FaF:FABC1_16 Biochemistry - Informace o předmětu
FABC1_16 Biochemistry
Farmaceutická fakultapodzim 2024
- Rozsah
- 3/1/0. 6 kr. Ukončení: zk.
Vyučováno kontaktně - Vyučující
- Mgr. Marie Brázdová, Ph.D. (přednášející)
PharmDr. Zuzana Soldánová (přednášející)
Mgr. Marie Brázdová, Ph.D. (cvičící)
PharmDr. Zuzana Soldánová (cvičící)
Mgr. Denis Šubert (přednášející)
Mgr. et Mgr. Ondřej Pěnčík (cvičící)
Mgr. Denis Šubert (cvičící) - Garance
- Mgr. Marie Brázdová, Ph.D.
Ústav molekulární farmacie – Ústavy – Farmaceutická fakulta - Rozvrh
- každý lichý pátek 12:00–17:00 45-224
- Rozvrh seminárních/paralelních skupin:
- Předpoklady
- FAKULTA(FaF) || OBOR(MUSFaF)
The knowledge of subject in range of lectures - Omezení zápisu do předmětu
- Předmět je určen pouze studentům mateřských oborů.
- Mateřské obory/plány
- Multidisciplinární studia na farmaceutické fakultě (program CST, KOS)
- Pharmacy (program FaF, M-FARMA)
- Cíle předmětu
- Biochemistry is the study of the chemical processes (changes) which condition and accompany life in its most varied forms and manifestations, and attemps to explain its essence on a molecular level. Medical biochemistry is biochemistry in use, applied quite specifically in veterinary medicine (for example, the peculiarities of the metabolism of nutrients in invidual species of livestock). Further, in teaching of biochemistry, it is necessary to concentrate on detailed interpretation of selected chapters, that are most significant for the formation of the European profile of a graduate of veterinary university. Practical (laboratory) work where verbal information is confirmed by practical experience is also an integral component of the biochemistry teaching.
- Výstupy z učení
- Basic knowledge of biochemistry forming the basis for follow-up subjects Methods of molecular biology, Biotechnology of drugs, Exercises from drug biotechnology, Pharmacogenomics, Structure and evolution of genomes.
- Osnova
- Syllabus - Biochemistry
1) Biochemistry: an introduction
1.1) Scope of biochemistry: central principles, cellular and chemical foundations (functional groups, reactions), physical foundations
1.2) Living cells (structure of eukaryotic cell)
1.3) Water: the medium of life (interactions, pH, pKa, buffers, blood, liver and urine buffering systems, osmosis, dialysis)
2) Structure and function of proteins
2.1) Amino acids (structure, pKa, pI, properties, covalent modifications)
2.2) Peptides (peptide bound, disulfide bridge, glutathione, insulin, antibiotics, neurotransmiters)
2.3) Protein structure (secondary, tertiary, conformation, structure and function)
2.4) Structure and function of hemoglobin and myoglobin
3) Enzymes
3.1) Properties of Enzymes (cofactors, coenzymes, vitamins)
3.2) Classification of Enzymes (examples of each class)
3.3) Catalysis (enzyme reaction, active site, specificity) and Enzyme regulation
3.4) Kinetics of enzyme reactions
4) Membrane transport
4.1) Biomembranes - composition and function
4.2) Membrane transports
5) Carbohydrates and metabolism of carbohydrate
5.1) Monosaccharides, Disaccharides, Oligosaccharides
5.2) Polysaccharides (structure and function)
5.3) Metabolism, homeostasis, catabolism, anabolism, nutrient pool, energy metabolism
5.4) Glycolysis and Glyconeogenesis
5.5) Glycogen metabolism
6) Metabolism of Proteins and Amino Acids
6.1) Overview of metabolism of proteins
6.2) Elimination of alfa-amino nitrogen
6.3) Detoxification of Ammonia
6.4) Catabolism and Anabolism of Amino Acids (Ala, Arg, Ser, Gly, Thr, Asp, Glu, His, Phe, Tyr, Cys)
7) Aerobic metabolism
6.1) Tricarboxy Acid Cycle (Citric Acid Cycle (overview, fuels, mitochondrion, enzymes and coenzymes, 8 steps of CC, regulation of pyruvate dehydrogenase, control of CC, biosynthesis aspects of CC)
6.2) Respiratory chain (redox potential, sequence of electron carriers)
6.3) Oxidative phosphorylation (enzymes, prosthetic groups, localization in mitochondria, mechanism ATP synthesis)
6.4) Oxidative stress (reactive oxygen species, their formation, antioxidant enzymes systems, antioxidant molecules)
7) Lipids
7.1) Lipids classes (definition, biological) and metabolism
7.2) Synthesis and degradation of Fatty acids
7.3) Lipid synthesis. Peroxidation and Eicosanoids.
