Immunology
Syllabus, Master's level, 1BG313
- Code
- 1BG313
- Education cycle
- Second cycle
- Main field(s) of study and in-depth level
- Biology A1N
- Grading system
- Pass with distinction (5), Pass with credit (4), Pass (3), Fail (U)
- Finalised by
- The Faculty Board of Science and Technology, 15 March 2007
- Responsible department
- Biology Education Centre
Entry requirements
At least two years of basic courses in Natural Sciences, equivalent to 50 points/75 ECTS credits in Biology and 20 points/30 ECTS credits in Chemistry. Biology courses should include Cell Biology, Genetics and Gene Technology, Structure and Physiology of Organisms, and Ecology. Alternatively, one year of Chemistry together with 20 points/30 ECTS credits in Biology including Structure and Physiology of Organisms and Genetics and Gene Technology.
Learning outcomes
The aim is to give a broad and detailed overview of whole the immunological field, and provide detailed knowledge of many of the most important immunological techniques.
After the course, the student should be able to
� understand immunological terminology
� describe the different haematopoietic cell groups regarding phenotype, function and distribution
� describe how these cells are formed and in which organs and how it is governed by differentiating factors and cell adhesion molecules
� describe the differences between adaptive and not adaptive (innate) immune defence regarding specificity, memory and kinetics
� describe the different genetic mechanisms and the selection mechanisms at the molecular and cellular level that guides the formation of the enormous amount of antigen-specific receptors, immunoglobulins and T-Cell receptors that are the basis for the adaptive the immune defence of the vertebrates.
� describe the immune response against different pathogens and how these pathogens affect the ability of the immune system to combat the infection
� describe the mechanisms and components that participate in an inflammatory response
� describe different immunological diseases at the molecular and cellular level
� describe immune responses to tumours and transplanted tissue
� describe different types of immunotherapy and vaccinations
� describe different immunological methods and carry out some of them
� analyse immunological data, draw conclusions and generate hypotheses
� carry out an immunological project with literature search and present the results in a written report, in the form of a summary, and orally
� read and understand both original paper and review papers within viritually the whole immunological field
Content
The students reach the aims by acquire knowledge about immune system and its components, molecular and cellular processes for development of immune system, how the immune system functions in health and at immunological diseases, cancer and transplantation and how immunotherapy and vaccinations can be used to counteract or prevent diseases. This knowledge is acquired through lectures that cover practically the whole immunolgiska field through self-tuition and through laboratory sessions where the students acquainted with important and common immunological methods. Scientific procedures and attitudes are obtained by keeping accurate laboratory records and by problem-solving at seminars where scientific data are analysed (theoretical exercises).
Immunological projects with literature search and oral and written reports of data give training in information retrieval and how structures and present information.
Several course part have connections to the job market.
� Basis in scientific methods.
� Skills in documentation and critical evaluation of scientific data
� Oral and written presentation in both English and Swedish.
� Through its broad and solid knowledge in immunology the students will be attractive on labour market for both small, means and large biotechnology companies, for pharmaceutical industry and in human aid projects.
Modules: Theory, 9 credits; Laboratory practicals, 3 credits; Exercises, 3 credits
Instruction
The course includes lectures, seminars and laboratory work. Attendance in the laboratory work and connected lessons is compulsory.
Assessment
For passed final grade, passed participation in compulsory exercises is required (laboratory sessions including approved laboratory records, equivalent to 3 credits, theoretical written exercises and project work equivalent 3 credits,and passed results on examinations equivalent 9 credits. Two written examinations are given, one relating to theoretical knowledge, the second theoretical knowledge, theoretical laboratory skills and analysis of data and immunological problem.
Reading list
- Reading list valid from Autumn 2023
- Reading list valid from Autumn 2019
- Reading list valid from Spring 2018
- Reading list valid from Spring 2017
- Reading list valid from Autumn 2012, version 2
- Reading list valid from Autumn 2012, version 1
- Reading list valid from Autumn 2010
- Reading list valid from Autumn 2008
- Reading list valid from Autumn 2007