A base substitution in OsphyC disturbs its Interaction with OsphyB and affects flowering time and chlorophyll synthesis in rice

A base substitution in OsphyC disturbs its Interaction with OsphyB and affects flowering time and chlorophyll synthesis in rice

Phytochromes are important photoreceptors in plants, and play essential roles in photomorphogenesis. The functions of PhyA and PhyB in plants have been fully analyzed, while those of PhyC in plant are not well understood. A rice mutant, late heading date 3 (lhd3), was characterized, and the gene LHD...

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Published in:BMC plant biology Vol. 22; no. 1; p. 612
Main Authors: Lin, Xiaoli, Huang, Yongping, Rao, Yuchun, Ouyang, Linjuan, Zhou, Dahu, Zhu, Changlan, Fu, Junru, Chen, Chunlian, Yin, Jianhua, Bian, Jianmin, He, Haohua, Zou, Guoxing, Xu, Jie
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 27-12-2022
BioMed Central
BMC
Subjects:
Chlorophyll - metabolism
Chlorophyll synthesis
Dimerization
Flowering time
Flowers - metabolism
Gene Expression Regulation, Plant
Mutation
Oryza - metabolism
Photoperiod
Phytochrome - genetics
Phytochrome C
Plant Proteins - genetics
Plant Proteins - metabolism
Rice
China
Chlorophyll synthesis
Phytochrome C
Flowering time
Dimerization
Rice
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Summary:Phytochromes are important photoreceptors in plants, and play essential roles in photomorphogenesis. The functions of PhyA and PhyB in plants have been fully analyzed, while those of PhyC in plant are not well understood. A rice mutant, late heading date 3 (lhd3), was characterized, and the gene LHD3 was identified with a map-based cloning strategy. LHD3 encodes phytochrome C in rice. Animo acid substitution in OsphyC disrupted its interaction with OsphyB or itself, restraining functional forms of homodimer or heterodimer formation. Compared with wild-type plants, the lhd3 mutant exhibited delayed flowering under both LD (long-day) and SD (short-day) conditions, and delayed flowering time was positively associated with the day length via the Ehd1 pathway. In addition, lhd3 showed a pale-green-leaf phenotype and a slower chlorophyll synthesis rate during the greening process. The transcription patterns of many key genes involved in photoperiod-mediated flowering and chlorophyll synthesis were altered in lhd3. The dimerization of OsPhyC is important for its functions in the regulation of chlorophyll synthesis and heading. Our findings will facilitate efforts to further elucidate the function and mechanism of OsphyC and during light signal transduction in rice.
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ISSN:1471-2229
1471-2229
DOI:10.1186/s12870-022-04011-y