Gelatinization temperature (GT) is an important component of eating and cooking quality (ECQ) of rice. While direct measurement of GT is cumbersome, the alkali spreading value (ASV) test is a robust method commonly used to rapidly identify different GT types. In this study, we employed a modified ASV assay to screen a population of chemically-induced rice (cv. Kitaake) mutants (n = 405). Two mutant families, KDS-1623B and KDS-1824B, with significantly lower ASV (higher GT type) than wild type Kitaake (low GT type) were isolated. A nonsynonymous homozygous mutation in the isoamylase-type starch debranching enzyme gene
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Aerial surfaces of terrestrial plants are protected from the uncontrolled loss of water and gas by the cuticle, a membrane of fatty acid polymers on the outer surface of epidermal cells. Composed of cutin and waxes, the cuticle protects against a wide range of external stresses and has an important role in plant development and reproduction. Plants with reduced cuticular waxes often exhibit glossy, bright green leaves, which in rice are only observed in the presence of water adhesion. In this study, a wet leaf/glossy (wlg) mutant KDS-2249D was subjected to targeted exon capture and sequencing to identify candidate mutations. A single nonsynonymous, homozygous mutation was found in the KDS-2249D mutant. The mutation (G1080A) is predicted to change a tryptophan at position 360 to a stop codon in the
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