- Information
- Symbol: OsMSRMK2,OsMAP1,OsMPK5,OsMAPK2,OsMAPK5,OsBIMK1,OsMPK3
- MSU: LOC_Os03g17700
- RAPdb: Os03g0285800
- PSP score
- LOC_Os03g17700.1: 0.0042
- PLAAC score
- LOC_Os03g17700.1: 0
- pLDDT score
- 90.8
- Protein Structure from AlphaFold and UniProt
- Publication
- Arsenic stress activates MAP kinase in rice roots and leaves, 2011, Arch Biochem Biophys.
- Isolation of novel rice Oryza sativa L. multiple stress responsive MAP kinase gene, OsMSRMK2, whose mRNA accumulates rapidly in response to environmental cues, 2002, Biochem Biophys Res Commun.
- Rice GDP dissociation inhibitor 3 inhibits OsMAPK2 activity through physical interaction, 2011, Biochem Biophys Res Commun.
- OsWRKY30 is activated by MAP kinases to confer drought tolerance in rice, 2012, Plant Mol Biol.
- Expression of Oryza sativa MAP kinase gene is developmentally regulated and stress-responsive, 2002, Physiologia Plantarum.
- Biochemical identification of the OsMKK6-OsMPK3 signalling pathway for chilling stress tolerance in rice, 2012, Biochem J.
- Overexpression of OsMAPK2 Enhances Low Phosphate Tolerance in Rice and Arabidopsis thaliana, 2014, American Journal of Plant Sciences.
- The Bphi008a gene interacts with the ethylene pathway and transcriptionally regulates MAPK genes in the response of rice to brown planthopper feeding, 2011, Plant Physiol.
- The C2H2-type zinc finger protein ZFP182 is involved in abscisic acid-induced antioxidant defense in rice, 2012, J Integr Plant Biol.
- The bHLH Rac Immunity1 RAI1 Is Activated by OsRac1 via OsMAPK3 and OsMAPK6 in Rice Immunity, 2012, Plant Cell Physiol.
- Molecular analysis of the rice MAP kinase gene family in relation to Magnaporthe grisea infection, 2006, Mol Plant Microbe Interact.
- Disease Resistance and Abiotic Stress Tolerance in Rice Are Inversely Modulated by an Abscisic Acid-Inducible Mitogen-Activated Protein Kinase, 2003, The Plant Cell Online.
- Salt-responsive ERF1 regulates reactive oxygen species-dependent signaling during the initial response to salt stress in rice, 2013, Plant Cell.
- Cadmium activates a mitogen-activated protein kinase gene and MBP kinases in rice, 2004, Plant Cell Physiol.
- A calmodulin-binding mitogen-activated protein kinase phosphatase is induced by wounding and regulates the activities of stress-related mitogen-activated protein kinases in rice, 2007, Plant Cell Physiol.
- Abscisic acid-induced resistance against the brown spot pathogen Cochliobolus miyabeanus in rice involves MAP kinase-mediated repression of ethylene signaling, 2010, Plant Physiol.
- The chloroplast-localized phospholipases D alpha4 and alpha5 regulate herbivore-induced direct and indirect defenses in rice, 2011, Plant Physiol.
- Two novel mitogen-activated protein signaling components, OsMEK1 and OsMAP1, are involved in a moderate low-temperature signaling pathway in rice, 2002, Plant Physiol.
- A cold-induced thioredoxin h of rice, OsTrx23, negatively regulates kinase activities of OsMPK3 and OsMPK6 in vitro, 2009, FEBS Lett.
- OsMPK3 positively regulates the JA signaling pathway and plant resistance to a chewing herbivore in rice, 2013, Plant Cell Rep.
- OsBIMK1, a rice MAP kinase gene involved in disease resistance responses, 2002, Planta.
- A Positive Feedback Loop Governed by SUB1A1 Interaction with MITOGEN ACTIVATED PROTEIN KINASE 3 Imparts Submergence Tolerance in Rice., 2016, Plant Cell.
