A Genetic Mechanism for Deletion of the ser2 Gene Cluster and Formation of Rough Morphological Variants of Mycobacterium avium

Abstract

ABSTRACT A major phenotypic trait of the Mycobacterium avium complex is the ability to produce rough and smooth colony variants. The chemical basis of this morphological variation is the loss of an antigenic surface structure, termed glycopeptidolipid (GPL), by rough variants. Using M. avium serovar 2 strain 2151 as a model system, this laboratory previously reported that rough variants arise via the deletion of large genomic regions encoding GPL biosynthesis. One such deletion encompasses the gene cluster ( ser2 ) responsible for production of the serovar 2 GPL haptenic oligosaccharide. In this study, nucleotide sequencing revealed that both ends of the ser2 gene cluster are flanked by a novel insertion sequence (IS 1601 ) oriented as direct repeats. Detailed analyses of the site of deletion in the genome of M. avium 2151 Rg-1 demonstrated that a single copy of IS 1601 remained and that the ser2 gene cluster was deleted by homologous recombination. This same deletion pattern was observed for 10 out of 15 rough colony variants tested. Additionally, these studies revealed that IS 1601 contains portions of three independent insertion sequences. This report is the first to define the precise genetic basis of colony variation in Mycobacterium spp. and provides further evidence that homologous recombination between insertion sequence elements can be a primary determinant of genome plasticity in these bacteria.