Genetic and biochemical analysis of a novel Ambler class A β-Lactamase responsible for cefoxitin resistance in Bacteroides species.
Author
Parker, Anita C.; Smith, C. Jeffrey
Abstract
A clinical isolate of Bacteroides vulgatus was resistant to tetracycline, clindamycin, ampicillin, cephaloridine,
cefoxitin, and other 13-lactam antibiotics except imipenem. 13-Lactam resistance was mediated by a membraneassociated,
clavulanate-sensitive cephalosporinase capable of degrading cephalosporins and penicillins. Cefoxitin
also was degraded but at a slow rate. The cefoxitin resistance (Fxr) determinant was cloned from B.
vulgatus genomic libraries that were prepared in Escherichia coli and then mated with Bacteroidesfragilis for
the identification of Fxr strains. Analysis of B. fragilis strains with the cloned Fxr determinant revealed the
presence of a new 13-lactamase protein with the physical and enzymatic properties of the 13-lactamase found in
the original B. vulgatus isolate. The 13-lactamase gene (cftA) was subcloned on a 2.2-kb DraI-HindIII fragment,
and the nucleotide sequence was determined. These results showed that cfxA encoded a protein of 321 amino
acids and 35,375 molecular weight. Mutant strains in which the cfxA structural gene was disrupted by
insertional inactivation lost both Fxr and 13-lactamase activity. Comparison of CfxA with other f3-lactamases
showed a relationship with the active-site serine 13-lactamases in the Ambler molecular class A, although CfxA
had apparently diverged significantly. This was exemplified by the substitution in CfxA at 13 of 25 amino acid
residues previously identified as being invariant in class A 13-lactamases. These results suggest that CfxA may
represent a new class A homology group which diverged very early. Originally published Antimicrobial Agents and Chemotherapy, Vol. 37, No. 5, May 1993
Date
1993-05
Citation:
APA:
Parker, Anita C., & Smith, C. Jeffrey. (May 1993).
Genetic and biochemical analysis of a novel Ambler class A β-Lactamase responsible for cefoxitin resistance in Bacteroides species..
Antimicrobial Agents and Chemotherapy,
37(5),
1028-
1036. Retrieved from
http://hdl.handle.net/10342/3052
MLA:
Parker, Anita C., and Smith, C. Jeffrey.
"Genetic and biochemical analysis of a novel Ambler class A β-Lactamase responsible for cefoxitin resistance in Bacteroides species.". Antimicrobial Agents and Chemotherapy.
37:5. (1028-1036),
May 1993.
September 30, 2023.
http://hdl.handle.net/10342/3052.
Chicago:
Parker, Anita C. and Smith, C. Jeffrey,
"Genetic and biochemical analysis of a novel Ambler class A β-Lactamase responsible for cefoxitin resistance in Bacteroides species.," Antimicrobial Agents and Chemotherapy 37, no.
5 (May 1993),
http://hdl.handle.net/10342/3052 (accessed
September 30, 2023).
AMA:
Parker, Anita C., Smith, C. Jeffrey.
Genetic and biochemical analysis of a novel Ambler class A β-Lactamase responsible for cefoxitin resistance in Bacteroides species.. Antimicrobial Agents and Chemotherapy.
May 1993;
37(5):
1028-1036.
http://hdl.handle.net/10342/3052. Accessed
September 30, 2023.
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Publisher
East Carolina University