The Ribbon of Hydrogen Bonds in the Three-Dimensional Structure of Globular Proteins

Abstract

We report quantum mechanical computations and experimental evidence which suggest that the backbone conformation of globular proteins depends generally on the conservation of that part of the hydrogen bond network or ribbon which is joined, in general, directly to the backbone and is largely independent of the remainder of this whole network of hydrogen bonds. The familiar hydrogen bonds of the α helix and the β sheet form about one-half of this ribbon of hydrogen bonds. Both water molecules and hydrogen bonding side chain groups are involved in the formation of the ribbon.This view of the three-dimensional structure of globular proteins in terms of the `molecule' allows us to deal with the non-secondary structure as well as with the familiar secondary structure. It also suggests that the ribbon contains approximately the same number of hydrogen bonds within all three structures – the α helix, the β sheet and the coil – and that this is the reason for the ease of interconversion of these three structures.