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Medical Biochemistry

Study Course Description

Course Description Statuss:Approved
Course Description Version:8.00
Study Course Accepted:22.08.2022 10:26:44
Study Course Information
Course Code:CFUBK_005LQF level:Level 7
Credit Points:3.00ECTS:4.50
Branch of Science:Clinical MedicineTarget Audience:Dentistry
Study Course Supervisor
Course Supervisor:Kalvis Brangulis
Study Course Implementer
Structural Unit:Department of Human Physiology and Biochemistry
The Head of Structural Unit:
Contacts:Riga, 16 Dzirciema Street, cfbkatrsu[pnkts]lv, +371 67061550
Study Course Planning
Full-Time - Semester No.1
Lectures (count)8Lecture Length (academic hours)2Total Contact Hours of Lectures16
Classes (count)11Class Length (academic hours)3Total Contact Hours of Classes33
Total Contact Hours49
Study course description
Preliminary Knowledge:
Chemistry and biology at secondary school level.
Objective:
To gain the knowledge about the structural and functional features of the macromolecules found in the living organisms. To acquire the knowledge about the chemical reactions, interactions and main metabolic processes that occur within the human organism.
Topic Layout (Full-Time)
No.TopicType of ImplementationNumberVenue
1Description of proteins. Enzymes: structure, influence of pH and TLectures1.00E-Studies platform
2Enzymes: classification; mechanism of action; activity; specificity.Lectures1.00E-Studies platform
3Enzymes: activators and inhibitors. Digestion.Lectures1.00E-Studies platform
4Bioenergetics.Lectures1.00E-Studies platform
5Metabolism of Carbohydrates: glycolysis, anaerobic glycolysis; Cori cycle; oxidative decarboxylation.Lectures1.00E-Studies platform
6Krebs cycle; ETC; glycogenesis; glycogenolysis; gluconeogenesis; Pentose phosphate pathway.Lectures1.00E-Studies platform
7Metabolism of fats: oxidation and synthesis of fatty acids; ketogenesis.Lectures1.00E-Studies platform
8Metabolism of amino acids. Urea cycle.Lectures1.00E-Studies platform
9Influence of T and pH on enzymes activity.Classes1.00laboratory
10Specificity of enzymes.Classes1.00laboratory
11Activity of enzymes, activators and inhibitors of enzymes.Classes1.00laboratory
12Digestion of nutrients in human.Classes1.00laboratory
13Colloquium: proteins; enzymes; digestion.Classes1.00laboratory
14Bioenergetics.Classes1.00laboratory
15Metabolism of Carbohydrates.Classes1.00laboratory
16Metabolism of fats; ketogenesis.Classes1.00laboratory
17Metabolism of amino acids.Classes1.00laboratory
18Colloquium: metabolism of carbohydrates, fats and proteins.Classes1.00laboratory
19Seminar. Presentation.Classes1.00laboratory
Assessment
Unaided Work:
Independently study the latest scientific literature and integrate it into the study process. Prepare a presentation at the end of the course.
Assessment Criteria:
• attendance of the practical classes; • colloquiums in written form; • final exam in written form.
Final Examination (Full-Time):Exam (Written)
Final Examination (Part-Time):
Learning Outcomes
Knowledge:After the study course the student will be able to: • describe the function and structure of the main macromolecules found in the human organism; • describe the structure and function of proteins, including general knowledge about the mechanism of enzymes; • explain the enzymatic digestion processes in the human organism; • describe the main metabolic processes in the human organism; • describe and recognize the biochemical reactions of the main metabolic pathways.
Skills:After the study course the student will be able to use the acquired knowledge to: • describe and analyze the digestion process in the human organism; • analyze and evaluate the metabolism of carbohydrates, fats and proteins; • define the main metabolic processes and principles of bioenergetics, regulation. • describe the interconnections between different metabolic pathways.
Competencies:The students will gain the necessary knowledge to understand what is necessary for biochemical processes to be fully operational and they will be able to analyze and discuss about the impact of various factors on the biochemical processes of the human organism.
Bibliography
No.Reference
Required Reading
1Victor Rodwell, P. Anthony Weil, David Bender, Kathleen M. Botham, Peter J. Kennelly. Harper's Illustrated Biochemistry, 30th Edition, 2018.
Additional Reading
1Nelson, D., and Cox, M. Lehninger principles of biochemistry, 7th Edition, 2017 (vai jaunāka versija)
2Denise R. Ferrier. Lippincott Illustrated Reviews: Biochemistry, 6th Edition, 2017.
Other Information Sources
1e-studijas (http://estudijas.rsu.lv/).