A.M. Ghose scite author profile

The distribution of genes for an outer membrane protein (OmpW) and a regulatory protein (ToxR) in Vibrio cholerae and other organisms was studied using respective primers and probes. PCR amplification results showed that all (100%) of the 254 V. cholerae strains tested were positive for ompW and 229 (∼98%) of 233 were positive for toxR. None of the 40 strains belonging to other Vibrio species produced amplicons with either ompW- or toxR-specific primers, while 80 bacterial strains from other genera tested were also found to be negative by the assay. These studies were extended with representative number of strains using ompW- andtoxR-specific probes in DNA dot blot assay. While theV. cholerae strains reacted with ompW probe, only one (V. mimicus) out of 60 other bacterial strains tested showed weak recognition. In contrast, several strains belonging to other Vibrio species (e.g., V. mimicus,V. splendidus, V. alginolyticus, V. fluvialis, V. proteolyticus, V. aestuarianus, V. salmonicida, V. furnissii, and V. parahaemolyticus) showed weak to strong reactivity to the toxR probe. Restriction fragment length polymorphism analysis and nucleotide sequence data revealed that the ompW sequence is highly conserved among V. cholerae strains belonging to different biotypes and/or serogroups. All of these results suggest that the ompW gene can be targeted for the species-specific identification of V. cholerae strains. The scope of this study was further extended through the development of a one-step multiplex PCR assay for the simultaneous amplification of ompW and ctxAgenes which should be of considerable value in the screening of both toxigenic and nontoxigenic V. cholerae strains of clinical as well as environmental origin.

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Structural features, properties and regulation of the outer-membrane protein W (OmpW) of Vibrio cholerae

Nandi

Nandy

Sarkar

et al. 2005

103

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The outer-membrane protein OmpW of Vibrio cholerae was studied with respect to its structure, functional properties and regulation of expression. On SDS-PAGE, the membrane-associated form of OmpW protein (solubilized by either 0?1 % or 2 % SDS at 25 6C) migrated as a monomer of 19 kDa that changed to 21 kDa on boiling. The protein was hyperexpressed in Escherichia coli in the histidine-tagged form and the purified His 6 -OmpW (heated or unheated) migrated as a 23 kDa protein on SDS-PAGE. Circular dichroism and Fourier-transform infrared spectroscopic analyses of the recombinant protein showed the presence of b-structures (~40 %) with minor amounts (8-15 %) of a-helix. These results were consistent with those obtained by computational analysis of the sequence data of the protein using the secondary structure prediction program Jnet. The recombinant protein did not exhibit any porin-like property in a liposome-swelling assay. An antiserum to the purified protein induced a moderate level (66?6 % and 33?3 % at 1 : 50 and 1 : 100 dilutions, respectively) of passive protection against live vibrio challenge in a suckling mouse model. OmpW-deficient mutants of V. cholerae strains were generated by insertion mutagenesis. In a competitive assay in mice, the intestinal colonization activities of these mutants were found to be either only marginally diminished (for O1 strains) or 10-fold less (for an O139 strain) as compared to those of the corresponding wild-type strains. The OmpW protein was expressed in vivo as well as in vitro in liquid culture medium devoid of glucose. Interestingly, the glucose-dependent regulation of OmpW expression was less prominent in a ToxR " mutant of V. cholerae. Further, the expression of OmpW protein was found to be dependent on in vitro cultural conditions such as temperature, salinity, and availability of nutrients or oxygen. These results suggest that the modulation of OmpW expression by environmental factors may be linked to the adaptive response of the organism under stress conditions.

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Rates of Cannabis Use in Patients with Cancer

et al. 2018

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A search for cholera toxin (CT), toxin coregulated pilus (TCP), the regulatory element ToxR and other virulence factors in non-O1/non-O139Vibrio cholerae

Ghosh

Nandy

Dasgupta

et al. 1997

Microbial Pathogenesis

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A.M. Ghose

Rapid Method for Species-Specific Identification of Vibrio cholerae Using Primers Targeted to the Gene of Outer Membrane Protein OmpW

Structural features, properties and regulation of the outer-membrane protein W (OmpW) of Vibrio cholerae

Rates of Cannabis Use in Patients with Cancer

A search for cholera toxin (CT), toxin coregulated pilus (TCP), the regulatory element ToxR and other virulence factors in non-O1/non-O139Vibrio cholerae

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