Our BSc Biochemistry lets you build on your existing scientific interest while you develop practical biochemistry skills over a study period that’s tailored to suit your career ambitions.
You’ll learn the core themes from a range of science subjects and have access to our world-class facilities to help develop your laboratory, research and analytical skills. With the flexibility to study over three years (full-time), four years (with a paid, year-long work placement, subject to any restrictions that may apply in light of the ongoing Covid 19 outbreak), or six years (part-time), you’ll also get plenty of unique work placement opportunities that will let you put your newfound skills into practice and build your professional experience.
Our London location gives you access to unique leading companies, experts and industry links placements. You’ll have access to the latest research and analytical laboratory facilities (on campus, through pre-recorded demonstrations based in our labs and virtual labs), along with the support to develop the essential skills, techniques and confidence to take your skills from the campus to real, working projects.
We’ll also give you the help and support you need to develop your exit portfolio, CV and career entry plan to prepare you for a successful career in a wide range of areas within biochemistry.
While you are an undergraduate or foundation year student, you’ll have a Personal Tutor directly related to your course. If you need support with academic writing, numeracy and library skills, we’ll be sure to provide it. Our Student Learning and Graduate Academic Assistants have studied your subject and can support you based on their own experience.
We’ll also help you develop the analytical, problem solving, team work and communication skills you need to succeed in private and public sector fields such as biochemicals, biotechnology, pharmaceuticals and food.
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The analysis and communication of scientific knowledge is an integral component of biochemistry and this module provides students with a number of key skills used widely by biochemists. These include: mathematics, communication skills and employability skills.
The main aim of this module is to introduce the key metabolic pathways of energy metabolism. This includes the study of photosynthesis, cellular respiration and bioenergetics and the structure and function of proteins, lipids, carbohydrates and their derivatives.
This module explores the structure and physiology of eukaryote, prokaryote, and archael cells, function and methods of replication of these cells as well as acellular units (viruses). You will also be introduced to core theory and experimental techniques used to investigate physiology, growth and death of cells.
This module teaches key concepts in prokaryote, eukaryote and virus genetics. It will provide you with a detailed understanding of the genetic processes that are operating at molecular, organism, population and species levels and that ultimately underlie adaptive change.
This module provides the skills and knowledge of chemistry that will underpin your future studies in biochemistry. Emphasis is placed on building a knowledge base around key academic concepts in chemistry and biochemistry using examples from health and the environment to reinforce ideas. You will acquire a range of laboratory practical skills and learn how to analyse and interpret experimental results and put these into context with theoretical concepts.
This module aims to provide you with knowledge of human anatomy and its hierarchical organisation from cell to organ system. An understanding of how the main body systems and mechanisms involved maintaining a "state of health" will be developed along with an introduction to how these systems can malfunction. Grounding in practical anatomy will be provided which includes “hands on” practical virtual imaging and laboratory exercises to support work in identification and recognition of the main anatomical features of organs and structures of the body.
The module aims to provide you with the skills necessary to plan, implement, analyse and report project-based work, with the focus on preparation for the final year project module. The module also develops core research skills fundamental to a scientific research design, irrespective of discipline. Specific research skills include analytical techniques appropriate to individual programme requirements.
This module provides you with the knowledge of biochemical molecules and their physiological functions. Emphasis is placed on the molecular structure and its relationship with the biological function. Reaction mechanisms and kinetics of biochemical reactions will be explored with a particular emphasis on enzyme kinetics.
This module will reinforce and expand on the Year 1 module, Cell Biology and Genetics. The overall aim is for you to obtain understanding of the molecular processes occurring in organisms. In addition, you will gain experience in the principles, practice, quality assurance and application of commonly employed molecular methods and genetic tools and techniques.
This module aims to introduce the concepts and language of immunology that are, or may be, applied clinically. Emphasis will be placed on understanding the different cellular and molecular communication processes. Knowledge of laboratory skills will be developed in using immunological and endocrinological techniques and interpreting data.
This module builds upon the principles and concepts of inorganic and organic chemistry developed through the Year 1 module, Fundamentals of Chemistry. In this module you will develop a more complete appreciation of some of the chemical reactions relevant to biochemical processes and drug synthesis with emphasis on common reactions in metabolic processes, carbonyl chemistry and pericyclic reactions, integrating mechanisms and arrow pushing.
