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Molecular Characterization of TEM-type $\beta$-Lactamases Identified in Cold-Seep Sediments of Edison Seamount (South of Lihir Island, Papua New Guinea)  

Song Jae Seok (Department of Biological Sciences, Myongji University)
Jeon Jeong Ho (Marine Biotechnology Center, Korea Ocean Research & Development Institute)
Lee Jung Hun (Department of Biological Sciences, Myongji University, Marine Biotechnology Center, Korea Ocean Research & Development Institute)
Jeong Seok Hoon (Department of Laboratory Medicine, Kosin University College of Medicine)
Jeong Byeong Chul (Department of Biological Sciences, Myongji University)
Kim Sang Jin (Marine Biotechnology Center, Korea Ocean Research & Development Institute)
Lee Jung Hyun (Marine Biotechnology Center, Korea Ocean Research & Development Institute)
Lee Sang Hee (Department of Biological Sciences, Myongji University)
Publication Information
Journal of Microbiology / v.43, no.2, 2005 , pp. 172-178 More about this Journal
Abstract
To determine the prevalence and genotypes of $\beta$-lactamases among clones of a metagenomic library from the cold-seep sediments of Edison seamount (10,000 years old), we performed pulse-field gel electrophoresis, antibiotic susceptibility testing, pI determination, and DNA sequencing analysis. Among the 8,823 clones of the library, thirty clones produced $\beta$-lactamases and had high levels of genetic diversity. Consistent with minimum inhibitory concentration patterns, we found that five ($167\%$) of thirty clones produced an extended-spectrum $\beta$-lactamase. 837- and 259-bp fragments specific to bla$_{TEM}$ genes were amplified, as determined by banding patterns of PCR amplification with designed primers. TEM­1 was the most prevalent $\beta$-lactamase and conferred resistance to ampicillin, piperacillin, and cephalothin. TEM-116 had a spectrum that was extended to ceftazidime, cefotaxime, and aztreonam. The resistance levels conferred by the pre-antibiotic era alleles of TEM-type $\beta$-lactamases were essentially the same as the resistance levels conferred by the TEM-type alleles which had been isolated from clinically resistant strains of bacteria of the antibiotic era. Our first report on TEM-type $\beta$-lactamases of the pre-antibiotic era indicates that TEM-type $\beta$-lactamases paint a picture in which most of the diversity of the enzymes may not be the result of recent evolution, but that of ancient evolution.
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