MEDICAL CHEMISTRY
cod. 1010278

Academic year 2024/25
1° year of course - First semester
Professors
Academic discipline
Biochimica (BIO/10)
Field
"struttura, funzione e metabolismo delle molecole d'interesse biologico"
Type of training activity
Basic
60 hours
of face-to-face activities
6 credits
hub: PARMA
course unit
in ITALIAN

Learning objectives

The student will have to acquire the capability to connect the chemical nomenclature to the corresponding formula and to describe the structure and function of macromolecules such as carbohydrate, proteins, lipids and nucleic acids present in the cell. He must recognize the functional groups responsible for the reactivity of the molecules. He must acquire an overview of the mechanisms that govern the transformation of the molecules and its correlation with the production and consumption of energy. He must understand and appreciate the connections between chemistry and biology.
The student must acquire the ability to select and apply the gained knowledge not only in theory but also while carrying out training activities.

Prerequisites

The prerequisites consist of the chemical knowledges needed to pass the entrance test to Study in Medicine and Surgery.

Course unit content

In the first part, initially, an overview of the topics that will be discussed during the course will be presented and reasons which justify the time sequence with which they are presented will be explained. Subsequently the principles that govern the flow of energy associated with each chemical reaction and their meaning from a biological point of view will be discussed.

In the second part we will look at topics that concern a) the structure of the atom and its properties by introducing a series of mathematical formalism and useful graphs to represent atoms and molecules and to describe chemical reactions; b) the origin of the three-dimensional structure and reactivity of the molecules; c) The principles of chemical kinetics; d) the reactions of inorganic compounds with particular attention to acid-base reactions.

In Part Three, we will deal with the chemical and structural properties of organic compounds. The teaching will be focused on the functional groups present in the biomolecules, in particular, their reactivity and physical properties.

In Part Fourth, finally, it will be treated the structural and functional characteristics of the main macromolecules present in the cells (carbohydrates, proteins, lipids and nucleic acids).

Full programme

GENERAL AND INORGANIC CHEMISTRY

Introduction and atomic structure. Properties of matter. Elements and compounds. Sub-atomic particles. Atomic number, mass number, isotopes. Atomic and molecular weight, gram atom, gram molecule. Atomic structure; atomic orbitals and quantum numbers. Electronic configuration of the elements.
Periodic trends in the chemical properties of the elements. Periodic table. Periodic properties of the elements: atomic size, ionization energy, electron affinity, electronegativity. Electronic structure and chemical properties.
Chemical bonding. Ionic bond; covalent bond (pure, polar, dative) and molecular orbitals. Intermolecular bonding: dipole-dipole interactions, hydrogen bonding, van der Waals forces.
Inorganic chemical compounds. Hydrurs, binary acids, oxides and anhydrides, peroxides, hydroxides, acids, neutral and acidic salts: formation reactions, reaction balancing, nomenclature, structural formulas.
Chemical kinetics. Rates of chemical reactions, rate laws. The factors that affect chemical reaction rate: chemical nature of the reactants, concentration of the reactants (order of a reaction), temperature and catalysts. Molecular collision theory and transition state theory.
Chemical equilibria. Chemical equilibrium is a dynamic process. The general expression of the equilibrium constant. Factors that affect the chemical equilibrium: variations of concentration, volume, pressure, temperature. Le Chatelier’s principle.
Chemical thermodynamics. First principle of thermodynamics, the concept of enthalpy. Second principle of thermodynamics, the concept of entropy. Third law of thermodynamics. Free energy and spontaneity of chemical reactions; free energy and equilibrium constant.
Solutions. Concentrations units: percent fraction w/w, w/v, and v/v, molarity, molality, normality.
Colligative properties of solutions: boiling point elevation, freezing point depression; origin and significance of the osmotic pressure, van’t Hoff factor and osmolarity.
Acids and bases: Arrhenius theory, Bronsted and Lowry theory, Lewis theory. Acid-base equilibria. Strong acids and bases, weak acids and bases.
Water ionization. Concept of pH. Calculating the pH of acid and base (strong and weak) solutions. Hydrolysis of salts in water. Buffer solutions: properties and pH calculation.
Acid-base titrations.

STOICHIOMETRY

Stoichiometric calculations. Balancing chemical equations.
Oxidation state and oxidation number; balancing ox-red reactions.
Chemistry exercises: concentrations of solutions, pH calculation of aqueous solutions containing different compounds, colligative properties.

