Suchergebnis: Katalogdaten im Herbstsemester 2016

Gesundheitswissenschaften und Technologie Master Information
Vertiefung in Molekulare Gesundheitswissenschaften
Wahlfächer
Wahlfächer I
NummerTitelTypECTSUmfangDozierende
551-0309-00LConcepts in Modern GeneticsW6 KP4VY. Barral, D. Bopp, A. Hajnal, M. Stoffel, O. Voinnet
KurzbeschreibungConcepts 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.
LernzielThis course focuses on the concepts of classical and modern genetics and genomics.
InhaltThe 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.
SkriptScripts and additional material will be provided during the semester.
Voraussetzungen / BesonderesThis course is a co-production of the University of Zurich and ETH Zurich, and will be taught in English. The course takes place on Monday afternoon at ETH Hoenggerberg, and on Tuesday morning at UZH Irchel.
Wahlfächer II
NummerTitelTypECTSUmfangDozierende
327-2125-00LMicroscopy Training SEM I - Introduction to SEM Belegung eingeschränkt - Details anzeigen
Number of participants limited to 6.
The participants will be chosen based on a short motivation letter. Please send this letter to S. Rodighiero (main lecturer) as soon as possible.
W1 KP3PS. Rodighiero, A. G. Bittermann, K. Kunze, J. Reuteler
KurzbeschreibungDer Einführungskurs in Rasterelektronenmikroskopie (SEM) betont praktisches Lernen. Die Studierenden haben die Möglichkeit an zwei Elektronenmikroskopen ihre eigenen Proben oder Standard-Testproben zu untersuchen, sowie von ScopeM-Wissenschafler vorbereitete Übungen zu lösen.
Lernziel- Set-up, align and operate a SEM successfully and safely.
- Accomplish imaging tasks successfully and optimize microscope performances.
- Master the operation of a low-vacuum and field-emission SEM and EDX instrument.
- Perform sample preparation with corresponding techniques and equipment for imaging and analysis
- Acquire techniques in obtaining secondary electron and backscatter electron micrographs
- Perform EDX qualitative and semi-quantitative analysis
InhaltDuring the course, students learn through lectures, demonstrations, and hands-on sessions how to setup and operate SEM instruments, including low-vacuum and low-voltage applications.
This course gives basic skills for students new to SEM. At the end of the course, students with no prior experience are able to align a SEM, to obtain secondary electron (SE) and backscatter electron (BSE) micrographs and to perform energy dispersive X-ray spectroscopy (EDX) qualitative and semi-quantitative analysis. The procedures to better utilize SEM to solve practical problems and to optimize SEM analysis for a wide range of materials will be emphasized.

- Discussion of students' sample/interest
- Introduction and discussion on Electron Microscopy and instrumentation
- Lectures on electron sources, electron lenses and probe formation
- Lectures on beam/specimen interaction, image formation, image contrast and imaging modes.
- Lectures on sample preparation techniques for EM
- Brief description and demonstration of the SEM microscope
- Practice on beam/specimen interaction, image formation, image contrast (and image processing)
- Student participation on sample preparation techniques
- Scanning Electron Microscopy lab exercises: setup and operate the instrument under various imaging modalities
- Lecture and demonstrations on X-ray micro-analysis (theory and detection), qualitative and semi-quantitative EDX and point analysis, linescans and spectral mapping
- Practice on real-world samples and report results
Literatur- Detailed course manual
- Williams, Carter: Transmission Electron Microscopy, Plenum Press, 1996
- Hawkes, Valdre: Biophysical Electron Microscopy, Academic Press, 1990
- Egerton: Physical Principles of Electron Microscopy: an introduction to TEM, SEM and AEM, Springer Verlag, 2007
Voraussetzungen / BesonderesNo mandatory prerequisites. Please consider the prior attendance to EM Basic lectures (551- 1618-00V; 227-0390-00L; 327-0703-00L) as suggested prerequisite.
327-2126-00LMicroscopy Training TEM I - Introduction to TEM Belegung eingeschränkt - Details anzeigen
Findet dieses Semester nicht statt.
Number of participants limited to 6.

