José Ramón Guzmán Álvarez scite author profile

The starch fraction, comprising about 70% of the total dry matter in the wheat grain, can greatly affect the end-use quality of products made from wheat kernels, especially Asian noodles. Starch is associated with the shelf life and nutritional value (glycaemic index) of different wheat products. Starch quality is closely associated with the ratio of amylose to amylopectin, the two main macromolecules forming starch. In this review, we briefly summarise the discovery of waxy proteins-shown to be the sole enzymes responsible for amylose synthesis in wheat. The review particularly focuses on the different variants of these proteins, together with their molecular characterisation and evaluation of their effects on starch composition. There have been 19 different waxy protein variants described using protein electrophoresis; and at a molecular level 19, 15 and seven alleles described for Wx-A1, Wx-B1 and Wx-D1, respectively. This large variability, found in modern wheat and genetic resources such as wheat ancestors and wild relatives, is in some cases not properly ordered. The proper ordering of all the data generated is the key to enhancing use in breeding programmes of the current variability described, and thus generating wheat with novel starch properties to satisfy the demand of industry and consumers for novel high-quality processed food.

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Diversification of the celiac disease α‐gliadin complex in wheat: a 33‐mer peptide with six overlapping epitopes, evolved following polyploidization

Ozuna

Iehisa

Giménez

et al. 2015

The Plant Journal

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SUMMARYThe gluten proteins from wheat, barley and rye are responsible both for celiac disease (CD) and for nonceliac gluten sensitivity, two pathologies affecting up to 6-8% of the human population worldwide. The wheat a-gliadin proteins contain three major CD immunogenic peptides: p31-43, which induces the innate immune response; the 33-mer, formed by six overlapping copies of three highly stimulatory epitopes; and an additional DQ2.5-glia-a3 epitope which partially overlaps with the 33-mer. Next-generation sequencing (NGS) and Sanger sequencing of a-gliadin genes from diploid and polyploid wheat provided six types of a-gliadins (named 1-6) with strong differences in their frequencies in diploid and polyploid wheat, and in the presence and abundance of these CD immunogenic peptides. Immunogenic variants of the p31-43 peptide were found in most of the a-gliadins. Variants of the DQ2.5-glia-a3 epitope were associated with specific types of a-gliadins. Remarkably, only type 1 a-gliadins contained 33-mer epitopes. Moreover, the full immunodominant 33-mer fragment was only present in hexaploid wheat at low abundance, probably as the result of allohexaploidization events from subtype 1.2 a-gliadins found only in Aegilops tauschii, the D-genome donor of hexaploid wheat. Type 3 a-gliadins seem to be the ancestral type as they are found in most of the a-gliadin-expressing Triticeae species. These findings are important for reducing the incidence of CD by the breeding/selection of wheat varieties with low stimulatory capacity of T cells. Moreover, advanced genome-editing techniques (TALENs, CRISPR) will be easier to implement on the small group of a-gliadins containing only immunogenic peptides.

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The Development of Tritordeum: A Novel Cereal for Food Processing

Martı́n

Álvarez

Martín

et al. 1999

Journal of Cereal Science

133

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Silencing of γ-gliadins by RNA interference (RNAi) in bread wheat

Gil-Humanes

Pistón

Hernando

et al. 2008

Journal of Cereal Science

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Allelic variation of the HMW glutenin subunits in Spanish accessions of spelt wheat (Triticum aestivum ssp. spelta L. em. Thell.)

2001

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