Special topics are the organization of the bacterial genome, the machinery and regulation of transcription and translation, the transport of cellular components, cell division and cellular differentiation processes, bacterial mobility and chemotaxis, signal transduction and bacterial communication.
INTERTEK LAB MASTER INMUNOLOGY SERIES
The third part of the lecture series is dealing with fundamental aspects of prokaryotes and microbiology in general. Bioinformatics is presented as a computer based molecular biology tool allowing time saving experimental planning. The lectures are in line with the textbook "Essential Cell Biology", and include many examples covering the topics of all course sessions.
INTERTEK LAB MASTER INMUNOLOGY HOW TO
The lectures on bioinformatics (25% of total) comprise many examples for application in order to demonstrate how to address problems in molecular biology with tools of bioinformatics. In the course sessions on "Cell Biology" (comprising 25% of the total) focuses on the eucaryotic cell and illustrates both the fundamental principles of molecular cell biology and the huge structural and functional diversity of molecules, organelles and cells. "Essential Cell Biology" Garland Science, NY USA Recommended literature: Alberts B, Bray D. Based on current concepts in molecular biology, the lectures elucidate these with respect to the particular disciplines. The lecture series introduces into the fields of cell biology, developmental biology, microbiology, biophysics, bioinformatics. They know to approach scientific problems both theoretically and experimentally, and - based on the results obtained - to further develop scientific models and hypotheses.Ĭ: Molecular Biology of Prokaryotic and Eukaryotic Cells. They are aware of scenarios in research and environment that may be associated with biological hazards. The students learn to perform biohazard risk assessments and to setup appropriate biosafety actions. The students are enabled to address scientific questions with regard to cellular organization and development, theoretic principles of infection biology and pathogenicity including principles and mechanistic details on the origin and spreading of infectious diseases. By studying various forms and “strategies” of infectious particles or organisms, the students become familiar with the principles of strategies to limit the spreading of infectious disease and are able to evaluate infectious agents with regard to biosafety and biosecurity issues. The students learn to understand the complexity of developmental processes of cells and tissues, based on fundamental principles of cell and molecular biology including the control of gene expression at various levels. Further research training is provided in a selected field of interest, and the students are actively involved in ongoing research projects and learn to independently plan and perform both theoretical and experimental work and finally, to summarize and discuss the results obtained in the thesis. The two selected topics are composed of two theory modules as well as a practical course unit each.
These include in particular the action of pathogenicity factors of both human-pathogenic prokaryotic and eukaryotic infectious strains and ways to develop strategies against disease spreading. Based on general aspects and novel approaches in molecular biology including bioinformatics and computational biology, current research topics in the fields of cell biology, microbiology, biophysics, bioinformatics are emphasized. The cell biology topics comprise developmental subjects such as tissue regeneration and morphogenetic cell migration, molecular stem cell biology, epigenetic plasticity, multicellularity and environment depending development. The curriculum relates topics of cell and developmental biology with those of infection biology and corresponding disease.
Programme Profile: Cell and Infection Biology
0 kommentar(er)
