Suchergebnis: Katalogdaten im Herbstsemester 2017
Biologie Master | ||||||
Wahlvertiefungen | ||||||
Wahlvertiefung: Biochemie | ||||||
Obligatorische Konzeptkurse | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
---|---|---|---|---|---|---|
551-0319-00L | Cellular Biochemistry (Part I) | O | 3 KP | 2V | U. Kutay, R. I. Enchev, B. Kornmann, M. Peter, I. Zemp, weitere Dozierende | |
Kurzbeschreibung | Concepts and molecular mechanisms underlying the biochemistry of the cell, providing advanced insights into structure, function and regulation of individual cell components. Particular emphasis will be put on the spatial and temporal integration of different molecules and signaling pathways into global cellular processes such as intracellular transport, cell division & growth, and cell migration. | |||||
Lernziel | The full-year course (551-0319-00 & 551-0320-00) focuses on the molecular mechanisms and concepts underlying the biochemistry of cellular physiology, investigating how these processes are integrated to carry out highly coordinated cellular functions. The molecular characterisation of complex cellular functions requires a combination of approaches such as biochemistry, but also cell biology and genetics. This course is therefore the occasion to discuss these techniques and their integration in modern cellular biochemistry. The students will be able to describe the structural and functional details of individual cell components, and the spatial and temporal regulation of their interactions. In particular, they will learn to explain the integration of different molecules and signaling pathways into complex and highly dynamic cellular processes such as intracellular transport, cytoskeletal rearrangements, cell motility, cell division and cell growth. In addition, they will be able to illustrate the relevance of particular signaling pathways for cellular pathologies such as cancer. | |||||
Inhalt | Structural and functional details of individual cell components, regulation of their interactions, and various aspects of the regulation and compartmentalisation of biochemical processes. Topics include: biophysical and electrical properties of membranes; viral membranes; structural and functional insights into intracellular transport and targeting; vesicular trafficking and phagocytosis; post-transcriptional regulation of gene expression. | |||||
Skript | Scripts and additional material will be provided during the semester. Please contact Dr. Alicia Smith for assistance with the learning materials. (alicia.smith@bc.biol.ethz.ch) | |||||
Literatur | Recommended supplementary literature (review articles and selected primary literature) will be provided during the course. | |||||
Voraussetzungen / Besonderes | To attend this course the students must have a solid basic knowledge in chemistry, biochemistry and general biology. The course will be taught in English. | |||||
Obligatorische Masterkurs | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
551-1303-00L | Cellular Biochemistry of Health and Disease Number of participants limited to 20. | O | 4 KP | 2S | P. Picotti, Y. Barral, J. Fernandes de Matos, V. Korkhov, B. Kornmann, R. Kroschewski, M. Peter, A. E. Smith, K. Weis | |
Kurzbeschreibung | During this Masters level seminar style course, students will explore current research topics in cellular biochemistry focused on the structure, function and regulation of selected cell components, and the consequences of dysregulation for pathologies. | |||||
Lernziel | Students will work with experts toward a critical analysis of cutting-edge research in the domain of cellular biochemistry, with emphasis on normal cellular processes and the consequences of their dysregulation. At the end of the course, students will be able to introduce, present, evaluate, critically discuss and write about recent scientific articles in the research area of cellular biochemistry. | |||||
Inhalt | Guided by an expert in the field, students will engage in classical round-table style discussions of current literature with occasional frontal presentations. Students will alternate as discussion leaders throughout the semester, with the student leader responsible to briefly summarize key general knowledge and context of the assigned primary research paper. Together with the faculty expert, all students will participate in discussion of the primary paper, including the foundation of the biological question, specific questions addressed, key methods, key results, remaining gaps and research implications. | |||||
Literatur | The literature will be provided during the course | |||||
