Cyclic AMP and Cyclic AMP-Receptor Protein are Required for Optimal Capsular Polysaccharide Expression

Vibrio vulnificus causes fatal infections in susceptible individuals. Group 1 capsular polysaccharide (CPS) operon is responsible for CPS expression, which plays an essential role in the pathogenesis of this pathogen. Cyclic AMP (cAMP) and cAMP receptor protein (crp) complex, which responds to glucose availability and functions as a global regulator, has been known to affect CPS production in this pathogen. This study was undertaken to experimentally verify whether cAMP-Crp directly or indirectly affects CPS production. A mutation in cyaA encoding adenylate cyclase, which is required for cAMP biosynthesis, inhibited V. vulnificus growth and changed opaque colonies to translucent colonies, and these changes were recovered by complementing cyaA or by adding exogenous cAMP. A mutation in crp encoding Crp also inhibited V. vulnificus growth and changed opaque colonies to translucent colonies, and these changes were recovered by complementing crp. Moreover, the crp or cyaA mutation decreased the susceptibility of V. vulnificus against NaOCl. The crp mutation reduced the transcription levels of group 1 CPS operon on a per cell basis. Glucose addition in the absence of Crp stimulated V. vulnificus growth, changed translucent colonies to opaque colonies, and increased the transcription levels of group 1 CPS operon. These results indicate that cAMP or Crp is indirectly involved in optimal CPS production by positively affecting metabolism or V. vulnificus growth rather than by directly controlling the expression of group 1 CPS operon.

Regulation of global transcriptional factor cyclic AMP receptor protein and its metabolic engineering application in Escherichia coli / 生物工程学报

Cyclic amp receptor protein (CRP) is a global transcriptional factor in many prokaryotes, capable of governing nearly half of the total genes in Escherichia coli. Through the method of error-prone PCR or DNA shuffling, we can first obtain CRP mutant library and then get the expected cell phenotype with enhanced resistance. In this article, we reviewed the following desired phenotype: enhanced tolerance towards oxidative stress, improved osmotolerance, enhanced organic solvent (toluene) tolerance, improved acetate tolerance of E. coli fermentation and improved ethanol tolerance during bio-ethanol production. We then concluded that CRP can also be applied in other host cells to get desired phenotypes. Last, we predicted potential applications of mutant CRP transcriptional factor.

Plasticity of regulation of mannitol phosphotransferase system operon by CRP-cAMP complex in Vibrio cholerae / 生物医学与环境科学（英文）

<p><b>OBJECTIVE</b>The complex of the cyclic AMP receptor protein (CRP) and cAMP is an important transcriptional regulator of numerous genes in prokaryotes. The transport of mannitol through the phosphotransferase systems (PTS) is regulated by the CRP-cAMP complex. The aim of the study is to investigate how the CRP-cAMP complex acting on the mannitol PTS operon mtl of the Vibrio cholerae El Tor biotype.</p><p><b>METHODS</b>The crp mutant strain was generated by homologous recombination to assess the need of CRP to activate the mannitol PTS operon of V. cholerae El Tor. Electrophoretic mobility shift assays (EMSA) and the reporter plasmid pBBRlux were used to confirm the role that the CRP-cAMP complex playing on the mannitol PTS operon mtl.</p><p><b>RESULTS</b>In this study, we confirmed that CRP is strictly needed for the activation of the mtl operon. We further experimentally identified five CRP binding sites within the promoter region upstream of the mannitol PTS operon mtl of the Vibrio cholerae El Tor biotype and found that these sites display different affinities for CRP and provide different contributions to the activation of the operon.</p><p><b>CONCLUSION</b>The five binding sites collectively confer the strong activation of mannitol transfer by CRP in V. cholerae, indicating an elaborate and subtle CRP activation mechanism.</p>

Isolation of hydrocarbonoclastic bacteria from bilge oil contaminated water

Two bacterial strains, i.e. Pseudomonas mendocina and Ochrobactnim sp. were isolated from bilge oil contaminated water of Mormugao harbour, Goa, India and grown in a culture medium with hexadecane as the sole carbon source. Pseudomonas mendocina was used in further studies as it was the dominant strain. This strain effectively degraded tetradecane, hexadecane and octadecane leaving a residual concentration of about 73%, 54% and 40% respectively in 120 h. Sequence analysis of the dominant bands from the denaturing gradient gel electrophoresis profiles revealed the differences between the genera of bilge oil contaminated sea water and its enrichment culture on hexadecane indicating a shift in community structure based on the type of substrate available. Pseudomonas mendocina amplified for the following catabolic genes namely C23O, nid and ndo. Based on the catabolic gene study the potential of the bacterial strain isolated, i.e. Pseudomonas mendocina seems to be interesting as it will be able to degrade polyaromatic hydrocarbons as well. Physicochemical properties of Pseudomonas mendocina indicates production of exopolysaccharides based on the value of its isoelectric point

