D hordein, a prolamin storage protein of barley endosperms, is highly homologous to the high molecular weight (HWM) glutenin subunits, which are the major determinants of bread-making quality in wheat flour. In hexaploid wheat (AABBDD), each genome contains two paralogous copies of HMW-glutenin genes that encode the x- and y-type HMW-glutenin subunits. Previously, we reported the sequence analy...

A wheat cultivar "Chinese Spring" chromosome substitution line CS-1S(l)(1B), in which the 1B chromosome was substituted by 1S(l) from Aegilops longissima, was developed and found to possess superior dough and breadmaking quality. The molecular mechanism of its super quality conformation is studied in the aspects of high molecular glutenin genes, protein accumulation patterns, glutenin polymeric...

Wheat (Triticum aestivum L.) flour properties necessary for optimal tortilla production have not been identified. Transgenic wheats (Triticum aestivum L.) overexpressing high molecular weight glutenin subunit (HMW-GS) 1Dy10 were used to make tortilla and their quality was evaluated. The level of HMW-GS 1Dy10 in flours derived from transgenic wheats was 2.5-5.8-fold greater than in controls. Pol...

High molecular weight glutenin subunits (HMW-GS) are among the major determinant on wheat bread-making quality. Rapid ultra-performance liquid chromatography (UPLC) methods with high resolution and reproducibility for HMW-GS separation were established in this work. A sample could be completely analyzed in less than 12 min by using the optimized UPLC conditions: gradually increasing elution gra...

Bread wheat (Triticum aestivum) is an allohexaploid species, consisting of three subgenomes (A, B, and D). To study the molecular evolution of these closely related genomes, we compared the sequence of a 307-kb physical contig covering the high molecular weight (HMW)-glutenin locus from the A genome of durum wheat (Triticum turgidum, AABB) with the orthologous regions from the B genome of the s...

High molecular weight glutenin subunits (HMW-GSs) are key determinants for the end-use quality of wheat. Chinese wheat landraces are an important resource for exploring novel HMW-GS genes to improve the wheat baking quality. Two novel Glu-1Dy HMW-GSs (designated as 1Dy12.6 and 1Dy12.7) were identified and cloned from two Chinese wheat landraces Huazhong830 and Luosimai. The 1Dy12.6 and 1Dy12.7 ...

Amino acids are delivered into developing wheat grains to support the accumulation of storage proteins in starchy endosperm, and transporters play important roles regulating this process. RNA-seq, RT-qPCR, promoter-GUS assays showed that three amino acid differentially expressed endosperm transfer cells ( TaAAP2 ), TaAAP13 aleurone embryo grain TaAAP21 respectively. Yeast complementation reveal...

Background and Objectives Wheat gluten proteins make up one of the most complex protein aggregates in nature. Their qualitative quantitative composition is determined by genetic environmental factors as well technological processes. Findings Gluten comprise ?5-, ?1,2-, ?-, ?-gliadins high-molecular-weight glutenin subunits (HMW-GS) low-molecular-weight (LMW) GS. About 50% are monomeric gliadins...

The Roegneria of Triticeae is a large genus including about 130 allopolyploid species. Little is known about its high-molecular-weight glutenin subunits (HMW-GSs). Here, we reported six novel HMW-GS genes from R. nakaii and R. alashanica. Sequencing indicated that Rny1, Rny3, and Ray1 possessed intact open reading frames (ORFs), whereas Rny2, Rny4, and Ray2 harbored in-frame stop codons. All of...