Do you want to contribute to work that could help solve many of life's biggest challenges? This course will help you understand the molecular processes that control life, from molecules (such as DNA and proteins) and cells, to the complex structures of whole organisms.
In your final year, you'll select from options such as Advanced Analytical Science, Clinical Chemistry and Haematology, and Chemotherapy of Infectious and Neoplastic Diseases. Choosing a specialist topic that inspires you, you'll have the opportunity to work on an independent research project.
You'll acquire the knowledge and technical skills to work in a wide variety of roles, including those in the biotechnology and pharmaceutical industries. You'll also be able to go on to do further research and contribute to our understanding of how biochemistry underpins all human life.
Attendance | UCAS code/apply | Year of entry |
---|---|---|
3 years full time | C700 | 2024 |
4 years full time including sandwich year | C701 | 2024 |
4 years full time including foundation year | C708 | 2024 |
6 years part time | Apply direct to the University | 2024 |
This course is now full for 2023 entry – please apply for 2024 entry.
For 2024 entry, please submit your application before the UCAS deadline as this course may not be in a position to consider applications submitted after this date.
Location | Penrhyn Road |
This course received overall satisfaction of 90.9% in the National Student Survey (NSS) 2022.
Year 1 provides you with a firm foundation in the biological and chemical principles on which life is based. You will gain a comprehensive overview of biochemistry, from the atomic level to that of the whole body. Subject areas include the fundamentals of chemistry, cells and tissues, genetics and molecular biology. A scientific and practical skills module will also introduce you to important laboratory techniques and the necessary mathematics, statistics and IT required by biochemists.
30 credits
This module introduces you to basic cell biology of prokaryotes and eukaryotes, molecular, organismal and population genetics, germ layers and basic tissue types in the human body, and a variety of microorganisms. Core factual material is provided in keynote lectures and supported via material available via StudySpace. Laboratory practicals give you the opportunity to learn selected current techniques used to study cells, tissues, chromosomes and microbial organisms. The module provides an essential introduction to modules at levels 5 and 6 that develops further knowledge in cell biology, anatomy, physiology, genetics and microbiology.
30 credits
Learn how the building blocks of life work together to create complex molecules that sustain us. Explore the role of proteins, carbohydrates, and lipids in our bodies, and how they are broken down and used for energy.
30 credits
This is a core module for Pharmaceutical Science degree courses. The module revises some content taught at A-Level before expanding on this content to give foundation knowledge of the core chemistry concepts required for progress within the field of pharmaceutical science.
30 credits
This first year module is a core module for all Bioscience and Forensic Science programmes, and provides a firm foundation in general scientific and laboratory skills that students require to successfully complete their programmes of study. Students are introduced to the nature of studying in higher education, the need for effective time management and planning of work, the appropriate use of information sources, and to sources of information relating to careers in the biosciences. Scientific analytical and lab/practical skills are developed, together with essential mathematics and statistical skills for life scientists. A significant component of the module consists of the development of basic research skills such as practical skills in the laboratory, the principles of experimental design and the statistical analysis of data.
0 credits
This is a non-credit-bearing module for students studying BSc (Hons) Biochemistry and BSc (Hons) Biological Sciences which must be passed in order to achieve a degree accredited by the Royal Society of Biology. It is designed to record satisfactory completion of a range of key practical laboratory skills and to provide a record of a student's achievement of competence in such skills. Students will receive a portfolio record of their competence at the end of the year to demonstrate their experience to future employers.
Year 2 introduces some of the more specialised aspects of biochemistry. You will gain a detailed knowledge of protein function, structure and analysis; the major metabolic pathways; organisation and physiology of cells including cell signalling; genes and their expression; pharmacological principles; and the application of research methods. You will also explore a range of bioanalytical techniques employed in the pharmaceutical industry.
30 credits
Learn about the structure and function of proteins, including enzymes. Explore how organisms obtain and use energy, from a molecular level to how these processes help in the regulation of health and disease.
30 credits
This is a core module taken by student in the fields of Biochemistry, Biological Sciences (Genetics and Molecular Biology route), Pharmacology, and is an option module taken by Biomedical Science and Biological Sciences (General route)
The module builds on topics covered in LS4001 (Genes, Cells and Tissues) and explores more advanced concepts in cell and molecular biology. The module provides insight into the structure and function of cells, and takes an integrated approach to looking at how cells respond to changes in their environment - from receptor interactions and intracellular signalling pathways through to the regulation of gene expression and changes in cellular processes.
Formal lectures are supported by laboratory classes, tutorials, workshops, independent study and further resources available on Canvas. The module also includes opportunities to develop both data-handling and written skills.
