Every biological process, from DNA replication to energy production, relies on the precise function of molecular machines—proteins, enzymes, and nucleic acids that work together in intricate ways. Seeing these macromolecules in action is one of the most powerful ways to understand how life operates at a fundamental level. Structural biology allows us to capture these molecular players in unprecedented detail, revealing how their shapes dictate their functions. By understanding biomolecules at the atomic level, we can uncover the fundamental principles of life and develop innovative solutions for medicine and biotechnology.

In our lab, we harness the power of structural biology to investigate the complexity of life at the molecular level. Using advanced techniques like cryo-electron microscopy (cryo-EM) and X-ray crystallography, we visualize the architecture of biological macromolecules, deciphering how they interact and carry out essential cellular functions. This approach provides a powerful lens to study fundamental biological mechanisms with direct implications for human health.

Our research spans multiple biological systems, focusing on the molecular determinants that govern protein function, regulation, and interaction networks. By combining structural biology with molecular biology approaches, we aim to unravel the intricate molecular choreography that underlies life itself.

Through our work, we strive to illuminate the hidden mechanisms of molecular biology, one structural snapshot at a time.