The participants will be chosen based on a short motivation letter. Please send this letter to S. Rodighiero (main lecturer).
W1 KP3P
KurzbeschreibungDer Einführungskurs in Transmissionselektronenmikroskopie (TEM) bietet neuen Nutzern die Möglichkeit theoretisches Wissen und praktische Kenntnisse in TEM zu erwerben
Lernziel- Overview of TEM theory, instrumentation, operation and applications.
- Alignment and operation of a TEM, as well as acquisition and interpretation of images, diffraction patterns, accomplishing basic tasks successfully.
- Knowledge of electron imaging modes (including Scanning Transmission Electron Microscopy), magnification calibration, and image acquisition using CCD cameras.
- To set up the TEM to acquire diffraction patterns, perform camera length calibration, as well as measure and interpret diffraction patterns.
- Overview of techniques for specimen preparation.
InhaltUsing two Transmission Electron Microscopes the students learn how to align a TEM, select parameters for acquisition of images in bright field (BF) and dark field (DF), perform scanning transmission electron microscopy (STEM) imaging, phase contrast imaging, and acquire electron diffraction patterns. The participants will also learn basic and advanced use of digital cameras and digital imaging methods.

- Introduction and discussion on Electron Microscopy and instrumentation.
- Lectures on electron sources, electron lenses and probe formation.
- Lectures on beam/specimen interaction, image formation, image contrast and imaging modes.
- Lectures on sample preparation techniques for EM.
- Brief description and demonstration of the TEM microscope.
- Practice on beam/specimen interaction, image formation, Image contrast (and image processing).
- Demonstration of Transmission Electron Microscopes and imaging modes (Phase contrast, BF, DF, STEM).
- Student participation on sample preparation techniques.
- Transmission Electron Microscopy lab exercises: setup and operate the instrument under various imaging modalities.
- TEM alignment, calibration, correction to improve image contrast and quality.
- Electron diffraction.
- Practice on real-world samples and report results.
Literatur- Detailed course manual
- Williams, Carter: Transmission Electron Microscopy, Plenum Press, 1996
- Hawkes, Valdre: Biophysical Electron Microscopy, Academic Press, 1990
- Egerton: Physical Principles of Electron Microscopy: an introduction to TEM, SEM and AEM, Springer Verlag, 2007
Voraussetzungen / BesonderesNo mandatory prerequisites. Please consider the prior attendance to EM Basic lectures (551- 1618-00V; 227-0390-00L; 327-0703-00L) as suggested prerequisite.
376-0815-00LWriting your Master's Thesis: Natural Sciences and Engineering C1-C2 Belegung eingeschränkt - Details anzeigen
Findet dieses Semester nicht statt.
Your course regristration is only valid with a simultaneous online registration at the language center (Link).

Number of participants limited to 15 (3 courses are available).

