9360-0004/01 – Biochemistry (BCH)

Gurantor department	CNT - Nanotechnology Centre	Credits	3
Subject guarantor	prof. Ing. Daniela Plachá, Ph.D.	Subject version guarantor	prof. Ing. Daniela Plachá, Ph.D.
Study level	undergraduate or graduate	Requirement	Optional
Year	3	Semester	summer
		Study language	Czech
Year of introduction	2010/2011	Year of cancellation	2019/2020
Intended for the faculties	FMT	Intended for study types	Bachelor

Instruction secured by
Login	Name	Tuitor	Teacher giving lectures
PLA88	prof. Ing. Daniela Plachá, Ph.D.

Extent of instruction for forms of study
Form of study	Way of compl.	Extent
Full-time	Credit	2+0

Subject aims expressed by acquired skills and competences

The aim of Biochemistry lectures is introduction of students to Biochemistry and Biotechnology basic knowledge.

Teaching methods

Lectures
Individual consultations

Summary

The biochemistry lectures are aimed to student introduction to basic knowledge of biochemistry showing up chemical structure, properties and reactivity of compounds that form base of living organisms. Further, it is aimed to principles of metabolisms and transformation of energy. The basic lectures of biochemistry are completed with overwiev of applications in practice.

Compulsory literature:

CH. K. Mathews, K. E. van Holde, K. G. Ahern. Biochemistry. Prentice Hall; 3 edition 1999. D. L. Nelson, M. M. Cox. Lehninger Principles of Biochemistry, W. H. Freeman, 2012.

Recommended literature:

Nelson, D.L., Cox, M.M. Lehninger Principles of Biochemistry. W. H. Freeman, 2012. Campbell M., Farrell S. Biochemistry. 2007.Thomson Brooks/Cole

Way of continuous check of knowledge in the course of semester

E-learning

Other requirements

For this subject other requirements for student are not determined.

Prerequisities

Subject has no prerequisities.

Co-requisities

Subject has no co-requisities.

Subject syllabus:

1. Introduction. Description of biochemistry and sphere of research. Composition and organization of living matter. Basic unit of living organisms, biopolymers, principles of metabolisms and energy transformation. 2. Peptides and proteins. Amino acides, structure, chemical and physical properties, chirality, importance of amino acides, isolation and analysis of amino acides. 3. Peptides and proteins. Structure, sequences and their determination, biochemical significant peptides. Strukture of proteins, conformation and their changes, allostery. Classification of proteins. Isolation of proteins. Methods of protein research. 4. Nucleic acids. Nukleotides. Composition and structure of DNA and RNA, properties, methods of research. 5. Saccharides. Properties, classification of monosaccharides. Monosaccharides and their derivatives, di-, oligo- and polysaccharides. Structures, chirality and function in living organisms. Glycosides. Glycoproteins and proteoglycans. Analysis of saccharides. 6. Lipids. Compositions, properties, function in organisms. Neutral lipids, waxes, polar lipids. Steroides. Structure and significancy of biomembranes. 7. Enzymes. Structure, confirmation, properties, classification, nomenclature. Occurence of enzymes. Activity. Coenzymes. Applied enzymology. 8. Mechanisms and kinetics of enzymatic reactions. Factors influencing of enzymatic reactions. Inhibitors. Other biocatalyzators. 9. Metabolisms and energy transformations in living systems. Catabolism and anabolism. Biochemical reactions, bioenergy. 10. Respiratory chain and a oxidative fosforylation. Photosynthesis. Transfer of electrons and protons in respiratory chain. Biological oxidation. Krebs cycle. Glyoxalate cycle. 11. Metabolisms of saccharides and lipids. Glykolysis. Fermentation. Metabolisms of lipids. Metabolisms of glycerol. Biosynthesis of lipids. 12. Metabolisms of proteins, nucleic acids, and other nitroegen-containig compounds. Degradation of amino acides. Biosynthesis amino acides. 13. Biochemistry of microorganisms. Dividing according of carbon and energy source. Microorganisms in environment. Influence of the environment on living organisms. Cycles of biogenic elements in nature. Biodegradation, biosorption. 14. -15. Application of biochemistry in technologies. Food and alimentary, biotechnology, formation of biogas, treatment of minerals, waste disposal.

Conditions for subject completion

Full-time form (validity from: 2010/2011 Winter semester, validity until: 2019/2020 Summer semester)

Task name	Type of task	Max. number of points (act. for subtasks)	Min. number of points	Max. počet pokusů
Exercises evaluation	Credit			3

Mandatory attendence participation:

Show history

Conditions for subject completion and attendance at the exercises within ISP:

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Occurrence in study plans

Academic year	Programme	Branch/spec.	Form	Study language	Tut. centre	Year	Type of duty
2015/2016	(B3923) Materials Engineering	(3911R033) Material Recycling	P	Czech	Ostrava	3	Optional	study plan
2014/2015	(B3923) Materials Engineering	(3911R033) Material Recycling	P	Czech	Ostrava	3	Optional	study plan
2013/2014	(B3923) Materials Engineering	(3911R033) Material Recycling	P	Czech	Ostrava	3	Optional	study plan
2012/2013	(B3923) Materials Engineering	(3911R033) Material Recycling	P	Czech	Ostrava	3	Optional	study plan
2011/2012	(B3923) Materials Engineering	(3911R033) Material Recycling	P	Czech	Ostrava	3	Optional	study plan
2010/2011	(B3923) Materials Engineering	(3911R033) Material Recycling	P	Czech	Ostrava	3	Optional	study plan

Occurrence in special blocks

Block name	Academic year	Form of study	Study language	Year	W	S	Type of block	Block owner

Assessment of instruction

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