30 credits
Gain the skills you need to conduct pharmacological research and develop new drugs. Learn about the basic concepts of pharmacodynamics and pharmacokinetics, and how drugs are discovered and developed. This will help you understand drug-nutrient interactions, how nutrients in supplemental form can have pharmacological effects, plus how drugs can be sued to manage diet related diseases such as obesity.
30 credits
This module is a core requirement in the Pharmaceutical Science, Forensic science and Biochemistry fields. The module introduces students to the applications of analytical science within analytical biochemistry, clinical chemistry, forensic analysis and the pharmaceutical sciences. It allows you to build your knowledge, practical skills and interpretation skills whilst implementing the analytical process model using scenario-based learning.
0 credits
This is a non-credit-bearing module for students studying BSc (Hons) Biochemistry and BSc (Hons) Biological Sciences which must be passed in order to achieve a degree accredited by the Royal Society of Biology. It is designed to record satisfactory completion of a range of key practical skills and to provide a record of a student's achievement of competence in such skills. Students will receive a portfolio record of their competence at the end of the year to demonstrate their experience to future employers.
Year 3 has specialist modules in Current Concepts in Biomolecular Science and Molecular Genetics & Bioinformatics, with a choice between Advanced Analytical Science and Clinical Chemistry & Haematology. You will undertake an independent research project providing an opportunity to research a topic of your choice within your specialism as either a laboratory, data project or a systematic review.
30 credits
This module is a core requirement for students taking Biochemistry and Biological Sciences (Genetics & Molecular Biology route), and may be taken as an option by Forensic Biology and Pharmacology students.
This module introduces you to the processes involved in maintaining genome stability, causing genome variability and controlling the coding potential of the genome. Mutation, recombination and transposition, and the interplay between them, are examined as causes of genome instability. The impact of genome instability/change upon gene expression, and its control, links these two main themes of the module. The module also introduces you to bioinformatics and sequence analysis. The use of sequence databases and analysis tools permits the analysis of gene/genome variability, along with the patterns of variability and conservation of sequences. This strand of the module gives an introduction to an area of increasing importance in many areas of bioscience research, including molecular diagnostics and drug development.
Core factual material is provided via lectures, including demonstrations of the databases and analysis tools in the case of the bioinformatics elements, with additional resources being placed on Canvas. Over 50% of the teaching time in the module is spent on computer and laboratory practical work.
30 credits
This module is a core requirement for students taking Biochemistry, Biological Sciences (Environmental Biology; Medical Biology; Genetics and Molecular Biology), Medical Biochemistry, and Pharmacology.
This module will provide you with insights into the scientific basis of recent technological advances in biomolecular science through selected examples of contemporary scientific research and their impact on society. It will build on key knowledge, consolidated at Levels 5 and 6, to demonstrate the application of theory to current research, developments in bioindustry and the effect of advancements on society. The scientific areas selected are designed to stimulate topical debate and are blended as a series of lectures, seminars, tutorials and practicals. The interaction of science and the media, public engagement, and how these can guide scientific policy will also be discussed together with the challenges facing today's bioindustry, including the role of intellectual property rights, bioethics and enterprise. Employability and enterprise are embedded to develop your scientific and professional skills.
30 credits
You will complete your own independent research project, with the guidance of an academic supervisor. There are several types of projects you can choose from, such as a laboratory or field-based project, data projects involving acquisition of data and information from surveys, questionnaires, computer simulations or bioinformatics, or a systematic review of research literature that includes the collection, comparison and original presentation of reported research data.
You will review and critically evaluate qualitative and quantitative data to predict and answer a research question, and produce a written report.
0 credits
This is a non-credit-bearing module for students studying BSc (Hons) Biochemistry and BSc (Hons) Biological Sciences which must be passed in order to achieve a degree accredited by the Royal Society of Biology. It is designed to record satisfactory completion of a range of key practical skills and to provide a record of a student's achievement of competence in such skills. Students will receive a portfolio record of their competence at the end of the year to demonstrate their experience to future employers.
30 credits
This is a core module of MPharmSci (Hons) Pharmaceutical Science and MChem(Hons) Chemistry and an option for BSc(Hons) Chemistry and BSc(Hons) Pharmaceutical Science students. It takes forward the themes of spectroscopy that were introduced in the previous modules and develops a more rigorous theoretical footing and advanced applications. In parallel to this, analytical themes are introduced covering radiochemical analysis, electroanalysis and thermal analysis.
30 credits
This is a core module for Pharmacology and an option for other Life Science degree courses, namely Biological Sciences (Medical Biology route) and Biochemistry.