Attention: Registration is only possible from 12.9. (from 11.30h) - 15.9.2016
W2 KP2VS. Milligan
KurzbeschreibungWe'll prepare you to produce your MSc thesis. You'll learn how to structure your thesis, write scientific English, and manage your writing efficiently. You'll receive detailed feedback on work in progress.
LernzielBy the end of the course students are able to plan, draft, and edit academic English papers and theses; structure and write clear texts in a style which is acceptable to their academic discourse community; manage the writing process efficiently; select formal vocabulary and use it in a generally accurate and correct manner; choose and use generally suitable grammatical structures, punctuation, and orthographic conventions, assess their own effectiveness as writers of academic English, and identify areas in which further development is needed.
InhaltThe course covers the writing context; the writing process; structuring sentences, paragraphs, longer sections (such as introduction, methods, results, and discussion), and whole texts; presenting and integrating non-textual elements such as graphs and tables; and editing and correcting drafts and proofs. Each lesson comprises a mixture of elements, including specialist input, individual tasks, pairwork, and groupwork. Active participation is expected.
551-0223-00LImmunology III Information W4 KP2VM. Kopf, M. Bachmann, J. Kisielow, A. Lanzavecchia, S. R. Leibundgut, A. Oxenius, R. Spörri
KurzbeschreibungDiese Vorlesung liefert einen detaillierten Einblick in die
- Entwicklung von T Zellen und B Zellen
- Dynamik einer Immunantwort bei akuten und chronischen Infektionen
- Mechanismen von Immunpathologie
- neue Impfstoffstrategien
LernzielSie verstehen
- die Entwicklung, Aktivierung, und Differenzierung verschiedener Typen von T Zellen und deren Effektormechanismen während einer Immunantwort
- die Erkennung von pathogenen Mikroorganismen und molekulare Ereignisse nach Infektion einer Zelle
- Ereignisse und Signale für die Reifung von naiven B Zellen zu antikörperproduzierenden Plasmazellen und Gedächtniszellen,
- Optimierung von B Zellantworten durch das intelligente Design neuer Impfstoffe
Inhalto Development and selection of CD4 and CD8 T cells, natural killer T cells (NKT), and regulatory T cells (Treg)
o NK T cells and responses to lipid antigens
o Differentiation, characterization, and function of CD4 T cell subsets such as Th1, Th2, and Th17
o Overview of cytokines and their effector function
o Co-stimulation (signals 1-3)
o Dendritic cells
o Evolution of the "Danger" concept
o Cells expressing Pattern Recognition Receptors and their downstream signals
o T cell function and dysfunction in acute and chronic viral infections
LiteraturUnterlagen zur Vorlesung sind erhältlich bei:
Link
Voraussetzungen / BesonderesImmunology I and II recommended but not compulsory
551-0317-00LImmunology I Information W3 KP2VA. Oxenius, M. Kopf
KurzbeschreibungEinführung in strukturelle und funktionelle Eigenschaften des Immunsystems.
Grundlegendes Verständnis der Mechanismen und der Regulation einer Immunantwort.
LernzielEinführung 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
SkriptDie 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 / BesonderesImmunology I (WS) und Immunology II (SS) werden in einer Sessionsprüfung im Anschluss an Immunology II als eine Lerneinheit geprüft.
551-0512-00LCurrent Topics in Molecular and Cellular Neurobiology Information Belegung eingeschränkt - Details anzeigen
Number of participants limited to 8.
W2 KP1SU. Suter
KurzbeschreibungThe course is a literature seminar or "journal club". Each Friday a student, or a member of the Suter Lab in the Institute of Molecular Health Sciences, will present a paper from the recent literature.
LernzielThe course introduces you to recent developments in the fields of cellular and molecular neurobiology. It also supports you to develop your skills in critically reading the scientific literature. You should be able to grasp what the authors wanted to learn i.e. their goals, why the authors chose the experimental approach they used, the strengths and weaknesses of the experiments and the data presented, and how the work fits into the wider literature in the field. You will present one paper yourself, which provides you with practice in public speaking.
InhaltYou will present one paper yourself. Give an introduction to the field of the paper, then show and comment on the main results (all the papers we present are available online, so you can show original figures with a beamer). Finish with a summary of the main points and a discussion of their significance.
You are expected to take part in the discussion and to ask questions. To prepare for this you should read all the papers beforehand (they will be announced a week in advance of the presentation).
SkriptPresentations will be made available after the seminars.
Voraussetzungen / BesonderesYou must attend at least 80% of the journal clubs, and give a presentation of your own. At the end of the semester there will be a 30 minute oral exam on the material presented during the semester. The grade will be based on the exam (45%), your presentation (45%), and a contribution based on your active participation in discussion of other presentations (10%).
551-0571-00LFrom DNA to Diversity (University of Zurich)
Der Kurs muss direkt an der UZH belegt werden.
UZH Modulkürzel: BIO336

