Unit CHEMISTRY AND BIOCHEMISTRY I
- Course
- Medicine and surgery
- Study-unit Code
- GP004730
- Curriculum
- In all curricula
- CFU
- 11
- Course Regulation
- Coorte 2023
- Offered
- 2023/24
- Type of study-unit
- Obbligatorio (Required)
- Type of learning activities
- Attività formativa integrata
BIOCHEMISTRY I - MOD. 1
Code | GP004762 |
---|---|
CFU | 3 |
Teacher | Davide Chiasserini |
Teachers |
|
Hours |
|
Learning activities | Base |
Area | Struttura, funzione e metabolismo delle molecole d'interesse biologico |
Academic discipline | BIO/10 |
Type of study-unit | Obbligatorio (Required) |
Language of instruction | Italian |
Contents | Structural biochemistry: carbohydrates, lipids, nucleotides, nucleic acids, amino acids, proteins. Hemoglobin and myoglobin |
Reference texts | I principi di Biochimica del Lehninger - Nelson, Cox, Zanichelli Biochimica Berg, Tymoczko, Stryer Zanichelli Biochimica Medica Siliprandi, Tettamanti Piccin |
Educational objectives | The main competence will be to have a general knowledge necessary to address the lessons of Module 2. |
Prerequisites | The student must have acquired basic knowledge of the main topics of General Chemistry and Organic Chemistry |
Teaching methods | The course is organized in frontal lessons and theoretical practical lessons |
Other information | The attendance is compulsory at least 70% of lessons. Terni–School of Medicine – Educational and Scientific Center |
Learning verification modality | The final exam consists of a written test and an oral exam. The written test consists of 30 multiple-choice questions relating to any topic covered in the course. For each question 4 possible answers are available of which only one is always program. Each question is awarded 1 mark if answered correctly and 0 marks if answered incorrectly. The minimum mark for passing the written test is 18/30. Passing the written test is compulsory for access to the oral exam but its evaluation does not contribute to the definition of the final mark. The oral examination, lasting an average of 30 minutes, will cover all the topics discussed during the course. Knowledge of the chemical formulae of the metabolites, enzymatic reactions and their regulation are required. During the oral examination, the student's ability to critically link different topics and the ability to express himself/herself in precise and clear technical language will be assessed. |
Extended program | Monosaccharides, monosaccharide cyclization, monosaccharide reactions, glycosidic bonding, oligosaccharides (sucrose, lactose, maltose), polysaccharides (glycogen, starch, cellulose, inulin), glycosaminoglycans (ac. hyaluronan, heparan sulfate, dermatan sulfate, chondroitin sulfate), Glycoconjugates (glycoproteins, proteoglycans, glycolipids). Nucleotides, Nucleosides, phosphodiester binding, DNA-RNA stability, DNA structure, RNA structure, DNA-RNA differences, ATP functions. Fatty acids (nomenclature, structure and properties), triacylglycerols (structure and properties), glycerophospholipids (structure and properties), dipalmitoylphosphatidylcholine, cardiolipin, glycerophosphatidylinositol, sphingolipids (sphingomyelins, gangliosides), sterols, isoprenoid derivatives, arachidonic acid derivatives. Amino acids (structure and properties), amino acid titration curves, peptide bonding (structure and properties), secondary structures: alpha-helix, sheet-beta, beta turn (structure and properties), three-dimensional structure of proteins and bonds that stabilize it. Fibrous proteins. Collagen: structure, function, post-translational modifications, hydroxylation of Pro and Lys, cross-links, collagen-associated diseases, role of vitamin C. Alpha-keratin (structure and function), myosin (structure and function). Structural motifs (helix-loop-helix, leucine zipper, zinc finger), structural domains (TIM barrel, head-tail barrel, beta sandwich), quaternary structure. Folding: thermodynamics, kinetics, protein aggregation, HSP (60, 70, 90), protein disulfide isomerase, peptidyl-prolyl isomerase. Hemoglobin and myoglobin. Heme group (structure hints, polypeptide chain binding, function), myoglobin structure, saturation curve, myoglobin structure, conformational states, saturation curve, allosteric modulators (O2, CO2, H+, 2,3, BPG). CO2 transport. HbF, HbS, methemoglobinemia. Actin and myosin, structure, mechanism of muscle contraction. |
BIOCHEMISTRY I - MOD. 2
Code | GP004764 |
---|---|
CFU | 3 |
Teacher | Ilaria Bellezza |
Teachers |
|
Hours |
|
Learning activities | Base |
Area | Struttura, funzione e metabolismo delle molecole d'interesse biologico |
Academic discipline | BIO/10 |
Type of study-unit | Obbligatorio (Required) |
Language of instruction | Italian |
Contents | The Module 2 program covers the following topics: Enzymes. Coenzyme structure and mechanism of action. Biological membranes. Signal transduction. Catabolism and Anabolism. Bioenergetics. High-energy bonds. ATP. Respiratory chain and oxidative phosphorylation |
Reference texts | I principi di Biochimica del Lehninger - Nelson, Cox, Zanichelli Biochimica Berg, Tymoczko, Stryer Zanichelli Biochimica Medica Siliprandi, Tettamanti Piccin |
