Genetic Characteristic of High Molecular Weight Glutenin Subunits in Somatic Hybrid Wheat LinesPotential Application to Wheat Breeding

Abstract

Analysis of 17 derivatives from a somatic fusion between common wheat (Triticum aestivum) and tall wheat grass (Thinopyrum ponticum) showed a diversity of high molecular weight glutenin subunit (HMW-GS) compositions. On the basis of the inheritance of HMW-GS patterns, the derivatives were either (i) bred true over four successive generations, (ii) generated a few novel HMW-GS combinations at each generation, or (iii) showed highly unstable HMW-GS compositions. HMW-GS analysis of F(5) seed and each single seed-generated F(6) progenies further revealed that most of the HMW-GS had genetic stability. The variations of HMW-GS were inferred to occur in early generations and were maintained thereafter. Low molecular weight glutenin subunits (LMW-GS) in hybrid lines with high or low bread-making quality, classified into the first pattern, were compared. The result showed that hybrid lines with the uniform HMW-GS patterns also have identical LMW-GS patterns. The Glu-1 quality score was inferred to be relatively significant to the sodium dodecyl dulfate sedimentation value, as well as to correlate with the gluten exponent and contents of dry gluten and proteins. Sexual hybridization between high-quality somatic hybrid progeny II-12 and Chinese Spring (CS) showed that these high-quality HMW-GS genes could entail progenies. There was not subunit variation in the progenies of II-12 x CS. Therefore, sexual hybridization between somatic hybrid line and cultivars can transfer novel high-quality HMW-GS of somatic hybrids and benefit wheat breeding.