This module provides the knowledge of important “state of the art” analytical methods in biological sciences. There is a focus on developing practical skills in analytical methods and the analysis and interpretation of results. Emphasis will be on proteins in the context of clinical diagnostics and environmental assessment, biochemical research and analysis.
The year-long placement is an opportunity for you to work in an industrial, field or laboratory based setting gaining important and relevant skills related to your programme. The module aims to enhance your employability skills, embed transferable and graduate skills and enable you to reflect on how the knowledge gained is relevant to your degree and the field of biology. Through the work placement, you will gain experience of working in a team, facilitate your understanding of the workplace and enhance your skills of self-reliance and communication. The placement experience provides the opportunity to also enhance your skills of self-reliance, communication, self-expression and co-operation.
Access to placement learning is subject to restrictions arising from Covid 19 and as a result may not operate in 2020-21.
The module considers current approaches to genetic manipulation and the widening fields of their applications. Ethical issues and regulations of the field of gene technology will be explored.
This module will introduce bioinformatics and aims to give an overview of the computational tools that are commonly used. The module will follow a hands-on approach. Genome and proteome data will be retrieved from public repositories and analysed for biological patterns using command line and graphical user interface tools.
The module will develop key concepts in specialist areas of Biochemistry in relation to human diseases. Advanced topics on molecular basis of disease will be delivered, based primarily around the research specialisations of staff within the Biochemistry teaching group.
The module enables you to recognise the current and future impact of Green Biotechnology. The module will explore the role of biotechnology in plant and animal biotechnology, in waste remediation, clean and dirty water management, and the production of renewable energy sources. The importance of these processes for society and health will be explored.
This module aims to provide you with an overview of reactions of particular utility in the synthetic organic laboratory. You will be trained in designing synthetic routes for complex organic molecules integrating mechanistic aspects and stereochemistry control. Examples from recent literature will be discussed.
This module provides you with the practical skills for laboratory techniques which are important for research and analysis in the field of biochemistry. You will build upon your learning from the Year 2 module in Analytical Techniques to plan, set-up and carry out experiments, analyse results and critically evaluate these and the methodology.
This module aims to provide an understanding of processes involved in regulation of gene expression and current laboratory methods available for investigation. It also aims to provide an understanding of how gene expression may be modulated according to changes in the cellular environment, how environmental conditions can trigger changes in these processes and how aberrations in gene expression can lead to disease.
This module aims to introduce you to fundamental theory that underpins computational chemistry. It is designed to help you understand what molecular modelling programmes do and how to interpret results from such experiments with an eye for providing insight to discovery chemistry.
This module will build on the skills you have acquired when undertaking previous modules and from the knowledge and skills gained throughout the programme. Further development of research skills, analysis, critical thinking and scientific literary style will be promoted in completing a dissertation.
This module enables you to gain credits for work experience related to your programme. It aims to link academic learning to a placement organization. The experience provides opportunities for you to work in a relevant organisation and enhance your skills of self-expression, communication, co-operation and self-reliance.
Availability subject to ongoing restrictions arising from Covid 19.
More information about this course
See the course specification for more information:
Optional modules are usually available at levels 5 and 6, although optional modules are not offered on every course. Where optional modules are available, you will be asked to make your choice during the previous academic year. If we have insufficient numbers of students interested in an optional module, or there are staffing changes which affect the teaching, it may not be offered. If an optional module will not run, we will advise you after the module selection period when numbers are confirmed, or at the earliest time that the programme team make the decision not to run the module, and help you choose an alternative module.
We’ll carefully manage any future changes to courses, or the support and other services available to you, if these are necessary because of things like changes to government health and safety advice, or any changes to the law.
Any decisions will be taken in line with both external advice and the University’s Regulations which include information on this.
Our priority will always be to maintain academic standards and quality so that your learning outcomes are not affected by any adjustments that we may have to make.
At all times we’ll aim to keep you well informed of how we may need to respond to changing circumstances, and about support that we’ll provide to you.
Start: October 2022
Duration: BSC: 3 years full-time, 4 years with placement, 6 years part-time, MSci: 4 years full-time, 5 years with placement, 8 years part-time
Code: BSc: C74A, MSci: C790
Start: September 2022, September 2022: EU/INT induction
Duration: 3 years full-time
Code: BSc: C700, DipHE: B904