Gliadin proteins are a major component of gluten proteins and important determinants of bread-making quality by conferring the viscosity and extensibility of dough, but also present significant health problems for consumers with wheat-related diseases like celiac disease or wheat allergies. In order to solve this problem, we conducted RP-HPLC analysis to profile gliadin fractions for screening the mutants deficient in gliadins from 122 wheat doubled-haploid (DH) lines cultivated by the National Institute of Crop Science. Comparing the RP-HPLC chromatogram of 122 DH lines with those of the respective parents, we found that some peaks of omega-5 gliadin were not present in 28 DH lines. Further analysis using SDS-PAGE and A-PAGE showed that the omega-5 gliadin in the parental varieties had two to three bands, but only one band in the absent 28 DH lines. The relative expression levels of all gliadin groups in the parental and mutant lines were also examined by RP-HPLC. Our study contributes to establishing a method for the rapid screening and identification of mutants missing gliadins as major epitopes of wheat-related disease in many wheat genetic resources and breeding lines as valuable information to other researchers.

Gliadin proteins, which are a component of gluten and confer viscosity and extensibility on wheat dough, are major determinants of wheat processing suitability and also present dietary problems for consumers with celiac disease or wheat allergies. In this study, gliadin proteins of the hexaploid wheat variety ‘Chinese Spring’ (CS) and of its nullisomic-tetrasomic (NT) and ditelosomic (DT) lines missing group 1 and 6 chromosome, were analyzed using LabChip GXII Touch 24 within 1 min per sample. The chromatogram pattern analysis of gliadin proteins from group 1 aneuploid lines (N1AT1B, N1AT1D; N1BT1A, N1BT1D; N1DT1A, N1DT1B) missing 1A, 1B and 1D chromosomes respectively, from CS showed that 24, 25 and 26 sec peaks of CS, presuming to be ω5-, ω1,2- and γ- gliadins, were disappeared. The analysis of group 6 aneuploid lines (N6AT6B, N6AT6D, 6AL; N6BT6A, 6BL; N6DT6B, 6DL) missing 6A, 6AS; 6B, 6BS; 6D, 6DS chromosomes respectively, from CS indicated that 22, 25 and 26 sec peaks of CS, presuming to be α-/β- gliadins, were disappeared. The results of this study will be applicable to high-throughput screening of wheat gliadin mutants among wheat breeding lines and genetic resources for the development of allergy - reduced wheat.