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  • Title: Characterization of barley (Horduem vulgare) lys3 mutants identifies genes under the regulation of the prolamin-box binding transcription factor and elucidates its role in endosperm promoter methylation during grain development.
    Author: Vinje MA, Simmons CH.
    Journal: Mol Genet Genomics; 2024 Feb 28; 299(1):17. PubMed ID: 38416243.
    Abstract:
    Barley ranks fourth in global cereal production and is primarily grown for animal feed and malt. Hordeins, the principal barley seed storage proteins, are homologous to wheat gluten and when ingested elicit an immune response in people with Coeliac disease. Risø 1508 is a chemically induced barley mutant with low hordein levels imparted by the lys3.a locus that is reported to be caused by an SNP in the barley prolamin-box binding factor gene (BPBF). Reports suggest the lys3.a locus prevents CG DNA demethylation at the Hor2 (B-hordein) promoter during grain development subsequently causing hypermethylation and inhibiting gene expression. In lys3.a mutants, endosperm-specific β-amylase (Bmy1) and Hor2 are similarly downregulated during grain development and thus we hypothesize that the inability to demethylate the Bmy1 promoter CG islands is also causing Bmy1 downregulation. We use whole-genome bisulfite sequencing and mRNA-seq on developing endosperms from two lys3.a mutants and a lys3.b mutant to determine all downstream genes affected by lys3 mutations. RNAseq analysis identified 306 differentially expressed genes (DEGs) shared between all mutants and their parents and 185 DEGs shared between both lys3.a mutants and their parents. Global DNA methylation levels and promoter CG DNA methylation levels were not significantly different between the mutants and their parents and thus refute the hypothesis that the lys3.a mutant's phenotype is caused by dysregulation of demethylation during grain development. The majority of DEGs were downregulated (e.g., B- and C-hordeins and Bmy1), but some DEGs were upregulated (e.g., β-glucosidase, D-hordein) suggesting compensatory effects and potentially explaining the low β-glucan phenotype observed in lys3.a germplasm. These findings have implications on human health and provide novel insight to barley breeders regarding the use of BPBF transcription factor mutants to create gluten-free barley varieties.
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