Voraussetzungen / Besonderes | The course will be taught in English. | |||||
Wahlpflicht Konzeptkurse Siehe D-BIOL Master-Wegleitung | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
551-0307-00L | Molecular and Structural Biology I: Protein Structure and Function D-BIOL students are obliged to take part I and part II (next semester) as a two-semester course | W | 3 KP | 2V | R. Glockshuber, K. Locher, E. Weber-Ban | |
Kurzbeschreibung | Biophysik der Proteinfaltung, Membranproteine und Biophysik von Membranen, enzymatischen Katalyse, katalytische RNA und RNAi, aktuelle Themen in Proteinbiophysik und Strukturbiologie. | |||||
Lernziel | Verständnis von Struktur/Funktionsbeziehungen in Proteinen, Proteinfaltung, Vertiefung der Kenntnisse in Biophysik, in physikalischen Messmethoden und modernen Methoden der Proteinreinigung und Protein-Mikroanalytik. | |||||
Skript | Skripte zu einzelnen Themen der Vorlesung sind unter http://www.mol.biol.ethz.ch/teaching abgelegt. | |||||
Literatur | Grundlagen: - Creighton, T.E., Proteins, Freeman, (1993). - Fersht, A., Enzyme, Structure and Mechanism in Protein Science (1999), Freeman. - Berg, Tymoczko, Stryer: Biochemistry (5th edition), Freeman (2001). Aktuelle Themen: Literatur wird jeweils in der Vorlesung angegeben | |||||
551-0309-00L | Concepts in Modern Genetics | W | 6 KP | 4V | Y. Barral, D. Bopp, A. Hajnal, M. Stoffel, O. Voinnet | |
Kurzbeschreibung | Concepts of modern genetics and genomics, including principles of classical genetics; yeast genetics; gene mapping; forward and reverse genetics; structure and function of eukaryotic chromosomes; molecular mechanisms and regulation of transcription, replication, DNA-repair and recombination; analysis of developmental processes; epigenetics and RNA interference. | |||||
Lernziel | This course focuses on the concepts of classical and modern genetics and genomics. | |||||
Inhalt | The topics include principles of classical genetics; yeast genetics; gene mapping; forward and reverse genetics; structure and function of eukaryotic chromosomes; molecular mechanisms and regulation of transcription, replication, DNA-repair and recombination; analysis of developmental processes; epigenetics and RNA interference. | |||||
Skript | Scripts and additional material will be provided during the semester. | |||||
Wahlpflicht Masterkurse | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
529-0733-00L | Enzymes | W | 7 KP | 3G | D. Hilvert | |
Kurzbeschreibung | Vermittlung eines Überblicks über die Chemie von Enzymen, enzymkatalysierten Reaktionen, metabolischen Prozessen. | |||||
Lernziel | Vermittlung eines Überblicks über die Chemie von Enzymen, enzymkatalysierten Reaktionen, metabolischen Prozessen. | |||||
Inhalt | Prinzipien der enzymatischen Katalyse, Enzymkinetiken, Mechanismen enzymkatalysierter Reaktionen (Gruppentransferreaktion, Kohlenstoff-Kohlenstoff-Bindungsknüpfungen, Eliminierungen, Isomerisierungen und Umlagerungen), Kofaktorenchemie, Enzyme in der organischen Synthese und in der Naturstoffbiosynthese, katalytische Antikörper. | |||||
Skript | A script will not be handed out. | |||||
Literatur | General: T. Bugg, An Introduction to Enzyme and Coenzyme Chemistry, Blackwell Science Ltd., Oxford, 1997. In addition, citations from the original literature relevant to the individual lectures will be assigned weekly. | |||||
551-1105-00L | Glycobiology | W | 4 KP | 2V | M. Aebi, T. Hennet | |
Kurzbeschreibung | Structural principles, nomenclature and different classes of glycosylation. The different pathways of N- and O-linked protein glycosylation and glycolipid biosynthesis in prokaryotes and eukaryotes are discussed. Specific glycan binding proteins and their role in deciphering the glycan code are presented. The role of glycans in infectious diseases, antigen mimicry and autoimmunity are discussed. | |||||
Lernziel | Detailed knowledge in 1) the different areas of prokaryotic and eukaryotic glycobiology, in particular in the biosynthesis of glycoproteins and glycolipids, 2) the cellular machinery required for these pathways, 3) the principles of carbohydrate/protein interaction, 4) the function of lectins, 5) the role of glycans in infectious disease. | |||||
Inhalt | Structure and linkages; analytical approaches; N-linked protein glycosylation (ER, Golgi); glycan-assisted protein folding and quality control; O-linked protein glycosylation; glucosaminoglycans; glycolipids; prokaryotic glycosylation pathways; lectins; glycans and infectious disease | |||||
Skript | handouts | |||||
