2008
DOI: 10.1128/jb.00789-08
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The Bacillus cereus GerN and GerT Protein Homologs Have Distinct Roles in Spore Germination and Outgrowth, Respectively

Abstract: The GerT protein of Bacillus cereus shares 74% amino acid identity with its homolog GerN. The latter is a Na ؉ /H ؉ -K ؉ antiporter that is required for normal spore germination in inosine. The germination properties of single and double mutants of B. cereus ATCC 10876 reveal that unlike GerN, which is required for all germination responses that involve the GerI germinant receptor, the GerT protein does not have a significant role in germination, although it is required for the residual GerI-mediated inosine g… Show more

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Cited by 29 publications
(25 citation statements)
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“…Thus, the sporulation-specific expression of gerO and gerQ suggests that GerO and GerQ might be spore-specific proteins. There is also evidence suggesting that the spore germination-associated likely monovalent cation antiporters GerN and GerT of B. cereus are encoded by sporulation-specific genes (12,29). While the latter results suggest that all of these cation transport proteins are present in spores, gerO and gerQ appear to be expressed only in the mother cell compartment of sporulating C. perfringens cells, although this analysis has not been carried out with gerN and gerT.…”
Section: Discussionmentioning
confidence: 67%
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“…Thus, the sporulation-specific expression of gerO and gerQ suggests that GerO and GerQ might be spore-specific proteins. There is also evidence suggesting that the spore germination-associated likely monovalent cation antiporters GerN and GerT of B. cereus are encoded by sporulation-specific genes (12,29). While the latter results suggest that all of these cation transport proteins are present in spores, gerO and gerQ appear to be expressed only in the mother cell compartment of sporulating C. perfringens cells, although this analysis has not been carried out with gerN and gerT.…”
Section: Discussionmentioning
confidence: 67%
“…(iii) Finally, the loss of GerO and to a lesser extent of GerQ results in defects in C. perfringens spore germination. These results suggesting roles for one or more cation transport proteins in C. perfringens spore germination are similar to those suggested for spores of some Bacillus species, although not with all strains and/or species and not with all germinants (3,29,34,35). The major questions provoked by these observations are how GerO and, likely to a lesser degree, GerQ func- tion in spore germination and/or outgrowth and whether the effects of these proteins are direct or indirect.…”
Section: Discussionmentioning
confidence: 70%
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“…However, when there is a large concentration of L-alanine in the environment, the racemase cannot convert enough alanine to prevent germination. These germinants and anti-germinants act either alone or in combinations and signal through five functional germination receptors, gerH, gerL, gerK, gerS, and gerX, on the spore coat [63,64,67,68]. The need for several germination receptors may not only reflect redundant mechanisms for sensing germinants, but also may be a mechanism for B. anthracis to sense different sites in the host for germination.…”
Section: Spore Germinationmentioning
confidence: 99%