Beachten Sie die Einschreibungstermine an der UZH: Link
W2 KP2VA. Hajnal, D. Bopp, E. Hafen
KurzbeschreibungThe evolution of the various body-plans is investigated by means of comparison of developmentally essential control genes of molecularly analysed model organisms.
LernzielBy the end of this module, each student should be able to
- recognize the universal principles underlying the development of
different animal body plans.
- explain how the genes encoding the molecular toolkit have evolved
to create animal diversity.
- relate changes in gene structure or function to evolutionary
changes in animal development.
Key skills:
By the end of this module, each student should be able to
- present and discuss a relevant evolutionary topic in an oral
presentation
- select and integrate key concepts in animal evolution from
primary literature
- participate in discussions on topics presented by others
551-1003-00LMethoden der Biologischen Analytik Information W3 KP3GR. Aebersold, M. Badertscher, K. Weis
Kurzbeschreibung529-1042-00
Grundlagen der wichtigsten Trennmethoden und der Interpretation von Molekülspektren.

551-1003-00
Der Kurs befasst sich mit den Methoden und ausgewählten Anwendungen von Methoden der Nukleinsäuresequenzierung, der massenspektrometrischen Analyse von Proteinen und Proteomen und Licht-und Fluoreszenz gestützten Methoden der Mikroskopie.
Lernziel529-1042-00
Kenntnis der notwendigen Grundlagen und der Anwendungsmöglichkeiten für den Einsatz von relevanten spektroskopischen und Trennmethoden in der analytisch-chemischen Praxis.

551-1003-00
Kenntnis der notwendigen Grundlagen und der Anwendungsmöglichkeiten der Methoden für die Bestimmung von Nukleinsäuresequenzen, der massenspektrometrischen Analyse von Proteinen und Proteomen und Licht-und Fluoreszenz gestützten Methoden der Mikroskopie.
Inhalt529-1042-00
Anwendungsorientierte Grundlagen der organischen Instrumentalanalytik und des empirischen Einsatzes von Methoden der Strukturaufklärung (Massenspektrometrie, NMR-, IR-, UV/VIS-Spektroskopie). Grundlagen und Anwendung chromatographischer und elektrophoretischer Trennverfahren. Praxisnahe Anwendung und Vertiefung des Grundwissens anhand von Übungen.

551-1003-00
Der Kurs setzt sich zusammen aus Vorlesungen, die die theoretischen und technischen Grundlagen der betreffenden analytischen Methoden vermitteln und Übungen, die sich mit den Anwendungen der analytischen Methoden in der modernen experimentellen Biologie befassen.
Skript529-1042-00
Ein umfangreiches Skript ist im HCI-Shop erhältlich. Eine Kurzfassung des Teils "Spektroskopie" definiert die für die Prüfung dieses Teils relevanten Themen.
Literatur529-1042-00
- Pretsch E., Bühlmann P., Badertscher M. Structure Determination of Organic Compounds, 5th revised and enlarged English edition, Springer-Verlag, Berlin 2009;
- Pretsch E., Bühlmann P., Badertscher M., Spektroskopische Daten zur Strukturaufklärung organischer Verbindungen, fünfte Auflage, Springer-Verlag, Berlin 2010;
- D.A. Skoog, J.J. Leary, Instrumentelle Analytik, Grundlagen, Geräte, Anwendungen, Springer, Berlin, 1996;
- K. Cammann, Instrumentelle Analytische Chemie, Verfahren, Anwendungen, Qualitätssicherung, Spektrum Akademischer Verlag, Heidelberg, 2001;
- R. Kellner, J.-M. Mermet, M. Otto, H.M. Widmer, Analytical Chemistry, Wiley-VCH Verlag, Weinheim, 1998;
- K. Robards, P.R.Haddad, P.E. Jackson, Principles and practice of modern chromatographic methods, Academic Press, London, 1994;
Voraussetzungen / Besonderes529-1042-00
Voraussetzungen:
- 529-1001-01 V "Allgemeine Chemie I (für Biol./Pharm.Wiss.)"
- 529-1001-00 P "Allgemeine Chemie I (für Biol./Pharm.Wiss.)"
- 529-1011-00 G "Organische Chemie I (für Biol./Pharm.Wiss.)"
551-1105-00LGlycobiologyW4 KP2VM. Aebi, T. Hennet
KurzbeschreibungStructural 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.
LernzielDetailed 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.
InhaltStructure 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
Skripthandouts
LiteraturIntroduction 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 / BesonderesThe course will be in English. It will include the preparation of short essays (marked) about defined topics in Glycobiology.
551-1145-00LViral and non-Viral Vectors for Human Gene-Therapy - from Pathogens to Safe Medical Applications
Der Kurs muss direkt an der UZH belegt werden.
UZH Modulkürzel: BIO708

