Amino acids in the Bacillus subtilis morphogenetic protein SpoIVA with roles in spore coat and cortex formation.

Abstract

Bacterial spores are protected from the environment by a proteinaceous coat and a layer of specialized peptidoglycan called the cortex. In Bacillus subtilis, the attachment of the coat to the spore surface and the synthesis of the cortex both depend on the spore protein SpoIVA. To identify functionally important amino acids of SpoIVA, we generated and characterized strains bearing random point mutations of spoIVA that result in defects in coat and cortex formation. One mutant resembles the null mutant, as sporulating cells of this strain lack the cortex and the coat forms a swirl in the surrounding cytoplasm instead of a shell around the spore. We identified a second class of six mutants with a partial defect in spore assembly. In sporulating cells of these strains, we frequently observed swirls of mislocalized coat in addition to a coat surrounding the spore, in the same cell. Using immunofluorescence microscopy, we found that in two of these mutants, SpoIVA fails to localize to the spore, whereas in the remaining strains, localization is largely normal. These mutations identify amino acids involved in targeting of SpoIVA to the spore and in attachment of the coat. We also isolated a large set of mutants producing spores that are unable to maintain the dehydrated state. Analysis of one mutant in this class suggests that spores of this strain accumulate reduced levels of peptidoglycan with an altered structure.