Biomedical Science
Module Biochimica

Academic Year 2024/2025 - Teacher: Gabriella LUPO

Expected Learning Outcomes

The course aims to provide an adequate preparation for the knowledge of the molecular basis of life, the fundamental chemical properties of substances, the structure and function of macromolecules involved in life processes, in the cell and in the organism, and the metabolic transformations of biomolecules necessary for the functioning of the human. The student will understand the meaning of the variations of the main metabolic pathways in different physiological and pathological contexts, with regard ailments related to inadequate work environments.

Course Structure

Traditional lectures, with the support of slides and audiovisual tools. At the end of the lecture, ample space is given to the comment on the discussed topics.

Should teaching be carried out in mixed modality or remotely, it may be necessary to introduce changes with respect to previous roles, in line with the programme planned and outlined in the Syllabus.

Information for students with disabilities and/or SLD

To guarantee equal opportunities and in compliance with the laws in force, students can ask for a personal interview in order to plan any compensatory and / or dispensatory measures, based on the didactic objectives and specific needs. It is also possible to contact the CInAP contact person (Center for Active and Participated Integration - Services for Disabilities and/or SLD) of competence.

Required Prerequisites

The course includes the minimum basic requirements to be able to follow the lessons and take the final exam. The student attending the Biochemistry course will have to know the fundamental concepts of General and Inorganic Chemistry, Organic Chemistry and Biochemical Propaedeutics and have a good knowledge base of physics and cell biology.

 

Attendance of Lessons

Mandatory, according to the percentages of attendance dictated by the regulations of the Degree Program

Detailed Course Content

PROTEINS

CHROMOPROTEINS FOR OXYGEN TRANSPORT

PLASMA PROTEIN

ENZYMES AND ENZYMATIC CATALYSIS

THE CARBOHYDRATE METABOLISM

THE LIPID METABOLISM

THE METABOLISM OF AMINOACID

VITAMINS

Course Planning

 SubjectsText References
1PROTEINS The structure of amino acids. The peptide bond. Structural organization of proteins: primary, secondary, tertiary, quaternary structures. Globular proteins: albumin and chromoproteins. Fibrous proteins: collagen, elastin, keratin.Text 1: chap. 4; Text 2: chap. 3 e 4; Text 3: see index.
2CHROMOPROTEINS CARRIERS OF OXYGEN The structure of the Eme. Insertion of oxygen. Myoglobin: structure and function. Similarities and differences with Hemoglobin. Hemoglobin: structure and function. The transport of oxygen and carbon dioxide.Text 1: chap. 5; Text 2: chap. 5; Text 3: see index.
3Plasma proteins. Albumin and its main functions. The main plasma proteins: gamma-globulins (function and outline of the structure); plasma lipoproteins, metabolism and physiological role. Notes on the coagulation cascade.Text 2: chap. 25; Text 3: see index.
4ENZYMES AND ENZYMATIC CATALYSIS- Text 1: chap. 6; Text 2: chap. 7; Text 3: see index.
5GLUCIDIC METABOLISM: glycolysis, gluconeogenesis, the Krebs cycle. Fermentations and LDH. Cori and alanine cycle. The metabolic fate of pyruvate.Text 1: chap. 7, 12, 14, 15, 16, 19 (parts treated in class); Text 2: chap. 1 e 12; Text 3: see index.
6THE LIPID METABOLISM. Digestion and absorption of fatty acids. Beta-oxidation, regulation and energy yield. Adjustment. Formation, properties and role of ketone bodies. The synthesis of fatty acids and its regulation.Text 1: chap. 10, 17 e 21 (only 21.1); Text 2: chap. 2 e 13; Text 3: see index.
7THE METABOLISM OF AMINO ACIDS. Digestion and absorption of amino acids and peptides. The catabolism of aa: transamination, deamination and decarboxylation reactions. Glutamate dehydrogenase. Renal Glutaminase. Urea cycle.Text 1: chap. 18; Text 2: chap. 14 (parts treated in class); Text 3: see index.
8VITAMINSText 2: chap. 8; Text 3: see index.
9MECHANISM OF ACTION OF HORMONES AND METABOLIC INTEGRATIONSText 2, see index (topics treated in class); Text 3: see index

Learning Assessment

Learning Assessment Procedures

Oral interview.

Should the conditions require it, the verification of learning can also be carried out electronically or in writing. In any case, it will always be communicated in good time to students during the course of the lessons.

Examples of frequently asked questions and / or exercises

The Cori cycle and the Alanine cycles 

- The biochemistry of muscle contraction

- Transamination reactions