Beachten Sie die Einschreibungstermine an der UZH: Link
W2 KP3VUni-Dozierende
KurzbeschreibungBasic aspects of virology, the viral mechanisms for transfer of genetic material into cells, different vector-systems and target cells, animal models, specific applications for inborn diseases of the immune system and of metabolism, adverse effects, and new developments of vector systems will be taught.
LernzielKnowledge of important viral and non-viral vector systems.
Knowledge of application in human diseases.
Knowledge of limiting factors.
551-1153-00LSystems Biology of Metabolism
Number of participants limited to 15.
W4 KP2VU. Sauer, N. Zamboni, M. Zampieri
KurzbeschreibungStarting 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.
LernzielDevelop a deeper understanding of how relevant biological problems can be solved, thereby providing advanced insights to key experimental and computational methods in systems biology.
InhaltThe 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.
SkriptScript and original publications will be supplied during the course.
Voraussetzungen / BesonderesThe 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.
551-1171-00LImmunology: from Milestones to Current TopicsW4 KP2SB. Ludewig, J. Kisielow, M. Kopf, A. Oxenius, Uni-Dozierende
KurzbeschreibungMilestones in Immunology: on old concepts and modern experiments
LernzielThe course will cover six grand topics in immunology (B cells, innate immunity, antigen presentation, tumor immunity, thymus and T cells, cytotoxic T cells and NK cells) and for each grand topic four hours will be allocated. During the first double hour, historical milestone papers will be presented by the supervisor providing an overview on the development of the conceptional framework and critical technological advances. The students will also prepare themselves for this double lecture by reading the historical milestone papers and contributing to the discussion. In the following lecture up to four students will present each a recent high impact research paper which emerged from the landmark achievements of the previously discussed milestone concepts.
InhaltMilestones and current topics of innate immunity, antigen presentatino, B cells, thymus and T cells, cytotoxic T cells and NK cells, and tumor immunology.
SkriptOriginal and review articles will be distributed by the lecturer.
LiteraturLiteraturunterlagen werden vor Beginn des Kurses auf folgender website zugänglich sein: Moodle Course Link
551-1303-00LCellular Biochemistry of Health and Disease Information Belegung eingeschränkt - Details anzeigen
Number of participants limited to 15.
W4 KP2SP. Picotti, Y. Barral, J. Fernandes de Matos, V. Korkhov, B. Kornmann, R. Kroschewski, M. Peter, A. E. Smith, K. Weis
KurzbeschreibungDuring 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.
LernzielStudents 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.
InhaltGuided 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.
LiteraturThe literature will be provided during the course
Voraussetzungen / BesonderesThe course will be taught in English.
551-1323-00LGrundlagen der Biologie II: Biochemie und Molekularbiologie Information W4 KP4VK. Locher, N. Ban, R. Glockshuber, E. Weber-Ban
KurzbeschreibungDie Vorlesung vermittelt die Grundlagen der Biochemie und Molekularbiologie mit Betonung der chemischen und biophysikalischen Aspekte.
LernzielBehandelt werden Struktur-Funktionsbeziehungen in Proteinen und Nukleinsäuren, Konzepte der Proteinfaltung und der biochemischen Katalyse, die wichtigsten an zellulärer Energiegewinnung und -Speicherung beteiligten Stoffwechselvorgänge, die Biosynthese von Aminosäuren, Zucker, Nukleotiden, Fetten und Steroiden, sowie eine detaillierte Diskussion von Replikation, Transkription und Translation.
Skriptkein Skript
Literaturobligatorisch: "Biochemistry",
Autoren: Berg/Tymoczko/Stryer, 8th edition, Palgrave Macmillan, International edition (wird bei der Polybuchhandlung als englische Version vorbestellt werden)
Voraussetzungen / BesonderesEinige Vorlesungseinheiten werden in englischer Sprache gehalten.
636-0003-00LBiological Engineering and BiotechnologyW6 KP3VM. Fussenegger
KurzbeschreibungBiological 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.
Lernziel1. 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.
SkriptHandsout during the course.
