Infuence of the year and HMW glutenin subunits on end-use quality predictors if bread wheat waxy lines

The effects of environment and the high molecular weight glutenins on some quality properties (sedimentation volume, % protein content, and starch pasting viscosity) of bread wheat mutant waxy lines were evaluated. Thirty-eight 100% amylose-free F 2 derived F 6 and F 7 lines were used. The results indicated that the environment did not influence sedimentation volume, mixograph parameters and starch viscosity parameters of waxy flour. Variation in the % protein content was determined mainly by the environment. The sedimentation volume and the mixograph peak development time were influenced by the variation at over expression of Bx7 and the mixograph peak development time was influenced by the Glu-D1 locus. One starch viscosity parameter, time to peak viscosity, was influenced by variation at the Glu-A1 locus. This parameter is significantly lower in the waxy lines than the parent line, which shows the influence of the waxy loci. No significant correlation was observed for sedimentation volume, mixograph parameters, protein content and viscosity parameters of waxy line

Y-type gene specific markers for enhanced discrimination of high-molecular weight glutenin alleles at the Glu-B1 locus in hexaploid wheat

A number of primers were designed which target DNA sequence variation of the coding and /or promoter regions of wheat HMW glutenin y-type genes located at the Glu-B1 locus. This allowed the development of a set of PCR-based markers for specific HMW glutenin genes encoding By-subunits for which no markers were previously available. Markers were validated using test cultivars containing specific Glu-B1 alleles confirmed by SDS-PAGE and RP-HPLC analysis. Among the specific markers developed, primer pair ZSBy8F5/R5 was specific for the By8 gene, which exists in Glu-B1b (Bx7+By8) and Glu-B1u (Bx7*+By8) alleles. This marker allows discrimination of alleles containing By8 and By8* that are usually difficult to distinguish using SDS-PAGE. Since the over-expressed Glu-B1 allele (Glu-Bl al.) contains the By8* subunit, it is possible to use this marker in breeding programs for selecting for the over-expression of subunit Bx7 in crosses that segregate between normal Bx7 and over-expressed Bx7 subunits. This marker also represents an alternative for distinguishing two common Glu-B1 alleles: Glu-B1i (Bx17+By18) and Glu-B1b (Bx7+By8). Two primer pairs ZSBy9aF1/R3 and ZSBy9F7/R6 both gave characteristic banding patterns for Glu-B1c (Bx7+By9) and can therefore be used to discriminate By9 - containing alleles from non - By9 alleles. Primer pair ZSBy9F2/R2 produced amplicons with a diagnostic banding pattern for allele Glu-B1f (Bx13+By16) and also permitted the discrimination of Glu-B1h (Bx14+By15) and Glu-B1e (Bx20) that have opposing genetic effects on wheat quality and are difficult to discriminate by SDS-PAGE

Molecular discrimination of Bx7 alleles demonstrates that a highly expressed high-molecular-weight glutenin allele has a major impact on wheat flour dough strength

High-molecular-weight glutenin subunits (HMW-GS) are important determinants of wheat dough quality as they confer visco-elastic properties to the dough required for mixing and baking performance. With this important role, the HMW-GS alleles are key markers in breeding programs. In this work, we present the use of a PCR marker initially designed to discriminate Glu1 Bx7 and Glu1 Bx17 HMW-GS. It was discovered that this marker also differentiated two alleles, originally both scored as Glu1 Bx7, present in the wheat lines CD87 and Katepwa respectively, by a size polymorphism of 18 bp. The marker was scored across a segregating doubled-haploid (DH) population (CD87 × Katepwa) containing 156 individual lines and grown at two sites. Within this population, the marker differentiated lines showing the over-expression of the Glu1 Bx7 subunit (indicated by the larger PCR fragment), derived from the CD87 parent, relative to lines showing the normal expression of the Glu1 Bx7 subunit, derived from the Katepwa parent. DNA sequence analysis showed that the observed size polymorphism was due to an 18 bp insertion/deletion event at the C-terminal end of the central repetitive domain of the Glu1 Bx 7 coding sequence, which resulted in an extra copy of the hexapeptide sequence QPGQGQ in the deduced amino-acid sequence of Bx7 from CD87. When the DH population was analysed using this novel Bx7 PCR marker, SDS PAGE and RP HPLC, there was perfect correlation between the Bx7 PCR marker results and the expression level of Bx7. This differentiation of the population was confirmed by both SDS-PAGE and RP-HPLC. The functional significance of this marker was assessed by measuring key dough properties of the 156 DH lines. A strong association was shown between lines with an over expression of Bx7 and high dough strength. Furthermore, the data demonstrated that there was an additional impact of Glu-D1 alleles on dough properties, with lines containing both over-expressed Bx7 and Glu-D1 5+10 having the highest levels of dough strength. However, there was no statistically significant epistatic interaction between Glu-B1 and Glu-D1 loci

Development and characterization of a chimaeric tissue-specific promoter in wheat and rice endosperm

The recently achieved significant improvement of cereal transformation protocols provides facilities to alter the protein composition of the endosperm, for example, to increase or decrease the quantity of one of its protein components or to express foreign molecules. To achieve this goal, strong endosperm-specific promoters have to be available. The aim of our work was to develop a more efficient tissue-specific promoter which is currently used. A chimaeric promoter was assembled using the 5' UTR (1,900 bp) of the gene coding for the 1Bx17 HMW glutenin subunit protein, responsible for tissue-specific expression and the first intron of the rice actin gene (act1). The sequence around of the translation initial codon was optimized. The effect of the intron and promoter regulatory sequences, using different lengths of 1Bx17 HMW-GS promoter, were studied on the expression of uidA gene. The function of promoter elements, promoter length, and the first intron of the rice actin gene were tested by a transient expression assay in immature wheat endosperm and in stable transgenic rice plants. Results showed that insertion of the rice act1 first intron increased GUS expression by four times in transient assay. The shortest 1Bx17 HMW-GS promoter fragment (173 bp) linked to the intron and GUS reporter gene provided almost the same expression level than the intronless long 1Bx17 HMW-GS promoter. Analysis of the stable transformant plants revealed that 173 nucleotides were sufficient for endosperm-specific expression of the uidA gene, despite 13 nucleotides missing from the HMW enhancer sequence, a relevant regulatory element in the promoter region