Biochemistry with a Preliminary Year (BSc)
4 years (Full-time) / n/a (Part-time) / n/a (Distance / E-Learning)
There are often very good reasons why able students may not have the appropriate A-levels/AS-levels to directly enter the first year of a science degree programme. If you find yourself in this position, the Preliminary Year at Cardiff University can provide you with the academic background you will need for a science degree.
The Preliminary Year programme includes modules in Biosciences, Chemistry, Maths and Physics. On successful completion of the Preliminary Year, you will automatically progress into the first year of your chosen degree programme.
Biochemistry - the study of the molecular basis of life – plays a key role in the advancement of biotechnology and medicine, for example by providing a basis for the rational design of drugs and the development of improved diagnostic tools. The Cardiff Biochemistry degree will take you to the forefront of contemporary research in this fascinating and dynamic subject, covering topics such as the structure and function of biological macromolecules, metabolism in health and disease, and the organisation, operation, and manipulation of the genome. Data handling exercises and laboratory practicals using modern research techniques form a crucial part of the course, giving you the experimental and analytical skills that underpin a career in science. You will also undertake an extended research project, which will constitute a significant proportion of your activities in the final year. Most often this is a laboratory-based project, supervised by a member of staff from one of our internationally renowned research groups.
At Cardiff School of Biosciences you will be joining a large and vibrant community of students and academic staff. We have over 100 dedicated and enthusiastic academic staff across a wide variety of disciplines, including world-renowned researchers in their respective fields (for example, a previous Head of the School, Sir Martin Evans, won the Nobel prize for medicine in 2007). All of this provides ample opportunity for you to explore your chosen subject in depth, but also discover aspects of the biosciences that you might not have encountered before.
As a School we are strongly focused on providing learning opportunities that are at the cutting edge of scientific research and which introduce you to the community of science. Throughout your course we will emphasise key employability skills that are specific to the sciences as well as transferable skills for employment in general. By working closely with academic staff you will develop these skills as you progress through each stage of your course. We aim to produce graduates who are employable, well-informed and enthusiastic ambassadors for science.
|How to apply||www.cardiff.ac.uk/howtoapply|
|Typical places available||The School admits 96 students each year to its undergraduate Biomolecular degree programmes|
|Typical applications received||330|
|Scholarships & Bursaries||www.cardiff.ac.uk/scholarships|
|Typical A-level offer||AAB-ABB|
|Admissions Tutors||Dr Matthew Baker|
|Tel Number||029 2087 6201|
The Preliminary Year programme includes modules in Biosciences, Chemistry, Maths and Physics. The particular modules studied depend on each student’s academic background and the requirements of their chosen degree subject, and will be agreed through discussion with staff at enrolment. The Preliminary Year is not normally a route for students who have failed to achieve the required grades in their A-levels. It is possible to study the Preliminary Year programme on a part-time basis over two or three years. The science and maths modules are taught in the daytime at Cardiff University.
On successful completion of the Preliminary Year, students automatically progress into the first year of their chosen degree programme.
If you are interested in studying biological systems at the molecular level, the Cardiff Biochemistry BSc is for you. It ranges from detailed studies of the structure and function of enzymes, through recombinant DNA technology, to the study of prokaryotes and eukaryotes. You will learn how, through molecular biology and biochemical genetics, biochemistry contributes with increasing importance to advances in all biological disciplines, including medicine and biotechnology.
You will receive hands-on training in the latest laboratory and field research techniques, and gain practical experience of widely transferable skills in computing, statistics, data analysis and presentation.
The course structure is as follows:
Year One at the School of Biosciences recognises that, as well as making the transition to independence from home, you are also facing new and exciting challenges in your education. You will now be studying in your chosen field and you will need to be fully prepared for the educational opportunities that are waiting for you. During your first week we will start you on this preparation by making sure you know what is different between school and University learning. You will feel part of the School of Biosciences immediately as you will be paired with a student buddy, who will show you the ropes and make you feel part of the student community. You will also meet your personal tutor, who will be on hand to help you with pastoral and academic issues for the whole time you are with us.
Our common Year One modular course gives a broad grounding in the Biosciences, the interdisciplinary nature of this integrated course allows students to explore their interests without committing to a degree scheme until the end of the first year. The benefit of our common Year One modular course is that if you are not sure that you have chosen the right degree scheme when you join us then you are sure to have a much better idea at the end of our common Year One. You then have the opportunity to change to any of our 12 degree schemes according to your interests and career aspirations. You also have the opportunity to be accepted onto our competitive graduate entry medicine scheme that could ultimately lead to second year entry onto the Cardiff medical programme after you have completed your BSc degree.
We offer a wide range of learning opportunities from lectures, tutorials, practicals, workshops and seminars where you will come into contact with some leading research scientists. A team of academic staff who are teaching-focused ensure the smooth running of teaching and learning. We also appreciate that some of you will prefer particular assessment methods, and assess in a variety of ways, with emphasise on the practical skills you need to become a scientist. You will receive a range of feedback including written feedback on all coursework, and you have an opportunity to see your exam answer papers so you can improve on your performance next time.
Following on the common Year One, where you build a robust basic knowledge and skill foundation within the biosciences, Year Two allows strengthening and expanding it with natural progression, and crucially the development of knowledge and skills in a context specific to your chosen degree programme. You enrol on modules, which are core to your degree programme, and on optional modules relevant to your degree. Your choice of modules can follow a more generalist approach, or can be rather specific to certain aspects of the discipline. You are given extensive academic advice and support in your choice by personal tutors, degree, module and Year coordinators. From Year Two you progress into the research-led Final Year. Alternatively, you have the option to progress into the Professional Training Year, which supports your learning and maturing in a work environment, thus crucially adding to your employability, experience, independence, subject and generic skills portfolio. Many employers want to recruit new staff who have both a good degree and relevant work experience. If you choose to take the Professional Training Year (PTY) you will be able to offer both. You can switch to this 4-Year version of your degree beforehand.
