References
- Jos J, de Tand M F, Arnaud-Battandier F, Boissel J P, Popineau Y, Wajcman H. Separation of pure toxic peptides from a β-gliadin subfraction using high-performance liquid chromatography. Clin Chim Acta 1983; 134: 189–198
- Wieser H, Belitz H D, Ashkenazi A. Amino acid sequence of the coeliac active peptide B3142. Z Lebensm Unters Forsch 1984; 179: 371–376
- Wieser H, Belitz H D, Idar D, Ashkenazi A. Coeliac activity of the gliadin peptides CT-1 and CT-2. Z Lebensm Unters Forsch 1986; 182: 115–117
- Cornell H J. Amino acid composition of peptides remaining after the in vitro digestion of a gliadin sub-fraction with duodenal mucosa from patients with coeliac disease. Clin Chim Acta 1988; 176: 279–289
- Anderson O D, Litts J C, Gautier M F, Greene F C. Nucleic acid sequence and chromosome assignment of a wheat storage protein gene. Nucleic Acids Res 1984; 12: 8129–8144
- Kasarda D D, Okita T W, Bernardin J E, et al. Nucleic acid (cDNA) and amino acid sequences of α-type gliadins from wheat (Triticum aevistum). Proc Natl Acad USA 1984; 81: 4712–4716
- de Ritis G, Auricchio S, Jones H W, Lew E J-L, Bernardin J E, Kasarda D D. In vitro (organ culture) studies of the toxicity of specific A-gliadin peptides in celiac disease. Gastroenterology 1988; 94: 41–49
- Kagnoff M F, Austin R K, Hubert J J, Bernardin J E, Kasarda D D. Possible role for a human intestinal adenovirus in the pathogenesis of celiac disease. J Exp Med 1984; 160: 1544–1557
- Kagnoff M F, Paterson Y J, Kumar P J, et al. Evidence for a role of a human intestinal adenovirus 12 in the pathogenesis of coeliac disease. Gut 1987; 28: 995–1001
- Karagiannis J A, Priddle L D, Jewell D P. Cell-mediated immunity to a synthetic gliadin peptide resembling a sequence from adenovirus 12. Lancet 1987; 1: 884–886
- Mantzaris G J, Karagiannis J A, Priddle J D, Jewell D P. Cellular hypersensitivity to a synthetic dode-capeptide derived from adenovirus 12 which resembles a sequence of A gliadin in patients with coeliac disease. Gut 1990; 31: 668–673
- Devery J M, La Broy J T, Krillis S, Davidson G, Skerrit J H. Anti-gliadin antibody specificity for gluten derived peptides toxic to coeliac patients. Clin Exp Immunol 1989; 76: 384–390
- Terasaki P I, Bernoco D, Park M S, et al. Mi-crodroplet testing for HLA.-A, B, C and DR antigens. Am J Clin Pathol 1978; 69: 103–120
- Ferguson A, Murray D. Quantitation of intra-epithelial lymphocytes in human jejunum. Gut 1971; 12: 988–994
- Taylor C R. Immunoperoxidase techniques. Arch Pathol Lab Med 1978; 102: 113–121
- Scott B B, Goodall A, Stephenson P, Jenkins D. Small intestinal plasma cells in coeliac disease. Gut 1984; 25: 41–46
- Dahlqvist A. Assay of intestinal disaccharidases. Anal Biochem 1968; 22: 99–107
- Asp N G, Dahlqvist A. Human small intestine β-galactosidases: specific assay for three different enzymes. Anal Biochem 1972; 47: 527–538
- Clausen J E. Migration inhibitory effect of cell-free supernatants from tuberculin-stimulated cultures of human mononuclear leucocytes demonstrated by two-step MIF agarose assays. J Immunol 1973; 110: 546–551
- Marley N J E, Macartney J C, Ciclitira P J. HLA.-D. R., DP and DQ expression in the small intestine of patients with coeliac disease. Clin Exp Immunol 1987; 70: 386–393
- Okita T W, Cheesbrough V, Reeves C D. Evolution and heterogeneity of the α/β and lg-type gliadin DNA sequences. J Biol Chem 1985; 260: 8203–8213
- Shewry P R, Miflin B J, Lew E J -L, Kasarda D D. The preparation and characterization of an aggregated gliadin fraction from wheat. J Exp Botany 1983; 34: 1403–1410
- Scheets K, Rafalski J A, Hedgcoth C, Soll D. Hepta-peptide repeat structure of a wheat γ-gliadin. Plant Sci Lett 1985; 37: 221–225
- Rafalski J A. Structure of wheat gamma-gliadin genes. Gene 1985; 43: 221–229
- Sugiyama T, Rafalski A, Peterson D, Soll D. A wheat HMW glutenin subunit gene reveals a highly repeated structure. Nucleic Acids Res 1985; 13: 8729–8737