Educational objectives | At the end of the course the student should be in possession of the main knowledge related to Structural Biochemistry, Functional Biochemistry and Energy Biochemistry |
Prerequisites | The student must have acquired basic knowledge of the main topics of General Chemistry and Organic Chemistry and Structural Biochemistry |
Teaching methods | The course is organized in classroom theoretical lessons |
Other information | The attendance is compulsory at least to 70% of classes. Terni School of Medicine – Educational and Scientific Center |
Learning verification modality | The final examination consists of a written test and an oral exam. The written test consists of 30 multiple-choice questions relating to any topic covered in the program. For each question 4 possible answers are available of which only one is always correct. The answer is deemed to be correct when only the single correct choice is selected from those present. Each question is awarded 1 mark if answered correctly and 0 marks if answered incorrectly. The minimum mark for passing the written test is 18/30. Passing the written test is compulsory for access to the oral exam but its evaluation does not contribute to the definition of the final mark. The oral examination, lasting an average of 30 minutes, will cover all the topics discussed during the course. Knowledge of the chemical formulae of the metabolites, enzymatic reactions and their regulation are required. During the oral examination, the student's ability to critically link different topics and the ability to express themselves in precise and clear technical language will be assessed. |
Extended program | Enzymes: characteristics, classification, active site, thermodynamics of catalyzed reactions, activation energy, binding energy, induced adaptation, factors affecting speed of reactions (pH, T, [S]), enzyme kinetics (Michaelis-Menten kinetics), kinetic parameters, multi-substrate reactions, enzyme inhibition (irreversible inhibitors, competitive, incompetitive and mixed inhibitors). Catalytic mechanisms: acid-base catalysis (e.g. ), metal ion catalysis (e.g. carbonic anhydrase, enolase, aconitase), covalent catalysis (e.g. aldolase), serine protease (catalytic mechanism, induced adaptation, intermediate stabilization, substrate specificity). Allosteric modulators. Reversible covalent modifications (e.g., phosphorylation), irreversible covalent modifications (e.g., limited proteolysis). Protein half-life regulation (e.g., ubiquitin-proteasome). Vitamins and coenzymes: ac. ascorbic (structure and function), thiamine (structure and coenzyme mechanism), ac. lipoic acid (structure and coenzyme mechanism), riboflavin (structure and coenzyme mechanism), niacin (structure and coenzyme mechanism), pantothenic acid (hints at structure and coenzyme function), pyridoxine (structure and coenzyme mechanism), Biotin (structure and coenzyme mechanism), folic acid and vitamin B12 (hints at structure and coenzyme function). Hints of function of fat-soluble vitamins (A,K,D, E). Pyruvate dehydrogenase complex (structure, catalytic maccanism, regulation). Biological membranes: asymmetry, fluidity, fluid mosaic model, transmembrane proteins (structural properties). Membrane transport: thermodynamics of transport, simple diffusion, facilitated transport (Glut, chloride bicarbonate exchanger, K+ channel, aquaporins), primary active transport (Na+/K+ pump, SERCA pump, ABC transporters), secondary active transport. Biosignaling: characteristics, GPCR receptors (Gs, Gi, Gq) signal transduction and switching off, receptor tyrosine kinase mechanism of action and signal switching off, GMPcyclic, NO, second messengers derived from phosphatidylcholine and sphingomyelin, receptors for steroid hormones mechanism of action. Bioenergetics: general characteristics of metabolism (catabolism and anabolism), thermodynamics of metabolism, energy function of ATP, other roles of ATP, Substrate-level phosphorylation (1,3, bisphosphoglycerate, phosphocreatine, phosphoenolpyruvate, succinylCoA), thermodynamic aspects; oxidative phosphorylation: Oxidoreduction reactions, carbon oxidation states, chemiosmotic theory, electron transport chain 8structure and function of complexes), reactive oxygen species, oxidative stress and antioxidant defenses (GSH), chemiosmotic coupling, ATP synthase (structure and mechanism of rotational catalysis), thermodynamic and quantitative aspects, malate aspartate shuttle, glycerol 3-phosphate shuttle, regulation of oxidative phosphorylation, uncoupling agents. |
CHEMISTRY - MOD. 1
Code | GP004761 |
---|---|
CFU | 3 |
Teacher | Davide Chiasserini |
Teachers |
|
Hours |
|
Learning activities | Base |
Area | Struttura, funzione e metabolismo delle molecole d'interesse biologico |
Academic discipline | BIO/10 |
Type of study-unit | Obbligatorio (Required) |
Language of instruction | Italian |
