MSc Molecular Biology with Professional Experience
Course overview
Study level: Postgraduate
Molecular biology – the study of the basis of life - focuses on the structure and function of DNA, RNA and protein and their interactions with each other.
This master’s course responds to the demand for highly skilled scientists who can identify defects in cellular systems at the nucleic acid level and conduct genetic modification of organisms which allow a greater understanding of cellular function.
- You will have the opportunity to study a broad range of molecular biology at a theoretical and a practical level.
- Opportunities to gain hands-on experience of molecular biology techniques, as well as develop a range of transferrable and research skills that will expand your knowledge and may enhance your employment potential.
- Opportunity to gain a deeper understanding of the molecular principles underlying the biology of selected diseases (including inherited cancers) and microorganisms such as bacteria, viruses, fungi, and yeasts. A core focus will be genome structure, regulation and transfer, and the implications for DNA technology.
Course overview
Study level: Postgraduate
Molecular biology – the study of the basis of life - focuses on the structure and function of DNA, RNA and protein and their interactions with each other.
This master’s course responds to the demand for highly skilled scientists who can identify defects in cellular systems at the nucleic acid level and conduct genetic modification of organisms which allow a greater understanding of cellular function.
- You will have the opportunity to study a broad range of molecular biology at a theoretical and a practical level.
- Opportunities to gain hands-on experience of molecular biology techniques, as well as develop a range of transferrable and research skills that will expand your knowledge and may enhance your employment potential.
- Opportunity to gain a deeper understanding of the molecular principles underlying the biology of selected diseases (including inherited cancers) and microorganisms such as bacteria, viruses, fungi, and yeasts. A core focus will be genome structure, regulation and transfer, and the implications for DNA technology.
