Document Type
Article
Publication Title
Antimicrobial Agents and Chemotherapy
Publication Date
11-1998
Volume
42
Issue
11
Disciplines
Biology | Life Sciences
Abstract
This study describes the first isolation and characterization of spontaneous mutants conferring natural resistance to an antibiotic for any Bartonella species. The Bartonella bacilliformis gyrB gene, which encodes the B subunit of DNA gyrase, was cloned and sequenced. The gyrB open reading frame (ORF) is 2,079 bp and encodes a deduced amino acid sequence of 692 residues, corresponding to a predicted protein of similar to 77.5 kDa. Sequence alignment indicates that B. bacilliformis GyrB is most similar to the GyrB protein from Bacillus subtilis (40.1% amino acid sequence identity) and that it contains the longest N-terminal tail (52 residues) of any GyrB characterized to date. The cloned B. bacilliformis gyrB was expressed in an Escherichia coil S30 cell extract and was able to functionally complement a temperature-sensitive E. coli Cou(r) gyrB mutant (strain N4177). We isolated and characterized spontaneous mutants of B. bacilliformis resistant to coumermycin A(1), an antibiotic that targets GyrB. Sequence analysis of gyrB from 12 Cou(r) mutants of B. bacilliformis identified single nucleotide transitions at three separate loci in the ORF. The predicted amino acid substitutions resulting from these transitions are Gly to Ser at position 124 (Gly124-->Ser), Arg184-->Gln, and Thr214-->Ala or Thr214-->Ile, which are analogous to mutated residues found in previously characterized resistant gyrB genes from Borrelia burgdorferi, E. coil, Staphylococcus aureus, and Haloferax sp. The Cou(r) mutants are three to five times more resistant to coumermycin A(1) than the wild-type parental strain.
DOI
10.1128/JB.184.21.6069-6072.2002
Recommended Citation
Battisti, James M.; Smitherman, Laura A.; Samuels, D. Scott; and Minnick, Michael F., "Mutations in Bartonella Bacilliformis gyrB Confer Resistance to Coumermycin A(1)" (1998). Biological Sciences Faculty Publications. 8.
https://scholarworks.umt.edu/biosci_pubs/8