Learning outcomes of the course unit
The course aims at providing students with the thermodynamic concepts for understanding the energy interconversion in biological systems and the interaction of ligands with biological macromolecules.
Course contents summary
The laws of thermodynamics. Application of thermodynamic principles to chemical and biological systems. Calorimetry and biocalorimetry.
Thermodynamic properties of solutions and applications, phase equilibria, osmotic pressure, membrane equilibria.
Chemical equilibrium, thermodynamics of chemical reactions in solution, proton binding: pH behaviour of biomolecules, binding equilibria, binding curves.
Bioenergetics, molecules through membranes: transport modes, coupled reactions.
Intermolecular forces, van der Waals forces, potential energy, hydrogen bond, hydrophobic interactions.
- P. W. Atkins, J. De Paula, Chimica Fisica Biologica 1, prima edizione italiana, Zanichelli, Bologna, 2007.
- P. W. Atkins, J. De Paula, Chimica Fisica, quarta edizione italiana, Zanichelli, Bologna, 2004.
- A.G. Marshall, Biophysical Chemistry, Wiley & sons, New York.
- K.E. Van Holde, Physical Biochemistry, Prentice-Hall, Englewood Cliffs.
- David G. Nicholls Bioenergetics Academic press, inc.
- Scientific reviews on specific topics.
During teaching activity the students can take two written "in itinere" tests, or, otherwise, there are written examinations on the whole syllabus during normal examination sessions