1、BSc in Chemistry - Biochemistry,Biochemistry - an interdisciplinary scientific discipline whose very fast development is one of the characteristics of the 20th century and beginning of a new millennium.,BSc Chemistry - Biochemistry,Biochemistry - an interdisciplinary scientific discipline whose very
2、 fast development is one of the characteristics of the 20th century and beginning of a new millennium.,BSc Chemistry - Biochemistry,High level of knowledge in biochemistry - necessary for development of other associated disciplines (molecular biology, genetics, biotechnology, medical biology etc.),B
3、Sc in Chemistry - Biochemistry,At the Faculty of Natural Sciences and Mathematics in Novi Sad, in academic 2000/01 a new major was established,Teaching at this major is performed in collaboration with Department of Biology and Faculty of Medicine in Novi Sad, while the curriculum concept is adapted
4、to programmes of renowned American and European faculties.,Faculty of Natural Sciences,Faculty of Medicine,Within the studies of biochemistry, the students attend one-semester courses in biochemistry, chemistry and biology basic disciplines. Apart from OBLIGATORY SUBJECTS, the students are offered E
5、LECTIVE COURSES,BSc Chemistry - Biochemistry,Specific feature of the studies is the concept of experimental work with the goal to provide students with individual experience in experimental work on current biochemical methods in order to prepare them for jobs in biochemical laboratories: clinical, b
6、iotechnological, pharmaceutical, agronomic, etc.,BSc Chemistry - Biochemistry,Mountain Go, Serbia,Mountain Go, Serbia,During the practical work in modernly equipped laboratories, students use computers to help them comprehend complex biochemical mechanisms more easily. To reach this goal, our future
7、 students will have permanent help of professors and assistants.,We are looking forward to seeing you.,B.Sc. Programme in Biochemistry-First Year,PROGRAMMES OF MAIN COURSES I,0101 GENERAL MATHEMATIC 4 hours per week in I semester. Compulsory for BSc in Chemistry Biochemistry Real and complexes numbe
8、rs. Element of linear algebra. The elements of the theory of graf. Functions, integrals. Diferencial functions in chemistry. 0102 PHYSICS 4 hours per week in II semester. Compulsory for BSc in Chemistry Biochemistry General subjects in mechanics. Electricity and magnetisms. Optics, Atoms and molecul
9、es. Quantum theory. Radioactivity. 0103 GENERAL CHEMISTRY 4 hours per week in I semester. Compulsory for BSc in Chemistry Biochemistry General stehiometry. Chemical reactions and energy. Quabtum mechanical models of atom. Periodicum systems of elements. Chemical bond. Hybridiyation of atom orbitales
10、. Molecular geometry. Intermolecular interactions and forces. Metal bond. Cheemical kinetics. Chemical equlibrium. Solutions. Acid-base theory. Complexes. O106 ORGANIC CHEMISTRY I 4 hours per week in II semester. Compulsory for BSc in Chemistry Biochemistry Organic compounds; functional groups, nome
11、nclature. Bonding and molecular properties. Polar covalent bonds: electronegativity, dipole moment, polarizability, inductive and resonance effects. Organic acids and bases. Alkanes and cycloalkanes. Stereochemistry. Nitroalkanes. Alkyl halides. Nucleophilic substitutions (SN1, SN2) and eliminations
12、 (E1, E2). Alkenes. Markovnikovs and anti-Markovnikovs rules. Alkynes. Conjugated dienes; electrophilic additions, Diels-Alder cycloaddition reaction. Benzene and aromaticity. Electrophilic and nucleophilic aromatic substitution. Polycyclic aromatic compounds. Alcohols, phenols and thiols. Grignard
13、reactions. Carbocations, Whitemore rearrangements. Ethers, epoxides and sulfides. Williamson ether synthesis.,0105 ANALYTICAL CHEMISTRY I 2 hours per week in II semester. Compulsory for BSc in Chemistry Biochemistry Basic principles in analytical chemistry. Solutions and colloids. Redox reactions. S
14、eparations and reactions of cations and anions. Salt melt reactions. Purity analysis, application of chromatography in qualitative chemical analysis. Qualitative analysis of organic compounds and mixtures. B101 CELL BIOLOGY AND HYSTOLOGY 3 hours per week in I semester. Compulsory for BSc in Chemistr
