ossil remains from ~100 million years ago (Ma) show that snakes were widely distributed across the world by the late Cretaceous period 1. During the course of their evolution, snakes lost their limbs, acquiring a serpentine body 2. Some also evolved or co-opted venom systems to help subdue, capture and digest their prey 2,3. The Colubroides clade of advanced snakes encompasses >3,000 extant species including >600 venomous species 4. The most venomous snakes include the true vipers and pit vipers, both members of the Viperidae family, and cobras, kraits, mambas and sea snakes from the Elapidae family 5. Although humans are not an intended target, accidental contact with venomous snakes can be deadly. Snakebite envenoming is a serious neglected tropical disease that affects ~5 million people worldwide annually, leading to ~400,000 amputations and >100,000 deaths 6. In India alone, the high rural population density combined with the presence of the 'big four' deadly snakes, namely the Indian cobra (Naja naja), Russell's viper (Daboia russelli), sawscaled viper (Echis carinatus) and common krait (Bungarus caeruleus), results in >46,000 snakebite-related deaths annually 7. Snake venom is a potent lethal cocktail rich in proteins and peptides, secreted by specialized venom gland cells. Venom components can be broadly classified as neurotoxic, cytotoxic, cardiotoxic or hemotoxic, and the composition can vary both between and within species 8-11. Currently, snake antivenom is the only treatment effective in the prevention or reversal of the effects of envenomation. Since 1896, antivenom has been developed by immunization of large mammals, such as the horse, with snake venom to generate a cocktail of antibodies that are used for therapy 12. Given the heterologous nature of these antibodies, they often elicit adverse immunological responses when treating snakebite victims 13. Moreover, the antivenom composition is not well defined and its ability to neutralize the venom
