OsCIPK15

2015-01-20 | Categories genes  | Tags cell death  ethylene  drought  salt stress  salt 

• Information
  • Symbol: OsCIPK15
  • MSU: LOC_Os11g02240
  • RAPdb: Os11g0113700
• Publication
  • Interference with oxidative phosphorylation enhances anoxic expression of rice alpha-amylase genes through abolishing sugar regulation, 2010, J Exp Bot.
  • Regulatory interplay of the Sub1A and CIPK15 pathways in the regulation of alpha-amylase production in flooded rice plants, 2011, Plant Biol (Stuttg).
  • 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, 2010, Plant Physiol.
  • Characterization of stress-responsive CIPK genes in rice for stress tolerance improvement, 2007, Plant Physiol.
  • Coordinated responses to oxygen and sugar deficiency allow rice seedlings to tolerate flooding, 2009, Sci Signal.
  • Dynamic genome-wide association analysis and identification of candidate genes involved in anaerobic germination tolerance in rice, 2021, Rice (N Y).
• 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
  • alphaAmy3~OsAmy3D~RAmy3D~OsRAM3D, OsCIPK15, 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~OsSnRK1a, 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
  • alphaAmy3~OsAmy3D~RAmy3D~OsRAM3D, OsCIPK15, 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~OsSnRK1a, 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
  • OsCBL10, OsCIPK15, Natural variation in the promoter of rice Calcineurin B-like Protein10 OsCBL10 affects flooding tolerance during seed germination among rice subspecies., Subsequent findings also indicate that OsCBL10 may affect OsCIPK15 protein abundance and its downstream pathways
  • OsCBL10, OsCIPK15, Natural variation in the promoter of rice Calcineurin B-like Protein10 OsCBL10 affects flooding tolerance during seed germination among rice subspecies., In summary, our results suggest that the adaptation to flooding stress during rice germination is associated with two different OsCBL10 promoters, which in turn affect OsCBL10 expression in different cultivars and negatively affect OsCIPK15 protein accumulation and its downstream cascade
  • Asr6~OsASR6, OsCIPK15, OsASR6 Alleviates Rice Resistance to Xanthomonas oryzae via Transcriptional Suppression of OsCIPK15., OsASR6 Alleviates Rice Resistance to Xanthomonas oryzae via Transcriptional Suppression of OsCIPK15.
  • Asr6~OsASR6, OsCIPK15, OsASR6 Alleviates Rice Resistance to Xanthomonas oryzae via Transcriptional Suppression of OsCIPK15., Collectively, these results reveal that OsASR6 alleviates rice resistance through the transcriptional suppression of OsCIPK15, and thus links calcium signaling to rice resistance against X

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