15、y Biochemistry The lectures in the course cover certain aspects of cell biology as they relate to cell, tissue and organ structure and function. The course presents the structure and function of the cells, tissues and organs of the body as revealed by light and electron microscopy. Cell organization
16、, Tissue structure, Organic system structure and organization. Digestive, respiratore, circular, endocrine, reproductive etc. B102 INTRODUCTION TO MICROBIOLOGY 3 hours per week in II semester. Compulsory for BSc in Chemistry Biochemistry In the course of lecturing and practical (laboratory) work, st
17、udents are getting acquainted with the main groups of microorganisms (viruses, prokaryotic bacteria and cyanobacteria, and eukaryotic algae and fungi), their morphology, functional cell (thallus) structure, biochemistry and physiology, development, genetics, basic systematics, ecology, distribution
18、and about their importance and significance for man and in environment in general.,B.Sc. Programme in Biochemistry-Second Year,0201 PHYSICAL CHEMISTRY I 4 hours per week in III semester. Compulsory for BSc in Chemistry Biochemistry Introduction to the structure of atom and molecules. Polarization in
19、 electric field. Dipole moemnt. Refraction, optical activity ORD and CD. Agregation conditions. Solids state, liquores. Ideal gaqsses. Molecular-orbital theory, Real gasses, Thermodynamic systems and functions. First and Second law of Thermodynamic. Entrpy, Gibbs free energy. Chemical potential. 020
20、2 PHYSICAL CHEMISTRY II 4 hours per week in IV Isemester. Compulsory for BSc in Chemistry Biochemistry Phase equlibrium. Two-component systems. Thermodynamic properties of ideal and real gas mixtures. Henrys law. Threecomponents systems, Duffusion, Chemical equilibrium, Colligative properties of ele
21、ctrolite, Catalitic reaction, chain reactions, Catalyse. The basis of photochemistry. Introduction to colloid chemistry and electrochemistry. 0203 ORGANIC CHEMISTRY II 4 hours per week in III semester. Compulsory for BSc in Chemistry Biochemistry Aldehydes and ketones -Nomenclature. Preparation of a
22、ldheads and ketones. Oxidation of aldheads and ketenes. Nucleophilic addition reactions. Addition of carbon nucleophiles. Keto-enol tautomerism. Reaction at -carbon.Carboxylic acids and derivatives and nucleophilic acyl substitution reactions - Nomenclature. Structure and physical properties of carb
23、oxylic acids. Acidity. Characteristic reactions. Esterifikation. Reduction. Enolate anions and enamines. Claisen and Claisen condensations.Amines - Nomenclature.Preparation of amines. Basicity of amines Reaction with nitrous acids. Hofmann elimination.Carbihydrates - Cyclic structure of monosacchari
24、des. Physical properties and reactions of monosaccharides. Disaccharides. Heterocycles- Nomenclature. Structure and reactions,0204 ANALYTICAL CHEMISTRY II 4 hours per week in III Isemester. Compulsory for BSc in Chemistry Biochemistry Quantitative analysis: principles and classification. Volumetric
25、analysis, acid-base titration, Complexometric titration. Redox reactions methods. Redox equilibrium, redox indicators, application of redox titrations. Precipitation methods. Argentometric study: titration and application. Gravimetric analysis. Analysis of complex mixtures. Gas analysis, Chromatogra
26、phic techniques. Deviations in quantitative analysis. B201 STEREOCHEMISTRY 3 hours per week in IV semester. Compulsory for BSc in Chemistry Biochemistry The scope of stereochemistry. Constitution, configuration and conformation. Molecular models. Chiral molecules . Molecular symmetry. Chirality elem
27、ents. Absolute and relative configuration. Racemic modifications. Resolution of racemic modifications. Conformation and reactivity in acyclic compounds. Stereochemistry and conformational analysis of six membered rings . Shape of rings other than six membered ones. Fused rings and bridged rings. Con
