If you’re an international fee-paying student you could be eligible for a £3,000 discount when you start your course in January 2017. http://www.shu.ac.uk/VCAwardJanuary2017
Enhance your knowledge and skills in biosciences with an emphasis on biotechnology and increase your competitiveness in the job market. Whether you are a new graduate or already employed and seeking to further your career prospects, this course offers a solid career development path. You can also choose this course if you wish to pursue research in biotechnology at PhD level.
Biotechnology is the application of biological processes and is underpinned by:
It encompasses a wide range of technologies for modifying living organisms or their products according to human needs.
Applications of biotechnology span medicine, technology and engineering. Important biotechnological advances including:
-The production of therapeutic proteins using cloned DNA, for example insulin and clotting factors.
-The application of stem cells to treat human disease.
-The enhancement of crop yields and plants with increased nutritional value.
-Herbicide and insect resistant plants.
-Production of recombinant antibodies for the treatment of disease.
-Edible vaccines, in the form of modified plants.
-Development of biosensors for the detection of biological and inorganic analytes.
-Up-to-date knowledge of the cellular and molecular basis of biological processes.
-An advanced understanding of DNA technology and molecular biotechnology.
-Knowledge of developing and applying biotechnology to diagnosis and treatment of human diseases.
-Practical skills applicable in a range of bioscience laboratories.
-The transferable and research skills to enable you to continue developing your knowledge and improving your employment potential.
The course is led by internationally recognised academics who are actively involved in biotechnology research and its application to the manipulation of proteins, DNA, mammalian cells and plants. Staff also have expertise in the use of nanoparticles in drug delivery and the manipulation of microbes in industrial and environmental biotechnology.
You are supported throughout your studies by a personal tutor.
You begin your studies focusing on the fundamentals of advanced cell biology and molecular biology before specialising in both molecular and plant biotechnology. Practical skills are developed throughout the course and you gain experience in molecular biology techniques such as PCR and sub cloning alongside tissue culture.
Core to the program is the practical module where you gain experience in a range of techniques used in the determination of transcription and translational levels, for example.
All practicals are supported by experienced academic staff, skilled in the latest biotechnological techniques.
Research and statistical skills are developed throughout the program. Towards the end of the program you apply your skills on a two month research project into a current biotechnological application. Employability skills are developed throughout the course in two modules.
For more information, see the website: https://www.shu.ac.uk/study-here/find-a-course/mscpgdippgcert-biotechnology
What is biotechnology
Biotechnology is the basis for the production of current leading biopharmaceuticals and has already provided us with the 'clot-busting' drug, tissue plasminogen activator for the treatment of thrombosis and myocardial infarction. It also holds the promise of new treatments for neurodegeneration and cancer through recombinant antibodies. Recombinant proteins are also found throughout everyday life from washing powders to cheese as well as many industrial applications.
Genetically modified plants have improved crop yields and are able to grow in a changing environment. Manipulation of cellular organisms through gene editing methods have also yielded a greater understanding of many disease states and have allowed us to understand how life itself functions.
Full time – 14 months to Masters. Part time – typically 2 years to Masters. The Diploma and Certificate are shorter. Starts September and January.
The masters (MSc) award is achieved by successfully completing 180 credits. The Postgraduate Certificate (PgCert) is achieved by successfully completing 60 credits. The Postgraduate Diploma (PgDip) is achieved by successfully completing 120 credits.
-Cell biology (15 credits)
-Biotechnology (15 credits)
-Plant biotechnology (15 credits)
-Molecular biology (15 credits)
-Applied biomedical techniques (15 credits)
-Professional development (15 credits)
-Research methods and statistics (15 credits)
-Research project (60 credits)
Options (choose one from)
-Human genomics and proteomics (15 credits)
-Cellular and molecular basis of disease (15 credits)
-Cellular and molecular basis of cancer (15 credits)
Assessment methods include written examinations and coursework including: problem-solving exercises; case studies; reports from practical work; in-depth critical analysis; oral presentations. Research project assessment includes a written report and viva.