Sunita Bansod scite author profile

High-altitude cold habitats of the Himalayas are little explored with respect to bacterial diversity. Diverse bacterial species and phylotypes obtained by culture-dependent and culture-independent approaches are reported here. Phylogenetic analysis and modulation of bacterial diversity with altitude and available organic carbon content are also described. Psychrophilic and psychrotolerant bacteria dominated the Himalayan habitats, accounting for 60% of the cultivated strains. Isolates produced one or more (up to five) hydrolytic enzymes, lipase being the one secreted by most strains (62%). Partial 16S rRNA gene sequences were obtained for 99 bacterial strains and 74 clones obtained from soil samples from the western Himalayas. Forty-five percent of cultured bacterial strains belonged to the Proteobacteria group with 39% belonging to gamma-Proteobacteria. Firmicutes was the second most abundant class with 32% of the total isolates followed by Actinobacteria (16%) and Bacteroidetes (6%). Most of the strains belonged to the genus Bacillus (30%) followed by Pseudomonas (24%) and Arthrobacter (12%). In culture-independent studies, phylotypes belonging to the Proteobacteria were dominant (73%) with the majority being beta-Proteobacteria (31%). The bacterial diversity exhibited an altitude gradient with a gradual decline in the number of genera with increase in altitude. The isolates exhibited close phylogenetic affinities to bacteria from other cold habitats.

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Differential proteomic analysis of Clostridium perfringens ATCC13124; identification of dominant, surface and structure associated proteins

Alam

Bansod

Kumar

et al. 2009

BMC Microbiol

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BackgroundClostridium perfringens is a medically important clostridial pathogen causing diseases in man and animals. To invade, multiply and colonize tissues of the host, a pathogen must be able to evade host immune system, and obtain nutrients essential for growth. The factors involved in these complex processes are largely unknown and of crucial importance to understanding microbial pathogenesis. Many of the virulence determinants and putative vaccine candidates for bacterial pathogens are known to be surface localized.ResultsUsing 2-DE mass spectrometry strategy, we identified major surface (22) and cell envelope (10) proteins from Clostridium perfringens ATCC13124 and those differentially expressed (11) in cells grown on cooked meat medium (CMM) in comparison with cells grown in reference state (tryptose-yeast extract-glucose medium). Riboflavin biosynthesis protein, ornithine carbamoyltransferase, cystathionine beta-lyase, and threonine dehydratase were the predominant proteins that exhibited 2.19 to 8.5 fold increase in the expression level in cells growing on CMM.ConclusionOrnithine carbamoyltransferase and cystathionine beta-lyase were over-expressed in cells grown on cooked meat medium and also identified in the surface protein fraction and the former was immunogenic; making them potential vaccine candidates. Based upon bioinformatic analysis; choloylglycine hydrolase family protein, cell wall-associated serine proteinase, and rhomboid family protein were predicted as surface protein markers for specific detection of C. perfringens from the environment and food. Most of the proteins over-expressed in CMM were shown to have putative function in metabolism, of which seven were involved in amino acid transport and metabolism or lipid metabolism.

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Immunization against Clostridium perfringens cells elicits protection against Clostridium tetaniin mouse model: identification of cross-reactive proteins using proteomic methodologies

2008

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Background: Clostridium tetani and Clostridium perfringens are among the medically important clostridial pathogens causing diseases in man and animals. Several homologous open reading frames (ORFs) have been identified in the genomes of the two pathogens by comparative genomic analysis. We tested a likelihood of extensive sharing of common epitopes between homologous proteins of these two medically important pathogens and the possibility of cross-protection using active immunization.

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Characterization of an Environmental Strain of Bacillus thuringiensis from a Hot Spring in Western Himalayas

et al. 2010

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Bacillus anthracis, the etiological agent of anthrax, is responsible for a serious and often fatal disease of mammalian livestock and humans and is an important biological warfare agent. Bacillus sp. AKG was isolated from a hot spring in western Himalayas and species-specific primers targeting gyrB gene identified the strain as B. anthracis within cereus-group. Cloning, sequencing, and phylogenetic analysis of the partial gyrB sequence from strain AKG indicated a close affiliation with B. anthracis and a few recently isolated strains of B. thuringiensis (e.g., strain Al Hakam and serovar konkukian). Phylogenetic analysis of two other housekeeping genes, clpC and gdpD yielded similar results. This observation is further substantiated by phylogenetic reconstruction using concatenated sequences (1680 bases) of the three genes (gyrB, clpC, and gdpD). Phenotypic features indicated a non-anthracis affiliation for the strain AKG. A novel strategy to distinguish among strains of B. anthracis, B. cereus, and B. thuringiensis based on whole proteome comparison was developed and tested for the identification of this environmental strain. Proteome comparison was used to establish the identity of this unknown environmental strain. Group of replicate 2DE gels for whole cell proteome were generated for each of the three species and strain AKG. Protein spots unique to each group and those showing match between the groups, in a pair-wise comparison, indicated strain AKG as a member of B. thuringiensis. This strategy can be used to assign strains of B. cereus group to their respective species.

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Sunita Bansod

Bacterial diversity of soil samples from the western Himalayas, India

Differential proteomic analysis of Clostridium perfringens ATCC13124; identification of dominant, surface and structure associated proteins

Immunization against Clostridium perfringens cells elicits protection against Clostridium tetaniin mouse model: identification of cross-reactive proteins using proteomic methodologies

Characterization of an Environmental Strain of Bacillus thuringiensis from a Hot Spring in Western Himalayas

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