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BSc Medical Biochemistry

Start date
September
Duration
3 years
UCAS code
C720
Course Type
Undergraduate, Single Honours
Fees
Annual tuition fees for 2025/26:
£9,535 (UK)
£28,130 Fee Band 3a (International Students - 2025-26)
More detail

Our Royal Society of Biology accredited Medical Biochemistry  degree explores the molecular nuts and bolts of living organism, with particular emphasis on disease and avenues for therapy. 

Advances in the biosciences are having a profound impact on our daily lives, from human health to conservation, making it a hugely rewarding area to study and work in. Studying at Birmingham means you'll benefit from high-technology facilities and teaching from world-renowned experts in their field.

The Medical Biochemistry course builds on the framework of our Biochemistry programmes, with a diverse range of optional modules in second and final year.  We start with the foundations of chemistry, cell biology and genetics and lead you right up to cutting-edge research questions in the final year.

With the syllabus of the Medical Biochemistry course, you will acquire a wide range of skills, with particular emphasis on data analysis, experimental design and problem solving. Skills acquired in this course enable careers not just in the life science, but across a wide range of professions. Check out our collection of related research stories to see how biochemical research inspires the course syllabus.

This flexible course provides you with the opportunity to tailor a degree to match your own interests and goals, and have the unprecedented opportunity to join one of our research groups, working on live research projects. The course combines practical work and theory allowing you to develop a wide range of skills and knowledge.

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Royal Society of Biology - Accredited Degree This programme has been accredited by the Royal Society of Biology. Accredited degree programmes contain a solid academic foundation in biological knowledge and key skills, and prepare graduates to address the needs of employers.

I choose medical biochemistry... because it allowed me explore the living world from microbiology to disease progression. ...The broad range of topics presented in the first year... allowed the opportunity to sample every aspect of what biochemistry is.

Hannah Walters-Morgan , BSc Medical Biochemistry student

Why study this course?

  • QS World University Rankings 2024: Ranked 14th for Biosciences in the UK.
  • Tailored options: The Biochemistry degree course offers a fantastic opportunity to explore living organisms from a molecular and cellular perspective.  Our modular course programme gives increasing flexibility in choosing modules that resonate with your interests.
  • Practical skills development: With a Biochemistry degree, you will acquire a wide range of skills, with particular emphasis on data analysis, experimental design and problem solving. Skills acquired in this course enable careers not just in the life science, but across a wide range of professions.
  • Research excellence:  Our experts are responding to key challenges of global importance. Find out more about research in the School of Biosciences.

Modules

Student in labOur modular course programme gives increasing flexibility in choosing modules that resonate with your interests. Following a first year where all modules are compulsory, you take a combination of compulsory and elective modules in the second year, while the final year includes only one core module and a broad choice of elective modules covering areas as diverse as cancer biology, immunology, neurobiology and mechanisms of human disease. In the synopsis below we highlight the modules that are particularly relevant for the Medical Biochemistry specialisation.

The modules described here are the ones that we currently offer and will give you a good idea of the range of subjects that we teach. However as our undergraduate teaching is research led and we constantly review our teaching to ensure that the modules that we offer are up to date there may be changes to module titles and content.

Please note: The modules listed on the website for this programme are regularly reviewed to ensure they are up-to-date and informed by the latest research and teaching methods. Unless indicated otherwise, the modules listed for this programme are for students starting in 2024. On rare occasions, we may need to make unexpected changes to compulsory modules after that date; in this event we will contact offer holders as soon as possible to inform or consult them as appropriate.

First Year

The first year offers a set of modules that explores the full spectrum of biochemistry, from the physiology of living organism to the molecular details of particular biochemical reactions and the enzymes that catalyse these reactions. A key element is the Chemistry module. You will also have the opportunity to explore the content of other courses offered by this University as part of the Modules Outside the Main Discipline (MOMD) programme.

First year modules

Fundamentals of Biochemistry - Fundamental biochemical processes taking place inside cells

Cell Biology and Physiology - Tissues, organelles, reproduction and development

Chemistry for Biochemists I - Inorganic and organic chemistry, including practical training.

Genetics I -  Storage of genetic information, gene expression and regulation, mitosis and meiosis, gene linkage and chromosome mapping.

Metabolism - Enzyme catalysis and regulation, metabolism of carbohydrates and vitamins, experimental techniques to study metabolic reactions.

