Introductory description

The Year 3 research project is a key module, in which students bring together all the research and practical skills they have been taught in Year 1 and 2 laboratories and the tutorial program. Students select a project and have to produce a research seminar and a 10,000 word thesis.

Module aims

Outline syllabus

This is an indicative module outline only to give an indication of the sort of topics that may be covered. Actual sessions held may differ.

The students will conduct a research project in which they use an integrated science approach to address a specific research question. They will read relevant literature, acquire, analyse and interpret data and produce a thesis and oral presentation summarising their findings.

Learning outcomes

By the end of the module, students should be able to:

• Plan and engage in an independent and sustained investigation and evaluation of a chosen research topic
• Communicate research findings orally and in writing
• Identify and appraise relevant scientific literature using on-line literature search engines, relate this to appropriate methodologies and draw appropriate conclusions
• Critically review relevant research papers
• Effectively construct scientific results and arguments, using multiple sources.
• Apply an integrated science approach to a research question drawing from tools of different disciplines to acquire, analyse and interpret research data.

Indicative reading list

Each project will focus on a different research question. Therefore, bibliography is not specified as it will depend on the topic and nature of the research project and will be guided by the allocated supervisor who will provide students with an appropriate list of reviews and original research manuscripts.

For general working in the lab we recommend reading:

At the Bench: A Laboratory Navigator, Updated Edition By Kathy Barker, The Institute for Systems Biology, Seattle © 2005 • 465 pp., illus., appendices, index ISBN 978-087969708-2

The Digital Cell: Cell Biology as a Data Science, by Stephen J Royle, Cold Spring Harbor Laboratory Press, 2019, 137 pp, Illustrated edition, ISBN 978-1621822783

View reading list on Talis Aspire

Research element

Advanced laboratory techniques in microscopy, molecular biology & biochemistry to acquire data
Analysis of data, including quantitative image analysis and statistical analysis
Construction of scientific arguments based on multiple sources
Production of a scientific abstract, presentation of data, critical discussion and drawing conclusion
Keeping appropriate laboratory records

Interdisciplinary

Students will use tools from physics, mathematics and computer science to address a biological problem.

Subject specific skills

Critical appraisal of source material
Advanced laboratory techniques in microscopy, molecular biology & biochemistry to acquire data
Analysis of data, including quantitative image analysis and statistical analysis
Construction of scientific arguments based on multiple sources
Production of a scientific abstract, presentation of data, critical discussion and drawing conclusion
Keeping appropriate laboratory records

Transferable skills

Critical appraisal of source material
Self directed learning
Adult learning
Public speaking