Literatur | Introduction to Glycobiology; M.E.Taylor, K.Drickamer, Oxford University Press, 2003 Essentials of Glycobiology (second edition); A.Varki et al. Cold Spring Harbor Laboratory Press, 2009 | |||||
Voraussetzungen / Besonderes | The course will be in English. It will include the preparation of short essays (marked) about defined topics in Glycobiology. | |||||
551-1103-00L | Microbial Biochemistry | W | 4 KP | 2V | J. Vorholt-Zambelli, J. Piel | |
Kurzbeschreibung | The lecture course aims at providing an advanced understanding of the physiology and metabolism of microorganisms. Emphasis is on processes that are specific to bacteria and archaea and that contribute to the widespread occurrence of prokaryotes. Applied aspects of microbial biochemistry will be pointed out as well as research fields of current scientific interest. | |||||
Lernziel | The lecture course aims at providing an advanced understanding of the physiology and metabolism of microorganisms. | |||||
Inhalt | Important biochemical processes specific to bacteria and archaea will be presented that contribute to the widespread occurrence of prokaryotes. Applied aspects of microbial biochemistry will be pointed out as well as research fields of current scientific interest. Emphasis is on concepts of energy generation and assimilation. List of topics: Eating sugars and letting them in Challenging: Aromatics, xenobiotics, and oil Complex: (Ligno-)Cellulose and in demand for bioenergy Living on a diet and the anaplerotic provocation Of climate relevance: The microbial C1 cycle What are AMO and Anammox? 20 amino acids: the making of Extending the genetic code The 21st and 22nd amino acid Some exotic biochemistry: nucleotides, cofactors Ancient biochemistry? Iron-sulfur clusters, polymers Secondary metabolites: playground of evolution | |||||
Skript | A script will be provided during the course. | |||||
551-1153-00L | Systems Biology of Metabolism Number of participants limited to 15. | W | 4 KP | 2V | U. Sauer, N. Zamboni, M. Zampieri | |
Kurzbeschreibung | Starting from contemporary biological problems related to metabolism, the course focuses on systems biological approaches to address them. In a problem-oriented, this-is-how-it-is-done manner, we thereby teach modern methods and concepts. | |||||
Lernziel | Develop a deeper understanding of how relevant biological problems can be solved, thereby providing advanced insights to key experimental and computational methods in systems biology. | |||||
Inhalt | The course will be given as a mixture of lectures, studies of original research and guided discussions that focus on current research topics. For each particular problem studied, we will work out how the various methods work and what their capabilities/limits are. The problem areas range from microbial metabolism to cancer cell metabolism and from metabolic networks to regulation networks in populations and single cells. Key methods to be covered are various modeling approaches, metabolic flux analyses, metabolomics and other omics. | |||||
Skript | Script and original publications will be supplied during the course. | |||||
Voraussetzungen / Besonderes | The course extends many of the generally introduced concepts and methods of the Concept Course in Systems Biology. It requires a good knowledge of biochemistry and basics of mathematics and chemistry. | |||||
636-0007-00L | Computational Systems Biology | W | 6 KP | 3V + 2U | J. Stelling | |
Kurzbeschreibung | Study of fundamental concepts, models and computational methods for the analysis of complex biological networks. Topics: Systems approaches in biology, biology and reaction network fundamentals, modeling and simulation approaches (topological, probabilistic, stoichiometric, qualitative, linear / nonlinear ODEs, stochastic), and systems analysis (complexity reduction, stability, identification). | |||||
Lernziel | The aim of this course is to provide an introductory overview of mathematical and computational methods for the modeling, simulation and analysis of biological networks. | |||||
