Abstract

ABSTRACT The conventional methods for identifying mycobacterial species are based on their phenotypic characterization. Since some problematic species are slow growers, their taxonomy takes several weeks or months to identify. The ribosomal DNA (rDNA) sequence-based identification strategy has been adopted to solve this problem. More recently, the gyrB sequences have been shown to be useful phylogenetic markers for the identification of species. We determined the gyrB sequences of 43 slowly growing strains belonging to 15 species in the genus Mycobacterium . The frequencies of base substitutions in the gyrB sequences were comparable to those in the 16S-23S rDNA internal transcribed spacer (ITS) sequences. The ITS sequences of four species belonging to the M. tuberculosis complex ( M. tuberculosis , M. bovis , M. africanum , and M. microti ) were 100% identical, while four synonymous substitutions were found in the gyrB sequences of these strains. Based on the differences found in the gyrB sequences, we developed PCR and PCR-restriction fragment length polymorphism methods to discriminate these species.