7.4 Biotransformation
8) Nucleic acids and their metabolism
8.1) Structure of components, role of nucleotides, biosynthesis (replication, transcription and proteosynthesis
8.2) Nucleic acids metabolism (biosynthesis and degradation of purine and pyrimidine nucleotides)
9) Integration of metabolism and cell signaling
References:
T.McKee, J.S.McKEe. Biochemistry. USA, 1996. ISBN 0-697-21159-2.
MURRAY,R.K., GRANNER,D.K.,RODWELL,V.W. Harper´s Illustrated Biochemistry. Appleton & Lange, 2006. ISBN 07-147885-X.
J. Tomandl. Biochemistry I. Brno, 2012. ISBN 978-80-210-5741-8.
A. L. Lehninger, D. L. Nelson, M. M. Cox. Principles of biochemistry. USA, 2005. ISBN 0716743396.
Color Atlas of Biochemistry, Second edition, revised and enlarged, J. Koolman, KH Roehm, ISBN-13: 978-1-58890-247-4, ISBN-10: 1-58890-247-1
J.W. Pelly. Elsevierś integrated review Biochemistry. Philadelphia, 2012. ISBN 978-0-323-07446-9.
A. L. Lehninger, D. L. Nelson, M. M. Cox. Principles of biochemistry. USA, 2005. ISBN 0716743396.
Requirements:
Lectures:
- Minimum 60% attendance at lectures
- Weekly tests
- An exercise book: Seminars from Biochemistry "
- Assessment of the practical course
The exam will have two parts:
- Exam test - minimum 60%
- Oral examination, both parts must be carried out in one semester
Practical exercises:
- 100% attendance
- Weekly test of the executed task
- The final test - minimum 80%
- Syllabus - Biochemistry
1) Biochemistry: an introduction
1.1) Scope of biochemistry: central principles, cellular and chemical foundations (functional groups, reactions), physical foundations
1.2) Living cells (structure of eukaryotic cell)
1.3) Water: the medium of life (interactions, pH, pKa, buffers, blood, liver and urine buffering systems, osmosis, dialysis)
2) Structure and function of proteins
2.1) Amino acids (structure, pKa, pI, properties, covalent modifications)
2.2) Peptides (peptide bound, disulfide bridge, glutathione, insulin, antibiotics, neurotransmiters)
2.3) Protein structure (secondary, tertiary, conformation, structure and function)
2.4) Structure and function of hemoglobin and myoglobin
3) Enzymes
3.1) Properties of Enzymes (cofactors, coenzymes, vitamins)
3.2) Classification of Enzymes (examples of each class)
3.3) Catalysis (enzyme reaction, active site, specificity) and Enzyme regulation
3.4) Kinetics of enzyme reactions
4) Membrane transport
4.1) Biomembranes - composition and function
4.2) Membrane transports
5) Carbohydrates and metabolism of carbohydrate
5.1) Monosaccharides, Disaccharides, Oligosaccharides
5.2) Polysaccharides (structure and function)
5.3) Metabolism, homeostasis, catabolism, anabolism, nutrient pool, energy metabolism
5.4) Glycolysis and Glyconeogenesis
5.5) Glycogen metabolism
6) Metabolism of Proteins and Amino Acids
6.1) Overview of metabolism of proteins
6.2) Elimination of alfa-amino nitrogen
6.3) Detoxification of Ammonia
6.4) Catabolism and Anabolism of Amino Acids (Ala, Arg, Ser, Gly, Thr, Asp, Glu, His, Phe, Tyr, Cys)
7) Aerobic metabolism
6.1) Tricarboxy Acid Cycle (Citric Acid Cycle (overview, fuels, mitochondrion, enzymes and coenzymes, 8 steps of CC, regulation of pyruvate dehydrogenase, control of CC, biosynthesis aspects of CC)
6.2) Respiratory chain (redox potential, sequence of electron carriers)
6.3) Oxidative phosphorylation (enzymes, prosthetic groups, localization in mitochondria, mechanism ATP synthesis)
6.4) Oxidative stress (reactive oxygen species, their formation, antioxidant enzymes systems, antioxidant molecules)
7) Lipids
7.1) Lipids classes (definition, biological) and metabolism
7.2) Synthesis and degradation of Fatty acids
7.3) Lipid synthesis. Peroxidation and Eicosanoids.
