Project description:This work reports on the identification and molecular characterization of a two-component regulatory system (2CRS), encoded by serRK, which is believed to control the expression of the ser2003 locus in Bifidobacterium breve UCC2003. The ser2003 locus consists of two genes, Bbr_1319 (sagA) and Bbr_1320 (serU), which are predicted to encode a hypothetical membrane-associated protein and a serpin-like protein, respectively. The response regulator SerR was shown to bind to the promoter region of ser2003 and the probable recognition sequence of SerR was determined by a combinatorial approach of in vitro site-directed mutagenesis, coupled to transcriptional fusion and EMSA assays. The importance of the serRK 2CRS in the response of B. breve to protease-mediated induction was confirmed by generating B. breve-s-serR and B. breve-::serU insertion mutants, which exhibited altered ser2003 transcriptional induction patterns as compared to their parent strain UCC2003.

Project description:This work reports on the identification and molecular characterization of a two-component regulatory system (2CRS), encoded by serRK, which is believed to control the expression of the ser2003 locus in Bifidobacterium breve UCC2003. The ser2003 locus consists of two genes, Bbr_1319 (sagA) and Bbr_1320 (serU), which are predicted to encode a hypothetical membrane-associated protein and a serpin-like protein, respectively. The response regulator SerR was shown to bind to the promoter region of ser2003 and the probable recognition sequence of SerR was determined by a combinatorial approach of in vitro site-directed mutagenesis, coupled to transcriptional fusion and EMSA assays. The importance of the serRK 2CRS in the response of B. breve to protease-mediated induction was confirmed by generating B. breve-s-serR and B. breve-::serU insertion mutants, which exhibited altered ser2003 transcriptional induction patterns as compared to their parent strain UCC2003. DNA-microarrays containing oligonucleotide primers representing each of the 1864 annotated genes on the genome of B. breve UCC2003 (O'Connell Motherway et al., 2011) were designed by and obtained from Agilent Technologies (Palo Alto, Ca., USA). Methods for cell disruption, RNA isolation, RNA quality control, complementary DNA synthesis and labeling were performed as described previously (Pokusaeva et al., 2009). Labeled cDNA was hybridized using the Agilent Gene Expression hybridization kit (part number 5188-5242) as described in the Agilent Two-Color Microarray-Based Gene Expression Analysis v4.0 manual (G4140-90050). Following hybridization, microarrays were washed in accordance with Agilent’s standard procedures and scanned using an Agilent DNA microarray scanner (model G2565A). Generated scans were converted to data files with Agilent's Feature Extraction software (Version 9.5). DNA-microarray data were processed as previously described (Garcia De La Nava et al., 2003). Differential expression tests were performed with the Cyber-T implementation of a variant of the t-test (Long et al., 2001). A gene was considered differentially expressed when p < 0.001 and an expression ratio of >3 or <0.33 relative to the control.

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Project description: Not available

Project description:This work reports on the identification and molecular characterization of a two-component regulatory system (2CRS), encoded by phoRP in Bifidobacterium breve UCC2003, which controls the response to phosphate (Pi) starvation. The response regulator PhoP was shown to bind to the promoter region of pstSCAB, specifying a predicted Pi transporter system, as well as that of phoU, which specifies a putative Pi-responsive regulatory protein. This interaction is assumed to cause transcriptional activation under conditions of Pi limitation. The phoRP genes appear to be subject to positive auto-regulation, and with pstSCAB and phoU, represent the complete regulon controlled by the phoRP-encoded 2CRS in B. breve UCC2003. Determination of the minimal PhoP binding region combined with bioinformatic analysis revealed the probable recognition sequence of PhoP, designated here as the PHO box, which together with phoRP is conserved among many high GC-content Gram+ bacteria. The importance of the phoRP 2CRS in the response of B. breve to Pi starvation conditions was confirmed by generating a B. breve::phoP insertion mutant which exhibited decreased growth under phosphate-limiting conditions as compared to its parent strain UCC2003.

Project description:This work reports on the identification and molecular characterization of a two-component regulatory system (2CRS), encoded by phoRP in Bifidobacterium breve UCC2003, which controls the response to phosphate (Pi) starvation. The response regulator PhoP was shown to bind to the promoter region of pstSCAB, specifying a predicted Pi transporter system, as well as that of phoU, which specifies a putative Pi-responsive regulatory protein. This interaction is assumed to cause transcriptional activation under conditions of Pi limitation. The phoRP genes appear to be subject to positive auto-regulation, and with pstSCAB and phoU, represent the complete regulon controlled by the phoRP-encoded 2CRS in B. breve UCC2003. Determination of the minimal PhoP binding region combined with bioinformatic analysis revealed the probable recognition sequence of PhoP, designated here as the PHO box, which together with phoRP is conserved among many high GC-content Gram+ bacteria. The importance of the phoRP 2CRS in the response of B. breve to Pi starvation conditions was confirmed by generating a B. breve::phoP insertion mutant which exhibited decreased growth under phosphate-limiting conditions as compared to its parent strain UCC2003. In order to investigate differences in global gene expression upon growth of B. breve UCC2003 under low phosphate conditions compared to normal growing cells, DNA microarray experiments were performed in CDM. Total RNA was isolated from B. breve UCC2003 cultures under normal conditions and cultures grown under low phosphate conditions. Starvation experiments with wildtype and overexpression strains were performed in triplicate, while knockout array experiments where performed as single experiments and targets were confirmed with QRT-PCR.

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Project description: Not available