28、formational analysis of steroids. Stereochemistry of carbohydrates. Stereoselective and stereospecific reactions. Asymmetric synthesis. The synthetic routes that have been used to synthesise some top drugs. O401 BIOCHEMISTRY I (BIOMOLECULES) 3 hours per week in III semester. Compulsory for BSc in Ch
29、emistry Biochemistry Introduction to Biochemistry. Molecular basis of life. Biomolecules. Structure and characterization of aminoacids. Proteins. Covalent structure, three-dimensional structures, protein folding. Hemoglobin structure and function. Sugars and polysaccharides. Lipids and membranes. Nu
30、cleotides, Transport through membranes. Biochemical communication. Introduction to enzymes and coenzymes. 0402 BIOCHEMISTRY II (METABOLISM) 4 hours per week in IV semester. Compulsory for BSc in Chemistry Biochemistry Introduction to metabolism.Methabolic pathways. Catabolism and anabolism Thermodyn
31、amic of phosphate compounds. Thermodynamic of life. Glycolisis. Glycogen metabolism. Cytric acid cyicle. Electron transport and oxidative phosphorilation. Photosynthesis. Lipid metabolism. Metabolism of aminoacids. Nucleotide metabolism. Nucleic acids structures and manipulation, replication, transc
32、ription and translation.Metabolism regulatrions.,PROGRAMMES OF MAIN COURSES II,B.Sc. Programme in Biochemistry-Third Year,PROGRAMMES OF MAIN COURSES III,0302 Basic Instrumental analysis 4 hours per week in V semester. Compulsory for BSc in Chemistry Biochemistry The aim and principles of instrumenta
33、l analysis methods. Analytical processes. Principles of functioning of measuring instruments. . Signals and analytical information. Qwuality of measuring instruments. Instrumental methods of separation. Centrifugation, ultracentrifugation. Techniques of extractions. Gas chromatography. Liquid chroma
34、tography. Ionochromatography. Electrochromatography. Thermoanalytical methods-TG, DTA, TGT/EGA, DSC, TMA and therometric methods of analysis. Optical methods of analysis. Ato,ic emission (OES/ICP, flame photometry) and absorption spectrometry (AAS). Molecular absorption (UV/VIS/IR) spectrometry. Nep
35、helometry. Turbidimetry. NMR spectrometry. Spectrofluorimetry. Conductometry. Potentiometry. Electrogravimetry, Coulometry. Voltammetry. Radioanalytical methods. Activation analysis. Automatic and hyphened methods of analysis. Precess analysers. Choise of the optimal methods of analysis. B301 Enzymo
36、logy 3 hours per week in V semester. Compulsory for BSc in Chemistry Biochemistry The focus of this course will be on the relationship between protein structure and function and the factors that make enzymes such powerful catalysts. Topics include enzyme nomenclature, protein structure, chemical cat
37、alysis, basic enzyme kinetics, enzyme mechanisms, inhibitors of enzymes (and their use as drugs), allosterism and the regulation of enzymes, theories of enzyme catalysis, and the use of protein engineering and site-directed mutagenesis in the study of enzymes. The ultimate goal will be an understand
38、ing of enzyme efficiency, specificity, reaction mechanism pathways, metabolic control and the application of protein engineering to enzymes B302 Bioinorganic chemistry 2 hours per week in V semester. Compulsory for BSc in Chemistry Biochemistry Introduction in bioinorganic chemistry. General princip
39、les of involvements of inorganic elements in living cell and their biological role. Biological ligands with metal ions. The basic principles of coordinative chemistry in bioinorganic science. Coenzyme B12, the role of Mn2+ and Mg2+ in photosynthesis, Oxygen, molecular and chemical properties, chemop
40、roteines, Fe-S proteins, Metaloenzymes, Biological role of Mo, V, Va, and Cu. Chemotherapy of some non-essential elements.,B303 Experimental Biochemistry 4 hours per week in VI semester. Compulsory for BSc in Chemistry Biochemistry Methods of homogenization and extraction.Solubilites of proteins: ef
41、fects of salt concentration,effects of organic solvents, effects of pH. Diallysis and ultrafiltration.Chromatographic separations:ion exchange chromatography,gel filtration chromatography, affinity chromatography, hydrophobic interaction chromatography, high-performance liquid chromatography( HPLC).
