Convergent evolution has driven the independent emergence of venom in over 100 distinct animal lineages. Our work examines the influence of ecological pressures, environmental variables, geographic isolation, and selective forces on the molecular composition and toxicity of venoms. This comparative research spans multiple taxa, including Serpentes, arachnids, hymenopterans, and others, with a geographic focus on the Indian subcontinent and broader ecosystems.
Evolutionary Venomics Lab
The Evolutionary Venomics Lab uncovers how ecology and environment shape animal venoms. These fundamental discoveries are translated into next-generation therapeutics, such as monoclonal antibodies and small-molecule inhibitors, to tackle the snakebite crisis in India and globally.
Biogeography, Caste, Climate, Diet, Development, Environment, Predators, Sex?
How much? How quickly? In what way? What drives it? Can we predict it? How does it affect the venomous animal and its predator/prey?
Monoclonal Antibodies, Small-molecule Inhibitors, Phytocompounds, and Next-generation Antivenoms
A broad venomics program with real-world impact.
Our research leverages venomous animals as model systems to explore core questions in evolutionary biology and genetics. Employing advanced, multidisciplinary technologies, we reconstruct the evolutionary histories of venoms and their source organisms. Concurrently, we translate these biological insights into novel therapeutic strategies for snakebite envenoming, aiming to develop treatments with greater efficacy, safety, and affordability.
We aim to develop advanced therapeutics for medically important envenomings in India and globally. We reshape snakebite treatment by improving conventional antivenoms, engineering broadly neutralizing monoclonal antibodies, evaluating repurposed small-molecule inhibitors, and medicinal plant-derived phytocompounds.
We reconstruct evolutionary relationships among venomous animals to resolve species boundaries, identify hidden diversity, and understand how lineages radiate across deep evolutionary time.
We investigate how geography, habitat, and climatic history shape the distribution of venomous animals across India and beyond, revealing broad-scale patterns of diversification.
We use genome-scale datasets to resolve difficult evolutionary relationships, test deep-time hypotheses, and uncover the genomic basis of diversification in venomous animals.
We examine how toxin genes and venom systems evolve under natural selection, constraint, and functional innovation across ancient and recently diverged lineages.
Research profile, professional updates, and public science dispatches.
An Associate Professor at the CES, IISc, Bangalore, and the founder of Evolutionary Venomics Lab, VISHAM and Venomics AI.
The lab.
A multidisciplinary team of evolutionary biologists, ecologists, biochemists, and translational researchers working across scales — from toxin molecules and venom glands to biodiversity patterns, diagnostics, and therapeutic design.
A living map of venom research.
Follow how our science moves from field discovery to clinical translation. This collection captures the Evolutionary Venomics Lab’s progress across venom evolution, toxin ecology, molecular mechanisms, antibody discovery, antivenom development, and next-generation snakebite therapeutics.
Latest Papers
Field notes from The Venom Detective.
Stories from venom research, snakebite science, natural history, and life in the field.
Gallery.
Wildlife & macro photography from India and beyond, by Kartik Sunagar — The Venom Detective.
Work with us, or get in touch.
Explore open positions in the lab, or reach out about collaborations, media requests, and speaking invitations.