C8155 Dynamic biochemistry II - cellular communication

Faculty of Science
Autumn 2009
Extent and Intensity
2/0/0. 2 credit(s) (fasci plus compl plus > 4). Recommended Type of Completion: zk (examination). Other types of completion: k (colloquium).
Teacher(s)
doc. RNDr. Stanislav Pavelka, CSc. (lecturer)
Guaranteed by
doc. RNDr. Stanislav Pavelka, CSc.
Department of Biochemistry – Chemistry Section – Faculty of Science
Contact Person: doc. RNDr. Stanislav Pavelka, CSc.
Prerequisites
Could be registered in the 3rd, 5th, 7th or 9th semester (after completing Biochemie II)
Course Enrolment Limitations
The course is also offered to the students of the fields other than those the course is directly associated with.
fields of study / plans the course is directly associated with
there are 21 fields of study the course is directly associated with, display
Course objectives
Dynamic biochemistry II - signaling pathways. A follow-up lecture course of dynamic biochemistry, pathobiochemistry and biochemical control of complex physiological processes for MSc (and also PhD) and Bc students of biochemistry and molecular biology and also of general biology, chemistry and medicine.

Learning outcomes:
At the end of the course, students should be able to:
- describe the basic biochemical control mechanisms at the molecular level;
- explain the main signal transduction pathways occurring in animal cells;
- analyze the signaling mechanisms engaged in the intracellular and intercellular communication;
- present their extended knowledge on biomedical aspects of biochemistry.
Syllabus
  • 1. Types of signaling molecules and intercellular signal transduction processes in eukaryots. (Hormones, growth factors, neurotransmitters, cytokines. Endocrine, neurocrine, paracrine, and autocrine communications). 2. Classification of hormones according to the type of receptors and mechanism of their action. (Hierarchical arrangement of the endocrine system. Feedback regulation of the hormone secretion). 3. Metabolism of hormones and basic experimental methods in the study of their actions. (Biosynthesis of peptide and protein hormones. Biosynthesis of the thyroid hormones and their metabolism in tissues). 4. Mechanisms of signal transduction mediated by plasma membrane receptors. (Basic types of receptors, effectors, second messengers, and protein kinases. Amplification function of receptor-effector-second messenger-protein kinase cascade). 5. Heterotrimeric G-proteins and their functions. (Mechanism of signal transduction mediated by G-proteins. Basic types of G-proteins, alpha-, beta-, and gamma-subunits. Mechanism of the effects of cholera toxin and pertussis toxin. The use of non-hydrolyzable analogs of GTP in the study of G-proteins function). 6. The most important signal transduction pathways initiated by the interaction of extracellular ligands with the G-protein coupled receptors. (Adenylate cyclase cascade and the mechanism of activation of protein kinase A. Phosphoinositide cascade and activation of protein kinase C). 7. The role of intracellular calcium and calmodulin in signal transduction. (Inositoltrisphosphate and ryanodine receptors. Signaling properties of cADP-ribose. Mechanisms of calcium induced release of calcium). 8. Other signal transduction pathways - guanylate cyclases and NO synthases. 9. Receptor tyrosine kinases (RTKs) and MAP kinase cascade. (Mechanism of action of growth factors receptors. Src and other cytosolic tyrosine kinases. SH2 and SH3 binding domains. MAP kinase cascade). 10. Signaling through intracellular receptors. (Mechanism of action of steroid and thyroid hormone receptors). 11. Super-family of GTPases and their cellular functions. (The GTPase cycle, GNRF and GAP proteins. Comparison of the mechanism of action of the elongation factor EF-Tu and heterotrimeric G-proteins. Ras protein and products of other proto-oncogenes). 12. Adaptation of target cells - desensitization of receptors. "Receptor diseases" - disorders connected with impairments of signal transduction. 13. Convergence, divergence, and crosstalk of diverse signal transduction pathways. 14. Interaction of diverse signal transduction pathways in the regulation of complex physiological processes.
Literature
  • KRAUSS, Gerhard. Biochemistry of Signal Transduction and Regulation. 4th enlarged ed. Weinheim: WILEY-VCH Verlag GmbH, 2008, 626 pp. ISBN 978-3-527-31397-6. info
  • HELMREICH, E.J.M. The Biochemistry of Cell Signalling. Oxford: Oxford University Press, 2001, 328 pp. info
  • BERG, J.M., J.L. TYMOCZKO and L. STRYER. Biochemistry. 5th. New York: W.H. Freeman and Company, 2002, 974 pp. ISBN 0-7167-4684-0. info
  • Biochemistry. Edited by Donald Voet - Judith G. Voet. 3rd ed. Hoboken, N.J.: John Wiley & Sons, 2004, xv, 1591 s. ISBN 0-471-41761-0. info
  • GARRETT, R.H. and C.M. GRISHAM. Biochemistry, 2nd ed. Fort Worth, Orlando: Saunders College Publ., 1999, 1127 pp. info
  • Ca. 200 blan k dispozici u přednášejícího.
Teaching methods
Series of advanced lectures
Assessment methods
Lectures, abundantly documented with charts, diagrams, formulas and figures, which are offered to the students for making copies. Oral examination; 36 specified questions are at disposal.
Language of instruction
Czech
Follow-Up Courses
Further comments (probably available only in Czech)
Study Materials
The course is taught annually.
The course is taught: every week.
Note related to how often the course is taught: blokově.
Information on course enrolment limitations: Při týdenní výuce min. 8 posluchačů, při blokové bez omezení
The course is also listed under the following terms Spring 2008 - for the purpose of the accreditation, Spring 2011 - only for the accreditation, Spring 2003, Spring 2004, Spring 2005, Spring 2006, Spring 2007, Spring 2008, Spring 2009, Spring 2011, Spring 2012, spring 2012 - acreditation, Spring 2013, Spring 2014, Spring 2015, Spring 2016, Spring 2017, spring 2018, Spring 2019, Spring 2020, Spring 2021, Spring 2022, Spring 2023, Spring 2024, Spring 2025.
  • Enrolment Statistics (Autumn 2009, recent)
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