636-0017-00LComputational Biology Information W4 KP3GT. Stadler, C. Magnus
KurzbeschreibungThe aim of the course is to provide up-to-date knowledge on how we can study biological processes using genetic sequencing data. Computational algorithms extracting biological information from genetic sequence data are discussed, and statistical tools to understand this information in detail are introduced.
LernzielAttendees will learn which information is contained in genetic sequencing data and how to extract information from them using computational tools. The main concepts introduced are:
* stochastic models in molecular evolution
* phylogenetic & phylodynamic inference
* maximum likelihood and Bayesian statistics
Attendees will apply these concepts to a number of applications yielding biological insight into:
* epidemiology
* pathogen evolution
* macroevolution of species
InhaltThe course consists of four parts. We first introduce modern genetic sequencing technology, and algorithms to obtain sequence alignments from the output of the sequencers. We then present methods to directly analyze this alignment (such as BLAST algorithm, GWAS approaches). Second, we introduce mechanisms and concepts of molecular evolution, i.e. we discuss how genetic sequences change over time. Third, we employ evolutionary concepts to infer ancestral relationships between organisms based on their genetic sequences, i.e. we discuss methods to infer genealogies and phylogenies. We finally introduce the field of phylodynamics. The aim of that field is to understand and quantify the population dynamic processes (such as transmission in epidemiology or speciation & extinction in macroevolution) based on a phylogeny. Throughout the class, the models and methods are illustrated on different datasets giving insight into the epidemiology and evolution of a range of infectious diseases (e.g. HIV, HCV, influenza, Ebola). Applications of the methods to the field of macroevolution provide insight into the evolution and ecology of different species clades. Students will be trained in the algorithms and their application both on paper and in silico as part of the exercises.
SkriptSlides of the lecture will be available online.
Link
LiteraturThe course is not based on any of the textbooks below, but they are excellent choices as accompanying material:
* Yang, Z. 2006. Computational Molecular Evolution.
* Felsenstein, J. 2004. Inferring Phylogenies.
* Semple, C. & Steel, M. 2003. Phylogenetics.
* Drummond, A. & Bouckaert, R. 2015. Bayesian evolutionary analysis with BEAST
Voraussetzungen / BesonderesBasic knowledge in linear algebra, analysis, and statistics will be helpful. Some programming experience will be useful for the exercises, but is not required. Programming skills will not be tested in the examination.
636-0507-00LSynthetic Biology II Belegung eingeschränkt - Details anzeigen W4 KP4AS. Panke, Y. Benenson, J. Stelling
Kurzbeschreibung7 months biological design project, during which the students are required to give presentations on advanced topics in synthetic biology (specifically genetic circuit design) and then select their own biological system to design. The system is subsequently modeled, analyzed, and experimentally implemented. Results are presented at an international student competition at the MIT (Cambridge).
LernzielThe students are supposed to acquire a deep understanding of the process of biological design including model representation of a biological system, its thorough analysis, and the subsequent experimental implementation of the system and the related problems.
InhaltPresentations on advanced synthetic biology topics (eg genetic circuit design, adaptation of systems dynamics, analytical concepts, large scale de novo DNA synthesis), project selection, modeling of selected biological system, design space exploration, sensitivity analysis, conversion into DNA sequence, (DNA synthesis external,) implementation and analysis of design, summary of results in form of scientific presentation and poster, presentation of results at the iGEM international student competition (Link).
SkriptHandouts during course
Voraussetzungen / BesonderesThe final presentation of the project is typically at the MIT (Cambridge, US). Other competing schools include regularly Imperial College, Cambridge University, Harvard University, UC Berkeley, Princeton Universtiy, CalTech, etc.