42、Preparative centrifugation. Elektrtophoresis: disc elektrophoresis,isoelectric focusing, SDS-PAGE.Circular dichroism.The enzyme linked immunosorbent assay. Freeze-drying method. B304 Toxicological chemistry 4 hours per week in VI semester. Compulsory for BSc in Chemistry Biochemistry Objective: To f
43、amiliarise students with the basic principles of the effects of toxic substances in organisms, with methods of evaluation and the estimation of risks and regulatory aspects of toxicological chemistry. Task: Learning about toxic synthetic and natural substances of inorganic and organic character whic
44、h present risks in human environmental and working areas. Familiarisation with the chemistry mechanisms of their actions in organisms, transformations in the environment and evaluations of toxicology and risk. Through exercises the student is learning concrete analyses of the quantity of pollutants
45、in living and working environments, human bodily fluids, quantification of toxicity and the availability of toxic substances B305 Basic Physiology 3 hours per week in VI semester. Compulsory for BSc in Chemistry BiochemistryGeneral overview of basic principles of physiological systems organization.
46、Nerve - nerve cells; excitation-conduction; Skeletal Muscle morphology; electrical phenomena and ionic fluxes; contractile responses; energy sources and metabolism. Cardiac Muscle, Smooth Muscle. Synaptic transmission. Neuromuscular transmission - neuromuscular junction. Receptors properties; mechan
47、ism of transduction; electrical and ionic events; ionic basis of excitation, “coding” of sensory information. Functional organization of nervous system. Circulation; Heart as a pump and electrical activity of the heart; dynamics of blood and lymph flow. Respiration. Gastrointestinal function, Renal
48、function and micturition; regulation of extracelular fluid composition and volume. General plan and principles of endocrine system physiology. Integration of neural and endocrine regulation in effective maintenance of homeostasis,PROGRAMMES OF MAIN COURSES III,IB301 Chemistry of pharmaceutical produ
49、cts 3 hours per week in V semester. Optional for BSc in Chemistry Biochemistry Reagents for large-scale operation. Drug resistance. Antibacterial agents which impair protein synthesis (Antisense therapy, Synthesis of Gougerotin). Antibacterial agents which act against cell metabolism (Mechanism of a
50、ction and applications of sulphonamides). Drug acting on DNA. Quinolones as antibacterial DNA gyrase inhibitors (Synthesis and pharmacological effects of norfloxacin) Calcium channel blockers in the treatment of angina and hypertension (Synthesis and clinical effects of nifedipine). Some water-solub
51、le vitamins (Thiamine, folic acid and vitamin H). Modulation of central serotonin in the treatment of depression (Synthesis of fluoxetine). Blockers of the histamine-1,-2 receptors (Synthesis of terfenadine and ranitidin ).Structure determination by NMR techniques. IH404 Organic synthesis- synthesis
52、 of biological active compounds 2 hours per week in V semester. Optional for BSc in Chemistry Biochemistry Synthesis androstane and estrane derivatives as therapeutic agents. Antiandrogens and antiestrogens in treatment of hormone-dependent diseases (carcinoma and benign prostatic hyperplasia). Nons
53、teroid compounds as antineoplastic agents.Synthesis and pharmacology of bile acids and their derivatives.Progestins and corticosteroids ,synthesis and application in biomedicine. Strategies for synthesis and design of beta-lactam antibiotics, antidepressants,antidiabetic agents,antihypertensive drugs,anti-ulcer agents,nucleoside analogues which inhibit HIV reverse transcriptase and other chosen drugs.,
