Inhalt

[ 663BICHBC212 ] Module Biochemistry 2

Versionsauswahl
Workload Mode of examination Education level Study areas Responsible person Coordinating university
4 ECTS Accumulative module examination B2 - Bachelor's programme 2. year (*)Biologische Chemie Frantisek Vacha USB Budweis
Detailed information
Original study plan Bachelor's programme Biological Chemistry 2023W
Objectives Course aims at introduction of general biochemistry for students of the Biological Chemistry bachelor study programme. The course provides a broad array of fundamental knowledge of structural and functional biochemistry which are essential for understanding of other subjects in Biological Chemistry curriculum. In the course framework, biochemistry is given as chemistry of non-binding/non-covalent interactions which take place in biological systems on the level of molecules and cells. Structural and functional properties of the components which play a role in the transmission of energy as well as signals are emphasized.
Subject Course aims at introduction of general biochemistry for students of the Biological Chemistry bachelor study programme. The course provides a broad array of fundamental knowledge of structural and functional biochemistry which are essential for understanding of other subjects in Biological Chemistry curriculum. In the course framework, biochemistry is given as chemistry of non-binding/non-covalent interactions which take place in biological systems on the level of molecules and cells. Structural and functional properties of the components which play a role in the transmission of energy as well as signals are emphasized.
Further information Introductory metabolism and bioenergetics: Metabolism; Thermodynamics of energetic metabolism; Biological oxidation; Coupled reactions; Experimental approach. Energetic metabolism I: Carbohydrate metabolism; Compartmentation; Regulation. Energetic metabolism II: The Citric acid cycle; Electron transport; Oxidative phosphorylation. Energetic metabolism III: Lipid metabolism; Nitrogen utilization; Compartmentation. Energetic metabolism IV: Photosynthesis and photosynthetic machinery; Photorespiration; the C4 cycle. Integration and regulation of energetic metabolism: Compartmentation of metabolic pathways; Functinal relatioships between pathways; Regulatory actions; Metabolic check points; Experimental approaches in metabolism.

Corresponding lecture VO Biochemie 2 (B) (2 ECTS) + SE Biochemie 2 Seminar (B) (2 ECTS) (as lecture) or
ANTBIOCBC2V11: VO Biochemie 2 (4 ECTS)
Subordinated subjects, modules and lectures