MMB8014 : Genetics of Common Disease
MMB8014 : Genetics of Common Disease
- Offered for Year: 2024/25
- Module Leader(s): Professor Heather Cordell
- Lecturer: Dr Christopher Morris, Dr Joanna Elson, Dr Ana Viñuela, Dr Sarah Rice, Dr Marc Woodbury-Smith
- Owning School: Biomedical, Nutritional and Sports Scien
- Teaching Location: Newcastle City Campus
Semesters
Your programme is made up of credits, the total differs on programme to programme.
| Semester 1 Credit Value: | 20 |
| ECTS Credits: | 10.0 |
| European Credit Transfer System | |
Pre-requisite
Modules you must have done previously to study this module
Pre Requisite Comment
Programme Admission Requirements Only
Co-Requisite
Modules you need to take at the same time
| Code | Title |
|---|---|
| MMB8030 | Genetic Medicine |
Co Requisite Comment
Students wishing to graduate MRes in Medical Genetics must undertake the module in Genetic Medicine.
This module is open to all other MRes students.
Aims
This module aims to address a major area of current medical research and to provide students with an understanding of the strengths and weakness of both the current subject knowledge in this area and the practical approaches to it. Understanding the genetics of complex disease has been identified as a major post-genome challenge. The module aims to equip Level 7 students with the necessary skills to understand and develop research strategies to investigate the inheritance of complex diseases.
Specific aims are:
• To inform students in genetic variation and the genetics of non-Mendelian (complex) disease.
• To introduce students to the different strategies and information input required to identify genes in complex diseases.
• To compare the various practical approaches used to identify the genetic basis of common disease and to elucidate the role of genes in common disease.
• To outline the relevance and utility of genetic investigations to understanding the pathogenesis of common diseases.
Outline Of Syllabus
The module will cover:
• Genetic variation and the definition of complex genetic diseases.
• How to identify and assess the heritable component of a complex disease.
• Selecting and applying different research strategies.
• Linkage versus association analysis.
• Genome-wide association studies.
• Data/results interpretation and use of computer packages for performing statistical genetic analysis
• Knowledge of key examples of complex diseases, including examples such as: Diabetes, Oesteoarthritis, Alzheimer’s Disease, Autism.
Learning Outcomes
Intended Knowledge Outcomes
By the end of this module students should be able to:
1. Discuss the basic principles and concepts of complex disease genetics as applied to a range of different diseases.
2. Describe the main research strategies and laboratory methods used in investigating the genetics of complex diseases
3. Select appropriate research strategies and laboratory techniques for identifying genes in complex disease: linkage analysis (family studies, sib-pair analysis) or association analysis (TDT or case-control studies)
4. Discuss and evaluate the appropriateness of these different research strategies and laboratory techniques for gene identification in complex diseases
Intended Skill Outcomes
By the end of the module the students should be able to:
1. Consider and interpret data from studies of complex disease
2. Critically appraise current literature especially in the area of study design
3. Analyse data from genetic studies of complex disease
Teaching Methods
Teaching Activities
| Category | Activity | Number | Length | Student Hours | Comment |
|---|---|---|---|---|---|
| Scheduled Learning And Teaching Activities | Lecture | 16 | 1:00 | 16:00 | Present in person (PIP) Lectures |
| Guided Independent Study | Assessment preparation and completion | 25 | 1:00 | 25:00 | Preparation and submission of Essay |
| Guided Independent Study | Assessment preparation and completion | 25 | 1:00 | 25:00 | Preparation and submission of PC assessment |
| Scheduled Learning And Teaching Activities | Small group teaching | 1 | 2:00 | 2:00 | Present in person (PIP): seminar |
| Scheduled Learning And Teaching Activities | Small group teaching | 5 | 1:00 | 5:00 | Present in person (PIP): seminars |
| Guided Independent Study | Skills practice | 8 | 2:00 | 16:00 | Computer practical work |
| Scheduled Learning And Teaching Activities | Workshops | 3 | 2:00 | 6:00 | Present in person: IT Workshop (Computer Practical) |
| Guided Independent Study | Reflective learning activity | 25 | 1:00 | 25:00 | Additional Reading and Reflective Learning |
| Guided Independent Study | Independent study | 50 | 1:00 | 50:00 | Additional supplementary reading and revision of course material |
| Guided Independent Study | Independent study | 15 | 2:00 | 30:00 | Additional directed reading |
| Total | 200:00 |
Teaching Rationale And Relationship
Lectures will provide the students with a specific knowledge as a platform for private study. Together with computer practicals and seminars these lecture materials will encourage the students to reflect both individually and in small groups on the state of knowledge in research in complex diseases. Students will practice critical appraisal, data analysis and interpretation during the computer practicals. Seminars will encourage the students to reflect on their learning. All of these activities relate directly to the learning outcomes above
Reading Lists
Assessment Methods
The format of resits will be determined by the Board of Examiners
Other Assessment
| Description | Semester | When Set | Percentage | Comment |
|---|---|---|---|---|
| Computer assessment | 1 | M | 50 | Open book assessment of practical/analytical skills. Maximum 2000 words. |
| Essay | 1 | M | 50 | 1 essay from a choice of 3 options. Maximum 1500 words |
Assessment Rationale And Relationship
The computer analysis exercise tests application of knowledge, understanding and ability to critically evaluate and interpret a given data set. The essay tests the student’s knowledge base, comprehension and ability to discuss the subject knowledge critically.
PC Assessment: Open book assessment of practical/analytical skills involving statistical data analysis. Data set to be provided. The students will be given the data set and a worksheet (suggesting the various analysis approaches to be used) and will have two weeks in which to perform the analysis and to write up their findings. The analysis itself should take around 5 hours, with another 5 hours required for preparation work and up to 15 hours for writing up.
Essay: Description of the current state of knowledge of a topic in the field, to be chosen from 3 options. Preparation work should take around 10 hours, with up to 15 hours for writing up.
Timetable
- Timetable Website: www.ncl.ac.uk/timetable/
- MMB8014's Timetable
Past Exam Papers
- Exam Papers Online : www.ncl.ac.uk/exam.papers/
- MMB8014's past Exam Papers
General Notes
N/A
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