Venom is an adaptive trait that has propelled the expansion of snake lineages across diverse habitats. Natural selection optimises the potency, composition, and lineage-specificity of the snake venom arsenal for effective prey capture or deterrence of predators. Venoms of several closely related snake species that inflict life-threatening bites in humans have been documented to exhibit tremendous spatial and temporal venom variation. However, venom research in India has predominantly focussed on assessing the compositional variation among captive snake populations from restricted locales. Several questions pertaining to the evolutionary ecology of snake venoms remain unanswered. Therefore, studies integrating the knowledge on natural history and trophic interactions of medically important Indian snakes is warranted. 

As part of my PhD research, I propose to decipher the role of various ecological and environmental determinants on the diversification of Indian snake venoms. To understand the influence of the environment, I will sample snake venoms from the major biogeographic zones across the country. A multi-faceted approach involving proteomics, biochemical analysis, pharmacological assessment, and toxicity studies will be employed. Further, I will evaluate the role of ecological traits, such as ontogeny and gender, in shaping venoms by housing venomous snakes under captivity. The differences in their venom activities and toxic potencies will be evaluated. Moreover, as the feeding ecology of snakes plays a significant role in determining venom characteristics, the prey-specificity of these venoms will be determined using in vitro and in vivo experiments. Briefly, the kinetics of interaction between venom toxins and their target receptors (synthetic mimotopes) sequenced from various natural prey animals will be evaluated using bio-layer interferometry.  In vivo experiments will involve toxicity assays against diverse model systems including arthropods, amphibians, reptiles, birds, and mammals. These experiments will also shed light on the evolution of venom resistance in target organisms. Finally, the repercussions of venom variation at various levels on the snakebite treatment in India will be investigated by performing WHO-recommended preclinical assays. These studies will decipher the effectiveness of the currently employed conventional antivenom therapy in mitigating snakebite mortalities and morbidities across the country.