1. Molecular biology and genetic engineering: study the expression, regulation and function of genes in organisms, and use genetic engineering technology to treat diseases and biopharmaceuticals.
2. Cell biology and tissue engineering: study the structure, function and development process of cells, and use cell culture and tissue engineering technology to repair and regenerate tissues.
3. Oncology and cancer treatment: study the mechanism, development and metastasis of tumors and develop new cancer treatment methods, such as targeted therapy and immunotherapy.
4. Neuroscience and brain research: study the structure and function of the nervous system and the role of the brain in cognition, behavior and diseases, including the study of neurodegenerative diseases.
5. Cardiovascular diseases and vascular biology: study the pathogenesis, prevention and treatment of cardiovascular diseases, as well as the basic problems of vascular biology, such as angiogenesis and vascular remodeling.
6. Bioinformatics and systems biology: study the collection, analysis and interpretation of biological data, and study the complexity of biological systems through computer simulation and modeling.
7. immunology and infectious diseases: study the structure and function of immune system, as well as the pathogenesis and prevention strategies of infectious diseases.
8. Drug research and development and pharmacology: study the design, synthesis and evaluation of new drugs, as well as the mechanism and pharmacodynamics of drugs in vivo.