Isolation, characterization, and mapping of Bacillus subtilis 168 germination mutants.

After mutagenesis with nitrosoguanidine, germination mutants of Bacillus subtilis 168 were selected by killing, with heat, spores that germinated at 42 C and collecting survivors at 30 C. The germination properties of nine mutants variously affected in amino acid biosynthesis and sugar utilization were studied in detail. They were divided into two groups: (i) Ger-ALA mutants, failed to germinate in 10 mM L-alanine but germinated in complex media (some of these mutants were temperature sensitive); (ii) Ger-PAB mutants, germinated poorly, even in complex media, suggesting that they were blocked in important germination functions. All the mutants failed to germinate in L-alpha-amino-n-butyrate or L-valine (including temperature-sensitive mutants only at the restrictive temperature) showing that there is a step necessary for germination affected by all three acids. The mutants had normal growth rates, indicating that the defective gene products were specific for germination functions. These defects were not identified. Eight of the mutants were mapped by transduction with phage PBS-1. The recombinants were scored either by observations, by microscopy of phase darkening of the spores, or by a plate test involving the reduction of tetrazolium by heated colonies of spores. Five of the mutations, of at least three phenotypes, were between thr-5 and cysB3 away from all the sporulation markers that have been previously mapped. A linked ald (alanine dehydrogenase) locus was on the other side of thr-5. The other Ger markers were located in at least two additional positions. Auxotrophic strains that were used for mapping germinated normally, but germination of the Ger mutants differed slightly in different genetic backgrounds.