A rice seed-specific glycine-rich protein OsDOR1 interacts with GID1 to repress GA signaling and regulates seed dormancy

Seed dormancy is an important agronomic trait under the control of complex genetic and environmental interactions, which have not been yet comprehensively understood. From the field screening of rice mutant library generated by a Ds transposable element, we identified a pre-harvest sprouting (PHS) m...

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Bibliographic Details
Published in:Plant molecular biology 2023-04, Vol.111 (6), p.523-539
Main Authors: Kim, Sooyeon, Huh, Sun Mi, Han, Hay Ju, Lee, Gang Seob, Hwang, Yong-Sic, Cho, Mi Hyun, Kim, Beom-Gi, Song, Ji Sun, Chung, Joo Hee, Nam, Myung Hee, Ji, Hyeonso, Kim, Kyung-Hwan, Yoon, In Sun
Format: Article
Language:English
Subjects:
Amylases
Biochemistry
Biomedical and Life Sciences
Dormancy
Ectopic expression
Ethylenediaminetetraacetic acid
Gene expression
Genetic aspects
Germination
Gibberellins - metabolism
Glycine
Glycine - metabolism
Life Sciences
Mutants
Oryza - genetics
Phenotypes
Plant Dormancy - genetics
Plant Pathology
Plant Sciences
Protein binding
Proteins
Protoplasts
Rice
Seed germination
Seeds
Seeds - genetics
Transposons
Yeasts
α-Amylase
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Summary:Seed dormancy is an important agronomic trait under the control of complex genetic and environmental interactions, which have not been yet comprehensively understood. From the field screening of rice mutant library generated by a Ds transposable element, we identified a pre-harvest sprouting (PHS) mutant dor 1. This mutant has a single insertion of Ds element at the second exon of OsDOR1 (LOC_Os03g20770), which encodes a novel seed-specific glycine-rich protein. This gene successfully complemented the PHS phenotype of dor 1 mutant and its ectopic expression enhanced seed dormancy. Here, we demonstrated that OsDOR1 protein binds to the GA receptor protein, OsGID1 in rice protoplasts, and interrupts with the formation OsGID1-OsSLR1 complex in yeast cells. Co-expression of OsDOR1 with OsGID1 in rice protoplasts attenuated the GA-dependent degradation of OsSLR1, the key repressor of GA signaling. We showed the endogenous OsSLR1 protein level in the dor1 mutant seeds is significantly lower than that of wild type. The dor1 mutant featured a hypersensitive GA-response of α-amylase gene expression during seed germination. Based on these findings, we suggest that OsDOR1 is a novel negative player of GA signaling operated in the maintenance of seed dormancy. Our findings provide a novel source of PHS resistance. Key message OsDOR1 , the causal gene for the rice PHS mutant dor1 , is a novel positive regulator of seed dormancy through interaction with the GID1-SLR1 complex and stabilization of the SLR1 protein in rice seeds.
ISSN:0167-4412
1573-5028
DOI:10.1007/s11103-023-01343-7