- Information
- Symbol: RCN2
- MSU: LOC_Os02g32950
- RAPdb: Os02g0531600
- Publication
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Genbank accession number
- Key message
- In 35S::RCN1 and 35S::RCN2 transgenic rice plants, the delay of transition to the reproductive phase was observed
- Overexpression ofRCN1andRCN2, riceTERMINAL FLOWER 1/CENTRORADIALIShomologs, confers delay of phase transition and altered panicle morphology in rice
- To investigate the possibility of similar mechanisms operating in the control of inflorescence architecture in rice, we analysed the functions of RCN1 and RCN2, rice TFL1/CEN homologs
- Constitutive overexpression of RCN1 or RCN2 in Arabidopsis caused a late-flowering and highly branching phenotype, indicating that they possess conserved biochemical functions as TFL1
- Connection
- Rcn1~OsABCG5, RCN2, Overexpression ofRCN1andRCN2, riceTERMINAL FLOWER 1/CENTRORADIALIShomologs, confers delay of phase transition and altered panicle morphology in rice, To investigate the possibility of similar mechanisms operating in the control of inflorescence architecture in rice, we analysed the functions of RCN1 and RCN2, rice TFL1/CEN homologs
- Rcn1~OsABCG5, RCN2, Overexpression ofRCN1andRCN2, riceTERMINAL FLOWER 1/CENTRORADIALIShomologs, confers delay of phase transition and altered panicle morphology in rice, Constitutive overexpression of RCN1 or RCN2 in Arabidopsis caused a late-flowering and highly branching phenotype, indicating that they possess conserved biochemical functions as TFL1
- Rcn1~OsABCG5, RCN2, Overexpression ofRCN1andRCN2, riceTERMINAL FLOWER 1/CENTRORADIALIShomologs, confers delay of phase transition and altered panicle morphology in rice, In 35S::RCN1 and 35S::RCN2 transgenic rice plants, the delay of transition to the reproductive phase was observed
- Rcn1~OsABCG5, RCN2, Overexpression ofRCN1andRCN2, riceTERMINAL FLOWER 1/CENTRORADIALIShomologs, confers delay of phase transition and altered panicle morphology in rice, Overexpression ofRCN1andRCN2, riceTERMINAL FLOWER 1/CENTRORADIALIShomologs, confers delay of phase transition and altered panicle morphology in rice
- OsRA2, RCN2, OsRAMOSA2 Shapes Panicle Architecture through Regulating Pedicel Length., Moreover, OsRA2 acted downstream of RCN2 in regulating pedicel and branch lengths, but upstream of RCN2 for control of the number of secondary branches, indicating that branch number and length development in the panicle were respectively regulated using parallel pathway
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