Inhalt | Biology has witnessed an unprecedented increase in experimental data and, correspondingly, an increased need for computational methods to analyze this data. The explosion of sequenced genomes, and subsequently, of bioinformatics methods for the storage, analysis and comparison of genetic sequences provides a prominent example. Recently, however, an additional area of research, captured by the label "Systems Biology", focuses on how networks, which are more than the mere sum of their parts' properties, establish biological functions. This is essentially a task of reverse engineering. The aim of this course is to provide an introductory overview of corresponding computational methods for the modeling, simulation and analysis of biological networks. We will start with an introduction into the basic units, functions and design principles that are relevant for biology at the level of individual cells. Making extensive use of example systems, the course will then focus on methods and algorithms that allow for the investigation of biological networks with increasing detail. These include (i) graph theoretical approaches for revealing large-scale network organization, (ii) probabilistic (Bayesian) network representations, (iii) structural network analysis based on reaction stoichiometries, (iv) qualitative methods for dynamic modeling and simulation (Boolean and piece-wise linear approaches), (v) mechanistic modeling using ordinary differential equations (ODEs) and finally (vi) stochastic simulation methods. | |||||
Skript | Link | |||||
Literatur | U. Alon, An introduction to systems biology. Chapman & Hall / CRC, 2006. Z. Szallasi et al. (eds.), System modeling in cellular biology. MIT Press, 2006. | |||||
401-0649-00L | Applied Statistical Regression | W | 5 KP | 2V + 1U | M. Dettling | |
Kurzbeschreibung | This course offers a practically oriented introduction into regression modeling methods. The basic concepts and some mathematical background are included, with the emphasis lying in learning "good practice" that can be applied in every student's own projects and daily work life. A special focus will be laid in the use of the statistical software package R for regression analysis. | |||||
Lernziel | The students acquire advanced practical skills in linear regression analysis and are also familiar with its extensions to generalized linear modeling. | |||||
Inhalt | The course starts with the basics of linear modeling, and then proceeds to parameter estimation, tests, confidence intervals, residual analysis, model choice, and prediction. More rarely touched but practically relevant topics that will be covered include variable transformations, multicollinearity problems and model interpretation, as well as general modeling strategies. The last third of the course is dedicated to an introduction to generalized linear models: this includes the generalized additive model, logistic regression for binary response variables, binomial regression for grouped data and poisson regression for count data. | |||||
Skript | A script will be available. | |||||
Literatur | Faraway (2005): Linear Models with R Faraway (2006): Extending the Linear Model with R Draper & Smith (1998): Applied Regression Analysis Fox (2008): Applied Regression Analysis and GLMs Montgomery et al. (2006): Introduction to Linear Regression Analysis | |||||
Voraussetzungen / Besonderes | The exercises, but also the classes will be based on procedures from the freely available, open-source statistical software package R, for which an introduction will be held. In the Mathematics Bachelor and Master programmes, the two course units 401-0649-00L "Applied Statistical Regression" and 401-3622-00L "Regression" are mutually exclusive. Registration for the examination of one of these two course units is only allowed if you have not registered for the examination of the other course unit. | |||||
529-0041-00L | Moderne Massenspektroskopie, gekoppelte Analysenmethoden, Chemometrie | W | 6 KP | 3G | R. Zenobi, M. Badertscher, B. Hattendorf | |
Kurzbeschreibung | Moderne Massenspektrometrie, Kopplung von Trenn- mit Identifikationsmethoden, Speziierung, Oberflächenanalytische Methoden, und Chemometrie | |||||
Lernziel | Umfassende Kenntnis der vorgestellten analytischen Methoden und ihre Anwendungen in der Praxis. | |||||
Inhalt | Kopplung von Trenn- mit Identifikationsmethoden wie GC-MS, LC-MS, GC-IR, LC-IR, LC-NMR etc.; Wichtigkeit der Speziierung. Moderne Massenspektrometrie: Flugzeit- und Ionen-Cyclotron-Resonanz-Massenspektrometrie, ICP-MS. Weiche Ionisationsmethoden, Desorptions-Methoden, Spray-Methoden. Oberflächenanalytische Methoden (ESCA, Auger, SIMS, Rastermikroskopie-Verfahren). Einsatz der Informatik zur Verarbeitung analytisch-chemischer Daten (Chemometrie). | |||||
Skript | Ein Skript wird zum Selbstkostenpreis abgegeben. | |||||
Literatur | Hinweise zur aktuellen Literatur werden in der Vorlesung bezw. im Skript gegeben | |||||
Voraussetzungen / Besonderes | Übungen sind in die Vorlesung integriert Voraussetzung: 529-0051-00 "Analytische Chemie I (3. Semester)" 529-0058-00 "Analytische Chemie II (4. Semester)" (oder äquivalent) | |||||