Contents | The electronic structure and the properties of atoms: the quantum numbers, the atomic orbitals, the electronic configurations of the elements. Periodic table of the elements and the properties of elements: ionization potential, electron affinity and electronegativity. Covalent molecules: the combination of s orbitals, the combination of p orbitals, the formation of diatomic molecules; polyatomic molecules. Chemical bonds: covalent bonds, ionic bonds, hydrogen bond, hybridization. Inorganic molecules. Solid, liquid and gas states. Solution chemistry. Measure of concentrations, molality, molarity, percentages in weight and volume. Acids and bases and chemical equilibria. pH measurement of acid-base solutions. Buffer solutions. Principles of thermodynamics, chemical kinetics, and oxidation status. Redox reactions. |
Reference texts | Chimica e Propedeutica Biochimica - Luciano Binaglia e Bruno Giardina |
Educational objectives | The main competence will be to have a general knowledge of inorganic chemistry |
Prerequisites | To be able to understand and apply the majority of the contents described within the course, the student must have acquired basic knowledge of chemistry and mathematics. |
Teaching methods | The course is organized with face-to-face lessons on all subjects of the course using slide projections. Students are stimulated to interact with the teacher during the lectures. Some hours will be dedicated to preparation for the written test and to clarifications. During the course there will be a mid-term test. |
Other information | The attendance is compulsory at least 75% of lessons. Terni - School of Medicine - Educational and Scientific Center |
Learning verification modality | The partial exam of Chemistry is a written test with 30 multiple choice and open questions on general and organic biomedical chemistry. The written exam will last 90 minutes. Marks obtained in the partial exam will be used for the calculation of the final mark of the course "Chimica e Biochimica I" |
Extended program | The electronic structure and the properties of atoms: the quantum numbers, the atomic orbitals, the electronic configurations of the elements. Periodic table of the elements and the properties of elements: ionization potential, electron affinity and electronegativity. Covalent molecules: the combination of s orbitals, the combination of p orbitals, the formation of diatomic molecules; polyatomic molecules. Chemical bonds: covalent bonds, ionic bonds, hydrogen bond, hybridization, Inorganic molecules. Solid, liquid and gas states. Chemistry of solution and measure of concentration. In solution equilibria, acid-base equilibrium. pH measurements of different solutions, buffer solutions. Principles of thermodynamics, chemical kinetics, and oxidation status. Redox reactions. |
Obiettivi Agenda 2030 per lo sviluppo sostenibile | 3, 15 |
CHEMISTRY - MOD. 2
Code | GP004763 |
---|---|
CFU | 2 |
Teacher | Davide Chiasserini |
Teachers |
|
Hours |
|
Learning activities | Affine/integrativa |
Area | Attività formative affini o integrative |
Academic discipline | BIO/10 |
Type of study-unit | Obbligatorio (Required) |
Language of instruction | Italian |
Contents | Hydrocarbons: alkanes, alkenes, alkynes and their characteristic reactions. Aromatic compounds and their characteristic reactions Stereoisomery and enantiomers. Alcohols, phenols and their characteristic reactions. Alkyl halides, aldehydes and ketones and reactions. Aliphatic and aromatic amines, carboxylic acids and their reactions derivatives of carboxylic acids. Aromatic heterocycles |
Reference texts | Chimica e Propedeutica Biochimica - Luciano Binaglia e Bruno Giardina |
Educational objectives | The main competence will be to have a general knowledge of organic chemistry to approach the study of biochemistry |
Prerequisites | In order to be able to understand and apply the majority of the contents described within the course, the student must have acquired basic knowledge of Inorganic chemistry |
Teaching methods | The course is organized with face-to-face lessons on all subjects of the course using slide projections. Students are stimulated to interact with the teacher during the lectures. Some hours will be dedicated to preparation for the written test and to clarifications. During the course there will be a mid-term test. |
Other information | The attendance is compulsory at least 75% of lessons. Terni - School of Medicine - Educational and Scientific Center |
Learning verification modality | The partial exam of Chemistry is a written test with 30 multiple choice and open questions on general and organic biomedical chemistry. The written exam will last 90 minutes. Marks obtained in the partial exam will be used for the calculation of the final mark of the course "Chimica e Biochimica I". |
Extended program | Hydrocarbons: alkanes, alkenes, alkynes and their characteristic reactions. Aromatic compounds and their characteristic reactions Stereoisomery and enantiomers. Alcohols, phenols and their characteristic reactions. Alkyl halides, aldehydes and ketones and reactions. Aliphatic and aromatic amines, carboxylic acids and their reactions derivatives of carboxylic acids. Aromatic heterocycles |
Obiettivi Agenda 2030 per lo sviluppo sostenibile | 3, 15 |