New small, acid-soluble proteins unique to spores of Bacillus subtilis: Identification of the coding genes and regulation and function of two of these genes
I. Bagyan et al., New small, acid-soluble proteins unique to spores of Bacillus subtilis: Identification of the coding genes and regulation and function of two of these genes, J BACT, 180(24), 1998, pp. 6704-6712
Eleven small, acid-soluble proteins (SASP) which are present in spores but
not in growing cells of Bacillus subtilis were identified by sequence analy
sis of proteins separated by acrylamide gel electrophoresis of acid extract
s from spores which lack the three major SASP (alpha, beta, and gamma). Six
of these proteins are encoded by open reading frames identified previously
or by analysis of the complete sequence of the B. subtilis genome, includi
ng two minor alpha/beta-type SASP (SspC and SspD) and a putative spore coat
protein (CotK), Five proteins are encoded by short open reading frames tha
t were not identified as coding regions in the analysis of the complete B.
subtilis genomic sequence, Studies of the regulation of two of the latter g
enes, termed sspG and sspJ, showed that both are expressed only in sporulat
ion. The sspG gene is transcribed in the mother cell compartment by RNA pol
ymerase with the mother cell-specific sigma factor for RNA polymerase, sigm
a(K), and is cotranscribed with a downstream gene, yurS; sspG transcription
also requires the DNA binding protein GerE, In contrast, sspJ is transcrib
ed in the forespore compartment by RNA polymerase with the forespore-specif
ic sigma(G) and appears to give a monocistronic transcript. A mutation elim
inating SspG had no effect on sporulation or spore properties, while loss o
f SspJ caused a slight decrease in the rate of spore outgrowth in an otherw
ise wild-type background.