BIOINORGANIC CHEMISTRY

Degree course: 
Corso di Second cycle degree in CHEMISTRY
Academic year when starting the degree: 
2018/2019
Year: 
2
Academic year in which the course will be held: 
2019/2020
Credits: 
8
Period: 
Second semester
Standard lectures hours: 
64
Requirements: 

To address successfully the topics of the course, students must have solid knowledge of coordination chemistry (geometry, electronic properties, fundamental reactions) and of organic chemistry and chemical physics.

Final Examination: 
Orale

Examination will consist in an oral presentation lasting about 30 minutes, with the help of PowerPoint projections, of a research conducted by deepening/expanding a topic covered in class. The speech will followed by a discussion on the presentation and on the course program. The final grade will be out of thirty and will result in the accreditation of 8 cfu (Part A and B) or 4 cfu (only Part A).

Assessment: 
Voto Finale

The purpose of the course is to provide basic knowledge on the nature and properties of the more common metal-enzymes, with a focus on function and structure of the active site and on the role of these molecules in biological structures. Students completing the course will have become aware of the role of metals (mainly transition) in the organization of living systems.

1. Introduction. Primordial atmosphere. Bioavailability. Recalls on the structure and properties of biomolecules. The active site of a metal-protein. Structural or catalytic function. Recalls on enzymatic catalysis. Biomimicry
2. Zinc. Carbonic anhydrase. Carboxypeptidase. Alcohol dehydrogenase. Zinc fingers and DNA. The role of zinc in the insulin metabolism. Toxic elements of the group zinc: Cd and Hg. Other toxic metals: Pb, Cr.
3. Copper. Oxygen carriers. Blue-copper proteins and electron transport. Superoxide dismutase (Zn, Cu-SOD).
4. Metal Chaperones The case of copper.
5. Nickel. Urease. Hydrogenase and CO oxidoreductase. Ni-SOD
6. Manganese. Concanavalin. Peroxidase. Mn-SOD. Catalase.
7. Iron. Heme and non-heme iron-protein. Oxygen carriers: myoglobin, hemoglobin, eritrocruorin. Plant symbiotic and not symbiotic hemoglobin. Bacterial hemoglobin: flavohemoglobin. Iron-sulfur proteins. Rubredoxin. Siderophores. Convergent evolution and SOD (Cu/Zn, Fe, Ni, Mn). Cytochromes
8. Molybdenum. Mo containing oxotransferase: the cofactor MoCo. The role of molybdenum in the nitrogen cycle: nitrogenase.
9. Cobalt. Cobalamines, Vitamin B12. Methionine synthase. Methyl-malonyl mutase.
10. Photosynthesis. The. Photosystem I and II. Complex cytochrome b6/f. The role of Mn in the photosynthetic process: the oxygen evolving complex.

Textbooks and other readings
Slides presented in class will be available to the students on the university e-learning platform in the days before the holding of the lectures. The Protein Data Bank (PDB, free access) may also provide useful references to the original literature.

Lectures with the aid of power-point projections.

Office Hours
Every day , from 10 to 12 and from 14 to 17.