Analysis of the code relating sequence to conformation in globular proteins. The distribution of residue pairs in turns and kinks in the backbone chain

Abstract

1. The residue pair is considered as the fundamental unit which differentiates α-helix, β-pleated sheet and the various turns and kink structures of the protein backbone. 2. The HPLG alphabet (Robson & Pain, 1974) is used to group pairs of residues, giving 16 possible conformational pairs, all of which are found with differing frequencies in the nine proteins examined. 3. The frequencies of occurrence of the 16 different types of turn or kink are analysed in relation to the constituent amino acids. Those containing the L or G conformation are of low frequency and are grouped for purposes of this analysis. 4. The distribution of amino acids within all the conformational pairs is non-random, with distinct preferences shown by certain residues. 5. All pairs containing an L or G conformation require the presence of a glycine or a proton-donor side chain. 6. The results are discussed in terms of the determination of these ‘random’ structures by local interactions.