In a nutshell
Biochemistry has become the foundation for understanding all biological processes. The knowledge and methods developed by biochemists are applied to all fields of medicine and agriculture as well as many chemical and health related industries. Biochemistry is also unique in providing teaching and research in both protein structure and function, and genetic engineering - the two basic components of the rapidly expanding field of biotechnology.
We pride ourselves on our research and have recently invested extensively in our facilities to ensure that you are able to complete research projects that are exciting and inspiring, contributing useful findings to the field. Examples of research areas that you can explore include nanotechnology, drug design and repurposing, cancer and antimicrobial research, natural products, biomarkers, analytical detection of volatiles, mass spectrometry, computational studies, skin modelling, lung diseases, biotechnology, toxicology and much more.
Biochemistry is at the cutting-edge of research and is an exceptionally versatile scientific discipline with opportunities in the field continuing to grow and develop.
93% of our students said that staff are good at explaining things [University of Salford analysis of unpublished NSS 2019 data]
This degree is accredited by the Royal Society of Biology. If you choose to do a placement year after the second year of the degree then your degree will have 'Advanced Degree Accreditation' by the Royal Society of Biology find out more here.
- Explore areas of research such as nanotechnology, drug design and repurposing, cancer and antimicrobial, lung diseases, biotechnology, toxicology and much more
- Have the opportunity to do a placement year after your second year
- Gain the skills needed to take advantage of career opportunities in an expanding field
This is for you if...
You have a strong interest in both the chemical and biological sciences
You want to operate in a cutting-edge research field
You would like experience in industry through a placement year
All about the course
This programme is 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. The accreditation criteria require evidence that graduates from accredited programmes meet defined sets of learning outcomes, including subject knowledge, technical ability and transferable skills.
This module introduces the basics of molecular structure and spectroscopy, structure and function of nucleic acids, proteins, carbohydrates and lipids.
This module will help you develop an understanding of genes and genetics, and their influence on evolution and development. It looks at the basic principles of molecular genetics and the function and evolution of genes in organisms.
You will look at the multi-disciplinary nature of cell biology and the basic structure of cells, focusing on animal cells. It will help you develop a theoretical knowledge of the fundamental physiological and biochemical functions carried out by cells.
Biochemical and Pharmaceutical Skills
This module is designed to help you facilitate and develop effective use of laboratory apparatus in the performance of basic techniques, and to develop practical laboratory skills relevant to biochemistry.
Introduction to Organic Chemistry
The aim of this module is to introduce organic chemistry through structure and mechanism. You will study organic reactions of key functional groups such as alkenes, carbonyl and aromatic compounds.
The aim of this module is to introduce principles of biochemistry. You will study biochemical pathways and organelles, relevant to cell biology.
Clinical and Molecular Genetics
The aim of this module is to introduce basic concepts in molecular biology, to explain the control of gene expression in pro- and eukaryotes and how dysfunction in these processes can lead to human genetic disorders. You will also develop an understanding of theoretical and practical knowledge in the application of clinical laboratory techniques used for diagnosis.
Fundamentals of Biochemistry
This module will present a detailed account of molecular aspects of nucleic acid and amino acid metabolism, energy metabolism, cell signalling, enzyme activity and membrane structure and function. This will develop your understanding of biochemical processes and their relevance to living systems.
You will be introduced to the concepts of chemical and biochemical tests and their relevance to clinical diagnostics. It develops your knowledge and understanding about biochemical changes in disease, and you will learn practical techniques in clinical biochemistry.
Chemical and Biochemical Research Skills
The aim of this module is to help you understand how to conduct scientific research from basic principles including: critical searching, citation and evaluation of research-based literature, data interpretation, analysis and presentation, report writing and communication.
The aim of this module is to encourage an awareness of the physiological nature of life in humans and develop an understanding of form, function and adaptation in organ systems central to the maintenance of life and interaction with the environment.
Genomics and Proteomics
This module provides an appreciation of topics in molecular biology with an emphasis on genomics, proteomics and their underlying structural aspects.
Research Project and Professional Skills
An opportunity to work with a research group and contribute to original research in a relevant area of medicinal chemistry. The module also focuses upon key professional skills aimed at improving employability.
Biochemistry of Drugs and Disease BSc Hons
This module will study the biochemical origins of the biochemical processes that occur in certain metabolic diseases, and the treatment of some diseases and analytical methodologies through practical experimentation of detecting the diseased state.
Science and Industry
This module focuses upon key areas of the scientific industry such as marketing, health and safety and legal issues. External contributions from industry experts will enhance your learning on this module. It is aimed at improving your employability after graduation.
Choose one option from the following
This module looks at mammalian immunological mechanisms, and the roles played by T and B cells/Lymphokines in generating an immune response. It helps you develop an understanding of the genetics of antibody diversity, HIV pathogenesis and the current immunodiagnostic assays for infectious and non-infectious diseases.
This module encourages an awareness of the importance of biotechnology in industry, and develops your knowledge of a variety of biochemical processes in a range of important industrial applications.
Plus one module from the following
Cancer: Bench to Bedside
This module will introduce you to historical and current developments in cancer biology. You will examine critical signalling pathways that govern neoplastic transformation and how some of these pathways hold promise as therapeutic targets for cancer treatment.
This module aims to provide a framework for the development of detailed and specific knowledge of the role of cellular pathology in the diagnosis and treatment of human diseases. You will develop an understanding of theoretical principles and of current and new methodologies for microscopical preparation and analysis of cells and tissues, in order to recognise pathological conditions.
If you are studying part-time you select two to four modules from each year of study, completing the rest of the modules for the year in the following year. This leads to a maximum six-year duration for a part-time degree. If studying part-time you do not have the placement option.