Physical Biochemistry - The fundamental laws governing biochemical reactions and how we can explore them experimentally.

Personal and Academic Skills: Communication and Data Analysis - Core skills required by Bioscience students in all disciplines

Personal and Academic Development - Group work in tutor groups.

Nora Miroslavova, Biochemistry graduate"The modules were taught by expert members of staff involved in the research field, which I found very interesting and stimulating."

Second Year

The second year features a combination of core modules that all biochemistry students follow, and two elective modules, where you can start to define your personal direction in the field.

Second year modules

Core modules (taken by all students on the Biochemistry programme)

Molecular Biology and its Applications – Genetic analysis and gene cloning, DNA fingerprinting and forensics, genomics and computational approaches to genetics.

Proteins and Enzymes – Protein structure and evolution, mechanisms of enzyme catalysis, techniques to determine protein structures.

Membranes, Energy and Metabolism – Biological membranes and their role in energy metabolism, regulation of metabolism by hormones and other factors.

Chemistry for Biochemists II - Spectroscopic techniques, synthesis of peptides, oligonucleotide and aromatic compounds, determining structures of simple organic molecules.

Communications and Skills in Biosciences – Science communication in writing and oral presentations, ethics in science, analysis of the scientific literature.

Academic Development & Career Building - Continued group work for academic development.

Students must choose one of the following: 

Cell and Developmental Biology - Development of multicellular organisms, interaction between cells and the cellular matrix, regulation of stem cell function.

Genetics II – Organisation of genes and genomes, generation of genetic diversity, gene transmission and analysis of problems in transmission and molecular genetics.

Students must choose one of the following:

Topics in Medical Biosciences – Neurobiology and neurotransmitters, pharmacology and anaesthetics, blood constituents and haemostasis, complement and immunity.

Microbiology: Medicine, Environment, and Industry – The impact of microbes on humans, bacteria, fungi and viruses, common themes of infectious disease mechanisms.

Final Year

The core component of the final year is the Project, which covers 40 of 120 final year credits. In dialogue with a lecturer or professor, you will do your own research and be led to independence as a biochemist. The Medical Biochemistry course also includes one core module focussing firmly on analytical skills. Finally, a diverse spectrum of elective modules allows you to explore individual facets of biochemistry according to your personal preference and interests.

You can choose between 3 project options, a practical project, a literature review project or an education-focussed project. All 3 options carry the weight of 2 taught final year modules and all 3 train you in skills such as study design, recording & documenting data, ethics & safety as well as data analysis & interpretation.

Final year modules

Core content

Experimental Design, Analysis and Interpretation of Biochemical Data – Lectures and practicals focussing on analysing data from biochemical experiments, from considering experimental design, to preparing reagents to composing an experimental report.

Project options

Literature Review, critical analysis and project proposal - Focus on a topic in contemporary biology or biochemistry, under the supervision of a member of staff.

Practical Project - A practical Project will be undertaken in a particular area of bioscience under the supervision of a member of staff.

Introduction to Teaching Biosciences in Schools -  First-hand experience of science education by offering a teaching experience that provides key transferable skills and encourages undergraduates to consider a career in teaching. 

Choose three optional modules

(**In order to be awarded the Medical Biochemistry degree title you need to select two qualifying modules)

Structures of Destruction - Bacterial and viral pathogens explored from the perspective of their molecular structures, protein misfolding and amyloid diseases.

Cancer Biology – Regulation of cell division and aberrations in malignant tumours, genetic bases of tumourigenesis, programmed cell death.

Molecular and Cellular Immunology |  Watch video - Evolution of the immune system, innate immunity, cell biology of immunity, structural basis of discrimination between self and non-self.

Cellular Neurobiology |  Watch video - Neuronal function and neural development, synaptic function, transmitter receptors and ion channels.

Eukaryotic Gene Expression - Control of gene transcription, chromatin structure, pre-mRNA processing, mRNA translation and degradation.

Omics for Biomedical Research - Discover how omics technologies have led to identification of novel biomarkers that will enable a future medical need for personalised/stratified medicine. 

* Modules run either in Semester 1 or Semester 2. Particular combinations of modules may not be advisable, especially if all 3 choices were to run in the same semester.

Fees

Standard Home student fees 2025-26

The University will charge the maximum approved tuition fee per year. If your offer is for 2025 year of entry, we expect that the tuition fee for your first year of study will be £9,535. If Parliament agrees on an increase in tuition fees, the University will increase fees for each year of study normally in line with these changes and will communicate any change in the fees to you without delay. If you are applying for 2026 year of entry, you will be advised of the annual tuition fee closer to the time.

