Thus, similar to classical strains, the altered El Tor pandemic strains eliminated rtxA after acquiring a classical ctxB.

Original languageEnglish (US)
Article numbere00624-12
JournalmBio
Volume4
Issue number2
DOIs
StatePublished - Mar 1 2013

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ASJC Scopus subject areas

  • Microbiology
  • Virology

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