551-1409-00L | RNA Biology Lecture Series II: Non-coding RNAs: Biology and Therapeutics | W | 4 KP | 2V | J. Hall, M. Stoffel, weitere Dozierende | |
Kurzbeschreibung | This course covers aspects of RNA biology related to the functions of non-coding RNAs as well as their use as drugs to treat diseases. | |||||
Lernziel | The students should get familiar with the wide array of roles, which non-coding RNAs play in cellular functions. | |||||
Inhalt | Micro RNAs; computational approaches to miRNAs; micro RNA function in metabolism; viruses and viral RNAs; nucleic acid-based drugs; ncRNA-mediated genome regulation; epigenetic programming of genome remodelling in ciliates; telomerase and telomeres; tRNA biology. http://www.nccr-rna-and-disease.ch/tiki-index.php?page=LectureSeries | |||||
Voraussetzungen / Besonderes | Basic knowledge of cell and molecular biology. | |||||
636-0108-00L | Biological Engineering and Biotechnology Attention: This course was offered in previous semesters with the number: 636-0003-00L "Biological Engineering and Biotechnology". Students that already passed course 636-0003-00L cannot receive credits for course 636-0108-00L. | W | 4 KP | 3V | M. Fussenegger | |
Kurzbeschreibung | Biological Engineering and Biotechnology will cover the latest biotechnological advances as well as their industrial implementation to engineer mammalian cells for use in human therapy. This lecture will provide forefront insights into key scientific aspects and the main points in industrial decision-making to bring a therapeutic from target to market. | |||||
Lernziel | Biological Engineering and Biotechnology will cover the latest biotechnological advances as well as their industrial implementation to engineer mammalian cells for use in human therapy. This lecture will provide forefront insights into key scientific aspects and the main points in industrial decision-making to bring a therapeutic from target to market. | |||||
Inhalt | 1. Insight Into The Mammalian Cell Cycle. Cycling, The Balance Between Proliferation and Cancer - Implications For Biopharmaceutical Manufacturing. 2. The Licence To Kill. Apoptosis Regulatory Networks - Engineering of Survival Pathways To Increase Robustness of Production Cell Lines. 3. Everything Under Control I. Regulated Transgene Expression in Mammalian Cells - Facts and Future. 4. Secretion Engineering. The Traffic Jam getting out of the Cell. 5. From Target To Market. An Antibody's Journey From Cell Culture to The Clinics. 6. Biology and Malign Applications. Do Life Sciences Enable the Development of Biological Weapons? 7. Functional Food. Enjoy your Meal! 8. Industrial Genomics. Getting a Systems View on Nutrition and Health - An Industrial Perspective. 9. IP Management - Food Technology. Protecting Your Knowledge For Business. 10. Biopharmaceutical Manufacturing I. Introduction to Process Development. 11. Biopharmaceutical Manufacturing II. Up- stream Development. 12. Biopharmaceutical Manufacturing III. Downstream Development. 13. Biopharmaceutical Manufacturing IV. Pharma Development. | |||||
Skript | Handout during the course. | |||||
Zusätzliche Konzeptkurse | ||||||
Nummer | Titel | Typ | ECTS | Umfang | Dozierende | |
551-0307-00L | Molecular and Structural Biology I: Protein Structure and Function D-BIOL students are obliged to take part I and part II (next semester) as a two-semester course | W | 3 KP | 2V | R. Glockshuber, K. Locher, E. Weber-Ban | |
Kurzbeschreibung | Biophysik der Proteinfaltung, Membranproteine und Biophysik von Membranen, enzymatischen Katalyse, katalytische RNA und RNAi, aktuelle Themen in Proteinbiophysik und Strukturbiologie. | |||||
Lernziel | Verständnis von Struktur/Funktionsbeziehungen in Proteinen, Proteinfaltung, Vertiefung der Kenntnisse in Biophysik, in physikalischen Messmethoden und modernen Methoden der Proteinreinigung und Protein-Mikroanalytik. | |||||
Skript | Skripte zu einzelnen Themen der Vorlesung sind unter http://www.mol.biol.ethz.ch/teaching abgelegt. | |||||
Literatur | Grundlagen: - Creighton, T.E., Proteins, Freeman, (1993). - Fersht, A., Enzyme, Structure and Mechanism in Protein Science (1999), Freeman. - Berg, Tymoczko, Stryer: Biochemistry (5th edition), Freeman (2001). Aktuelle Themen: Literatur wird jeweils in der Vorlesung angegeben | |||||
551-0309-00L | Concepts in Modern Genetics | W | 6 KP | 4V | Y. Barral, D. Bopp, A. Hajnal, M. Stoffel, O. Voinnet | |