Standard international student fees 2025-26

International fee
Fee Band (Undergraduate) Full-time
Band 3a (Laboratory) £28,130

Learn more about fees and funding

Scholarships
Learn more about our scholarships and awards

How To Apply

Apply through UCAS at www.ucas.com 
Learn more about applying

Standard offer

International Requirements



Number of A levels required:
3
Typical offer:
AAB
Required subjects and grades:
A level Chemistry and a second science°. Minimum of five GCSEs to include English, Mathematics and double award science at grade 4/C.

°Subjects accepted as 'second science': Biology, Human Biology, Mathematics (or Further Mathematics, or Statistics), Physics.

Specified subjects excluded for entry: General Studies, Critical Thinking, Citizenship Studies, Applied Science, Communication and Culture, Critical Studies, Global Perspectives, Science in Society and World Development.

BTEC National Extended Diploma D*D*D in Applied Science

BTEC Level 3 National Diploma D*D* in Applied Science and A Level grade B in Chemistry

BTEC Level 3 National Extended Certificate D* in Applied Science, Applied Human Biology, or Applied Psychology and 2 A Levels at grades AB, with the B in A Level Chemistry.

Or

BTEC Level 3 National Extended Certificate D* in any subject and 2 A Levels with grades AB, to include Chemistry and a second science subject.

Other qualifications are considered – learn more about entry requirements

 

Alternative offers through our Pathways to Birmingham programmes and our Contextual Offer scheme

Students who are eligible and successfully complete a Pathways to Birmingham programme will receive special consideration from admissions tutors and an alternative offer (typically two grades below the standard offer). In addition, our Contextual Offer Scheme recognises the potential of students whose personal circumstances may have restricted achievement in school or college. If you are eligible to benefit from the contextual offer scheme, you will receive an offer which is one grade lower than the standard offer.

International Students

International Baccalaureate Diploma: 6, 6, 5 in Higher level subjects plus 32 points overall. Higher level subjects need to include the required subjects as defined for the A-level qualification.

Standard English language requirements apply
Learn more about international entry requirements

Depending on your chosen course of study, you may also be interested in one of our foundation pathways, which offer specially structured programmes for international students whose qualifications are not accepted for direct entry to UK universities. Further details can be found on Birmingham International Academy web pages.

The Collaborative Teaching Laboratory is a brand new state-of-the-art facility designed to support the latest methods in laboratory teaching for STEM subjects.

Collaborative Teaching Laboratory

You’ll be taught using a combination of lectures, practical sessions and tutorials with lecturers using innovative teaching techniques where possible.

At Birmingham, research and teaching go hand-in-hand. Lecturers and professors contribute to scholarship in their fields and, as academic teachers, are keen to introduce you to what intrigues them.

Find out more about research in the School of Biosciences.

Our spacious state-of-the-art teaching laboratories are the training ground for your skills development, and you will have access to high-technology facilities during your final-year project.

  • Lectures - At Birmingham, we support lectures through recordings of the session, so you can revisit and review parts of the session as needed. Lectures frequently include interactive elements, instance by using instant polling. Occasionally, we use 'flipped' lectures, asking you to study a particular topic prior to a session, and using the contact time to explore the topic in more depth through problem solving exercises, question-and-answer sessions or lecturer-led group discussions. Student interaction using discussion boards and social media is expressively encouraged.
  • Practical classes - Laboratory-based practical work is an integral part of our degree. A typical practical session will last 3 hours  delivering important transferable skills, experience of practical work is essential if you wish to move into a research career and is valued by a wide range of employers. You will be able to engage with academic and post graduate researchers who will help you during these practical sessions.
  • Field courses - Biological Sciences students have the opportunity to develop their field skills on a wide range of field courses in different environments. See the Course Modules tab for details.
  • Project (final year) - A core component of your final year is the project, which principally comes in two forms: as a practical project (Laboratory, field, outreach or computational) or as an extended dissertation. In both situations, a lecturer or professor will guide and advise you. But the principal aim is to lead you to independence as a future graduate in your field. 

Support

You will have access to a comprehensive support system to help you make the transition to Higher Education.