7.4 Biotransformation
8) Nucleic acids and their metabolism
8.1) Structure of components, role of nucleotides, biosynthesis (replication, transcription and proteosynthesis
8.2) Nucleic acids metabolism (biosynthesis and degradation of purine and pyrimidine nucleotides)
9) Integration of metabolism and cell signaling
- Literatura
- povinná literatura
- J. Tomandl. Biochemistry I. Brno, 2012. ISBN 978-80-210-5741-8. info
- R.K.Murray, D.A.Bender, P.J.Kennelly, V.W. Rodwell, P.A.Weil. Harper´s illustrated biochemistry. USA, 2012. ISBN 978-0-07-179277-6. info
- doporučená literatura
- J. Tomandl. Biochemistry I. Brno, 2012. ISBN 978-80-210-5741-8. info
- J.W. Pelly. Elsevierś integrated review Biochemistry. Philadelphia, 2012. ISBN 978-0-323-07446-9. info
- MURRAY,R.K., GRANNER,D.K.,RODWELL,V.W. Harper´s Illustrated Biochemistry. Appleton & Lange, 2006. ISBN 07-147885-X. info
- A. L. Lehninger, D. L. Nelson, M. M. Cox. Principles of biochemistry. USA, 2005. ISBN 0716743396. info
- T.McKee, J.S.McKEe. Biochemistry. USA, 1996. ISBN 0-697-21159-2. info
- Výukové metody
- lectures, class discussion, laboratory work, homework,
- Metody hodnocení
- Requirements: Lectures: - Weekly tests - An exercise book: Seminars from Biochemistry " - Assessment of the practical course The exam will have two parts: - Exam test - minimum 60% - Oral examination, both parts must be carried out in one semester Practical exercises: - 100% attendance - Weekly test of the executed task - The final test - minimum 80% The written part, which consists of a test with 40 questions, 150 points. To successfully complete the course, it is necessary to pass the test at 60%. Prerequisite for passing the exam is obtaining test from laboratory work, to obtain test from laboratory work from the subject "BIOCHEMISTRY" it is necessary to complete all practical exercises, passing a test at 80%, adequate knowledge of biochemical issues and the correct elaboration of all protocols for exercises. At the same time, a short task readiness test will be performed before each exercise. During the study it is mandatory to pass 4 tests from basic biochemical pathways. Furthermore, the group task of elaborating 2 chapters of seminars. The written exam is prepared on the basis of lectures and questions from the Seminars - see recommended literature. He will then reimburse the teaching at the time and in the manner determined by the respective teacher. If the credit is not awarded, the student will perform the credit procedure in the term determined by the relevant teacher of practical training. If the prescribed completion of the course is only a credit, the number of terms for obtaining it is identical, as if the course was completed by an exam.
- Vyučovací jazyk
- Angličtina
- Informace učitele
- Grading Procedure:
Lectures:- Weekly quiz covering the topic from the lectures
- Preparation of Seminars from Biochemistry
- Test from practical course
Exam - two parts:
- Exam test minimum of 60%
- Oral examination: both exam test and oral examination in one semester
Practical course:
- 100% of presence on practical courses
- Weekly quiz covering the topic of the practical course
- Final test from practical course 80%
J. Tomandl. Biochemistry I.-Seminars Brno, 2012. ISBN 978-80-210-5741-8. - Další komentáře
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