Please note that it may not be possible to deliver the full list of options every year as this will depend on factors such as how many students choose a particular option. Exact modules may also vary in order to keep content current. When accepting your offer of a place to study on this programme, you should be aware that not all optional modules will be running each year. Your tutor will be able to advise you as to the available options on or before the start of the programme. Whilst the University tries to ensure that you are able to undertake your preferred options, it cannot guarantee this.
What will I be doing?
A variety of approaches to teaching, learning and assessment are combined to fit with the intended learning outcomes and level of study, including:
- Extended projects
- Site visits
- Group activities
- Laboratory activities
Assessment throughout the course is by a combination of different forms of coursework and examination. Assessment methods include:
- Research projects
- Laboratory reports
- Data analysis
- Literature reviews
- Examinations (both closed and open book)
School of Science, Engineering and Environment
The School of Science, Engineering and Environment aims to transform the quality of life for society and the wellbeing of future generations through a better and more sustainable future. Our research expertise includes the built environment, cancer, data security, dementia, marine conservation, robotics, and sustainability.
We place our students at the heart of everything we do. With over 200 dedicated academic, technical and administrative members of staff we offer a robust support system for our student community. Our expanding suite of multidisciplinary programmes cover acoustics, architecture, biology, biomedicine, chemical sciences, computing, construction, engineering, environment (built and natural), geography, mathematics, physics, property, robotics, surveying and wildlife.
If you're looking for a vibrant, welcoming and highly professional environment in which you can realise your potential, the School of Science, Engineering and Environment at the University of Salford offers you a world of opportunities.
We have recently invested in the development of a new, state-of-the-art, integrated teaching laboratory known as the Bodmer Lab. The Bodmer Lab is a specialist, purpose built facility and ensures our students benefit from the latest technologies to support their learning and remain on the cutting edge of innovation and discovery.
The University hosts industry standard instrumentation including cell culture facilities, FACS, MALDI-TOF, LC and GC mass spectrometry, FTIR and FTNMR spectroscopy, fluorescence spectroscopy and microscopy and scanning electron microscopy. Having access to industry standard technology means that upon graduation, you are fully prepared and equipped to enter the workplace.
What about after uni?
This course is ideal if you are interested in a career in the biotechnology, pharmaceutical, food or brewing industries, as well as in clinical or other biomedical areas such as forensic science and analytical biochemistry. Our graduates are employed across bioscience by companies such as AstraZeneca and the Cancer Research UK Manchester institute, or many carry on to further study. Additionally, biochemists with knowledge of physiology are in demand in sports science, in healthcare and hospitals and in the pharmaceutical industry, as well as in research establishments and other areas of bioscience.
We encourage all of our students to take up an additional industrial placement year, which you arrange with our support, between years two and three of the full-time course, making a four year course overall. In many cases this can be a salaried position with a major company or have financial support linked to a public health laboratory or hospital (such as the Respiratory Physiology Unit at the Royal Aintree Hospital in Liverpool). Recent biochemistry placement students have been based at AstraZeneca in Cheshire, the Cancer Research UK Manchester institute and the Hochschule in Bremen, North Germany.
In our experience, final degree results and employability are enhanced for students who undertake a placement year. The placement also counts towards the final degree classification as part of the year two mark.
If you choose to do a placement year after the second year of the degree then your degree will have 'Advanced Degree Accreditation' by the Royal Society of Biology find out more here.
What you need to know
We are looking for applicants with a strong interest in both the chemical and biological sciences, and a desire to operate in a cutting-edge research field.
ENGLISH LANGUAGE REQUIREMENTS
International applicants will be required to show a proficiency in English. An IELTS score of 6.0, with no element below 5.5, is proof of this.
English and mathematics at grade C or 4 or above
You must fulfil our GCSE entry requirements as well as one of the requirements listed below
UCAS tariff points
104-120 points including a biological discipline and Chemistry at A2 or equivalent. A Pass in the Practical Element of Science A levels must be achieved.
BTEC National Diploma
DMM in a suitable science subject
BTEC Higher National Diploma
Possible entry to year 3
Possible entry to year 3
104-120 points from Higher Level including appropriate science subjects (Biology and Chemistry)
Irish Leaving Certificate
104-120 points from Higher Level including a science subject (Biology and Chemistry)
Pass in Diploma of at least 60% including at least one science subject
30 points with at least one science subject from Group 4
Salford Alternative Entry Scheme (SAES)
We welcome applications from students who may not meet the stated entry criteria but who can demonstrate their ability to pursue the course successfully. Once we have received your application we will assess it and recommend it for SAES if you are an eligible candidate.
There are two different routes through the Salford Alternative Entry Scheme and applicants will be directed to the one appropriate for their course. Assessment will either be through a review of prior learning or through a formal test.
|Type of study||Year||Fees|
|Full-time home/EU||2019/20||£9,250per year|
|Full-time international||2019/20||£14,820per year|
|Part-time||2019/20||Your annual fee will be calculated pro rata to the full-time fee according to the number of credits you are studying.|
|Full-time home/EU||2020/21||£9,250per year|
|Full-time international||2020/21||£15240per year|
|Part-time||2020/21||Your annual fee will be calculated pro rata to the full-time fee according to the number of credits you are studying.|
All field trips are funded by the school but you may need to consider additional costs such as food and spending money.
International field trips that are part of core modules are also funded by the school but you will need to pay towards international field trips that are part of optional modules (although these are subsidised by the school) and you will be made aware of these costs before selecting the module.
You should also consider further costs which may include books, stationery, printing, binding and general subsistence on trips and visits.
All set? Let's apply
Course ID C700