The genes for the key σ factors (σH, σF, σE, σG, and σK) and the

The genes for the key σ factors (σH, σF, σE, σG, and σK) and the master regulator SpoOA were identified in the genome of DCB-2, and homologs for most of the sporulation genes were identified. Although less conserved, the earliest sporulation genes of sensory histidine kinases could not be positively assigned among 59 histidine kinase genes in the genome (Figure 8). A gene homolog for SpoIIGA, a pro-σE processing protease, was not identified in either D. hafniense DCB-2 or Y51

strains, nor in four other spore-formers of Peptococcaceae listed in IMG. However, a homolog for spoIIR was identified in all six strains, the product of which could interact with SpoIIGA for the processing of pro-σE into active σE, a sigma factor responsible for the expression of ~250 genes in the mother cell of Bacillus subtilis [68]. Both genes are also present in Clostridium spore-formers. see more Notable Bacillus sporulation CB-5083 research buy genes that are missing in D. hafniense DCB-2 as well as in Clostridium are the genes encoding SpoIVFB, a pro-σK

processing enzyme, SpoIVFA, an inhibitor of SpoIVFB, and NucB, a sporulation-specific extracellular nuclease (Figure 8). This suggests that although sporulation in Bacillus and D. hafniense DCB-2 have much in common, there are differences in the regulatory mechanism or in the enzyme system for the initiation of sporulation stages. Figure 8 Putative diagram of sporulation and germination events in D. hafniense DCB-2. The proposed genes are based on known developmental and genetic processes of sporulation and germination in Bacillus and Clostridium species. A brief description for each developmental stage and the genes encoding stage-specific

enzymes or structural proteins are depicted. Compartment-specific sigma factors are also indicated. Gene homologs in D. hafniense DCB-2 were identified by using BLASTP with cutoff values of 1e-2 (E-value) and 30% identity in amino acid sequence. Germination of spores occurs in response Thalidomide to nutrients (or germinants) which are often single amino acids, sugars or purine nucleosides, and is initiated by SB525334 binding of germinants to receptors located in the spore’s inner membrane [69, 70]. In Bacillus subtilis, these receptors are encoded by the homologous tricistronic gerA, gerB and gerK operons [70]. Five such operons were identified in the genome of D. hafniense DCB-2 (Figure 8) including an octacistronic operon (Dhaf_0057-64) which encodes additional genes for Orn/Lys/Arg decarboxylase, DNA polymerase III δ’ subunit, polymerase suppressor protein, and corrin/porphyrin methyltransferase, suggesting that the operon is used not only for the synthesis of a germinant receptor but for other metabolic activities in relation to sporulation/germination. Upon the binding of receptors to germinants, release of cations and dipicolinic acid (DPA) occurs through hypothetical membrane channels.

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