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  • Title: Maintaining the transcription factor SpoIIID level late during sporulation causes spore defects in Bacillus subtilis.
    Author: Wang L, Perpich J, Driks A, Kroos L.
    Journal: J Bacteriol; 2007 Oct; 189(20):7302-9. PubMed ID: 17693499.
    Abstract:
    During sporulation of Bacillus subtilis, four regulatory proteins act in the order sigma(E), SpoIIID, sigma(K), and GerE to temporally control gene expression in the mother cell. sigma(E) and sigma(K) work sequentially with core RNA polymerase to transcribe different sets of genes. SpoIIID and GerE are small, sequence-specific DNA-binding proteins that activate or repress transcription of many genes. Previous studies showed that transcriptionally active sigma(K) RNA polymerase inhibits early mother cell gene expression, reducing accumulation of SpoIIID late in sporulation. Here, the effects of perturbing the mother cell gene regulatory network by maintaining the SpoIIID level late during sporulation are reported. Persistent expression was obtained by fusing spoIIID to the sigma(K)-controlled gerE promoter on a multicopy plasmid. Fewer heat- and lysozyme-resistant spores were produced by the strain with persistent spoIIID expression, but the number of spores resistant to organic solvents was unchanged, as was their germination ability. Transmission electron microscopy showed structural defects in the spore coat. Reporter fusions to sigma(K)-dependent promoters showed lower expression of gerE and cotC and higher expression of cotD. Altered expression of cot genes, which encode spore coat proteins, may account for the spore structural defects. These results suggest that one role of negative feedback by sigma(K) RNA polymerase on early mother cell gene expression is to lower the level of SpoIIID late during sporulation in order to allow normal expression of genes in the sigma(K) regulon.
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