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Characterization of the Sub1 locus Conferring Submergence Tolerance in the Rice (Oryza sativa L.) Variety 'Goda Heenati'
Thesis Abstract:
Molecular markers for submergence tolerance would accelerate breeding progress by increasing selection efficiency. Resistance to submergence stress is an important breeding objective in areas where rice cultivars are subjected to complete inundation for a week or more. The characterization of Sub1 genes would lead to a better understanding of the mechanism of rice submergence tolerance and would facilitate introduction of Sub1 into susceptible rice cultivars through transformation.
Goda Heenati, one of the few rice cultivars showing submergence tolerance, has been reported to possess a major gene different from Sub1, the locus controlling tolerance in FR13A and other tolerant cultivars. To understand if the Sub1 locus plays a role in controlling tolerance in Goda Heenati, an F2 mapping population derived from a cross of M-202 (a submergence susceptible japonica) and Goda Heenati (a submergence tolerant indica) varieties was constructed through polymerase chain reaction (PCR)-based simple sequence repeat (SSR) markers. A total of 164 F3 families were screened for submergence tolerance. The map was constructed using 85 microsatellite markers. Only 46 markers were available to construct a linkage map for the 12 chromosomes. This map had a total length of 753.6 cM with an average interval size of 16.4 cM. With the constructed SSR map, four markers were associated with quantitative trait loci (QTL) for submergence tolerance at seedling stage in chromosome 9 with high logarithm of odds (LOD) peaks of 18.42, 14.89, 19.41, and 23.22 at marker loci RM316, RM464, SSR1, and RM219, respectively. These loci could explain 62.8, 40.6, 83.7, and 84.3 percent, respectively, of the phenotypic variation. The location of the quantitative trait loci was the same as that of AFLP211 and AFLP303, two amplified fragment length polymorphism (AFLP) markers cosegregating with Sub1 in a high resolution linkage map established previously.
Based on these results, it can be concluded that the major QTL identified for Goda Heenati was one of the alleles at the Sub1 locus, and that Sub1 was the major determinant of submergence tolerance in all rice cultivars with submergence tolerance identified so far. The sequence of candidate genes in Goda Heenati would probably give an idea of which gene sequences were associated with submergence tolerance. This would be useful information in determining the mechanism of action of the Sub1 gene.