This project takes place between end of Spring Semester and beginning of Autumn Semester. Registration in April.

Please note that the number of ECTS credits and the actual work load are disconnected.
701-1703-00LEvolutionary Medicine for Infectious DiseasesW3 KP2GA. Hall
KurzbeschreibungThis course explores infectious disease from both the host and pathogen perspective. Through short lectures, reading and active discussion, students will identify areas where evolutionary thinking can improve our understanding of infectious diseases and, ultimately, our ability to treat them effectively.
LernzielStudents will learn to (i) identify evolutionary explanations for the origins and characteristics of infectious diseases in a range of organisms and (ii) evaluate ways of integrating evolutionary thinking into improved strategies for treating infections of humans and animals. This will incorporate principles that apply across any host-pathogen interaction, as well as system-specific mechanistic information, with particular emphasis on bacteria and viruses.
InhaltWe will cover several topics where evolutionary thinking is relevant to understanding or treating infectious diseases. This includes: (i) determinants of pathogen host range and virulence, (ii) dynamics of host-parasite coevolution, (iii) pathogen adaptation to evade or suppress immune responses, (iv) antimicrobial resistance, (v) evolution-proof medicine. For each topic there will be a short (< 30 minutes) introductory lecture, before students independently research the primary literature and develop half a page of discussion points and questions, followed by interactive discussion in class.
LiteraturStudents will read the primary literature on each topic, and in places we will use the following books:

Schmid Hempel 2011 Evolutionary Parasitology
Stearns & Medzhitov 2016 Evolutionary Medicine
Voraussetzungen / BesonderesA basic understanding of evolutionary biology, microbiology or parasitology will be advantageous but is not essential.
752-4009-00LMolecular Biology of Foodborne PathogensW3 KP2VM. Loessner, M. Schuppler
KurzbeschreibungThe course offers detailed information on selected foodborne pathogens and toxin producing organisms; the focus lies on relevant molecular biological aspects of pathogenicity and virulence, as well as on the occurrence and survival of these organisms in foods.
LernzielDetailed and current status of research and insights into the molecular basis of foodborne diseases, with focus on interactions of the microorganism or the toxins they produce with the human system. Understanding the relationship between specific types of food and the associated pathogens and microbial risks. Another focus lies on the currently available methods and techniques useful for the various purposes, i.e., detection, differentiation (typing), and antimicrobial agents.
InhaltMolecular biology of infectious foodborne pathogens (Listeria, Vibrio, E. coli, Campylobacter, etc) and toxin-producing organisms (Bacillus, Clostridium, Staphylococcus). How and under which conditions will toxins and virulence factors be produced, and how do they work? How is the interaction between the human host and the microbial pathogen? What are the roles of food and the environment ? What can be done to interfere with the potential risks? Which methods are best suited for what approach? Last, but not least, the role of bacteriophages in microbial pathogenicity will be highlighted, in addition to various applications of bacteriophage for both diagnsotics and antimicrobial intervention.
SkriptElectronic copies of the presentation slides (PDF) and additional material will be made available for download to registered students.
LiteraturRecommendations will be given in the first lecture
Voraussetzungen / BesonderesLectures (2 hours) will be held as a single session of approximately 60+ minutes (10:15 until approx. 11:15 h), with no break !
  •  Seite  1  von  2 Nächste Seite Letzte Seite     Alle