Module Leader
Lecturers
Dr G Micklem, Dr J Ajioka, Dr D Dikicioglu
Lab Leader
Timing and Structure
Michaelmas term. 16 lectures, 1 laboratory class. This is an intensive introductory level undergraduate course targeted at third year Engineering students. This course will be delivered through lectures and a laboratory class.
Aims
The aims of the course are to:
- Provide a basic grounding in key aspects of molecular bioscience with an emphasis on biomolecular engineering.
Objectives
As specific objectives, by the end of the course students should be able to:
- To understand the potential of engineering living systems
- To understand key common features of living systems
- To have a basic understanding of cellular metabolism and examples of metabolic engineering
- To understand the basics of gene control and expression, concentrating on systems more commonly used in biotechnology
- To have basic knowledge of what is feasible with genetic engineering, the key underlying technology and case studies
- To understand the impact of the latest methods of genome sequencing, genome analysis, and genome-scale experimental methods including perturbation studies
- To have been introduced to the emerging field of synthetic biology that aims to rationally engineer biological systems
- Through the lab, to have direct experience of some basic experimental techniques
Content
This course will introduce those elements of molecular biology that are relevant to further study in bioscience and engineering applications.
- Common features of living systems
- Cellular structure and metabolism
- Metabolic engineering
- Key experimental methods
- Genetic Engineering
- Genome sequencing, genomics and key computational methods
- Synthetic Biology
The structure of the course will be as follows.
- Lectures 1-3 - Overview/introduction - why engineer living systems? Life: cells to organisms
- Lectures 4-5 - Central dogma of molecular biology, Gene regulation
- Lectures 6-7 - Genetic engineering I: basic parts, methods and terminology
- Lectures 8-9 - Genetic engineering II: further methods cases studies
- Lectures 10-12 - Cellular metabolism, catabolism/ anabolism, core molecular types, metabolic engineering, principles and case studies
- Lectures 13-15 - Genomics, genome sequencing/annotation/key computational methods, functional studies, gene expression/ regulatory networks, perturbation studies
- Lecture 16 - Synthetic biology
Coursework
Laboratory Practical
Learning objectives:
- To have had some experience of working in a biology laboratory, including consideration of safety issues.
- To have learned some basic biology laboratory techniques.
- To have gained experience in analysing and interpreting the data produced.
Practical information:
- The lab will run twice, first on Friday 20th October and then on Friday 27th October, in the Department of Plant Sciences Teaching Laboratory: https://map.cam.ac.uk/Department+of+Plant+Sciences#52.202590,0.121337,18
- This activity involves preliminary work (~1hour) and completing an online test in advance of the lab. The test will be available through Moodle.
Full Technical Report:
There is no Full Technical Report (FTR) associated with this module.
Booklists
Please see the Booklist for Part IIA Courses for references for this module
Examination Guidelines
Please refer to Form & conduct of the examinations.
Last modified: 29/09/2017 20:42