- Information
- Symbol: OsPIN1c
- MSU: LOC_Os11g04190
- RAPdb: Os11g0137000
- Publication
- Functional divergence of PIN1 paralogous genes in rice., 2019, Plant Cell Physiol.
- Cadmium inhibits lateral root emergence in rice by disrupting OsPIN-mediated auxin distribution and the protective effect of OsHMA3, 2020, Plant Cell Physiol.
- The Amino Acid Transporter OsAAP4 Contributes to Rice Tillering and Grain Yield by Regulating Neutral Amino Acid Allocation through Two Splicing Variants, 2021, Rice (N Y).
- Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice Oryza sativa L. Panicle Development., 2021, Plant Cell Physiol.
-
Genbank accession number
- Key message
- These data suggest that OsPIN1a and OsPIN1b are involved in root, shoot and inflorescence development in rice, whereas OsPIN1c and OsPIN1d mainly function in panicle formation
- Cadmium rapidly downregulated the expression of the auxin efflux transporter genes OsPIN1b, OsPIN1c and OsPIN9 in the stele and LPR
- In addition to significantly decreased plant height and tiller number, panicle development was severely disrupted in double mutant lines of OsPIN1c and OsPIN1d
- Additionally, several critical regulators of reproductive development, such as OsPID, LAX1, OsMADS1, and OsSPL14/IPA1, were differentially expressed in ospin1c-1 ospin1d-1, supporting the hypothesis that OsPIN1c and OsPIN1d are involved in regulating panicle development
- Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice (Oryza sativa L.) Panicle Development.
- Results showed that OsPIN1c and OsPIN1d were mainly expressed in young panicles and exhibited a redundant function
- Connection
- OsPIN1~REH1~PIN1b~OsPIN1b, OsPIN1c, Cadmium inhibits lateral root emergence in rice by disrupting OsPIN-mediated auxin distribution and the protective effect of OsHMA3, Cadmium rapidly downregulated the expression of the auxin efflux transporter genes OsPIN1b, OsPIN1c and OsPIN9 in the stele and LPR
- OsPIN1c, OsPIN9, Cadmium inhibits lateral root emergence in rice by disrupting OsPIN-mediated auxin distribution and the protective effect of OsHMA3, Cadmium rapidly downregulated the expression of the auxin efflux transporter genes OsPIN1b, OsPIN1c and OsPIN9 in the stele and LPR
- LAX1, OsPIN1c, Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice Oryza sativa L. Panicle Development., Additionally, several critical regulators of reproductive development, such as OsPID, LAX1, OsMADS1, and OsSPL14/IPA1, were differentially expressed in ospin1c-1 ospin1d-1, supporting the hypothesis that OsPIN1c and OsPIN1d are involved in regulating panicle development
- OsLG3b~OsMADS1~LHS1~AFO, OsPIN1c, Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice Oryza sativa L. Panicle Development., Additionally, several critical regulators of reproductive development, such as OsPID, LAX1, OsMADS1, and OsSPL14/IPA1, were differentially expressed in ospin1c-1 ospin1d-1, supporting the hypothesis that OsPIN1c and OsPIN1d are involved in regulating panicle development
- OsPID~OsPINOID, OsPIN1c, Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice Oryza sativa L. Panicle Development., Additionally, several critical regulators of reproductive development, such as OsPID, LAX1, OsMADS1, and OsSPL14/IPA1, were differentially expressed in ospin1c-1 ospin1d-1, supporting the hypothesis that OsPIN1c and OsPIN1d are involved in regulating panicle development
- OsPIN1c, OsPIN1d, Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice Oryza sativa L. Panicle Development., Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice (Oryza sativa L.) Panicle Development.
- OsPIN1c, OsPIN1d, Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice Oryza sativa L. Panicle Development., In this study, we investigated the expression and function of OsPIN1c and OsPIN1d in the japonica rice variety (Nipponbare) using gene knockout and high-throughput RNA sequencing (RNA-Seq) analysis
- OsPIN1c, OsPIN1d, Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice Oryza sativa L. Panicle Development., Results showed that OsPIN1c and OsPIN1d were mainly expressed in young panicles and exhibited a redundant function
- OsPIN1c, OsPIN1d, Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice Oryza sativa L. Panicle Development., Furthermore, OsPIN1c or OsPIN1d loss-of-function mutants presented a mild phenotype compared with the wild type
- OsPIN1c, OsPIN1d, Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice Oryza sativa L. Panicle Development., In addition to significantly decreased plant height and tiller number, panicle development was severely disrupted in double mutant lines of OsPIN1c and OsPIN1d
- OsPIN1c, OsPIN1d, Auxin Efflux Transporters OsPIN1c and OsPIN1d Function Redundantly in Regulating Rice Oryza sativa L. Panicle Development., Additionally, several critical regulators of reproductive development, such as OsPID, LAX1, OsMADS1, and OsSPL14/IPA1, were differentially expressed in ospin1c-1 ospin1d-1, supporting the hypothesis that OsPIN1c and OsPIN1d are involved in regulating panicle development
Prev Next