Postgraduate Programme and Module Handbook 2019-2020 (archived)
Module MATH40715: Macrobiomolecule Dynamics
Department: Mathematical Sciences
MATH40715:
Macrobiomolecule Dynamics
| Type |
Open |
Level |
4 |
Credits |
15 |
Availability |
Available in 2019/20 |
Prerequisites
- <If other modules, please enter module code using 'Right Click, Insert module_code' or enter module title>
Corequisites
- <If other modules, please enter module code using 'Right Click, Insert module_code' or enter module title>
Excluded Combination of Modules
- <If other modules, please enter module code using 'Right Click, Insert module_code' or enter module title>
Aims
- To provide students with an overview of the cellular scaffolding from a biologist’s perspective, and a mathematical modelling of its dynamics.
Content
- Introduction to the cytoskeleton dynamics.
- Derivation of a thermodynamical model of the microtubule dynamics and analytical study of some solutions of a simplified version of the model.
- Mechanical properties of the microtubules, and actin filaments and associated molecules.
- Mechanical and thermodynamical properties of polymer chains like proteins or DNA.
Learning Outcomes
- Students will have a mastery of a coherent body of knowledge of the cytoskeleton and a mastery of methods of mathematically modelling its dynamics.
- They will be able to solve complex and specialised problems, draw conclusions and deploy abstract reasoning and mathematical intuition.
- They will develop their mathematical self-sufficiency and be able to read and understand advanced mathematics independently, in subjects relevant for applications in Biology.
- Problem solving.
- Self-organisation, self-discipline and self-knowledge.
- Ability to learn actively and reflectively and to develop intuition, the ability to tackle material which is given both unfamiliar and complex.
Modes of Teaching, Learning and Assessment and how these contribute to
the learning outcomes of the module
- Lectures will provide the means to give concise, focussed presentation of the relevant subject matter of the module. They will be supported by reference to suitable text books or research papers and where appropriate by the distribution of written material or through links on DUO (on-line learning resource).
- Students will be asked to return 5 mathematical essays during the course. They will mostly consist in reading sections from a research papers or books and detail the calculations presented in them.
- Two of the mathematical essays will be formative assessment and provide the means for the student to demonstrate their acquisition of subject knowledge and the development of their problem solving skills.
- The remaining 3 mathematical essays will be part of the summative assessment.
- Student performance will be also be assessed summatively at the end of the course through a 3000 word essay.
Teaching Methods and Learning Hours
| Activity |
Number |
Frequency |
Duration |
Total/Hours |
|
| Lectures |
15 |
1 |
1 |
15 |
| Self Study |
|
|
|
135 |
| Total |
|
|
|
150 |
Summative Assessment
| Component: Mathematical Essay |
Component Weighting: 75% |
| Element |
Length / duration |
Element Weighting |
Resit Opportunity |
| Essay |
5 |
33% |
Y |
| Essay |
5 |
33% |
Y |
| Essay |
5 |
33% |
Y |
| Component: General Essay |
Component Weighting: 30% |
| Element |
Length / duration |
Element Weighting |
Resit Opportunity |
| Essay |
3000 |
100% |
Y |
Two mathematical essays will be formative assessment and provide the means for the student to demonstrate their acquisition of subject knowledge and the development of their problem solving skills.
■ Attendance at all activities marked with this symbol will be monitored. Students who fail to attend these activities, or to complete the summative or formative assessment specified above, will be subject to the procedures defined in the University's General Regulation V, and may be required to leave the University
