| Phosphorylation by CIPK23 regulates the high-affinity Mn transporter NRAMP1 in Arabidopsis. | Phosphorylation by CIPK23 regulates the high-affinity Mn transporter NRAMP1 in Arabidopsis.
Kosuth T, Leskova A, Ródenas R, Vert G, Curie C, Castaings L. | 08/25/2023 |
| CBL1/9-CIPK23-NRAMP1 axis regulates manganese toxicity. | CBL1/9-CIPK23-NRAMP1 axis regulates manganese toxicity.
Zhang Z, Fu D, Xie D, Wang Z, Zhao Y, Ma X, Huang P, Ju C, Wang C. | 06/22/2023 |
| The CIPK23 protein kinase represses SLAC1-type anion channels in Arabidopsis guard cells and stimulates stomatal opening. | The CIPK23 protein kinase represses SLAC1-type anion channels in Arabidopsis guard cells and stimulates stomatal opening.
Huang S, Maierhofer T, Hashimoto K, Xu X, Karimi SM, Müller H, Geringer MA, Wang Y, Kudla J, De Smet I, Hedrich R, Geiger D, Roelfsema MRG. | 03/8/2023 |
| STOP1 Regulates LKS1 Transcription and Coordinates K(+)/NH4(+) Balance in Arabidopsis Response to Low-K(+) Stress. | STOP1 Regulates LKS1 Transcription and Coordinates K(+)/NH(4)(+) Balance in Arabidopsis Response to Low-K(+) Stress.
Wang ZF, Mi TW, Gao YQ, Feng HQ, Wu WH, Wang Y., Free PMC Article | 02/12/2022 |
| A transcription factor STOP1-centered pathway coordinates ammonium and phosphate acquisition in Arabidopsis. | A transcription factor STOP1-centered pathway coordinates ammonium and phosphate acquisition in Arabidopsis.
Tian WH, Ye JY, Cui MQ, Chang JB, Liu Y, Li GX, Wu YR, Xu JM, Harberd NP, Mao CZ, Jin CW, Ding ZJ, Zheng SJ. | 01/29/2022 |
| CIPK23 regulates blue light-dependent stomatal opening in Arabidopsis thaliana. | CIPK23 regulates blue light-dependent stomatal opening in Arabidopsis thaliana.
Inoue SI, Kaiserli E, Zhao X, Waksman T, Takemiya A, Okumura M, Takahashi H, Seki M, Shinozaki K, Endo Y, Sawasaki T, Kinoshita T, Zhang X, Christie JM, Shimazaki KI., Free PMC Article | 04/24/2021 |
| The findings uncover additional pleiotropic roles of STOP1 mediated by CIPK23, which regulates various ion transporters including those regulating K+-homeostasis, which may induce a trade-off between drought tolerance and other traits. | Sensitive to Proton Rhizotoxicity1 Regulates Salt and Drought Tolerance of Arabidopsis thaliana through Transcriptional Regulation of CIPK23.
Sadhukhan A, Enomoto T, Kobayashi Y, Watanabe T, Iuchi S, Kobayashi M, Sahoo L, Yamamoto YY, Koyama H. | 01/4/2020 |
| CIPK23 occupies a key position in controlling ion balance and ion homeostasis in the plant cell. | The Kinase CIPK23 Inhibits Ammonium Transport in Arabidopsis thaliana.
Straub T, Ludewig U, Neuhäuser B., Free PMC Article | 01/20/2018 |
| using mutants in known dormancy-related genes [DELAY OF GERMINATION 1 (DOG1), MOTHER OF FLOWERING TIME (MFT), CBL-INTERACTING PROTEIN KINASE 23 (CIPK23) and PHYTOCHROME A (PHYA)] components of the circadian clock are shown to be involved in coordination of the annual seed dormancy cycle. | A laboratory simulation of Arabidopsis seed dormancy cycling provides new insight into its regulation by clock genes and the dormancy-related genes DOG1, MFT, CIPK23 and PHYA.
Footitt S, Ölçer-Footitt H, Hambidge AJ, Finch-Savage WE., Free PMC Article | 01/20/2018 |
| CIPK23 and AtKC1 exhibit distinct effects; however, they act synergistically and balance K(+) uptake/leakage to modulate AKT1-mediated low potassium responses in Arabidopsis. | AtKC1 and CIPK23 Synergistically Modulate AKT1-Mediated Low-Potassium Stress Responses in Arabidopsis.
Wang XP, Chen LM, Liu WX, Shen LK, Wang FL, Zhou Y, Zhang Z, Wu WH, Wang Y., Free PMC Article | 05/13/2017 |
| Studies highlight that calcium-dependent CBL-CIPK pathway is involved in response to iron deficiency in Arabidopsis. [CIPK23] | CIPK23 is involved in iron acquisition of Arabidopsis by affecting ferric chelate reductase activity.
Tian Q, Zhang X, Yang A, Wang T, Zhang WH, Tian Q, Zhang X, Yang A, Wang T, Zhang WH. | 02/2/2017 |
| CIPK23 rendered Arabidopsis mutants hypersensitive to iron deficiency. | CIPK23 is involved in iron acquisition of Arabidopsis by affecting ferric chelate reductase activity.
Tian Q, Zhang X, Yang A, Wang T, Zhang WH, Tian Q, Zhang X, Yang A, Wang T, Zhang WH. | 12/17/2016 |
| Data show that Arabidopsis Mutants lacking CBL-interacting protein kinase23 (CIPK23) are deficient in high-affinity K(+) transporter5 (HAK5)-mediated high-affinity potassium (K(+)) uptake. | The CBL-Interacting Protein Kinase CIPK23 Regulates HAK5-Mediated High-Affinity K+ Uptake in Arabidopsis Roots.
Ragel P, Ródenas R, García-Martín E, Andrés Z, Villalta I, Nieves-Cordones M, Rivero RM, Martínez V, Pardo JM, Quintero FJ, Rubio F., Free PMC Article | 09/24/2016 |
| crystal structures of CIPK23 and CIPK24/SOS2; CIPK23 is intrinsically inactive and requires an external stimulation, CIPK24/SOS2 displays basal activity | Structural basis of the regulatory mechanism of the plant CIPK family of protein kinases controlling ion homeostasis and abiotic stress.
Chaves-Sanjuan A, Sanchez-Barrena MJ, Gonzalez-Rubio JM, Moreno M, Ragel P, Jimenez M, Pardo JM, Martinez-Ripoll M, Quintero FJ, Albert A., Free PMC Article | 04/25/2015 |
| The results of this study imply that plasma membrane-localized CBL1- and CBL9-CIPK23 complexes simultaneously regulate potassium transport processes in roots and in stomatal guard cells. | Two calcineurin B-like calcium sensors, interacting with protein kinase CIPK23, regulate leaf transpiration and root potassium uptake in Arabidopsis.
Cheong YH, Pandey GK, Grant JJ, Batistic O, Li L, Kim BG, Lee SC, Kudla J, Luan S. | 01/21/2010 |
| protein kinase CIPK23, encoded by the LKS1 gene, regulates K+ uptake under low-K+ conditions | A protein kinase, interacting with two calcineurin B-like proteins, regulates K+ transporter AKT1 in Arabidopsis.
Xu J, Li HD, Chen LQ, Wang Y, Liu LL, He L, Wu WH. | 01/21/2010 |