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A Novel Factor FLOURY ENDOSPERM2 Is Involved in Regulation of Rice Grain Size and Starch Quality

She, Kao-Chih ; Kusano, Hiroaki ; Koizumi, Kazuyoshi ; [et al.]

Oxford University Press (OUP) ; 2010

In: The Plant Cell Vol. 22, No. 10 ( 2010-11-24), p. 3280-3294

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In: The Plant Cell, Oxford University Press (OUP), Vol. 22, No. 10 ( 2010-11-24), p. 3280-3294

Abstract: Rice (Oryza sativa) endosperm accumulates a massive amount of storage starch and storage proteins during seed development. However, little is known about the regulatory system involved in the production of storage substances. The rice flo2 mutation resulted in reduced grain size and starch quality. Map-based cloning identified FLOURY ENDOSPERM2 (FLO2), a member of a novel gene family conserved in plants, as the gene responsible for the rice flo2 mutation. FLO2 harbors a tetratricopeptide repeat motif, considered to mediate a protein–protein interactions. FLO2 was abundantly expressed in developing seeds coincident with production of storage starch and protein, as well as in leaves, while abundant expression of its homologs was observed only in leaves. The flo2 mutation decreased expression of genes involved in production of storage starch and storage proteins in the endosperm. Differences between cultivars in their responsiveness of FLO2 expression during high-temperature stress indicated that FLO2 may be involved in heat tolerance during seed development. Overexpression of FLO2 enlarged the size of grains significantly. These results suggest that FLO2 plays a pivotal regulatory role in rice grain size and starch quality by affecting storage substance accumulation in the endosperm.

Type of Medium: Online Resource

ISSN: 1532-298X , 1040-4651

URL: Article

DOI: 10.1105/tpc.109.070821

Language: English

Publisher: Oxford University Press (OUP)

Publication Date: 2010

detail.hit.zdb_id: 623171-8

detail.hit.zdb_id: 2004373-9

SSG: 12

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A novel superior factor widely controlling the rice grain quality

She, Kao-Chih ; Kusano, Hiroaki ; Koizumi, Kazuyoshi ; [et al.]

Springer Science and Business Media LLC ; 2009

In: Nature Precedings

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In: Nature Precedings, Springer Science and Business Media LLC

Abstract: Synthesis of storage starch and protein accumulation is the main action of endosperm organogenesis in term of the economic importance of rice. This event is strongly disturbed by abiotic stresses such as high temperature; thus, the upcoming global warming will cause a crisis with a great impact on food production^1,2^. The enzymes for the protein storage and starch synthesis pathway should work in concert to carry out the organogenesis of rice endosperm^3-5^, but the regulatory mechanism is largely unknown. Here we show that a novel regulatory factor, named OsCEO1, acts as the conductor of endosperm organogenesis during the rice grain filling stage. The physiological properties of floury-endosperm-2 ( flo2 ) mutants showed many similarities to symptoms of grains developed under high-temperature conditions, suggesting important roles of the responsible gene in sensitivity to high-temperature stress. Our map-based cloning identified the responsible gene for the flo2 mutant, OsCEO1 , which has no homology to any genes of known function. The OsCEO1 belongs to a novel conserved gene family and encodes a protein composed of 1,720 amino acid residues containing a TPR (tetratricopeptide repeat) motif, which is considered to mediate a protein-protein interaction. The yeast two-hybrid analysis raised an unknown protein showing homology to a late embryogenesis abundant protein and a putative basic helix-loop-helix protein as candidates for the direct interactor for OsCEO1 , whereas no enzyme genes for the synthesis of storage substances were detected. The flo2 mutant exhibited reduced expression of several genes for putative regulatory proteins as well as many enzymes involved in storage starch and proteins. These results suggest that OsCEO1 is a superior conductor of the novel regulatory cascade of endosperm organogenesis and may have important roles in the response to high-temperature stress.

Type of Medium: Online Resource

ISSN: 1756-0357

URL: Article

DOI: 10.1038/npre.2009.3283.1

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2009

detail.hit.zdb_id: 2637018-9

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