Learn more about the antibodies of a self-immunizing donor that could help create a universal snake antivenom.

Scientists have developed a potentially universal antivenom using antibodies from a hyper-immune human donor, offering broad ...

By using antibodies from a human donor with a self-induced hyper-immunity to snake venom, scientists have developed the most ...

Charge transfer, or the movement of electrons, can occur either within a molecule or between two molecules. Combining the two types of charge transfer is challenging. Now, scientists have developed a ...

In an interdisciplinary study researchers from the Jawaharlal Nehru Centre for Advanced Scientific Research (JNCASR) along ...

Scientists developed a groundbreaking antivenom cocktail using antibodies from a hyperimmune human donor and a small-molecule inhibitor that protected mice from deadly bites of 19 diverse snakes. This ...

A revolutionary new antidote neutralizes the venom of 19 of the world’s deadliest snakes, including the mamba, king cobra, ...

Intramolecular charge transfer (ICT) occurs when electrons are exchanged between donor and acceptor groups within a molecule via a series of overlapping electron orbits. This exchange creates a ...

Researchers from the Jawaharlal Nehru Centre for Advanced Scientific Research (JNCASR) Bengaluru (an autonomous institution u ...