Supramolecular chemistry of biological systems
Scientific Disciplinary Sector (SSD)
CHIM/06 - ORGANIC CHEMISTRY
I semestre dal Oct 1, 2020 al Jan 29, 2021.
This course examines the fundamentals of supramolecular chemistry, the domain of chemistry beyond that of molecules, in biological contexts. The discipline focuses on the chemical systems made up of a discrete number of assembled molecular subunits or components. Important concepts that have been demonstrated by supramolecular chemistry include molecular self-assembly, biomolecular folding, molecular recognition, host-guest chemistry, and molecular architectures. Students develop an understanding of the driving forces of supramolecular associations and how to exploit them for applications in biotechnology and biomedicine.
- Concepts. Reversible non-covalent interactions between molecules, including hydrogen bonding, metal coordination, hydrophobic forces, van der Waals forces, pi-pi interactions, electrostatics. Cation , anion, and neutral molecule binding.
- Biological supramolecular systems: protein-protein and protein-ligand complexes, nucleic acids, viruses, membranes, cells.
- Methods. Fluorescence spectroscopy, Calorimetry, NMR spectroscopy.
- Self-assembly and self-organization. Thermodynamics of self-assembly. Template effects. Protein aggregation, fibril formation.
- Molecular recognition. Host-guest chemical systems. Receptor-ligand complexes. Lock and key model. Pre-organization and complementarity. Dynamic effects and allosteric binding. Rational drug design. Protein-protein interaction inhibitors. Supramolecular antibiotics.
- Template-directed synthesis. Encapsulation systems for catalysis. Catalytic systems. Enzyme mimics.
- Molecular transport and delivery. Encapsulation and targeted release mechanisms. Liposomal drug carriers. Cyclodextrins.
- Biomolecule-nanoparticle interactions. The biomolecular corona of nanoparticles. Nanoparticle effects on protein stability and structure. Hybrid nanosystems. Nanoparticle functionalization with biomolecules.
THE METHOD OF DELIVERY OF THE DIDACTICS WILL ADAPT TO THE CONTINGENT SITUATIONS RELATED TO THE HEALTH EMERGENCY
|Jonathan W. Steed & Jerry L. Atwood
||John Wiley & Sons
|Peter J. Cragg
||Supramolecular chemistry. From biological inspiration to biomedical applications.
The examiner will verify through oral examination that the student has learned the chemical bases of supramolecular interactions, namely the principles that guide the molecular recognition mechanisms. The student must also be able to thoroughly discuss the main biological supramolecular systems, including in particular the biomolecular complexes, the superstructures, aggregates, and vesicular systems. Students are expected to know of examples of supramolecular chemistry in biomedical applications.
VARIATIONS WILL BE POSSIBLE ON THE METHOD OF EXAMINATION ON THE BASIS OF THE CONDITIONS SET BY THE HEALTH EMERGENCY