In spite of much work, many of the properties of water remain puzzling. A f
luctuating network of water molecules, with localised icosahedral symmetry,
is proposed to exist derived from clusters containing, if complete, 280 fu
lly hydrogen-bonded molecules. These are formed by the regular arrangement
of identical units of 14 water molecules that can tessellate locally, by ch
anging centres, in three-dimensions and interconvert between lower and high
er density forms. The structure allows explanation of many of the anomalous
properties of water including its temperature-density and pressure-viscosi
ty behaviour, the radial distribution pattern, the presence of both pentame
rs and hexamers, the change in properties and 'two-state' model on supercoo
ling and the solvation properties of ions, hydrophobic molecules, carbohydr
ates and macromolecules. The model described here offers a structure on to
which large molecules can be mapped in order to offer insights into their i
nteractions. (C) 1999 Elsevier Science B.V. All rights reserved.