Module Catalogue 2024/25

BGM2063 : Approaches to analysis of genes and genomes

BGM2063 : Approaches to analysis of genes and genomes

  • Offered for Year: 2024/25
  • Module Leader(s): Dr Jeremy Brown
  • Lecturer: Dr Elizabeth Veal, Dr Amy Vincent, Professor David Elliott, Dr Simon Whitehall, Dr Simon Cockell
  • Practical Supervisor: Dr Josana Rodriguez Sanchez
  • 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 2 Credit Value: 10
ECTS Credits: 5.0
European Credit Transfer System
Pre-requisite

Modules you must have done previously to study this module

Pre Requisite Comment

Stage one & Stage 2 first semester biomedical genetics (B901)

Co-Requisite

Modules you need to take at the same time

Co Requisite Comment

N/A

Aims

1. To provide insight into modern genetic approaches to analysis of gene expression and its regulation.

2. To consider current research methods for identifying regulatory interactions in gene expression.

3. To develop understanding of resources available to the modern geneticist in terms of datasets describing different levels of information available on genes – sequence, expression, interactions, function, pharmacogenetics etc. and the links between them.

4. To provide information on epigenetic mechanisms & post-transcriptional control of gene expression

Outline Of Syllabus

What is modern genetics? The field of genetics has changed dramatically over recent years, with the availability of extensive genomic sequence making new approaches to genetic analysis possible. Allied to this a number of new technologies and understandings have also opened up significant opportunities in studying expression of genes and interaction of gene products. This module aims to broaden and deepen understanding of gene expression through both taught (lecture/seminar), practical and computer-based exercise making use of databases, datasets and bioinformatic tools.

The syllabus will cover:

epigenetic & long range regulation of gene expression

the complexity of RNA expressed in cells, post-transcriptional regulation of gene expression, and specifically alternative splicing, regulation of mRNA use and determinants of mRNA fate

practical uses of microRNA-mediated silencing

Learning Outcomes

Intended Knowledge Outcomes

On completing this module students should be able to:
     
Provide detailed descriptions of epigenetic mechanisms;
Describe and discuss mechanisms of post-transcriptional control of gene expression;
Discuss the complexity of RNA in cells, its derivation and the function of different classes of RNA;
Use a variety of information sources available on the Web describing different levels.

Intended Skill Outcomes

On completing this module students should be able to:

Compile information from a variety of sources (on genes at different levels – genomic, transcript, disease-association, interactions with other genes);

Analyse and present data, both written and as oral presentations;

Report findings from laboratory work.

Teaching Methods

Teaching Activities
Category Activity Number Length Student Hours Comment
Guided Independent StudyAssessment preparation and completion128:0028:00Completing /writing up practical, research paper and graphical abstract based on workshop
Guided Independent StudyAssessment preparation and completion23:006:00In-course presentation 2x3hr sessions on same day, total time dependent on student number
Scheduled Learning And Teaching ActivitiesLecture81:008:00In person - Key route for knowledge transfer. Some direction for additional reading provided.
Scheduled Learning And Teaching ActivitiesPractical26:0012:00In person - laboratory based practical session.
Scheduled Learning And Teaching ActivitiesSmall group teaching12:002:00In person seminar on interpreting complex datasets
Scheduled Learning And Teaching ActivitiesWorkshops23:006:00In person - PC Cluster based database searches and info compilation. The first session will be a seminar introducing online genetic data mining, i.e. how to access information on genes, the second will allow guided independent enquiry on a chosen gene.
Scheduled Learning And Teaching ActivitiesWorkshops11:001:00In person seminar introducing graphical abstracts and the assessed presentation of them
Guided Independent StudyIndependent study137:0037:00Writing up lecture notes, revision and general reading
Total100:00
Teaching Rationale And Relationship

Lectures will be used to introduce basic knowledge, and also a number of key genetics methodologies.

Seminars will expand significantly the emphasis of the module on methods, and will be geared towards the practical and workshop sessions.

The practical will give the students an opportunity to generate data from the analysis of genes by RNAi and epigenetics, whereas the workshops will be focused on gathering data about specific genes. The oral presentation will provide opportunity for the students to investigate a specific topic related to the module, increasing their learning and to present this to the cohort.

Reading Lists

Assessment Methods

The format of resits will be determined by the Board of Examiners

Other Assessment
Description Semester When Set Percentage Comment
Research paper2M60Write up on information compiled in workshops and independent study. (2000 words)
Practical/lab report2M30Practical observation proforma and pre-set questions. All questions must be answered
Oral Presentation2M10In person oral presentation summarizing the research paper assessment in ONE graphical abstract style slide. 3 minutes plus 3 minutes questions
Assessment Rationale And Relationship

The ‘Research paper’ assessment will be based on work initiated during the workshops and small group teaching which will provide familiarity with databases and interpreting complex genetic datasets, students will build on this in their independent study. This will provide a foundation for work in third year modules, where specific genes and conditions are discussed, frequently with reference to databases and information within them. As the write up of this part of the module will be in the form of a research paper, it will also provide relevant experience for the third year project modules, which are also written up in this form.

The linked formative oral presentation will afford students an opportunity in presenting before an audience of peers. It shall require each student to deliver a short presentation using at most 5 slides and then answer questions from the audience.

The practical write up will provide practice at analysing and writing up experimental data.

Timetable

Past Exam Papers

General Notes

N/A

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Disclaimer

The information contained within the Module Catalogue relates to the 2024 academic year.

In accordance with University Terms and Conditions, the University makes all reasonable efforts to deliver the modules as described.

Modules may be amended on an annual basis to take account of changing staff expertise, developments in the discipline, the requirements of external bodies and partners, and student feedback. Module information for the 2025/26 entry will be published here in early-April 2025. Queries about information in the Module Catalogue should in the first instance be addressed to your School Office.