Microbial Regulatory Mechanisms
Syllabus, Master's level, 1MB431
This course has been discontinued.
- Code
- 1MB431
- Education cycle
- Second cycle
- Main field(s) of study and in-depth level
- Molecular Biotechnology A1F, Technology A1F
- Grading system
- Pass with distinction (5), Pass with credit (4), Pass (3), Fail (U)
- Finalised by
- The Faculty Board of Science and Technology, 23 May 2017
- Responsible department
- Biology Education Centre
Entry requirements
120 credits inclusive Mikrobiology and 5 credits on advanced level. Completed Macromolecular Machines.
Learning outcomes
This course focuses on regulatory mechanisms that microbes - primarily bacteria - employ in
responses to physiological or environmental changes.
After attending this course, the student should be able to
- understand the special conditions of life of importance for bacteria
- understand, in general and in mechanistic detail, how the adaptations of microbes to
changed internal and external environments result from adaptive responses
- understand and explain in detail how regulatory mechanisms work at the
transcriptional and post-transcriptional level
- have a good insight into the relationships between environmental signalling, molecular
mechanisms of gene regulation, and physiological responses at a cellular or population level
- understand the importance of extrachromosomal elements for gene flow and the
acquisition of new traits
- understand the special properties of plasmids, in particular concerning stable
maintenance and replication control
- have a good insight into the increasing significance of RNA-mediated control of gene
expression and its mechanisms of action
- understand primary publications, in general and in specific detail, and develop the
skills to summarise, discuss, and critically analyse their content and evaluate their
conclusions
- analyse critically, interpret and evaluate, and summarise obtained experimental
results
Content
This course is mainly focused on mechanisms of gene expression that form the basis for
adaptive responses in bacteria. In this course the following questions will be addressed.
Overview of and deeper insights into the particular life conditions that are relevant for
bacteria. Focus on conditions such as starvation, bacterial stress, differentiation processes and
virulence. Understanding how changes in the internal and external environment determine
phenotypic changes. In-depth analysis and understanding of connections between signals that
are received by bacteria and regulation of gene expression that is required to meet
physiological requirements and to mount adaptive responses. Levels of gene regulation:
trancriptional regulation (DNA level) by activator and repressor proteins, post-transcriptional
regulation at the mRNA level, with emphasis on regulatory RNAs and cis-acting RNA
elements (riboswitches). Bacterial differentiation - sporulation. Bacterial communication -
quorum sensing. Gene transfer between bacteria, the horizontal gene pool, plasmids and other
extrachromosomal elements. RNA-based acquired immunity against invading DNA in
bacteria and archea (CRISPR/cas).
Practical lab work will be based on recent research in the subject area.
Instruction
Teaching comprises lectures, seminars, lab practicals and site visits. Participation in seminars, lab practicals and lectures
connected to them, is compulsory.
Assessment
Written examination (3 credits), seminars (1 credit), laboratory practicals (1 credit).