Molecular biology is central to our knowledge of how biology "works" at a molecular level. This module explores the breadth of processes involved in the regulation of gene expression and the proteins that are made. You also discover the ever-expanding range of molecular biology techniques, including PCR, cloning and mutagenesis, and how these are applied to investigate and treat disease.

We are in the age of genomics and scientists have devised new technologies that can generate whole genome sequences in days which would once have taken years to achieve. Learn the high-throughput techniques of next-generation sequencing used to study genomes, the proteome and the interactome. Investigate how nucleotide sequences are analysed, applying the analytical tools used by research scientists and understand how new genes are discovered and their functions revealed. You also discover how our knowledge of gene structure is being applied in the emerging field of synthetic biology to create new organisms and modify existing ones by gene editing.

The study of cells is at the centre of modern biology.  Learn how cellular components determine cell structure and function, how cells communicate and how signaling pathways regulate cell fate.  You also explore the regulation of the cell cycle and cell death and learn about changes that occur in cells that have become cancerous. A solid understanding of cell biology opens doors to more specialist topics, such as plant biotechnology and cancer biology.

Understanding the shape, structure and folding of proteins can provide the basis for drug targeting in disease processes and enable us to develop a better understanding of specific biological pathways. This module takes a look at particular macromolecular assemblies using the most up-to-date structural biological techniques with a particular emphasis on x-ray crystallography.

If we were to compile the DNA sequence of the human genome into a book, it would be 200,000 pages long, and would take 10 years to read. The ability to effectively interpret and analyse large-scale genetic and genomic data sets is a crucial skill for next-generation biologists. The module provides a basic introduction to R, the programming language of choice for biologists industry and academia. You learn to write scripts and functions, read and write data files in different formats, use basic plot functionalities and perform basic statistical analysis.

Examine how competition, predation, herbivory, mutualism, disease and parasitism affect the distribution, abundance and growth of populations, and how populations interact to affect the structure and dynamics of ecological communities. You apply this ecological knowledge to real-world problems, such as pest control and conservation. This module has been designed to enable students to integrate their subject knowledge with an understanding of sustainable development, acquiring the skills and competencies essential for addressing the urgent sustainability challenges of the 21st century.

Bioinformatics have become an indispensable skill for the next generation of biochemists and biologists in order to retrieve, analyse and interpret data. You will learn how to access, search and extract data from publicly available protein databases, and analyse and display results using appropriate software.