Search result: Catalogue data in Spring Semester 2019
Biology Master | ||||||
Elective Major Subject Areas | ||||||
Elective Major: Biochemistry | ||||||
Elective Concept Courses | ||||||
Number | Title | Type | ECTS | Hours | Lecturers | |
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551-0326-00L | Cell Biology | W | 6 credits | 4V | S. Werner, M. Bordoli, R. Henneberger, W. Kovacs, M. Schäfer, U. Suter, A. Wutz | |
Abstract | This Course introduces principle concepts, techniques, and experimental strategies used in modern Cell Biology. Major topics include: neuron-glia interactions in health and disease; mitochondrial dynamics; stem cell biology; growth factor action in development, tissue repair and disease; cell metabolism, in particular sensing and signaling mechanisms, cell organelles, and lipid metabolism. | |||||
Objective | -To prepare the students for successful and efficient lab work by learning how to ask the right questions and to use the appropriate techniques in a research project. -To convey knowledge about neuron-glia interactions in health and disease. - To provide information on different types of stem cells and their function in health and disease -To provide information on growth factor signaling in development, repair and disease and on the use of growth factors or their receptors as drug targets for major human diseases -To convey knowledge on the mechanisms underlying repair of injured tissues -To provide the students with an overview of mitochondrial dynamics. -Providing an understanding of RNA processing reactions and their regulations. -To provide a comprehensive understanding of metabolic sensing mechanisms occurring in different cell types and organelles in response to glucose, hormones, oxygen, nutrients as well as lipids, and to discuss downstream signaling pathways and cellular responses. -To provide models explaining how disturbances in complex metabolic control networks and bioenergetics can lead to disease and to highlight latest experimental approaches to uncover the intricacies of metabolic control at the cellular and organismal level. -Providing the background and context that foster cross-disciplinary scientific thinking. | |||||
551-0324-00L | Systems Biology | W | 6 credits | 4V | R. Aebersold, B. Christen, M. Claassen, U. Sauer | |
Abstract | Introduction to experimental and computational methods of systems biology. By using baker’s yeast as a thread through the series, we focus on global methods for analysis of and interference with biological functions. Illustrative applications to other organisms will highlight medical and biotechnological aspects. | |||||
Objective | - obtain an overview of global analytical methods - obtain an overview of computational methods in systems biology - understand the concepts of systems biology | |||||
Content | Overview of global analytical methods (e.g. DNA arrays, proteomics, metabolomics, fluxes etc), global interference methods (siRNA, mutant libraries, synthetic lethality etc.) and imaging methods. Introduction to mass spectrometry and proteomics. Concepts of metabolism in microbes and higher cells. Systems biology of developmental processes. Concepts of mathematical modeling and applications of computational systems biology. | |||||
Lecture notes | no script | |||||
Literature | The course is not taught by a particular book, but some books are suggested for further reading: - Systems biology in Practice by Klipp, Herwig, Kowald, Wierling und Lehrach. Wiley-VCH 2005 | |||||
529-0732-00L | Proteins and Lipids | W | 6 credits | 3G | D. Hilvert | |
Abstract | An overview of the relationship between protein sequence, conformation and function. | |||||
Objective | Overview of the relationship between protein sequence, conformation and function. | |||||
Content | Proteins, structures and properties, (bio)synthesis of polypeptides, protein folding and design, protein engineering, chemical modification of proteins, proteomics. | |||||
Literature | General Literature: - T.E. Creighton: Proteins: Structures and Molecular Properties, 2nd Edition, H.W. Freeman and Company, New York, 1993. - C. Branden, J. Tooze , Introduction to Protein Structure, Garland Publishing, New York, 1991. - J. M. Berg, J. L. Tymoczko, L. Stryer: Biochemistry, 5th edition, H.W. Freeman and Company, New York, 2002. - G.A. Petsko, D. Ringe: Protein Structure and Function, New Science Press Ltd., London, 2004. Original Literature: Citations from the original literature relevant to the individual lectures will be assigned weekly. | |||||
551-0314-00L | Microbiology (Part II) | W | 3 credits | 2V | W.‑D. Hardt, L. Eberl, H.‑M. Fischer, J. Piel, J. Vorholt-Zambelli | |
Abstract | Advanced lecture class providing a broad overview on bacterial cell structure, genetics, metabolism, symbiosis and pathogenesis. | |||||
Objective | This concept class will be based on common concepts and introduce to the enormous diversity among bacteria and archaea. It will cover the current research on bacterial cell structure, genetics, metabolism, symbiosis and pathogenesis. | |||||
Content | Advanced class covering the state of the research in bacterial cell structure, genetics, metabolism, symbiosis and pathogenesis. | |||||
Lecture notes | Updated handouts will be provided during the class. | |||||
Literature | Current literature references will be provided during the lectures. | |||||
Prerequisites / Notice | English | |||||
551-0318-00L | Immunology II | W | 3 credits | 2V | A. Oxenius, M. Kopf, S. R. Leibundgut, E. Slack, further lecturers | |
Abstract | Introduction into the cellular and molecular basis of the immune system and immune responses against diverse pathogens, tumors, transplants, and self (autoimmunity) | |||||
Objective | The lectures will provide a detailed understanding: - how innate and adaptive immune responses interact at the cellular and molecular level. - how the immune system recognizes and fights against pathogenic microorganisms including viruses, bacteria, and parasites. - why lymphocytes tolerate self molecules. - about function and dysfunction the intestinal immune system. - immunopathology and inflammatory diseases. | |||||
Content | The aim of lecture is to understand: > How pathogens are recognized by the innate immune system > Immune defense against various pathogens > Immunology of the skin, lung and intestines > Tumor immunology > Migration and homing of immune cells > tolerance and autoimmunity > T cell memory | |||||
Lecture notes | Presentations of the lecturers are available at the Moodle link | |||||
Literature | Recommended: Kuby Immunology (Freeman) | |||||
551-0307-01L | Molecular and Structural Biology II: From Gene to Protein D-BIOL students are obliged to take part I and part II as a two-semester course. | W | 3 credits | 2V | N. Ban, F. Allain, S. Jonas, M. Pilhofer | |
Abstract | This course will cover advanced topics in molecular biology and biochemistry with emphasis on the structure and function of cellular assemblies involved in expression and maintenance of genetic information. We will cover the architecture and the function of molecules involved in DNA replication, transcription, translation, nucleic acid packaging in viruses, RNA processing, and CRISPER/CAS system. | |||||
Objective | Students will gain a deep understanding of large cellular assemblies and the structure-function relationships governing their function in fundamental cellular processes ranging from DNA replication, transcription and translation. The lectures throughout the course will be complemented by exercises and discussions of original research examples to provide students with a deeper understanding of the subjects and to encourage active student participation. | |||||
Content | Advanced class covering the state of the research in structural molecular biology of basic cellular processes with emphasis on the function of large cellular assemblies. | |||||
Lecture notes | Updated handouts will be provided during the class. | |||||
Literature | The lecture will be based on the latest literature. Additional suggested literature: Branden, C., and J. Tooze, Introduction to Protein Structure, 2nd ed. (1995). Garland, New York. |
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