Construction and characterization of delta crp delta asd mutant host-vector balanced lethal system of Salmonella choleraesuis C500 strain / 生物工程学报

Salmonella choleraesuis C500 strain was an attenuated vaccine strain to prevent piglet paratyphoid, attenuated by chemical method. Although the vaccine has good immunogenicity, it remains some residual virulence. In order to develop a safer vaccine strain and exploit C500 as a live vaccine vector for mucosal immunization, delta crp delta asd double deletion mutant was constructed. Firstly, the recombination suicide vector with 320 bp-deleted crp (cAMP receptor protein) gene and sacB (sucrose-sensitive gene) gene was constructed and conjugated with C500. The unmarked crp deleted strain without resistance was selected by two-step method and crp deletion on the genome was determined by PCR. Then the asd (beta-aspartic semialdehyde dehydrogenase) gene was further deleted in the delta crp strain by the same method. Foreign DAP (diaminopimelic acid) must be supplied for delta crp delta asd mutant to grow. The phenotype, growth properties and virulence in mice of delta crp mutant were further characterized. In conclusion, the delta crp delta asd double-deletion mutant was successfully constructed. The delta crp delta asd mutant can be used as a live vector to express foreign genes and to develop potential oral multivalent vaccines.

Effect of CRP (cAMP Receptor Protein) of Escherichia coli on Transcription Initiation at lacUV5 Promoter

The cyclic AMP receptor protein (CRP) complexed with cyclic AMP (CRP.cAMP) regulates expression of many genes by binding to sites at or near many promoters of Escherichia coli. The regulatory effect of CRP.cAMP was studied by in vitro transcription assay with lacUV5 promoter derivatives that have the CRP binding site at different locations (-56 to -69 from the transcription start site of lacUV5 promoter) upstream of the promoter. The CRP binding site itself influenced differently on the promoter activity depending on the distances from the promoter. Depending on the helix phasing of the CRP.cAMP relative to RNA polymerase CRP.cAMP activated, repressed or had no effect on the promoter. These results imply that a regulator is not a dedicated protein for repression or activation but that any regulator may have a potential of dual functionalities when it is under appropriate condition.

cAMP receptor protein from Trypanosoma cruzi: purification and cloning of a short sequence of the corresponding cDNA

cAMP is involved in the differentiation of Trypanosoma cruzi, the causative agent of Chagas' disease. cAMP levels are elevated in the infective, non-dividing metacyclic trypomastigote stage, with respect to the non-infective, proliferative, epimastigote stage. In both stages three is a cAMP receptor protein (CARPT), with unique properties that differentiate it from the regulatory subunits of the cAMP-dependent protein kinase (RI and RII). The CARPT from T. cruzi epimastigotes was purified using ion-exchange chromatography, affinity chromatography and gel filtration. After the final step of purification, two protein bands were obtained, p89 and p70, corresponding to the intact CARPT and its proteolytic product. These two CARPT polypeptides were utilized to prepare polyclonal antibodies in rabbits. Previous results from our laboratory showed that CARPT cross-reacts with polyclonal antibodies prepared against the regulatory subunit (RII) of the cAMP-dependent protein kinase (PKA). As expected from these results, the anti-CARPT antibody recognized purified RII protein in an ELISA assay. The anti-CARPT antibodies were used for immunoblot analyses of epimastigote lysates. The two bands corresponding to the CARPT (p89 and p70), as well as a p40 band, were recognized. Immunoscreening of a T. cruzi lambda ZAP cDNA library with these anti-CARPT polyclonal antibodies yielded one positive clone (pBSCARPT) which contained a 540 bp insert. Northern analyses using the pBSCARPT clone as a probe, showed a 5.2 kb mRNA band in epimastigotes, which were grown in culture from 2 to 10 days in LIT medium. Sequence analyses of the 540 bp insert have failed to show homology to other gene sequences in the database.(ABSTRACT TRUNCATED AT 250 WORDS)

Catabolite inactivation of trehalose synthesis during growth of yeast on maltose

1. The effects of catbolite inactivation upon the trehalose pathway linked to maltose utilization were investigated in Saccharomyces cerevisiae. Mutant strains devoid of UDPG-trehalose synthase activity were used in this study. 2. Trehalose accumulation was also susceptible to catabolite inactivation as has been reported for the carrier protein, one of the components of the maltose system. Reversibility was only achieved when incubation with glucose did not exceed 5 min and was dependent upon protein sunthesis