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Antimicrobial Agents and Chemotherapy, Mar 1995, 739-745, Vol 39, No. 3
Copyright © 1995 by the American Society for Microbiology. All rights reserved.

Antigenic properties and immunoelectron microscopic localization of Mycobacterium fortuitum beta-lactamase

B Wagner, L Fattorini, M Wagner, SH Jin, R Stracke, G Amicosante, N Franceschini and G Orefici
Institute of Experimental Microbiology, University of Jena, Germany.

Mycobacterium fortuitum is a fast-growing Mycobacterium species which produces a beta-lactamase involved in the intrinsic resistance of the microorganism to beta-lactam antibiotics. An anti-beta-lactamase serum against the purified enzyme was raised in rabbits. Antibody binding was specific for native beta-lactamase, and enzyme activity was partially inhibited by the serum; furthermore, cross-reactions with denatured class A beta-lactamases were observed. This serum was used as a probe in immunogold labeling for the localization of the cell-bound beta- lactamase in both the low-level producer ATCC 19542 (parental strain) and the overproducer mutant D316. By the combination of preembedding immunogold labeling and replica technique, it was shown that the beta- lactamase was uniformly distributed on the whole external cell surface, where it appeared to be associated with a Tween 80-removable capsule- like material. Compared with the parental strain, a much higher level of expression of surface enzyme was observed in strain D316. Surface labeling was more intense in the stationary phase of growth than in exponentially growing cells. The data obtained are interpreted in the context of the intrinsic resistance of M. fortuitum to beta-lactam antibiotics.

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