Some strains of B. licheniformis associated with human disease are capable of producing lichenysin A, a surfactin-like toxin [34, 35]. Due to its association with food-borne illness and spoilage,
and its ability to undergo sporulation, [17, 36–38], extended knowledge about the germination apparatus Protein Tyrosine Kinase inhibitor of B. licheniformis is of general interest. To ensure microbiological safe food production of durable foods produced by relatively mild heat treatment, there is an obvious need for more information on spore forming bacteria. Based on existing literature, B. subtilis could be considered as the model organism for germinant receptor studies. It was through early studies of germination defective mutants, that the theory of a L-alanine-induced germinant receptor Vorinostat clinical trial was proposed [8]. Later studies identified the gerA locus as a tricistronic operon weakly expressed during sporulation, and that the polypeptide products of gerA probably formed a membrane associated
complex [39–41]. The products of each of the three genes of gerA were later named GerAA, GerAB and GerAC, and were demonstrated to be simultaneously required for the spore to respond to L-alanine as sole germinant [2]. Genome sequence analysis and germination experiments of different mutants further identified four other tricistronic gerA homologs for B. subtilis; gerB, gerK, yndDEF and yfkQRT [10]. Receptors encoded by two of these operons, gerB and gerK, are confirmed functional when acting cooperatively with each other or with gerA [10, 15]. Homologous genes of germinant receptors belonging to the gerA family have been found in most spore formers, although the exact number, organisation and corresponding response germinant may vary for different species and even strains [3, 42, 43]. B.
licheniformis ATCC 14580 is selleck products also predicted to possess potential germinant receptor proteins belonging to both the GerA and the GerK clades [44]. The GerAA, GerAB and GerAC protein sequences of B. licheniformis ATCC14580 are closely related to the protein sequences of the corresponding germinant receptor subunits of Bacillus subtilis subsp. subtilis 168. These are in B. subtilis encoded by the gerA operon, gerAA, gerAB and gerAC. Since B. subtilis gerA germination is triggered by L-alanine [2, 15], it is plausible that the B. licheniformis gerA operon also is involved in L-alanine germination. It has earlier been documented that spores of B. licheniformis from different strains actually respond to L-alanine as germinant [45–47], but to our knowledge, there are no functional studies of receptor/germinant interactions of strains belonging to B. licheniformis. Mutational studies of B. licheniformis, including the fully sequenced B.
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