Mapping of a Major QTL, qHD6-SD Responsible for Days to heading Under Natural Short Day Conditions to Develop Rice Varieties adaptable to Tropical Regions

Abstract

In the tropics (Southeast Asian countries), indica rice is more common than japonica. Japonica rice is mainly cultivated in temperate regions, including Korea, Japan, and China (northeast regions) due to its poor adaptation to tropical areas. To develop tropically-adapted high-yielding japonica rice, breeders should overcome the challenges, including extremely early flowering, low biomass accumulation, and inferior panicle traits. This study investigated 180 F9 recombinant inbred lines (RILs) developed from a cross between Ilpum (temperate japonica) and Zenith (indica) as a case population to identify quantitative trait loci (QTLs) that influence the said traits. Here we identified two major QTLs, qHD6-SD and qHD6- LD, conferring days to heading under short day (SD) and long day (LD) conditions, respectively. Finer mapping revealed that both qHD6-SD and qHD6-LD located in the similar 98 kb region harbored the Hd1 gene. Days to heading in the RILs harboring the Zenith allele type of qHD6-SD under SD conditions were significantly longer than those in the RILs harboring the Ilpum allele type. On the contrary, days to heading in the RILs harboring the Zenith allele type of qHD6-SD under LD conditions were significantly shorter than those in the RILs harboring the Ilpum allele type. This bi-functionality of qHD6-SD upon heading strongly support the claim that both qHD6-SD and qHD6-LD might be the Hd1 gene. Our findings further support the claim that the functional allele type of Hd1 gene delays long-day heading and promotes extremely early short-day heading. Therefore, a non-functional Hd1 type is critical to tropical adaptation of japonica rice since it delays the heading date, which is essential to attain prolonged vegetative state in order to achieve optimum biomass, increased spikelet number, and grain filling capacity.