Genetic mapping and salt tolerance of a novel <Emphasis Type="Italic">D1</Emphasis>-allelic mutant of rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)

Plant height and grain shape are important traits that may affect yield in rice, and they therefore have enormous importance in breeding. A dwarf small-grain mutant (S525) was identified among progeny of the Indica rice restorer line ‘Xida 1B’ (wild type) raised from seeds treated with ethyl methanesulfonate. The dwarf and small-grain phenotypes were stably inherited after multi-generation selfing. Field-grown mutant plants showed the phenotypes of dwarfism, broad leaves, and small round grains. Genetic mapping and sequencing confirmed that S525 was a novel d1-allelic mutant. A single-base transition (G to A) in the functional dwarfism gene D1 at the conjunction site of the 11th intron caused excision or duplication of the 11th exon in the mRNA and resulted in translation of a defective G_α protein. The S525 showed enhanced salt tolerance compared with the wild type (WT), and the expression of genes associated with salt tolerance quantitatively increased in response to treatment with 200 mM NaCl. The S525 may be useful for future investigation of G_α functions and in the breeding of new dwarf rice cultivars.