Search result: Catalogue data in Autumn Semester 2016

Biology Bachelor Information
2. Year, 3. Semester
Core Courses
NumberTitleTypeECTSHoursLecturers
529-1023-00LPhysical Chemistry I (for Biology and Pharmacy)O3 credits2V + 1UR. Riek, H. P. Lüthi
AbstractThe laws of thermodynamics: empirical temperature, energy, entropy. Models and standard states: ideal gases, ideal solutions and mixtures, activity, thermodynamical tables. Reaction thermodynamics: chemical potential, thermodynamical parameters of reaction, equilibrium conditions and their temperature and pressure dependence, biochemical reactions, surface effects, colligative properties.
ObjectiveUnderstanding the fundamental thermodynamical properties of chemical and biological systems.
Contenthe laws of thermodynamics: empirical temperature, energy, entropy. Models and standard states: ideal gases, ideal solutions and mixtures, activity, thermodynamical tables. Reaction thermodynamics: chemical potential, thermodynamical parameters of reaction, equilibrium conditions and their temperature and pressure dependence, biochemical reactions, surface effects, colligative properties.
Lecture notesin process, will be distributed at the beginning of the first lecture
Literature1) Atkins, P.W., 1999, Physical Chemistry, Oxford University Press, 6th ed., 1999.
2) Moore, W.J., 1990: Grundlagen der physikalischen Chemie, W. de Gruyter, Berlin.
3) Adam, G., Läuger, P., Stark, G., 1988: Physikalische Chemie und Biophysik, 2. Aufl., Springer Verlag, Berlin.
Prerequisites / NoticePrerequisite: mathematics I+II, functions of multiple variables, partial derivatives.
551-0103-00LFundamentals of Biology II: Cell BiologyO5 credits5VE. Hafen, J. Fernandes de Matos, U. Kutay, G. Schertler, U. Suter, S. Werner
AbstractThe goal of this course is to provide students with a wide general understanding in cell biology. With this material as a foundation, students have enough of a cell biological basis to begin their specialization not only in cell biology but also in related fields such as biochemistry, microbiology, pharmacological sciences, molecular biology, and others.
ObjectiveThe goal of this course is to provide students with a wide general understanding cell biology. With this material as a foundation, students have enough of a cell biological basis to begin their specialization not only in cell biology but also in related fields such as biochemistry, microbiology, pharmacological sciences, molecular biology, and others.
ContentThe focus is animal cells and the development of multicellular organisms with a clear emphasis on the molecular basis of cellular structures and phenomena. The topics include biological membranes, the cytoskeleton, protein sorting, energy metabolism, cell cycle and division, viruses, extracellular matrix, cell signaling, embryonic development and cancer research.
Lecture notesThe lectures are presented in the Powerpoint format. These are available on the WEB for ETH students over the nethz (Moodle). Some lectures are available on the ETH WEB site in a live format (Livestream) at the above WEB site.
LiteratureThe lectures follow Alberts et al. `Molecular Biology of the Cell' 6th edition, 2014, ISBN 9780815344322 (hard cover) and ISBN 9780815345244
(paperback).
Prerequisites / NoticeSome of the lectures are given in the English language. Certain sections of the text-book must be studied by self-instruction.
551-1323-00LFundamentals of Biology II: Biochemistry and Molecular Biology Information O4 credits4VK. Locher, N. Ban, R. Glockshuber, E. Weber-Ban
AbstractThe course provides an introduction to Biochemistry / Molecular Biology with some emphasis on chemical and biophysical aspects.
ObjectiveTopics include the structure-function
relationship of proteins / nucleic acids, protein folding, enzymatic catalysis, cellular pathways involved in bioenergetics and the biosynthesis and breakdown of amino acids, glycans, nucleotides, fatty acids and phospholipids, and steroids. There will also be a discussion of DNA replication and repair, transcription, and translation.
Lecture notesnone
Literaturemandatory: "Biochemistry",
Autoren: Berg/Tymoczko/Stryer, 8th edition, Palgrave Macmillan, International edition (the English version will be preordered at the Polybuchhandlung)
Prerequisites / NoticeSome of the lectures are given in the English language.
551-1003-00LMethods of Biological Analysis Information O3 credits3GR. Aebersold, M. Badertscher, K. Weis
Abstract529-1042-00
Principles of the most important separation techniques and the interpretation of molecular spectra.

551-1003-00
The course will teach the basis and typical applications of methods for the analysis of nucleic acid sequences, mass spectrometric analysis of proteins and proteomes and advanced light and fluorescent imaging methods.
Objective529-1042-00
Knowledge of the necessary basics and the possibilities of application of the relevant spectroscopical and separation methods in analytical chermistry.

551-1003-00
Knowledge of the theoretical basis of the methods for nucleic acid sequence analysis, mass spectrometry based protein and proteome analysis and advanced light and fluorescent imaging methods, and an understanding of the application of these principles in experimental biology.
Content529-1042-00
Application oriented basics of instrumental analysis in organic chemistry and the empirical employment of the methods of structure elucidation (mass spectrometry, NMR-, IR-, UV/VIS spectroscopy). Basics and application of chromatographic and electrophoretic separation methods. Application of the knowledge by practising.

551-1003-00
The course will consist of lectures covering the theoretical and technical base of the respective analytical methods and of exercises where typical applications of the methods in modern experimental biology are discussed.
Lecture notes529-1042-00
A comprehensive script is available in the HCI-Shop. A summary of the part "Spektroskopie" defines the relevant material for the exam.

551-1003-00
Materials supporting the lectures and exercises will be made available via Moodle.
Literature529-1042-00
- 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;
Prerequisites / Notice529-1042-00
Prerequisites:
- 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.)"
401-0643-13LStatistics IIO3 credits2V + 1UM. Kalisch
AbstractVertiefung von Statistikmethoden. Nach dem detailierten Fundament aus Statistik I liegt nun der Fokus auf konzeptueller Breite und konkreter Problemlösungsfähigkeit mit der Statistiksoftware R.
ObjectiveNach diesem Kurs können Sie mit der Statistiksoftware R Daten einlesen, auf vielfältige Art verarbeiten und Grafiken für Berichte oder Vorträge exportieren. Sie verstehen die Konzepte von Methoden wie Lineare Regression (mit Faktoren, Interaktion, Modellwahl), ANOVA (1-weg, 2-weg), Chi-Quadrat-Test, Fisher-Test, GLMs, Mixed Models, Clustering, PCA und können diese mit der Statistiksoftware R in der Praxis umsetzen. Zudem kennen Sie die Grundprinzipien von gutem experimentellem Design und können bestehende Studien kritisch hinterfragen.
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