The Department of Computational Biosciences and Drug Discovery is committed to transforming the landscape of modern healthcare through advanced computational sciences. By integrating bioinformatics, cheminformatics, molecular modeling, structural biology, and artificial intelligence, the department provides a strong platform for rational drug design and discovery. Our research and academic activities focus on translating complex biological data into meaningful therapeutic solutions, bridging the gap between molecules and medicines with precision, innovation, and efficiency.
The mission of the Department of Computational Biosciences and Drug Discovery is to advance drug discovery through state-of-the-art computational and systems biology approaches, fostering innovation at the interface of life sciences, computational sciences, and medicine. The department is dedicated to developing predictive models and simulation tools that enhance precision and efficiency in drug design, while also training the next generation of scientists with expertise in computational biosciences and translational research. Through interdisciplinary collaboration and cutting-edge methodologies, we strive to contribute to global healthcare by accelerating the discovery of affordable, effective, and sustainable therapeutic solutions.
To conduct cutting-edge research across diverse domains, the Department of Computational Biosciences and Drug Discovery has established the following specialized research groups:
