How can biological processes and organisms be used in the development of new technologies? Biotechnology enables us to improve practices in diverse fields including genetics, agriculture, bioremediation, immunology, diagnostics, energy production, and age-assisted living.
Our course provides you with knowledge, understanding and hands-on experience in modern biotechnology, and with practical insights into current commercial applications. It creates access to a broad range of career opportunities in this rapidly growing key technology.
You will learn about and appraise the approaches that can be used to address the challenges facing our planet, including: -The development of biofuels, pharmaceuticals and crops to support and feed the growing human population -Industrial, plant and medical biotechnology -Gene and protein technology -Synthetic biology -Bioinformatics
The course has a very high proportion of practical work that provides valuable experience for your career, and in addition to this, our optional module Creating and Growing a New Business Venture challenges you to think creatively. This increases your value to organisations, including small enterprises, which are a growing part of the biotechnology sector.
Your research project is a major component of this course, for 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 leading academics and PhD students in shared labs -Learn to use state-of-the-art equipment
Our graduates are well placed to find employment in the ever-growing bio-based economy, and postgraduate study is often a requirement for becoming a researcher, scientist, academic journal editor and to work in some public bodies or private companies.
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.
Postgraduate study is the chance to take your education to the next level. The combination of compulsory and optional modules means our courses help you develop extensive knowledge in your chosen discipline, whilst providing plenty of freedom to pursue your own interests. Our research-led teaching is continually evolving to address the latest challenges and breakthroughs in the field, therefore to ensure your course is as relevant and up-to-date as possible your core module structure may be subject to change.
Biotechnology - MSc -Research Project: MSc Biotechnology -Protein Technologies -Gene Technology and Synthetic Biology -Genomics -Professional Skills and the Business of Biotechnology -Creating and Growing a New Business Venture (optional) -Industrial Biotechnology: Enzymes, Biochemicals and Biomaterials (optional) -Molecular Medicine and Biotechnology (optional) -Plant Biotechnology (optional) -Rational Drug Design (optional)