S H Lee1, S H Jeong, Y-M Park. 1. Department of Biological Science, Myongji University, San 38-2 Namdong, Yongin, Kyunggido, South Korea. sanghee@mju.ac.kr
Abstract
AIMS: We report the description of a novel plasmid-encoded AmpC beta-lactamase gene (blaCMY-10) from Enterobacter aerogenes K9911729 that was isolated from a patient suffering from pneumonia in South Korea. METHODS AND RESULTS: Using antibiotic susceptibility testing, plasmid analysis, transconjugation and Southern blot analysis, the cefoxitin resistance phenotype reflects the presence of a large plasmid [pYMG-1 (130 kb)] in Ent. aerogenes K9911729. One beta-lactamase with the pI of 8.0 from transconjugant of Ent. aerogenes K9911729 was identified by isoelectric focusing on a gel. A 1475 bp DNA fragment containing the blaCMY-10 gene, identified on pYMG-1 of Ent. aerogenes K9911729, was sequenced and an open reading frame coding for 382 amino acid, CMY-10, was found. The 37 class C beta-lactamases were subclassified into 1a to 1j and CMY-10 into 1a by phylogenetic analysis. A sequence identical to the common regions in In6, In7 and a novel integron from pSAL-1 was found upstream from blaCMY-10 gene at nucleotide 1-71. CONCLUSIONS: These results clearly show that blaCMY-10 gene belongs to the group of ampC-related bla genes. Homology analysis among AmpC enzymes or ampC genes implied that integration of the chromosomal ampC gene into a large resident plasmid, followed by transconjugation, was involved in the evolution of blaCMY-10 gene. SIGNIFICANCE AND IMPACT OF THE STUDY: The first identification of the blaCMY-10 gene is of concern as chromosomal beta-lactamases may cause serious therapeutic problems if their genes are translocated onto plasmids.
AIMS: We report the description of a novel plasmid-encoded AmpC beta-lactamase gene (blaCMY-10) from Enterobacter aerogenes K9911729 that was isolated from a patient suffering from pneumonia in South Korea. METHODS AND RESULTS: Using antibiotic susceptibility testing, plasmid analysis, transconjugation and Southern blot analysis, the cefoxitin resistance phenotype reflects the presence of a large plasmid [pYMG-1 (130 kb)] in Ent. aerogenes K9911729. One beta-lactamase with the pI of 8.0 from transconjugant of Ent. aerogenes K9911729 was identified by isoelectric focusing on a gel. A 1475 bp DNA fragment containing the blaCMY-10 gene, identified on pYMG-1 of Ent. aerogenes K9911729, was sequenced and an open reading frame coding for 382 amino acid, CMY-10, was found. The 37 class C beta-lactamases were subclassified into 1a to 1j and CMY-10 into 1a by phylogenetic analysis. A sequence identical to the common regions in In6, In7 and a novel integron from pSAL-1 was found upstream from blaCMY-10 gene at nucleotide 1-71. CONCLUSIONS: These results clearly show that blaCMY-10 gene belongs to the group of ampC-related bla genes. Homology analysis among AmpC enzymes or ampC genes implied that integration of the chromosomal ampC gene into a large resident plasmid, followed by transconjugation, was involved in the evolution of blaCMY-10 gene. SIGNIFICANCE AND IMPACT OF THE STUDY: The first identification of the blaCMY-10 gene is of concern as chromosomal beta-lactamases may cause serious therapeutic problems if their genes are translocated onto plasmids.
Authors: Lin Teng; Shinyoung Lee; Amber Ginn; Sarah M Markland; Raies A Mir; Nicolas DiLorenzo; Christina Boucher; Mattia Prosperi; Judith Johnson; J Glenn Morris; Kwangcheol C Jeong Journal: Appl Environ Microbiol Date: 2019-06-17 Impact factor: 4.792
Authors: Jeong Ho Jeon; Jung Hun Lee; Jae Jin Lee; Kwang Seung Park; Asad Mustafa Karim; Chang-Ro Lee; Byeong Chul Jeong; Sang Hee Lee Journal: Int J Mol Sci Date: 2015-04-29 Impact factor: 5.923