- Information
- Symbol: OsCIPK23
- MSU: LOC_Os07g05620
- RAPdb: Os07g0150700
- Publication
- Calcineurin B-like interacting protein kinase OsCIPK23 functions in pollination and drought stress responses in rice Oryza sativa L., 2008, Journal of Genetics and Genomics.
- Gene Expression Dynamics in Rice Peduncles at the Heading Stage, 2020, Front Genet.
- Calcium lignosulfonate improves proliferation of recalcitrant indica rice callus via modulation of auxin biosynthesis and enhancement of nutrient absorption, 2021, Plant Physiol Biochem.
- [Heterotrimeric G-protein
subunit RGA1 regulates tiller development, yield, cell wall, nitrogen response and biotic stress in rice](http://www.ncbi.nlm.nih.gov/pubmed?term=Heterotrimeric G-protein subunit RGA1 regulates tiller development, yield, cell wall, nitrogen response and biotic stress in rice%5BTitle%5D), 2021, Sci Rep.
- Genbank accession number
- Key message
- In consistent, overexpression of OsCIPK23 induced the expression of several drought tolerance related genes
- RNA interference-mediated suppression of OsCIPK23 expression significantly reduced seed set and conferred a hypersensitive response to drought stress, indicating its possible roles in pollination and drought stress
- Taken together, these results indicate that OsCIPK23 is a multistress induced gene and likely mediates a signaling pathway commonly shared by both pollination and drought stress responses in rice
- Calcineurin B-like interacting protein kinase OsCIPK23 functions in pollination and drought stress responses in rice (Oryza sativa L.)
- Disruption of Os-AKT1 significantly reduced the K+ content, which resulted in inhibition of plant growth and development.
- Consistently, increased of potassium protein kinases genes (OsAKT1, OsHAK5, OsCBL, OsCIPK23 and OsCamk1) were also recorded
- Transcription factor network analysis revealed the importance of RGA1 in nitrogen signaling with DEGs such as Nin-like, WRKY, NAC, bHLH families, nitrite reductase, glutamine synthetase, OsCIPK23 and urea transporter
- Connection
- OsCBL1, OsCIPK23, The Os-AKT1 Channel Is Critical for K+ Uptake in Rice Roots and Is Modulated by the Rice CBL1-CIPK23 Complex, These findings demonstrate that Os-AKT1-mediated K+ uptake in rice roots is modulated by the Os-CBL1-Os-CIPK23 complex.
- OsCBL1, OsCIPK23, The Os-AKT1 Channel Is Critical for K+ Uptake in Rice Roots and Is Modulated by the Rice CBL1-CIPK23 Complex, The Os-CBL1-Os-CIPK23 complex could enhance Os-AKT1-mediated K+ uptake.
- OsCBL1, OsCIPK23, The Os-AKT1 Channel Is Critical for K+ Uptake in Rice Roots and Is Modulated by the Rice CBL1-CIPK23 Complex, Similar to the AKT1 regulation in Arabidopsis, Os-CBL1 and Os-CIPK23 were identified as the upstream regulators of Os-AKT1 in rice.
- OsAKT1, OsCIPK23, The Os-AKT1 Channel Is Critical for K+ Uptake in Rice Roots and Is Modulated by the Rice CBL1-CIPK23 Complex, Similar to the AKT1 regulation in Arabidopsis, Os-CBL1 and Os-CIPK23 were identified as the upstream regulators of Os-AKT1 in rice.
- OsAKT1, OsCIPK23, The Os-AKT1 Channel Is Critical for K+ Uptake in Rice Roots and Is Modulated by the Rice CBL1-CIPK23 Complex, The Os-CBL1-Os-CIPK23 complex could enhance Os-AKT1-mediated K+ uptake.
- OsAKT1, OsCIPK23, The Os-AKT1 Channel Is Critical for K+ Uptake in Rice Roots and Is Modulated by the Rice CBL1-CIPK23 Complex, These findings demonstrate that Os-AKT1-mediated K+ uptake in rice roots is modulated by the Os-CBL1-Os-CIPK23 complex.
- OsAKT1, OsCIPK23, Calcium lignosulfonate improves proliferation of recalcitrant indica rice callus via modulation of auxin biosynthesis and enhancement of nutrient absorption, Consistently, increased of potassium protein kinases genes (OsAKT1, OsHAK5, OsCBL, OsCIPK23 and OsCamk1) were also recorded
- OsCIPK23, OsHAK5, Calcium lignosulfonate improves proliferation of recalcitrant indica rice callus via modulation of auxin biosynthesis and enhancement of nutrient absorption, Consistently, increased of potassium protein kinases genes (OsAKT1, OsHAK5, OsCBL, OsCIPK23 and OsCamk1) were also recorded
- D1~RGA1~LW5, OsCIPK23, [Heterotrimeric G-protein
subunit RGA1 regulates tiller development, yield, cell wall, nitrogen response and biotic stress in rice](http://www.ncbi.nlm.nih.gov/pubmed?term=Heterotrimeric G-protein subunit RGA1 regulates tiller development, yield, cell wall, nitrogen response and biotic stress in rice%5BTitle%5D), Transcription factor network analysis revealed the importance of RGA1 in nitrogen signaling with DEGs such as Nin-like, WRKY, NAC, bHLH families, nitrite reductase, glutamine synthetase, OsCIPK23 and urea transporter - OsAKT2, OsCIPK23, The rectification control and physiological relevance of potassium channel OsAKT2, OsAKT2 was modulated by OsCBL1/OsCIPK23, evoking the outward activity and diminishing the inward current.
Prev Next