Rice is one of the most important factors in determining the quality of sake. The grain kernel of sake rice cultivars is characterized by the possession of a white cloudy tissue at the center, termed 'white core'. The white core is a critical trait that affects, among others, water absorbability for sake production, yet the mechanism of controlling the tissue formation of the white-core remains not fully understood.
In this study, we focused on Seed dormancy 4 (Sdr4-k) —derived from indica rice "kasalth"—as a potential regulator of seed dormancy as well as high temperature (HT)-induced grain chalkiness reduction at the ripening stage. Using a biotron speed-breeding system —with controlled light, temperature, tiller removal, and embryo rescue—, we precisely introgressed the Sdr4-k gene into the sake rice varieties "Koshitanrei" and "Gohyakumangoku", and we developed a BC₃ population, named "Koshitanrei Sdr4-k" and "Gohyakumangoku Sdr4-k" in six generations and 17 months.
Field assessment, gene expression, and brewing characteristics data indicated that plants carrying the Sdr4-k gene had similar brewing traits to the WT. Koshitanrei Sdr4-k subjected to HT had significantly higher grain quality and seed dormancy than the WT. Our data revealed that HT induced alteration of starch-related gene expression in Koshitanrei Sdr4-k and Gohyakumangoku Sdr4-k ripe seeds than WT.