Molecular medicine is transforming the way we understand and treat human diseases, from cancers to neurodegenerative disorders. Combining contemporary medical studies with biochemistry and molecular biology, this rapidly advancing area creates a bridge between the subjects, and draws on other fields such as physics, chemistry, biology and medicine.
This course examines how normal cellular processes are affected by disease. You gain an understanding of the core foundations of molecular medicine, studying the topics most relevant to the real world, and how this science may be used in the prevention, diagnosis, and treatment of diseases.
You learn about and appraise the approaches that can be used to address global health problems, including cancer as well as genetic and infectious diseases. The foundations that support investigations of molecular disease mechanisms and the search for new diagnostic tools and treatments will be laid, as you explore topics including: -Gene and protein technology. -Synthetic biology -Bioinformatics -Genomics
This course has a very high proportion of practical and bioinformatic work that provides valuable experience for your career. This includes our optional module Creating and Growing a New Business Venture, which challenges you to think creatively and increases your value to organisations, including small enterprises, which are a growing part of the biopharmaceutical sector.
Your research project is a major component of your course, in which you perform novel laboratory and/or bioinformatic research in one of our academic laboratories or (subject to approval) carry out research in an industrial or hospital setting.
Two-thirds of our research is rated “world-leading” or “internationally excellent” (REF 2014), and you learn from and work alongside our expert staff.
Our expert staff
As one of the largest schools at our University, we offer a lively, friendly and supportive environment with research-led study and high quality teaching. You benefit from our academics’ wide range of expertise and research on important national and international problems using cutting-edge techniques.
The University of Essex has a Women's Network to support female staff and students and was awarded the Athena SWAN Institutional Bronze Award in November 2013 in recognition of its continuing work to support women in STEM.
Recent investment has provided modern facilities for functional genomics, computational biology and imaging biological systems. On our course you have the opportunity to: -Work in an open and friendly department, with shared staff-student social spaces -Conduct your research alongside academics and PhD students in shared labs -Learn to use state-of-the-art research facilities, from protein purification, to cell culture and imaging, to molecular modelling
Contribute to a growing industry and gain the skills and knowledge to pursue a career in biomedical research and industry, or continue your studies further in postgraduate science and medical degrees.
Advances in molecular medicine will continue to drive growth of new services and products in health care, biomedical and pharmaceutical organisations and companies, and our graduates are well placed to take advantage of employment opportunities in the life science, biotech and pharmaceutical industries and hospitals.
Many of our Masters students progress to study for their PhD, and we offer numerous studentships to support our students in their studies.
We work with our university’s Employability and Careers Centre to help you find out about further work experience, internships, placements, and voluntary opportunities.
-Research Project: MSc Molecular Medicine -Protein Technologies -Gene Technology and Synthetic Biology -Professional Skills and the Business of Molecular Medicine -Molecular Medicine and Biotechnology -Genomics -Advanced Medical Microbiology (optional) -Human Molecular Genetics (optional) -Cancer Biology (optional) -Creating and Growing a New Business Venture (optional) -Rational Drug Design (optional) -Molecular and Developmental Immunology (optional) -Cell Signalling (optional) -Mechanisms of Neurological Disease (optional)