- Genbank accession number
- AF332873
- AJ250311
- AJ486975
- AF479883
- AF479884
- AK067339
- AF332873
- AJ250311
- AJ486975
- AF479883
- AF479884
- AK067339
- AF332873
- AJ250311
- AJ486975
- AF479883
- AF479884
- AK067339
- AF332873
- AJ250311
- AJ486975
- AF479883
- AF479884
- AK067339
- AF332873
- AJ250311
- AJ486975
- AF479883
- AF479884
- AK067339
- AF332873
- AJ250311
- AJ486975
- AF479883
- AF479884
- AK067339
- Key message
- This paper presents evidence that OsMAPK2 (Oryza sativa MAP kinase gene 2) is responsive to Pi deficiency and involved in Pi homeostasis
- Our results indicated that OsMAPK2 enables tolerance phosphate deficiency and is involved in Pi homeostasis
- In suspension-cultured cells, the OsMAPK2 mRNA transcript increased markedly upon temperature downshift from 26degreesC to 4degreesC and sucrose starvation
- In contrast, the OsMAPK2 mRNA level rapidly declined in rice cell challenged by high temperature
- These results suggest that OsBIMK1 plays an important role in rice disease resistance
- OsBIMK1, a rice MAP kinase gene involved in disease resistance responses
- Present results demonstrating dramatic transcriptional and transient regulation of the OsMSRMK2 expression by diverse biotic/abiotic stresses, a first report for any rice (or plant) MAPK to date, suggest a role for OsMSRMK2 in rice defense/stress response pathways
- Using in vitro system, we show that the expression of OsMSRMK2 mRNA was potently enhanced within 15 min by signalling molecules, protein phosphatase inhibitors, ultraviolet irradiation, fungal elicitor, heavy metals, high salt and sucrose, and drought
- We found that full-length expression of OsMAPK2 was up-regulated in both rice plants and cell culture in the absence of inorganic phosphate (Pi)
- Overexpression of OsMAPK2 Enhances Low Phosphate Tolerance in Rice and Arabidopsis thaliana
- By contrast, overexpression lines exhibited increased OsMAPK5 kinase activity and increased tolerance to drought, salt, and cold stresses
- Expression of OsBIMK1 was activated rapidly upon treatment with benzothiadiazole (BTH) as well as with dichloroisonicotinic acid, probenazole, jasmonic acid and its methyl ester, Pseudomonas syringae pv
- These results strongly suggest that OsMAPK5 can positively regulate drought, salt, and cold tolerance and negatively modulate PR gene expression and broad-spectrum disease resistance
- The transgenic rice and Arabidopsis plants overexpressing OsMAPK2 showed affected root development and increased plant Pi content compared with wild-type plants
- OsMSRMK2 expression was further modulated by co-application of JA, salicylic acid, and ethylene and required de novo synthesized protein factor(s) in its transient regulation
- Nipponbare) C(2) H(2) -type ZFP ZFP182 in ABA-induced antioxidant defense and the relationship between ZFP182 and two rice MAPKs, OsMPK1 and OsMPK5 in ABA signaling were investigated
- Nipponbare), we identified a single copy gene called OsMSRMK2 from jasmonic acid (JA) treated rice seedling leaf cDNA library
- Overexpression of OsMAPK2 controlled the expression of several Pi starvation-responsive genes
- Analysis at the mRNA level has shown that OsMAPK2 is expressed in all plant organs and high relative amounts of OsMAPK2 were detected in the mature panicles in comparison with in the immature panicles
- These results suggest that this OsMAPK2 may function in the stress-signalling pathway as well as panicle development in rice
- The OsMAPK2 gene has been found to function in plant tolerance to diverse biotic/abiotic stresses
- A similarly rapid response of OsMAPK2 was observed in stress-treated seedlings, demonstrating that response of the MAPK pathway occurs also in intact plants
- The OsMAPK5 gene, its protein, and kinase activity were inducible by abscisic acid as well as various biotic (pathogen infection) and abiotic (wounding, drought, salt, and cold) stresses
- Taken together, these results lead us to conclude that at least two signaling pathways for low temperature stress exist in rice, and that a MAP kinase pathway with OsMEK1 and OsMAP1 components is possibly involved in the signaling for the higher range low-temperature stress
- Two novel mitogen-activated protein signaling components, OsMEK1 and OsMAP1, are involved in a moderate low-temperature signaling pathway in rice
- Moreover, high (37 degrees C) and low temperatures (12 degrees C) and environmental pollutants-ozone and sulfur dioxide-differentially regulate the OsMSRMK2 mRNA accumulation in leaves of intact plants
- ABA treatment induced the increases in the expression of ZFP182, OsMPK1 and OsMPK5, and the activities of superoxide dismutase (SOD) and ascorbate peroxidase (APX) in rice leaves
- Besides, OsMPK1 and OsMPK5 were shown to be required for the up-regulation in the expression of ZFP182 in ABA signaling, but ZFP182 did not mediate the ABA-induced up-regulation in the expression of OsMPK1 and OsMPK5
- Connection
- OsGDI3, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, Rice GDP dissociation inhibitor 3 inhibits OsMAPK2 activity through physical interaction, OsMAPK2 is one of OsGDI3 interacting proteins from yeast two-hybrid screens and subject to further analysis
