Genetics

BSc

UCAS Code: C400
Typical offer:
AAA-AAB
Length:
Three years

MBiolSci

UCAS Code: C409
Typical offer:
AAA-AAB
Length:
Four years

Contact time: At least 17 hours per week, more in level three due to project work

Learn about DNA's role in biology, study key areas and specialise

Work in the labs and develop essential careers skills

How to apply for this course

Other Genetics options: Genetics and Microbiology | Genetics and Molecular Cell Biology | Medical Genetics
Other MBB courses: Biochemistry | Microbiology | Molecular Biology

About the course

Genetics is the subject which explains how cells grow, reproduce and vary. Developing an understanding of DNA is the key to much of modern biology, touching on everything from gene therapy, genetic disorders and GM crops to cloning, genetic engineering and the human genome project. The Genetics degree will teach you the fundamental science that underpins all of these areas, and its wider implications for biotechnology, medicine (for example, cancer treatment) and the food that we eat through selective breeding programmes in the agriculture industry.

As an MBB student, you have the flexibility to specialise in the areas that most interest you. All of our courses have a common first year so that you can develop an understanding of key areas from across the molecular biosciences, and this means that you can easily switch courses if you find yourself interested in pursuing other areas. In second year the programme is more structured, with core modules to give you a more advanced knowledge of genetics, then in third year you will specialise further by taking modules on topics specific to your degree. Click the Module list tab to see the range of options available to you – this includes modules to develop your laboratory and data handling skills, and the third year practical project which gives you hands on experience of research, or areas such as business, journalism and teaching.

The variety this course offers means that our graduates leave us with lots of options open to them. Many of them remain in academia to do their own research and gain PhDs, while others find work in medical, agricultural or veterinary research, healthcare, forensics, and in the brewing, pharmaceutical and agrochemical industries. There are also graduates who have found that the transferable skills they gained from their degrees and third year projects have equipped them well for careers in business, journalism, teaching and many other areas.
After your degree

If you decide to do the four year MBiolSci version of this course, you can gain even more laboratory experience and research-related skills
Four year MBiolSci option

Teaching and facilities

Our academic staff includes many world-leading researchers and all of them teach on our undergraduate courses. When you study here, you will learn through a variety of lectures, practical laboratory classes and analysis classes, covering fundamental principles alongside the latest research from this department and the wider scientific community. In addition, you will be assigned a member of staff to be your personal tutor throughout your studies, who can help you with essay writing, presentation skills, calculations, CV writing and careers advice.

As the department has recently undergone a £39m refurbishment, you will learn in a state-of-the-art academic environment. Our facilities include 6,000 square metres of laboratory space which hosts the latest equipment used in structural biology, spectroscopy, genomics and cell biology. Once you have learned core scientific techniques in your first year - handling equipment, designing experiments, interpreting data, group working – you continue to spend time in the labs studying the areas that interest you most.

The third year project is a chance for you to apply your skills to an area you may be considering a career in. Here, you have a range of options:

  • Lab-based research – looking into an area of bioscience that interests you
  • Clinical diagnostics – diagnosis and treatment based on genuine patient data
  • Molecular systems and computing – studying complex data sets
  • Science communication – researching controversy around an area of science
  • Public outreach – working to bring science to a wider audience

This is assessed through a written report, while other modules are assessed through essays and exams, both written and multiple-choice.

You will get more hands-on research experience in your fourth year if you choose to do the MBiolSci course.
Four year MBiolSci option

Modules and structure

Our courses are modular and you can see which modules are offered on this degree programme below. They are taught in a two-semester year, with each semester comprising twelve weeks of teaching plus three weeks of exams. The first semester runs from September until Christmas with exams in January, and the second runs from February until June, with a break for Easter. This year’s timetable is available to download above – Wednesday afternoons are kept free for sports or other extra-curricular activities.

In the first three years you will have around eight hour-long lectures each week. You will also have two three-hour practical classes each week, plus other sessions, in the first two years of your course before undertaking your own practical project in the third year. In addition, you will be a member of a tutorial group with around five other students and will have 11 sessions with your personal tutor in the first year, and nine in the second year, some of which will be one-on-one. Most practical work is done in pairs and there is also some group work.

Below are the current undergraduate modules for this course. As we want to keep our degrees as up-to-date as possible, the modules available when you start your degree might be different.


First year

Core modules

Options

  • One unrestricted module from elsewhere in the University

Second year

Core modules

Options


Third year

Core modules

Options

Seven modules chosen from:

One other MBB module:


Fourth year (MBiolSci only)