Information sheet ECTS Syllabus
Course syllabus N426P0_4I - Food Biochemistry (FCFT - SS 2019/2020)
|University:||Slovak University of Technology in Bratislava|
|Faculty:||Faculty of Chemical and Food Technology|
|Course unit code:||N426P0_4I|
|Course unit title:||Food Biochemistry|
|Mode of delivery, planned learning activities and teaching methods:|
|Recommended semester/trimester:||-- item not defined --|
|Level of study:||2.|
|Prerequisites for registration:||none|
|The course is closed by oral examination. Students have to pass the examen with a note better than FX.|
|Learning outcomes of the course unit:|
|The goal of the course is to provide information for students about the biochemical bases of functioning of living organisms, which are relevant for the theory and praxis of food sciences.|
|Utilisation and detoxification of ammonia in ureogenetic cycle. General reactions of amino acids. Biosyntheses of canonical amino acids. Metabolism of C1 compound. Degradation of amino acid side chains. Ketogenic and glucogenic amino acids. Biosynthetic pathways linked to the degradation of amino acid side chains.
Biosynthesis and degradation of purine and pyrimidine bases and nucleotides. Deoxyribonucleotide biosynthesis. Biosynthesis and degradation of haem. Pterine biosynthesis.
Metabolism of complex lipids, eicosanoids, isoprenoids, steroids, carotenoids and polyketides. Primary and secondary metabolism.
Biological membranes, composition, structure, biogenesis. Mechanisms and energetics of solutes transport across biological membranes.
Biological signals. Reception, transduction, effector mechqanism. Receptors and transduction mechanism. Second Messenger. Effector mechanisms. Hormones.
Integration of cells and organisms (homeostasis, maintaining of pH, Ca2+ and glucose levels). Blood coagulation. Nerve system and its function.
Light reception. Bioluminiscence.
Biochemical bases of motility and contractility. Cytoskeleton. Muscle fibers and other contractile systems and proteins. .
Metabolism of xenobiotics. The role of oxygen. Active oxygen species. Detoxication mechanism in cells and organisms. Properties of detoxication enzymes.
|Recommended or required reading:|
|Language of instruction:||slovak and english|
|Assessed students in total: 43|
|Name of lecturer(s):||doc. Ing. Martin Šimkovič, PhD. (person responsible for course)|
|Last modification:||29. 1. 2019|
|Supervisor:||doc. Ing. Martin Šimkovič, PhD. and programme supervisor|
Last modification made by Ing. Tomáš Molnár on 01/29/2019.