- OsGDI3, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, Rice GDP dissociation inhibitor 3 inhibits OsMAPK2 activity through physical interaction, A kinase assay showed that the autophosphorylation activity of OsMAPK2 is inhibited by OsGDI3 in vitro
- OsGDI3, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, Rice GDP dissociation inhibitor 3 inhibits OsMAPK2 activity through physical interaction, Taken together, OsGDI3 functions as a negative regulator of OsMAPK2 through modulating its kinase activity
- OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, OsWJUMK1~OsMPK12~OsBWMK1, The Bphi008a gene interacts with the ethylene pathway and transcriptionally regulates MAPK genes in the response of rice to brown planthopper feeding, Subsequently, we found that Bphi008a up-regulation and down-regulation were accompanied by different changes in transcription levels of OsMPK5, OsMPK12, OsMPK13, and OsMPK17 in transgenic plants
- Bphi008a, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, The Bphi008a gene interacts with the ethylene pathway and transcriptionally regulates MAPK genes in the response of rice to brown planthopper feeding, In vitro kinase assays showed that Bphi008a can be phosphorylated by rice Mitogen-activated Protein Kinase5 (OsMPK5), and yeast two-hybrid assays demonstrated that the carboxyl-terminal proline-rich region of Bphi008a interacts directly with this kinase
- Bphi008a, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, The Bphi008a gene interacts with the ethylene pathway and transcriptionally regulates MAPK genes in the response of rice to brown planthopper feeding, Subsequently, we found that Bphi008a up-regulation and down-regulation were accompanied by different changes in transcription levels of OsMPK5, OsMPK12, OsMPK13, and OsMPK17 in transgenic plants
- OsMPK13~OsBIMK2, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, The Bphi008a gene interacts with the ethylene pathway and transcriptionally regulates MAPK genes in the response of rice to brown planthopper feeding, Subsequently, we found that Bphi008a up-regulation and down-regulation were accompanied by different changes in transcription levels of OsMPK5, OsMPK12, OsMPK13, and OsMPK17 in transgenic plants
- OsMPK17, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, The Bphi008a gene interacts with the ethylene pathway and transcriptionally regulates MAPK genes in the response of rice to brown planthopper feeding, Subsequently, we found that Bphi008a up-regulation and down-regulation were accompanied by different changes in transcription levels of OsMPK5, OsMPK12, OsMPK13, and OsMPK17 in transgenic plants
- OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, ZFP182~ZOS3-21, The C2H2-type zinc finger protein ZFP182 is involved in abscisic acid-induced antioxidant defense in rice, Nipponbare) C(2) H(2) -type ZFP ZFP182 in ABA-induced antioxidant defense and the relationship between ZFP182 and two rice MAPKs, OsMPK1 and OsMPK5 in ABA signaling were investigated
- OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, ZFP182~ZOS3-21, The C2H2-type zinc finger protein ZFP182 is involved in abscisic acid-induced antioxidant defense in rice, ABA treatment induced the increases in the expression of ZFP182, OsMPK1 and OsMPK5, and the activities of superoxide dismutase (SOD) and ascorbate peroxidase (APX) in rice leaves
- OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, ZFP182~ZOS3-21, The C2H2-type zinc finger protein ZFP182 is involved in abscisic acid-induced antioxidant defense in rice, The transient gene expression analysis and the transient RNA interference (RNAi) analysis in protoplasts showed that ZFP182, OsMPK1 and OsMPK5 are involved in ABA-induced up-regulation in the activities of SOD and APX
- OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, ZFP182~ZOS3-21, The C2H2-type zinc finger protein ZFP182 is involved in abscisic acid-induced antioxidant defense in rice, Besides, OsMPK1 and OsMPK5 were shown to be required for the up-regulation in the expression of ZFP182 in ABA signaling, but ZFP182 did not mediate the ABA-induced up-regulation in the expression of OsMPK1 and OsMPK5
- OsMPK1~OsMAPK6~OsSIPK, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, The C2H2-type zinc finger protein ZFP182 is involved in abscisic acid-induced antioxidant defense in rice, Nipponbare) C(2) H(2) -type ZFP ZFP182 in ABA-induced antioxidant defense and the relationship between ZFP182 and two rice MAPKs, OsMPK1 and OsMPK5 in ABA signaling were investigated
- OsMPK1~OsMAPK6~OsSIPK, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, The C2H2-type zinc finger protein ZFP182 is involved in abscisic acid-induced antioxidant defense in rice, ABA treatment induced the increases in the expression of ZFP182, OsMPK1 and OsMPK5, and the activities of superoxide dismutase (SOD) and ascorbate peroxidase (APX) in rice leaves
- OsMPK1~OsMAPK6~OsSIPK, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, The C2H2-type zinc finger protein ZFP182 is involved in abscisic acid-induced antioxidant defense in rice, The transient gene expression analysis and the transient RNA interference (RNAi) analysis in protoplasts showed that ZFP182, OsMPK1 and OsMPK5 are involved in ABA-induced up-regulation in the activities of SOD and APX
