Genetic identification and cloning of a gene required for developmental cell interactions in Myxococcus xanthus.

Developmental mutants of Myxococcus xanthus have been previously described which appear to be defective in required cell-cell interactions. These mutants fall into four phenotypic classes, Asg, Bsg, Csg, and Dsg, each of which is unable to differentiate into spores but can be rescued by extracellular complementation by wild-type cells or by mutants of a different class. We report the identification of one of the loci in which mutations result in a Bsg phenotype. The cloned locus was contained on a 12-kilobase EcoRI fragment and then localized by subcloning and a combination of in vitro and transposon mutagenesis. All mutations in this locus behave as a single complementation group, which we designate bsgA (formerly ssbA). Each of the bsgA mutations results in a nonsporulating phenotype, which can be rescued by extracellular complementation. Furthermore, we report that the bsgA mutants have a distinctive interaction with wild-type cells when vegetatively growing, swarming colonies converge.