A contribution to molecular recognition from rotational spectroscopy, A.C. Legon; an approach to molecular recognition based on partitioning of free energy contributions, D.H. Williams and M.S. Searle; on the role of preorganization in molecular recognition, P.A. Kollman; self-assembly through networks of hydrogen bonds, J.P. Mathias et al; controlling self-assembly in organic synthesis, P.R. Ashton et al; recognition, replication, and assembly, J. Rebek; directed hydrogen bonding in the design of new receptors for complexation and catalysis, R.P. Dixon et al; structure and mechanism of cholesterol oxidase, A. Vrielink et al; catalytic mechanism and active-site structure of methylaspartate ammonia-lyase - possible involvement of an electrophilic dehydroalanine reaction centre, N.P. Botting et al; ligand binding to acetylcholine receptors, V.B. Cockcroft et al; peptides and amino-acids of medicinal importance, R.A. August et al; molecular recognition and drug design - the structural basis of specificity of human and mouse renins defined by X-ray analyses of peptide inhibitor complexes, V. Dhanaraj et al; an investigation of the bioactive conformation of ARG-GLY-ASP containing cyclic peptides and snake venom peptides which inhibit human platelet aggregation, M.M. Hann et al; bacterial IgG-binding proteins - two solutions to a molecular recognition problem, G.C.K. Roberts et al; experimental and theoretical studies of enantioselective receptors for peptides, W. Clark Still et al; enabling methodology - the synthetic chemist's contribution to molecular recognition, S.V. Ley and L.L. Yeung.
