OsCIPK15

2022-11-15 | Categories genes | Tags cell death ethylene drought salt stress salt

Information
- Symbol: OsCIPK15
- MSU: LOC_Os11g02240
- RAPdb: Os11g0113700
PSP score
- LOC_Os11g02240.1: 0.0349
PLAAC score
- LOC_Os11g02240.1: 0
pLDDT score
- 78.05
Protein Structure from AlphaFold and UniProt
Publication
Genbank accession number
- AB264037
- AK121773
- AB264037
- AK121773
Key message
- On the other hand, TvX/EIX-induced cell death was enhanced in OsCIPK15-overexpressing lines
- We here identified two CIPKs, OsCIPK14 and OsCIPK15, rapidly induced by microbe-associated molecular patterns, including chitooligosaccharides and xylanase (Trichoderma viride/ethylene-inducing xylanase [TvX/EIX]), in rice (Oryza sativa)
- Transgenic plants overexpressing the transgenes OsCIPK03, OsCIPK12, and OsCIPK15 showed significantly improved tolerance to cold, drought, and salt stress, respectively
Connection
- OsCIPK15, alphaAmy3~OsAmy3D~RAmy3D, Interference with oxidative phosphorylation enhances anoxic expression of rice alpha-amylase genes through abolishing sugar regulation, Treatment with a respiratory inhibitor or anoxia also relieved the sugar repression of the rice CIPK15 gene, a main upstream positive regulator of SnRK1A that is critical for Amy3D expression in response to sugar starvation
- OsCIPK15, SnRK1A, Interference with oxidative phosphorylation enhances anoxic expression of rice alpha-amylase genes through abolishing sugar regulation, Treatment with a respiratory inhibitor or anoxia also relieved the sugar repression of the rice CIPK15 gene, a main upstream positive regulator of SnRK1A that is critical for Amy3D expression in response to sugar starvation
- OsCIPK15, alphaAmy3~OsAmy3D~RAmy3D, Regulatory interplay of the Sub1A and CIPK15 pathways in the regulation of alpha-amylase production in flooded rice plants, CIPK15 is likely to play a role in the up-regulation of Ramy3D in flooding-intolerant rice varieties that display fast elongation under flooding and that do not possess Sub1A
- OsCIPK15, Sub1A, Regulatory interplay of the Sub1A and CIPK15 pathways in the regulation of alpha-amylase production in flooded rice plants, It is still unknown whether the Sub1A- and CIPK15-mediated pathways act as complementary processes for rice survival under O(2) deprivation
- OsCIPK15, Sub1A, Regulatory interplay of the Sub1A and CIPK15 pathways in the regulation of alpha-amylase production in flooded rice plants, In adult plants Sub1A and CIPK15 may perhaps play an antagonistic role in terms of carbohydrate consumption, with Sub1A acting as a starch degradation repressor and CIPK15 as an activator
- OsCIPK15, Sub1A, Regulatory interplay of the Sub1A and CIPK15 pathways in the regulation of alpha-amylase production in flooded rice plants, The relation between the Sub1A and the CIPK15 pathways was investigated
- OsCIPK15, Sub1A, Regulatory interplay of the Sub1A and CIPK15 pathways in the regulation of alpha-amylase production in flooded rice plants, The results show that under O(2) deprivation, the CIPK15 pathway is repressed in the tolerant, Sub1A-containing, FR13A variety
- OsCIPK15, Sub1A, Regulatory interplay of the Sub1A and CIPK15 pathways in the regulation of alpha-amylase production in flooded rice plants, CIPK15 is likely to play a role in the up-regulation of Ramy3D in flooding-intolerant rice varieties that display fast elongation under flooding and that do not possess Sub1A
- OsCIPK15, Sub1A, Regulatory interplay of the Sub1A and CIPK15 pathways in the regulation of alpha-amylase production in flooded rice plants, Regulatory interplay of the Sub1A and CIPK15 pathways in the regulation of alpha-amylase production in flooded rice plants
- OsCIPK14, OsCIPK15, Regulation of Microbe-Associated Molecular Pattern-Induced Hypersensitive Cell Death, Phytoalexin Production, and Defense Gene Expression by Calcineurin B-Like Protein-Interacting Protein Kinases, OsCIPK14/15, in Rice Cultured Cells, We here identified two CIPKs, OsCIPK14 and OsCIPK15, rapidly induced by microbe-associated molecular patterns, including chitooligosaccharides and xylanase (Trichoderma viride/ethylene-inducing xylanase [TvX/EIX]), in rice (Oryza sativa)
- OsCIPK15, OsCK1~OsCIPK31~CIPK03, Characterization of stress-responsive CIPK genes in rice for stress tolerance improvement, To prove that some of these stress-responsive OsCIPK genes are potentially useful for stress-tolerance improvement, three CIPK genes (OsCIPK03, OsCIPK12, and OsCIPK15) were overexpressed in japonica rice ‘Zhonghua 11’
- OsCIPK15, OsCK1~OsCIPK31~CIPK03, Characterization of stress-responsive CIPK genes in rice for stress tolerance improvement, Transgenic plants overexpressing the transgenes OsCIPK03, OsCIPK12, and OsCIPK15 showed significantly improved tolerance to cold, drought, and salt stress, respectively
- OsCIPK12, OsCIPK15, Characterization of stress-responsive CIPK genes in rice for stress tolerance improvement, To prove that some of these stress-responsive OsCIPK genes are potentially useful for stress-tolerance improvement, three CIPK genes (OsCIPK03, OsCIPK12, and OsCIPK15) were overexpressed in japonica rice ‘Zhonghua 11’
- OsCIPK12, OsCIPK15, Characterization of stress-responsive CIPK genes in rice for stress tolerance improvement, Transgenic plants overexpressing the transgenes OsCIPK03, OsCIPK12, and OsCIPK15 showed significantly improved tolerance to cold, drought, and salt stress, respectively
- OsCIPK15, SnRK1A, Coordinated responses to oxygen and sugar deficiency allow rice seedlings to tolerate flooding, CIPK15 regulates the plant global energy and stress sensor SnRK1A (Snf1-related protein kinase 1) and links O(2)-deficiency signals to the SnRK1-dependent sugar-sensing cascade to regulate sugar and energy production and to enable rice growth under floodwater

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