RESTRICTION FRAGMENT ANALYSIS OF CHROMOSOMAL DNA DEFINES DIFFERENT STRAINS OF MYCOBACTERIUM-TUBERCULOSIS

Abstract

As an initial step in gaining a better understanding of the important clinical properties that vary between strains of mycobacteria, we attempted to find molecular markers that would define different strains of Mycobacterium tuberculosis. We used restriction fragment analysis with the endonuclease Mbol and hybridization with total M. tuberculosis DNA to examine DNA differences between 15 strains of M. tuberculosis. We were able to identify different strains using this method. In other to assess the sensitivity of this method in identifying different strains, we compared it with phage typing. The 2 methods appear to be similar in sensitivity and also to be complementary. There were 2 examples where restriction fragment analysis did not separate strains with different phage types. In addition, there were 2 examples where phage typing did not separate strains with different restriction patterns. Finally, there were 2 epidemiologically unrelated strains with the same restriction pattern and the same phage type. This method of restriction fragment analysis of chromosomal DNA is potentially useful for epidemiologic studies of tuberculosis. Additionally, by analyzing the genome of M. tuberculosis, molecular markers may well be defined that will be useful in discovering the pathogenesis of the clinical properties of M. tuberculosis, which previously have been poorly understood.