Overexpression of OsFTL10 induces early flowering and improves drought tolerance in Oryza sativa L

Flowering time control is critically important for the reproductive accomplishment of higher plants as floral transition can be affected by both environmental and endogenous signals. Flowering Locus T-like ( ) genes are major genetic determinants of flowering in plants. In rice, 13 genes have been a...

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Published in:PeerJ (San Francisco, CA) CA), 2019-02, Vol.7, p.e6422-e6422, Article e6422
Main Authors: Fang, Maichun, Zhou, Zejiao, Zhou, Xusheng, Yang, Huiyong, Li, Meiru, Li, Hongqing
Format: Article
Language:English
Subjects:
14-3-3 protein
Abscisic acid
Biotechnology
Cloning
Complementation
Cytoplasm
Drought
Drought resistance
Drought tolerance
Flowering
Flowers & plants
Fluorescence
Gene expression
Genes
Genetic engineering
Genetically modified plants
Genetics
Genomes
Genomics
Laboratories
Molecular Biology
Oryza sativa
Oryza sativa L
OsFTL10
Phase transitions
Physiology
Plant biology
Plant Science
Plant sciences
Proteins
Rice
Seedlings
Stress response
Transgenic plants
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Summary:Flowering time control is critically important for the reproductive accomplishment of higher plants as floral transition can be affected by both environmental and endogenous signals. Flowering Locus T-like ( ) genes are major genetic determinants of flowering in plants. In rice, 13 genes have been annotated in the genome and amongst them, ( ) and ( ) have been studied extensively and their functions are confirmed as central florigens that control rice flowering under short day and long day environment, respectively. In this report, a rice gene, , was characterized, and its function on flowering and abiotic stress was investigated. The expression level of was high in young seedlings and shown to be induced by GA and drought stress. Overexpression of resulted in earlier flowering in rice plants by up to 2 weeks, through up-regulation of the downstream gene . also regulated and through a feedback mechanism. The OsFTL10 protein was also detected in both nucleus and cytoplasm. Furthermore, yeast two hybrid (Y2H) and bimolecular fluorescence complementation (BiFC) results show that OsFTL10 could interact with multiple 14-3-3s, suggesting that OsFTL10 might function in a similar way to Hd3a in promoting rice flowering by forming a FAC complex with 14-3-3, and OsFD1. Further experiments revealed that constitutive expression of improved the drought tolerance of transgenic plants by stimulating the expression of drought responsive genes. These results suggest that rice genes might function in flowering promotion and responses to environmental signals.
ISSN:2167-8359
2167-8359
DOI:10.7717/peerj.6422