MPhil Cellular and Molecular Physiology
Course Overview
This course in Cellular and Molecular Physiology provides a comprehensive exploration of how molecular mechanisms and cellular interactions form the basis of complex functions in living organisms. It bridges fundamental research with clinical applications, offering a translational approach to address pressing physiological questions. Students will engage with a wide range of experimental models, from molecules to humans, to understand health and disease.
Key Program Highlights
- Exploration of core cellular processes like intracellular signaling, vesicular transport, and the cell cycle
- Integration of systems physiology, including cancer biology, stem cells, and developmental physiology
- Focus on translational research, creating vital links between laboratory discoveries and clinical practice
- Hands-on experience with diverse model organisms and techniques, from molecular biology to whole-organism studies
- Specialized study in key areas such as neuronal signaling, calcium dynamics, and mechanisms of infection
Course Overview
This course in Cellular and Molecular Physiology provides a comprehensive exploration of how molecular mechanisms and cellular interactions form the basis of complex functions in living organisms. It bridges fundamental research with clinical applications, offering a translational approach to address pressing physiological questions. Students will engage with a wide range of experimental models, from molecules to humans, to understand health and disease.
Key Program Highlights
- Exploration of core cellular processes like intracellular signaling, vesicular transport, and the cell cycle
- Integration of systems physiology, including cancer biology, stem cells, and developmental physiology
- Focus on translational research, creating vital links between laboratory discoveries and clinical practice
- Hands-on experience with diverse model organisms and techniques, from molecular biology to whole-organism studies
- Specialized study in key areas such as neuronal signaling, calcium dynamics, and mechanisms of infection
