Translational attenuation of the Bacillus subtilis spo0B cistron by an RNA structure encompassing the initiation region.

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The spo0B gene, which exists as an operon with the obg gene, is required to initiate sporulation (stage 0) of Bacillus subtilis . This gene encodes a phosphotransferase in the multicomponent phosphorelay system. We here report the novel finding that a spo0B 5'-terminal SLR (stem-loop structure sequestering ribosome binding sequence; ACUCCUAA-X16-UUG GGAG U, Delta G = -8.71 kcal/mol) attenuated spo0B translation. The spo0B gene was efficiently transcribed but Spo0B protein was not overproduced in Escherichia coli when spo0B was induced using expression vectors carrying the SLR- spo0B region under control of the tac promoter. Deletion of the SLR from the vectors resulted in overexpression of spo0B . Therefore, to characterize expression of spo0B with a SLR in B.subtilis we constructed transcriptional and translational lacZ fusions combined with the spo0B 5'-terminal region with a deleted or mutagenized SLR. These constructs were subsequently introduced into B.subtilis as multiple and single copies, then beta-galactosidase activities were measured. The possible SLR also functioned as a negative cis element in B.subtilis. Furthermore, B.subtilis strain 1S16 (spo0B136) lysogenized straight phiCD0B-S and -W, harboring spo0B with mutagenized SLRs that were more (Delta G = -14.0 kcal/mol) and less-stable (Delta G = -1.31 kcal/mol) compared with the wild-type, exhibited null and wild-type sporulation respectively. These results indicate that the spo0B 5'-SLR affects spo0B gene expression for sporulation but that low expression of spo0B through the wild-type SLR was sufficient to initiate sporulation in B.subtilis.

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