The Final Year gives you an opportunity to immerse yourself in your chosen field by following a series of advanced research-led modules. These are designed to develop your ability to critically analyse complex experimental or technical data and to expose you to the central concepts at the cutting-edge of your discipline. You also gain experience of contemporary research through attending a selection of the many seminars given within the school by international leaders in their fields. You are asked to produce an original dissertation based either on a laboratory project, an extensive literature analysis or an exercise relating to science teaching/ pedagogic research or public engagement. Through our mentoring of these projects we nurture a range of transferable skills to ensure that you are not only equipped for today’s job market but have the adaptability to be successful in the new career paths that will certainly emerge in the future.
Year One Core modules:
- Skills for Science
- The Dynamic Cell
- Biological Chemistry
- Structure and Function of Living Organisms
- Organisms and Environment
- Genetics and Evolution
Year Two Core modules:
- Research Techniques
- Practical and Quantitative Biochemistry
- Genes to Genomes: From Microbes to Mammals
- Protein Biochemistry and Enzymology
- Medical Biochemistry
- Molecular Cell Biology
- Biomolecular Chemistry
Year Two Optional modules:
- Medical Microbiology
- Cytogenetics and Human Genetics
- Genes and Development 1
- The Biology of Connective Tissues
Final Year Core modules:
- Biosciences Final Year Project
- Protein Structure, Function and Folding
- Membrane Biochemistry and Dynamics
Final Year Optional modules:
- Eukaryotic Gene Expression
- Genomics, Proteomics and Bioinformatics
- Genetic Engineering and Biotechnology
- Genetic Models of Disease
- Genes and Development 2
- Biology and Genetics of the Cell Cycle and Cell Death
- Mechanisms of Human Disease
- Tissue Engineering and Tissue Regeneration
A wide variety of topics will be available for your project. You supervisor will guide you in the selection of a project that will yield useful results in the time available, and will be on hand to give you guidance and assistance throughout the work.
Visit the Cardiff School of Biosciences website for more information about modules and credits.
Your degree course will include a number of different types of learning and teaching, and the aim of the course is to develop your skills as an independent learner. Much of the teaching takes place in lectures or seminars, supported by small-group teaching. You will also gain extensive practical experience learning key techniques and approaches for a scientist. There are also workshop sessions where you work with members of staff on specific skills, using software packages, developing presentation and problem-solving skills. The library and study facilities in the School of Biosciences allow you to access key textbooks, reviews and original research papers. You will progress as you move through your course towards using more original research material and the teaching focuses more on cutting-edge research delivered by experts in the respective fields.
A major focus for University learning is in you yourself developing your understanding of the subject and becoming an independent and self-critical learner. To this end the amount of time spent in self-directed learning increases as you go through your course and gain more independence. We structure non-contact time in the degree course carefully to allow you to plan and conduct your personal learning and skill development. Cardiff School of Biosciences supports this with routine provision of online learning material for self-directed learning and also facilitates the development of student-focused learning groups which work to identify and develop learning resources for each other. These study groups use collaborative ICT tools which develops your skills in these current technologies (a key employability skill).
Our lecturers have an open door policy during non-contact time and email exchange is encouraged if you have any questions. Lecturers are also available for you to ask questions about the material before and after the classes. Our students rate this support very highly as a crucial part of their good student experience, because they are enabled to successfully achieve all learning required to progress towards being an independent and reflective learner, ideally prepared for lifelong learning in a professional environment. This achievement is further supported by a scheme for developing all the transferable skills and competencies that are recognised as graduate attributes, and thus enhances your employability.
Your course will be assessed by a mixture of continuous assessment and examinations, and these change in nature as you progress through the course. The early part of the degree focuses on understanding the key concepts and background information for the subject. Early assessments focus on testing your understanding the subject and you being able to identify and use information. Then as you progress through your course the focus shifts towards how you apply knowledge towards solving scientific problems, assessing information and criticising your own work and the work of others. In the final year your learning and assessment will be focused on identifying original research and applying it to key questions in science today. You will be guided towards reading original research papers and also undertaking research of your own. By the time you graduate you will have developed as an independent learner and will have a critical mind that we hope will continue to ask challenging questions and learn new things for the rest of your life.
|Typical A-level Offer||AAB-ABB including ideally at least one other science or mathematical subject. Also grade C or higher in GCSE Maths and English or Welsh (as appropriate)|
|Typical WBQ Offer||Grade A in the Core plus AA at A-level|
|Typical Int Bacc Offer||34 points|
|Other||Applications from those offering alternative qualifications are welcome. Please see detailed admissions and selection criteria for more information.|
A list of commonly accepted alternative entry qualifications and admissions and selection criteria for this degree programme can be read here.
In 2010, 89% of the School’s graduates were in employment or further study within six months of graduation while others were taking time out to travel etc. Employers included: universities and hospitals in the UK and overseas, local government departments, museums and organisations such as the BBC and National Museum of Wales. Career destinations included: assistant biochemist, laboratory researchers, university lecturer, and biomolecular scientist.
Next intake: September each year
Name: Dr Matthew Baker
Telephone: 029 2087 6201