- OsMPK1~OsMAPK6~OsSIPK, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, The C2H2-type zinc finger protein ZFP182 is involved in abscisic acid-induced antioxidant defense in rice, Besides, OsMPK1 and OsMPK5 were shown to be required for the up-regulation in the expression of ZFP182 in ABA signaling, but ZFP182 did not mediate the ABA-induced up-regulation in the expression of OsMPK1 and OsMPK5
- OsDREB2A, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, Salt-responsive ERF1 regulates reactive oxygen species-dependent signaling during the initial response to salt stress in rice, Furthermore, we show that SERF1-dependent genes are H2O2 responsive and demonstrate that SERF1 binds to the promoters of MAPK kinase kinase6 (MAP3K6), MAPK5, dehydration-responsive element bindinG2A (DREB2A), and zinc finger protein179 (ZFP179) in vitro and in vivo
- OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, SERF1, Salt-responsive ERF1 regulates reactive oxygen species-dependent signaling during the initial response to salt stress in rice, Furthermore, we show that SERF1-dependent genes are H2O2 responsive and demonstrate that SERF1 binds to the promoters of MAPK kinase kinase6 (MAP3K6), MAPK5, dehydration-responsive element bindinG2A (DREB2A), and zinc finger protein179 (ZFP179) in vitro and in vivo
- OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, SERF1, Salt-responsive ERF1 regulates reactive oxygen species-dependent signaling during the initial response to salt stress in rice, In addition, SERF1 is a phosphorylation target of MAPK5, resulting in enhanced transcriptional activity of SERF1 toward its direct target genes
- OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, ZFP179, Salt-responsive ERF1 regulates reactive oxygen species-dependent signaling during the initial response to salt stress in rice, Furthermore, we show that SERF1-dependent genes are H2O2 responsive and demonstrate that SERF1 binds to the promoters of MAPK kinase kinase6 (MAP3K6), MAPK5, dehydration-responsive element bindinG2A (DREB2A), and zinc finger protein179 (ZFP179) in vitro and in vivo
- OsMEK1~OsMKK6, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, Two novel mitogen-activated protein signaling components, OsMEK1 and OsMAP1, are involved in a moderate low-temperature signaling pathway in rice, Among the three MAP kinase homologs cloned, only OsMAP1 displayed similar 12 degrees C-specific induction pattern as OsMEK1
- OsMEK1~OsMKK6, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, Two novel mitogen-activated protein signaling components, OsMEK1 and OsMAP1, are involved in a moderate low-temperature signaling pathway in rice, A yeast two-hybrid system revealed that OsMEK1 interacts with OsMAP1, but not with OsMAP2 and OsMAP3, suggesting that OsMEK1 and OsMAP1 probably function in the same signaling pathway
- OsMEK1~OsMKK6, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, Two novel mitogen-activated protein signaling components, OsMEK1 and OsMAP1, are involved in a moderate low-temperature signaling pathway in rice, Taken together, these results lead us to conclude that at least two signaling pathways for low temperature stress exist in rice, and that a MAP kinase pathway with OsMEK1 and OsMAP1 components is possibly involved in the signaling for the higher range low-temperature stress
- OsMEK1~OsMKK6, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, Two novel mitogen-activated protein signaling components, OsMEK1 and OsMAP1, are involved in a moderate low-temperature signaling pathway in rice, Two novel mitogen-activated protein signaling components, OsMEK1 and OsMAP1, are involved in a moderate low-temperature signaling pathway in rice
- OsMPK6~OsMPK4, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, A redox-sensitive cysteine residue regulates the kinase activities of OsMPK3 and OsMPK6 in vitro., A redox-sensitive cysteine residue regulates the kinase activities of OsMPK3 and OsMPK6 in vitro.
- OsMPK6~OsMPK4, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, A redox-sensitive cysteine residue regulates the kinase activities of OsMPK3 and OsMPK6 in vitro., Here, immunoprecipitated OsMPK3 and OsMPK6 were initially activated in 15min, and this activation transiently increased in rice seedlings under H2O2 stress
- OsMPK6~OsMPK4, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, A redox-sensitive cysteine residue regulates the kinase activities of OsMPK3 and OsMPK6 in vitro., Two subgroup A rice mitogen-activated protein kinases (MAPKs), OsMPK3 and OsMPK6, have been implicated in multiple stress responses
- OsMPK6~OsMPK4, OsMSRMK2~OsMAP1~OsMPK5~OsMAPK2~OsMAPK5~OsBIMK1~OsMPK3, A redox-sensitive cysteine residue regulates the kinase activities of OsMPK3 and OsMPK6 in vitro., Among the six conserved cysteine residues, only the fourth cysteine residues in the kinase domain VII, Cys(179) and Cys(210), were required for the in vitro kinase activities of OsMPK3 and OsMPK6, respectively
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