This module provides an opportunity to learn about the various chemotherapeutic agents used in the treatment of both infectious and neoplastic disease. Treatments for infectious diseases will cover drugs that have actions on bacteria, viruses, fungi and parasites, while the neoplastic disease therapy will include a range of different cancers, including both solid and blood cancers. The lectures will focus on the mode of action, side effects and mechanisms of resistance of both antimicrobials and anti-cancer drugs.
30 credits
Evaluate the contribution of laboratory investigations to the diagnosis, treatment, and prevention of disease in key areas such as renal disease, diabetes, anaemia, and haematological malignancies. Topics are introduced through a structured lecture series and further explored in practical laboratory sessions. Case histories are used to illustrate current best practice, reinforced by keynote lectures from expert practitioners in the field.
Optional modules only run if there is enough demand. If we have an insufficient number of students interested in an optional module, that module will not be offered for this course.
If you would like to study one of our science degrees at Kingston University but are not yet ready to join the first year of a BSc (Hons) course, you can include an extra foundation year within your chosen degree. Please see the science foundation year course page for details of modules.
Embedded within every course curriculum and throughout the whole Kingston experience, Future Skills will play a role in shaping you to become a future-proof graduate, providing you with the skills most valued by employers such as problem-solving, digital competency, and adaptability.
As you progress through your degree, you'll learn to navigate, explore and apply these graduate skills, learning to demonstrate and articulate to employers how future skills give you the edge.
At Kingston University, we're not just keeping up with change, we're creating it.
This course has been accredited by the Royal Society of Biology. Kingston University graduates from this programme will receive one year's free membership of the Royal Society of Biology.
This course is delivered by the School of Life Sciences, Pharmacy and Chemistry.
The School of Life Sciences, Pharmacy and Chemistry offers an outstanding and diverse portfolio of undergraduate and postgraduate programmes in biological and biomedical sciences, chemistry, forensic science, pharmacy, pharmacological and pharmaceutical sciences, and sport science and nutrition.
We've invested heavily in the development of new facilities including laboratories for teaching and research to provide students with access to ultra-modern equipment in a wide range of teaching facilities.
Postgraduate students may run or assist in lab sessions and may also contribute to the teaching of seminars under the supervision of the module leader.
Depending on the programme of study, there may be extra costs that are not covered by tuition fees which students will need to consider when planning their studies. Tuition fees cover the cost of your teaching, assessment and operating University facilities such as the library, access to shared IT equipment and other support services. Accommodation and living costs are not included in our fees.
Where a course has additional expenses, we make every effort to highlight them. These may include optional field trips, materials (e.g. art, design, engineering), security checks such as DBS, uniforms, specialist clothing or professional memberships.
There is a wide range of facilities for practical work at our Penrhyn Road campus, where this course is based. You will have access to a modern environment with the latest equipment, including the £9.8 million Eadweard Muybridge building with state-of the art laboratories, and labs dedicated to chemistry specialist equipment, such as:
The library offers:
You'll be ready for graduate entry to careers in pharmaceuticals, biotechnology, forensics, medicine, teaching and business management. This degree also provides a base for postgraduate study.
Why take a placement? Work placements:
help you to select your final-year project.
There is a lot of support available for students looking to secure a placement (eg a jobs board with placement vacancies, help with writing CVs and mock interviews). Getting a placement and passing the placement year are ultimately the student's responsibility.
For further information please contact the Placements Team by telephone 020 8417 2969 or email secplace@kingston.ac.uk.
Placements can be with large multinational companies, international companies, local companies and small start-ups; offering a diverse range of posts. Here are some examples of employers and roles:
Construction-based placement employers |
Construction-based placement roles |
---|---|
RG Group |
Assistant site manager |
Science-based placement employers |
Science-based placement roles |
Reckitt and Benckiser |
Bioanalytical sciences |
Engineering-based placement employers |
Engineering-based placement roles |
Airbus |
Analysis of aircraft structure |
Computing and IS based placement employers |
Computing and IS based placement roles |
Disney |
Database co-ordinator |
Mathematics-based placement employers |
Mathematics-based placement roles |
Lloyds Banking Group |
Analyst |
The part-time course is half the workload of the full-time course, taking six years to complete rather than three. The course is flexible so you can switch to full-time study in Years 2 or 3 if you wish.
Before the course begins, you will meet with a tutor to discuss your time commitments. The course leaders will then try to let you know the timetable of lectures and seminar groups as soon as possible. On average, part-time students need to allow 10 hours a week to attend lectures and seminars, plus a further 10 to 15 hours for independent study, but this does vary.
The scrolling banner(s) below display some key factual data about this course (including different course combinations or delivery modes of this course where relevant).
The information on this page reflects the currently intended course structure and module details. To improve your student experience and the quality of your degree, we may review and change the material information of this course. Course changes explained.
Programme Specifications for the course are published ahead of each academic year.
Regulations governing this course can be found on our website.