  • Personal tutors - You will be assigned your own personal tutor who will get to know you as you progress through your studies. They will provide academic support and advice to enable you to make the most of your time here at Birmingham.
  • Wellbeing officers - We have dedicated wellbeing officers who provide professional support, advice and guidance to students across a range of issues. They can meet with you to discuss extensions, disabilities, reasonable adjustments, extenuating circumstances, or talk through any problems you might be experiencing, and help you access wider support on campus and beyond.
  • Academic Skills Centre - The centre aims to help you become a more effective and independent learner through a range of high-quality support services. The centre offers workshops on a range of topics, such as note-taking, reading, academic writing and presentation skills.
  • Student experience - Our Student Experience Team will help you get the most out of your academic experience. They will offer research opportunities, study skills support and help you prepare for your post-university careers. They will also organise social events, such as field trips, to help you meet fellow students from your course.

During your first year it is important that you have a smooth transition into university. You will be able to talk to your tutors about this and discuss if there are particular areas where you need support.

Contact Hours

Throughout your Medical Biochemistry degree you can expect an average of about 15 hours of contact time per week over the two teaching terms (autumn and spring). This will be made up of lectures, practical laboratory workshops and seminars. The proportion of time spent in each will vary depending on which year you are in and the optional modules you choose.

Assessment Methods

Studying at degree-level is likely to develop in different ways from your previous experience of learning and teaching. As well as remembering biochemical facts you will learn how to demonstrate real understanding as you apply your knowledge to analyse and evaluate scientific information. Our ultimate aim is to help you develop into a skilled and creative biochemist.

Each module is assessed separately and you will be assessed in a variety of different ways. All modules contain some continuous assessment, that is, assessment taking place during the teaching period. Continuous assessment generally accounts for one quarter to one third of the mark for a given module, while the remainder is contributed by the end-of-year examination in the summer term. A subset of modules are assessed through course work, without an end-of-year examination.

At the beginning of each module, you'll be given information on how and when you'll be assessed for that particular programme of study. You'll receive feedback on each assessment within three weeks, so that you can learn from and build on what you have done. You'll be given feedback on any exams that you take; if you should fail an exam we will ensure that particularly detailed feedback is made available to enable you to learn for the future.

Graduates of the University of Birmingham are highly regarded among employers in the UK, and a Biological Sciences degree from Birmingham is an excellent qualification for securing your future career in a diverse range of industries and employment sectors. Our graduates have done consistently well over the last several years, ranking 5th in the Russell Group in terms of Graduate Prospects. Whether you have a clear idea of where your future aspirations lie or want to consider the broad range of opportunities available once you have a Birmingham degree, our careers and employability service, known as Careers Network, can help you achieve your goal.

Typical Careers

Advances in the biosciences are having a profound impact on our daily lives in areas from human health to conservation. Biotechnology, biological pharmaceuticals, and personalised medicine are key growth areas in the health sector. Over the next decade our increasing understanding of how genomes are regulated will revolutionise how we interact with the natural world. Environmental remediation, climate change and related themes pose multi-faceted challenges for the coming decades. Expert knowledge in biology and the life sciences will be in high demand for the foreseeable future, with excellent prospects for exciting and rewarding careers in research, education, media, industry, the NHS and the public sector.

A significant number of our graduates choose to take a further degree, a postgraduate Masters or PhD. For many career paths, a further degree is an essential stepping-stone, including (but not limited to) careers in research. While many of our graduates remain in Birmingham and join one of our prestigious research groups, they are also highly sought after by universities around the world.

Developing your career

Careers Network, our unique careers guidance service is tailored to your academic subject area. Our team source exclusive work experience opportunities to help you stand out amongst the competition, with mentoring, global internships and placements available to you.  Once you have a career in your sights, one-to-one support with CVs and job applications will help give you the edge. In addition, our employer-endorsed award-winning Personal Skills Award (PSA) recognises your extra-curricular activities, and provides an accredited employability programme designed to improve your career prospects.

It benefitted my work ethic and the importance of consistent hard work as well as planning and managing my time efficiently.

Castano Moyo - now studying MSc Development Studies
Read more...

Professional Accreditation

This programme has been accredited by the Royal Society of Biology following an independent and rigorous assessment. Accredited degree programmes contain a solid academic foundation in biological knowledge and key skills, and prepare graduates to address the needs of employers. The accreditation criteria require evidence that graduates from accredited programmes meet defined sets of learning outcomes, including subject knowledge, technical ability and transferable skills.