Part I Techniques: hydrodynamic properties of macromulecular assemblies, J.Garcia de la Torre; modelling the gross conformation of assemblies using hydrodynamics - the whole body approach, S.E.Harding; aggregation and elastic moduli of weakly interacting macromolecules, D.M.Heyes and J.R.Melrose; biological applications of solid state NMR; dynamic light scattering by partially-fluctuating media, P.N.Pusey; analysi of macromolecular structures in solution by electro - optical procedures, D.Porschke and J.Antoniewicz; fluorescence studies of protein-subunit interactions, M.Han, et al; maximum entropy data analysis of dynamic parameters from pulsed-fluorescent decays, A.K.Livesey and J.C.Brochon Part 2 Dynamics of protein, nucleic acid and protein-nucleic acid assemblies: an approach to the hydrodynamics of elastically linked protein oligomers, A.J.Rowe; laser light scattering determination of size and particle composition of -endotoxin crystals from "Bacillus thuringiensis", D.B.Sattelle et al; hydrodynamic and fluorescence analysis of a DNA binding protein and its interaction with DNA, G.G.Kneale; mechanisms of dynamic ordering in DNA solutions, V.A.Bloomfield; 15N NMR spectroscopy of DNA in the solid state, K.M.Morden and S.J.Opella. Part 3 Dynamics of glycoconjugates and membranes: conformational equilibria and dynamics of small carbohydrates - anomers, tautomers and rotamers, F.Franks; hydrodynamic modelling of complement, S.J.Perkins; flow properties of proteoglycan solutions, T.E.Hardingham et al; models for the macromolecular structure of mucus glycoproteins, J.K.Sheehan and I.Carlstedt; conformations and dynamics of saccarides, R.J.P.Williams and D.L.Fernandes; magnetic resonance studies of molecular dynamics at membrane surfaces, A.Watts; dynamic properties of model membranes by quasi-elastic light scattering, J.C.Earnshaw.