Kurzbeschreibung | Concepts of modern genetics and genomics, including principles of classical genetics; yeast genetics; gene mapping; forward and reverse genetics; structure and function of eukaryotic chromosomes; molecular mechanisms and regulation of transcription, replication, DNA-repair and recombination; analysis of developmental processes; epigenetics and RNA interference. | |||||
Lernziel | This course focuses on the concepts of classical and modern genetics and genomics. | |||||
Inhalt | The topics include principles of classical genetics; yeast genetics; gene mapping; forward and reverse genetics; structure and function of eukaryotic chromosomes; molecular mechanisms and regulation of transcription, replication, DNA-repair and recombination; analysis of developmental processes; epigenetics and RNA interference. | |||||
Skript | Scripts and additional material will be provided during the semester. | |||||
551-0313-00L | Microbiology (Part I) | W | 3 KP | 2V | W.‑D. Hardt, L. Eberl, H.‑M. Fischer, J. Piel, M. Pilhofer | |
Kurzbeschreibung | Advanced lecture class providing a broad overview on bacterial cell structure, genetics, metabolism, symbiosis and pathogenesis. | |||||
Lernziel | 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. | |||||
Inhalt | Advanced class covering the state of the research in bacterial cell structure, genetics, metabolism, symbiosis and pathogenesis. | |||||
Skript | Updated handouts will be provided during the class. | |||||
Literatur | Current literature references will be provided during the lectures. | |||||
Voraussetzungen / Besonderes | English The lecture "Grundlagen der Biologie II: Mikrobiologie" is the basis for this advanced lecture. | |||||
551-0317-00L | Immunology I | W | 3 KP | 2V | A. Oxenius, M. Kopf | |
Kurzbeschreibung | Einführung in strukturelle und funktionelle Eigenschaften des Immunsystems. Grundlegendes Verständnis der Mechanismen und der Regulation einer Immunantwort. | |||||
Lernziel | Einführung in strukturelle und funktionelle Eigenschaften des Immunsystems. Grundlegendes Verständnis der Mechanismen und der Regulation einer Immunantwort. | |||||
Inhalt | - Einleitung und historischer Hintergrund - Angeborene und adaptive Immunantwort, Zellen und Organe des Immunsystems - B Zellen und Antikörper - Generation von Diversität - Antigen-Präsentation und Histoinkompatibilitätsantigene (MHC) - Thymus und T Zellselektion - Autoimmunität - Zytotoxische T Zellen und NK Zellen - Th1 und Th2 Zellen, regulatorische T Zellen - Allergien - Hypersensitivititäten - Impfungen und immun-therapeutische Interventionen | |||||
Skript | Die Studenten haben elekronischen Zugriff auf die Vorlesungsunterlagen. Der Link ist unter "Lernmaterialien" zu finden. | |||||
Literatur | - Kuby, Immunology, 7th edition, Freemen + Co., New York, 2009 | |||||
Voraussetzungen / Besonderes | Immunology I (WS) und Immunology II (SS) werden in einer Sessionsprüfung im Anschluss an Immunology II als eine Lerneinheit geprüft. | |||||
529-0731-00L | Nucleic Acids and Carbohydrates | W | 6 KP | 3G | D. Hilvert, P. A. Kast, S. J. Sturla, H. Wennemers | |
Kurzbeschreibung | Struktur, Funktion und Chemie von Nukleinsäuren und Kohlenhydraten. DNA/RNA Struktur und Synthese; rekombinante DNA Technologie und PCR; DNA Arrays und Genomics; Antisense Ansatz und RNAi; Polymerasen und Transkriptionsfaktoren; katalytische RNA; DNA Schädigung und Reparatur; Kohlenhydratstruktur und Synthese; Kohlenhydratarrays; Cell Surface Engineering; Kohlenhydratimpfstoffe | |||||
Lernziel | Struktur, Funktion und Chemie von Nukleinsäuren und Kohlenhydraten. DNA/RNA Struktur und Synthese; rekombinante DNA Technologie und PCR; DNA Arrays und Genomics; Antisense Ansatz und RNAi; Polymerasen und Transkriptionsfaktoren; katalytische RNA; DNA Schädigung und Reparatur; Kohlenhydratstruktur und Synthese; Kohlenhydratarrays; Cell Surface Engineering; Kohlenhydratimpfstoffe | |||||
Inhalt | Struktur, Funktion und Chemie von Nukleinsäuren und Kohlenhydraten. DNA/RNA Struktur und Synthese; rekombinante DNA Technologie und PCR; DNA Arrays und Genomics; Antisense Ansatz und RNAi; Polymerasen und Transkriptionsfaktoren; katalytische RNA; DNA Schädigung und Reparatur; Kohlenhydratstruktur und Synthese; Kohlenhydratarrays; Cell Surface Engineering; Kohlenhydratimpfstoffe | |||||
Skript | Kein Skript; Illustrationen aus der Originalliteratur passend zu den behandelten Themen werden wöchentlich zur Verfügung gestellt (in der Regel als Handouts auf dem Moodle Server). | |||||
Literatur | Hauptsächlich basierend auf Originalliteratur, eine detaillierte Liste wird in der Vorlesung ausgeteilt |
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