ORGANIC CHEMISTRY

Introduction. Hybrid orbitals of carbon. Molecular and structural formulas. Types of reaction: substitution, addition, elimination. Electrophiles and nucleophiles reagents. Functional groups.
Hydrocarbons. Hydrocarbons classification. Alkanes: nomenclature, physical properties and characteristic reactions. Structural isomerism. Cycloalkanes: structure and nomenclature. Alkenes and alkynes: nomenclature, physical properties and characteristic reactions.
Benzene: concept of aromaticity and properties. Benzene reactivity and most important substitution reactions. Substituents effect on reactivity and orientation.
Introduction to functional groups. Nomenclature, reactivity, and physical properties. Functional groups in biological molecules. Isomerism. Structural isomerism and stereoisomerism. Concepts of molecular symmetry and asymmetry. Chirality and enantiomers.
Alcohols, phenols, and ethers. Structure and classification. Physical properties and acidity. Preparation of alcohols. Characteristic reactions: esterification (notes on phosphoesters and phosphoanhydrides), oxidation, nucleophilic substitution, and dehydration (mechanism). Thiols: physical properties, acidity, and reactivity
The carbonyl group. Aldehydes and ketones. Structure. Physical properties. Keto-enol tautomerism, H-alpha acidity. Characteristic reactions: oxidation and reduction, nucleophilic addition of hydrides, water, alcohols, amines, and aldol condensation (mechanisms: medium and strong nucleophiles and weak nucleophiles).
Amines. Structure and classification. Aromatic and heterocyclic amines. ammonium ions. Physical properties. Basicity of amines as a function of substituents. Nucleophilicity of amines.
Carboxylic acids and derivatives. Carboxyl group. Structure and nomenclature. Physical properties. Acid properties and variation of acidity as a function of the substituents. Characteristic reactions: reduction, addition-elimination (mechanism and reactivity and interconversion of carboxylic acid derivatives). Derivatives of carboxylic acids. Physical properties. Esters: mechanism of Fisher's esterification and acid hydrolysis of esters. Basic hydrolysis reaction (saponification). Amides: structure of the amide bond.

PROPAEDEUTIC BIOCHEMISTRY

Carbohydrates. Classification and nomenclature. Optical isomerism of carbohydrates. Structure, properties and function of the most important monosaccharides, disaccharides and polisaccharides.
Lipids. Fatty acids, triglycerides, saponification. Phospholipids and cerebrosides: structure and properties. Structural organization of lipids in water: micelles and lipid bilayers. Biological membranes: structure and function. Terpenes. Steroids: cholesterol and derivatives.
Amino acids and proteins. The 20 amino acids that occur in proteins: classification, structure and names. Acid-base behaviour of amino acids; isoelectric point. Peptide bond. The different levels of protein structure: primary, secondary, tertiary and quaternary.
Nucleic acids. The sugar and the base components of nucleosides and nucleotides. Structure and nomenclature of nucleosides and nucleotides. Polynucleotides: structure and fundamental properties of RNA and DNA.

Bibliography

K.J. Denniston, J.J.Topping and R.L. Caret
Italian Edition
McGraw-Hill 2011

Organic Chemistry
H. Hart, L.E. Craine, D.J. Hart, C.M. Hadad
6th Edition Zanichelli

Introduction to General, Organic and Biochemistry
F. A. Bettelheim, W.H. Brown, M.K. Campbell., S.O. Farrell
9th Engl. Ed.

Fundamentals of General, Organic, and Biological Chemistry.McMurry, Ballantine, Hoeger, Peterson.
8va Italian ed., Pearson.

Chimica Medica e Propedeutica Biochimica
Tiziana Bellini
2nd ed., Zannicheli

Teaching methods

The course will be conducted on the basis of lectures during which after having exposed some general concepts will go on to describe their first applications in chemical systems model and then as part of the life processes of a cell.
The course will be held to Students either in the classroom (“in presenza”) or in synchronous-streaming (“in telepresenza”) on the Teams platform. Therefore, the opportunity of Student/Teacher interaction will be preserved both face to face and remotely, by the simultaneous use of the Teams platform.
Lectures will be supported by slide presentations, which will be available to students on the Elly platform (https://elly2020.medicina.unipr.it/).

Assessment methods and criteria

The assessment of the achievement of the objectives set by the Course includes a written test.
Overall, the test is intended to certify whether the student has achieved a good knowledge and understanding of the whole chemical principles that underlie life processes and if he is able to select and apply them to solve simple problems.
As required by law and University Teaching Regulations, it is not possible to carry out the examination in parts and to acquire credits to one or more parts of the program.
Students with SLD/BSE must first contact the Center for Reception and Inclusion (CAI): https://cai.unipr.it/

Other information

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2030 agenda goals for sustainable development

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