Molecular conformations and molecular shape: A discrete characterization of continua of van der Waals surfaces

An algebraic method is proposed to represent and to characterize in a concise way the shape of an arbitrarily asymmetrical surface composed from spherical pieces. These surfaces include, among others, the well-known van der Waals surfaces. The procedure is based on the computation of a hierarchy of

Inducedjit configurational transitions in proteins can take many forms. In cases, wejind small "closures" of a loop onto the substrate In other cases, the structural changes triggered by a ligand involve large rearrangements that afect entire domains. The nature of these transitions is normally asse

A general, fast, and exact optimization, called neighbor-list ## Ž . reduction NLR , is presented, which can be used to accelerate the computation of hard-sphere molecular surface areas. NLR allows selected neighbors of a central atom to be removed from the computation in a preprocessing step, thu

We analyze the contact distance distributions between nonbonded atoms in known protein structures. A complete set of van der Waals (VDW) radii for 24 protein atom types and for crystal-bound water is derived from the contact distance distributions of these atoms with a selected group of apolar atoms