Aberrant endosperm formation caused by reduced production of major allergen proteins in a rice flo2 mutant that confers low-protein accumulation in grains.

Abstract

Rice flo2 mutation produces grains showing a reduced amount of storage proteins. Using Nipponbare and the flo2 mutant, we created rice transformants that showed defective production of major allergen proteins RA14 and RA33 (14-16 kDa and 33 kDa allergen proteins, respectively) by RNAi introduction. The knock-down transformant generated using Nipponbare showed greatly reduced accumulation of both allergen proteins, normal growth, and production of a sufficient amount of normal-shaped seeds. F1 seeds were obtained by crossing between the transformants containing RNAi genes to RA14 and RA33, and showed decreased accumulation of both proteins. However, a peculiar phenotype was observed in the flo2 transformants that lacked accumulation of RA14 or RA33. They showed significantly reduced fertility. A wrinkled grain feature was found on the transformant lacking accumulation of RA14. F1 seeds obtained by crossing these transformants showed significantly lower fertility. F2 seeds showed decreases in both allergen proteins but morphological abnormality with small and severely wrinkled features. These results indicated that it is hard to obtain any transformant lacking accumulation of these allergen proteins using the flo2 mutant, whereas a knock-down transformant of both allergen protein genes was obtained when a wild-type Nipponbare was used as a host. These facts strongly suggest that RA14 and RA33 have some roles in rice seeds.