Biochemical genetics of bacterial sporulation

Summary The morphological and biochemical characters of twenty nine sporulation mutants were compared. Some of the predictions made on the basis of unidirectional pleïotropic interactions were confirmed, namely that the latest proteolytic enzymes, like elastase, are related to late morphological stages. From the cytological point of view, mutants blocked at various stages were described. Among the late mutants, both coatless mutants with normal but incomplete cortex and cortexless mutants with flexible spore coats were found. Particularly interesting is the class of abnormal late sporulation mutants which form normal mature heat-resistant spores at high frequencies, but, in addition, present various anomalies in the structure of the spore coats and various sporangial inclusions such as a spongy fibrous material, resembling the cortex, and either onion-like or rod-shaped inclusions, probably formed by spore coat components. The presence of these structures is related to the derepression of elastase activity and may reflect overproduction of spore components. Several mutants also contain abnormal, large, dark, membrane-bound mesosomes, either compact or loose, whose presence is related to the lack of oxidation of tetrazolium dyes. The morphological heterogeneity of mutant populations is also noted. These findings are discussed in relation to the theory of sequential gene activation.