6533b860fe1ef96bd12c39c0
RESEARCH PRODUCT
Biomolecular-solvent stereodynamic coupling probed by deuteration.
Maurizio LeoneF. MadoniaS. L. ForniliMichele MiglioreP.l. San BiagioM.u. PalmaM. B. Palma-vittorellisubject
chemistry.chemical_classificationQuantitative Biology::BiomoleculesPhysics::Biological PhysicsAqueous solutionBiomoleculeMolecular ConformationStereoisomerismGeneral MedicineDeuteriumCondensed Matter::Soft Condensed MatterSolventCoupling (physics)Order (biology)chemistryModels ChemicalStructural BiologyComputational chemistryPhase spaceSolventsMoleculeThermodynamicsChemical stabilityPhysics::Chemical PhysicsMolecular Biologydescription
Thermodynamic interpretation of experiments with isotopically perturbed solvent supports the view that solvent stereodynamics is directly relevant to thermodynamic stability of biomolecules. According with the current understanding of the structure of the aqueous solvent, in any stereodynamic configuration of the latter, connectivity pathways are identifiable for their topologic and order properties. Perturbing the solvent by isotopic substitution or, e.g., by addition of co-solvents, can therefore be viewed as reinforcing or otherwise perturbing these topologic structures. This microscopic model readily visualizes thermodynamic interpretation. In conclusion, the topologic stereodynamic structures of connectivity pathways in the solvent, as modified by interaction with solutes, acquire a specific thermodynamic and biological significance, and the problem of thermodynamic and functional stability of biomolecules is seen in its full pertinent phase space.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1983-10-01 | Journal of biomolecular structuredynamics |