Projects

Cancer Biology

This project explores the molecular mechanisms of cancer development and progression, aiming to identify potential therapeutic targets. It combines genomics, proteomics, and bioinformatics to understand tumor biology and improve treatment strategies.

Gene Functionality

Our gene functionality project employs CRISPR-Cas9 technology to investigate the roles of specific genes in cellular processes. We focus on identifying potential therapeutic targets for genetic disorders through systematic gene editing and analysis.

Vaccine Design

This therapeutic vaccine project focuses on developing novel immunotherapies for chronic diseases. We're engineering personalized vaccines to stimulate the immune system against specific antigens, potentially revolutionizing treatments for cancer, autoimmune disorders, and persistent infections.

Neuroscience

This multidisciplinary neuroscience project combines artificial intelligence, neuroimaging, and cognitive psychology to map brain connectivity patterns. We aim to develop novel diagnostic tools for neurological disorders and enhance our understanding of complex cognitive processes in healthy and diseased states.

Nanobiotechnology

Our nanobiotechnology project explores exosome-based drug delivery using green synthesis methods. We aim to develop eco-friendly, biocompatible nanocarriers for targeted therapeutics, enhancing treatment efficacy while minimizing environmental impact in pharmaceutical applications.

Bioengineering

Our bioengineering project integrates engineering principles with biomedical sciences to create innovative medical solutions. We're developing smart biomaterials and tissue-engineered constructs for regenerative medicine, aiming to revolutionize organ repair and replacement therapies.