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Journal of Clinical Microbiology, 05 1997, 1190-1195, Vol 35, No. 5
Copyright © 1997 by the American Society for Microbiology. All rights reserved.

Analysis of genetic polymorphism in the phospholipase region of Mycobacterium tuberculosis

L Vera-Cabrera, ST Howard, A Laszlo and WM Johnson
Bureau of Microbiology, Laboratory Centre for Disease Control, Ottawa, Canada.

mtp40 was originally identified as a short genomic region that was found in strains of Mycobacterium tuberculosis but not in Mycobacterium bovis. Subsequent studies have revealed that the sequence is part of the mpcA gene, which encodes a phospholipase C. To investigate further the distribution of the mtp40 sequence, we analyzed strains of the M. tuberculosis complex by PCR and were able to amplify the mtp40 sequence in 90 of 94 strains of M. tuberculosis and in 2 strains of Mycobacterium microti but not in M. bovis or M. bovis BCG. Based on this, we developed a dot blot assay using genomic DNA which allows M. bovis to be distinguished from the majority of M. tuberculosis strains. We also probed Southern blots of 140 clinical isolates of M. tuberculosis to determine the frequency of strains lacking mtp40. This revealed an unexpected polymorphism in the phospholipase region. Two fragments were detected in 57% of samples. The expected fragment of 0.75 kbp corresponds to the region of mpcA containing mtp40. A 2.1-kbp fragment was observed to belong to a recently discovered second phospholipase gene, mpcB. In addition, some strains appeared to lack both genes, while others showed only the presence of mpcA. A few strains had additional bands, suggesting the existence of other homologs to the two phospholipase genes. We also detected the insertion of IS6110 in the mpcA coding region of one strain. The absence of these genes in some clinical isolates raises questions about their function during infection and in the development of tuberculosis disease in humans.

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