The location of disulphide bonds in α-type gliadins

Abstract

Gliadin prepared from gluten of the cultivar Rektor by extraction with 70% (v/v) aqueous ethanol adjusted to pH 5.5 was separated by RP-HPLC. Amongst 23 components obtained, two α-type gliadins (α3- and α8-gliadin) were selected for the determination of disulphide bonds. After both proteins were digested with thermolysin, differential RP-HPLC (chromatography prior to and after reduction of disulphide bonds) was used for the detection of cystine peptides. Two cystine peptides from α3-gliadin and three cystine peptides from α8-gliadin were isolated by RP-HPLC. The resulting peptides were reduced and alkylated with 4-vinylpyridine, separated by RP-HPLC and their amino acid sequences determined. The cystine peptides from both α-type gliadins had similar structures, and the corresponding fragments had homologous sequences. One cystine peptide of each gliadin was composed of three fragments linked by two disulphide bonds. The second cystine peptide consisted of two fragments linked by one disulphide bond. The third cystine peptide derived from α8-gliadin was different from the second peptide in one position of the sequences (glutamic acid instead of glutamine). Comparing complete sequences of α-type gliadins described in the literature, the cystine peptides from α3- and α8-gliadins were identical with corresponding sequences of clones A1235 and A212, respectively 11. The structures of the cystine peptides analysed indicate one intramolecular disulphide bond within domain III of α-type gliadins and two disulphide bonds between domains III and V. The linkages found correspond to homologous linkages determined for low M r subunits of glutenin and glutenin-bound γ-type gliadins 6. Obviously, these intramolecular disulphide bonds are not linked randomly, but are strongly directed.