Supplementation of polyclonal antibodies, developed against epitope-string toxin-specific peptide immunogens, to commercial polyvalent antivenom, shows improved neutralization of Indian Big Four and snake venoms.

Snakebites profoundly impact the rural population of tropical nations, leading to significant socio-economic repercussions. Polyvalent antivenom (PAV) therapy faces several limitations, including intra-specific variations and poor efficacy against some major toxins and low molecular mass, poorly immunogenic toxins, which contribute to increased mortality and morbidity rates. Innovative strategies for developing novel antivenoms are continuously explored to address these challenges.

A comparison of two different analytical workflows to determine the venom proteome composition of Naja kaouthia from North-East India and immunological profiling of venom against commercial antivenoms.

The Indian monocled cobra (Naja kaouthia) is one of the most prevalent venomous snakes in northeast India (NEI) and is the cause of many fatalities. The composition of NEI N. kaouthia venom (NkV) was deciphered using two different proteomic approaches: (i) 1D SDS-PAGE coupled to label-free quantification of protein bands using stringent identification criteria and (ii) reversed-phase high-performance liquid chromatography (RP-HPLC) followed by quantification based on area under the RP-HPLC peaks.

Characterization of lipopeptide biosurfactant produced by a carbazole-degrading bacterium Roseomonas cervicalis: The role of biosurfactant in carbazole solubilisation.

Aim: Characterization of biosurfactant produced by a carbazole-degrading bacterium Roseomonas cervicalis and proteomic analysis of intracellular proteins of bacterium while growing on glucose and carbazole medium.

Methods And Results: The bacterium R. cervicalis was isolated from a soil sample contaminated with crude petroleum oil.

Mass spectrometric analysis to unravel the venom proteome composition of Indian snakes: opening new avenues in clinical research.

Introduction: The 'Big Four' venomous snakes - , and - are primarily responsible for the majority of snake envenomation in India. Several other lesser-known venomous snake species also inflict severe envenomation in the country.

Areas Covered: A comprehensive analysis of the venom proteome composition of the 'Big Four' and other medically important venomous snakes of India and the effect of regional variation in venom composition on immunorecognition and/or neutralization by commercial antivenom was undertaken by searching the literature (from 1985 to date) available in large public databases.

Quantitative proteomics to reveal the composition of Southern India spectacled cobra (Naja naja) venom and its immunological cross-reactivity towards commercial antivenom.

Indian cobra (Naja naja) envenomation is frequently reported across Indian subcontinent. Geographical differences in the venom composition of a particular species of snake often leads to inconsistencies in the antivenom neutralization. Consequently, determining the venom proteome from every locale is necessary for the production of effective antivenom.

Quantitative proteomic analysis of venom from Southern India common krait (Bungarus caeruleus) and identification of poorly immunogenic toxins by immune-profiling against commercial antivenom.

Objectives: To study the venom proteome composition of Southern India (SI) Common Krait (Bungarus caeruleus) and immunological cross-reactivity between venom against commercial antivenom.

Methods: Proteomic analysis was done by nano LC-MS/MS and toxins were quantitated by label-free analysis. The immunological cross-reactivity of venom towards polyvalent antivenom (PAV) was assessed by ELISA, Immunoblotting, and immuno-chromatographic methods.

Proteomic analysis and antivenomics study of Western India venom: correlation between venom composition and clinical manifestations of cobra bite in this region.

: Snakebite is a severe problem in the tropical countries including Indian subcontinent. Premier cases of cobra bites are being reported from western India (WI). : The proteome of WI venom (NnV) was deciphered by high resolution mass spectrometry analysis of venom, further fractionated by gel filtration (GF) or RP-HPLC followed by SDS-PAGE and then tandem mass spectrometric analysis of protein bands.

Proteomics analysis to compare the venom composition between Naja naja and Naja kaouthia from the same geographical location of eastern India: Correlation with pathophysiology of envenomation and immunological cross-reactivity towards commercial polyantivenom.

Background: Cobra bite is frequently reported across the Indian subcontinent and is associated with a high rate of death and morbidity. In eastern India (EI) Naja naja and Naja kaouthia are reported to be the two most abundant species of cobra.

Research Design And Methods: The venom proteome composition of N.

Proteomics and antivenomics of Echis carinatus carinatus venom: Correlation with pharmacological properties and pathophysiology of envenomation.

The proteome composition of Echis carinatus carinatus venom (ECV) from India was studied for the first time by tandem mass spectrometry analysis. A total of 90, 47, and 22 distinct enzymatic and non-enzymatic proteins belonging to 15, 10, and 6 snake venom protein families were identified in ECV by searching the ESI-LC-MS/MS data against non-redundant protein databases of Viperidae (taxid 8689), Echis (taxid 8699) and Echis carinatus (taxid 40353), respectively. However, analysis of MS/MS data against the Transcriptome Shotgun Assembly sequences (87 entries) of conger E.

A comparative intracellular proteomic profiling of Pseudomonas aeruginosa strain ASP-53 grown on pyrene or glucose as sole source of carbon and identification of some key enzymes of pyrene biodegradation pathway.

Unlabelled: Pseudomonas aeruginosa strain ASP-53, isolated from a petroleum oil-contaminated soil sample, was found to be an efficient degrader of pyrene. PCR amplification of selected hydrocarbon catabolic genes (alkB gene, which encodes for monooxygenase, and the C12O, C23O, and PAH-RHDα genes encoding for the dioxygenase enzyme) from the genomic DNA of P. aeruginosa strain ASP-53 suggested its hydrocarbon degradation potential.

Proteomic analysis to unravel the complex venom proteome of eastern India Naja naja: Correlation of venom composition with its biochemical and pharmacological properties.

Unlabelled: The complex venom proteome of the eastern India (EI) spectacled cobra (Naja naja) was analyzed using tandem mass spectrometry of cation-exchange venom fractions. About 75% of EI N. naja venom proteins were <18kDa and cationic at physiological pH of blood.

Mechanism of apoptosis induction in human breast cancer MCF-7 cell by Ruviprase, a small peptide from Daboia russelii russelii venom.

Ruviprase, a 4.4 kDa peptide isolated from Daboia russelii russelii venom demonstrated antiproliferative activity against EMT6/AR1, U-87MG, HeLa and MCF-7 cancer cells with an IC50 value of 23.0, 8.