Gene Details:
- MSU gene ID: LOC_Os11g02240
- RAPdb gene ID: Os11g0113700
- Gene Symbol: OsCIPK15
- Genome: MSU7 , IRGSP-1.0
- Species: Oryza sativa
Functional Descriptions:
- 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.
Function-related keywords:
- cell-death , ethylene , drought , salt-stress , salt
Literature:
- Interference with oxidative phosphorylation enhances anoxic expression of rice alpha-amylase genes through abolishing sugar regulation . DOI: 10.1093/jxb/erq145 ; PMID: 20530196
- Regulatory interplay of the Sub1A and CIPK15 pathways in the regulation of α-amylase production in flooded rice plants . DOI: 10.1111/j.1438-8677.2010.00415.x ; PMID: 21668602
- 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 . DOI: 10.1104/pp.109.151852 ; PMID: 20357140
- Characterization of stress-responsive CIPK genes in rice for stress tolerance improvement . DOI: 10.1104/pp.107.101295 ; PMID: 17535819
- Coordinated responses to oxygen and sugar deficiency allow rice seedlings to tolerate flooding . DOI: 10.1126/scisignal.2000333 ; PMID: 19809091
- Dynamic genome-wide association analysis and identification of candidate genes involved in anaerobic germination tolerance in rice . DOI: 10.1186/s12284-020-00444-x ; PMID: 33409869
Related News:
Gene Resources:
Sequences:
cDNA Sequence
- >LOC_Os11g02240.1
GGCGGCTGCCTCCTCTCCTCTTCTTGATCGGTTCCCCCTGTATAAAAGAGAACCCCGTCTTCTCGCTGTCCTCGCATCCACTCCTGATACTACCACTCAAAAACTCTCTCTCTCTACCCAAACAGGTGTTGAGAAAGAAGTGAGGGACAGATCCAAAAAGTTCACCTTTTGTTACCTGAATCTCCTCTTCTTCCTGTCACCGGAAGGGGAATCAATAAAAAAAACAAGCAGTGAAAGCCTCAAGGAATGCTGAAAGATGTGCTTGCATAGAAGAAATTTTCCGTGTGAGATAAAACAGATTGCTGGTTCACCAGTGCTACTGATCTACTCAAGTCTTGATGTGAGTGATCAACTTTCCTGCACTAATTCTACACCATTTAGACTCCGAAACGACGATGATATAAGAATGTTGTTCTCCATCCACGATCATGACCTTGGGGAGGATGGCTAAAGAATTGCAGTCCATCTGATTGGTGGTCAAAACATAGTGCTGAGATTTATATCTTTGTGGGCATGGAGAGTAGAGGGAAGATTCTAATGGAGAGGTATGAGTTGGGGAGATTGTTGGGGAAAGGAACATTTGGCAAGGTGCACTATGCAAGGAATCTGGAGTCAAACCAGAGTGTGGCCATAAAGATGATGGACAAACAGCAGATATTGAAGGTCGGGCTTTCGGAGCAGATCAGACGTGAGATCACAACCATGCGGTTGGTGGCTCATAAGAACATTGTTCAGCTTCATGAGGTCATGGCAACACGGAACAAGATCTACTTTGTGATGGAGTATGTGAAAGGTGGTGAGCTATTTGAAAAGGTTGCAAAGCGTGGAAAGCTTACAGAGGTTGTTGCACATAAGTATTTCCAGCAACTCATTAGTGCAGTGGATTACTGCCACAGTCGAGGTGTGTATCACCGGGACTTGAAGCCTGAGAACCTACTGTTGGATGAGAATGAGAACCTGAAAGTCTCAGACTTTGGATTGAGTGCGCTTTCAGAGTCGAAGAGGCAAGATGGCTTACTCCATACCACCTGTGGAACACCTGCATATGTAGCTCCAGAGGTGATTAGCAAGATAGGCTATGATGGTGCAAAGTCAGATATTTGGTCTTGTGGTGTTATCCTGTTTGTTCTTGTTGCTGGTTACCTTCCTTTCCAGGGCCCAAACTTGATGGAAATGTATCGGAAGATACAACACGGTGAATTCAGGTGCCCCGGTTGGTTTTCACGCAAACTCCAGAAGTTGTTGTACAAGATCATGGACCCCAACCCAAGCACAAGGATTTCAATCCAGAAGATAAAGGAGTCTACCTGGTTCCGGAAAGGTCCTGAGGAGAACCGTATTTTGAAGGAAAGAACTTTGAATGAAAACACCACCAAAAATGTTGCTCCGGTGCTTGGTGTGAGACGCAAGAAAAATGCTCATGAAGATGTGAAGCCCATGTCAGTGACAAACTTAAATGCTTTTGAAATTATCTCTTTCTCCAAGGGATTTGATCTCTCTGGCATGTTCATTGTAAAGGAATGGAGAAATGAGGCAAGGTTCACTTCAGATAAATCTGCCTCAACCATAATCTCAAAGCTAGAAGATGTAGCAAAGGCGCTAAATCTCAGGGTAAGGAAGAAAGACAATGGTGTAGTGAAGATGCAAGGGAGGAAGGAGGGAAGGAATGGTGTTCTTCAGTTTGACATAGAGATATTTGAGGTTACCACTTCCTATCATATCATCGAGATGAAACAAACAAGTGGCGATTCATTGGAGTACCGACAGCTACTGGAGGAGGGCATCCGGCCAGCTCTGAAGGACATTGTCTTGGCCTAGCATGGAGATGAATAGCAGCAGTCGCAAGAGTAGATTTTGATGTCTCAAGCATTTAGTTTCCGCTCCTCAAATTCATTAGGTTTTAGCTCAAATGAATTTATTTGTCTTGCCTGTGTTCTTTTTAGCATCTATGTTTTTGTATCTGGAGAGTTCATGTTGAGACAATGTATGCAATTGTATTTGGAGAGTTGATGTTTAGGCAATTTATGCACAATTTAGATGGAGTCTGTCGAGAGTAATTTTATGAGAAATTGAGCTGCAATATAAAAATTGGCTTTGAGCCTTTCAAGCTTTCTTCAGATA
CDS Sequence
- >LOC_Os11g02240.1
ATGGAGAGTAGAGGGAAGATTCTAATGGAGAGGTATGAGTTGGGGAGATTGTTGGGGAAAGGAACATTTGGCAAGGTGCACTATGCAAGGAATCTGGAGTCAAACCAGAGTGTGGCCATAAAGATGATGGACAAACAGCAGATATTGAAGGTCGGGCTTTCGGAGCAGATCAGACGTGAGATCACAACCATGCGGTTGGTGGCTCATAAGAACATTGTTCAGCTTCATGAGGTCATGGCAACACGGAACAAGATCTACTTTGTGATGGAGTATGTGAAAGGTGGTGAGCTATTTGAAAAGGTTGCAAAGCGTGGAAAGCTTACAGAGGTTGTTGCACATAAGTATTTCCAGCAACTCATTAGTGCAGTGGATTACTGCCACAGTCGAGGTGTGTATCACCGGGACTTGAAGCCTGAGAACCTACTGTTGGATGAGAATGAGAACCTGAAAGTCTCAGACTTTGGATTGAGTGCGCTTTCAGAGTCGAAGAGGCAAGATGGCTTACTCCATACCACCTGTGGAACACCTGCATATGTAGCTCCAGAGGTGATTAGCAAGATAGGCTATGATGGTGCAAAGTCAGATATTTGGTCTTGTGGTGTTATCCTGTTTGTTCTTGTTGCTGGTTACCTTCCTTTCCAGGGCCCAAACTTGATGGAAATGTATCGGAAGATACAACACGGTGAATTCAGGTGCCCCGGTTGGTTTTCACGCAAACTCCAGAAGTTGTTGTACAAGATCATGGACCCCAACCCAAGCACAAGGATTTCAATCCAGAAGATAAAGGAGTCTACCTGGTTCCGGAAAGGTCCTGAGGAGAACCGTATTTTGAAGGAAAGAACTTTGAATGAAAACACCACCAAAAATGTTGCTCCGGTGCTTGGTGTGAGACGCAAGAAAAATGCTCATGAAGATGTGAAGCCCATGTCAGTGACAAACTTAAATGCTTTTGAAATTATCTCTTTCTCCAAGGGATTTGATCTCTCTGGCATGTTCATTGTAAAGGAATGGAGAAATGAGGCAAGGTTCACTTCAGATAAATCTGCCTCAACCATAATCTCAAAGCTAGAAGATGTAGCAAAGGCGCTAAATCTCAGGGTAAGGAAGAAAGACAATGGTGTAGTGAAGATGCAAGGGAGGAAGGAGGGAAGGAATGGTGTTCTTCAGTTTGACATAGAGATATTTGAGGTTACCACTTCCTATCATATCATCGAGATGAAACAAACAAGTGGCGATTCATTGGAGTACCGACAGCTACTGGAGGAGGGCATCCGGCCAGCTCTGAAGGACATTGTCTTGGCCTAG
Protein Sequence
- >LOC_Os11g02240.1
MESRGKILMERYELGRLLGKGTFGKVHYARNLESNQSVAIKMMDKQQILKVGLSEQIRREITTMRLVAHKNIVQLHEVMATRNKIYFVMEYVKGGELFEKVAKRGKLTEVVAHKYFQQLISAVDYCHSRGVYHRDLKPENLLLDENENLKVSDFGLSALSESKRQDGLLHTTCGTPAYVAPEVISKIGYDGAKSDIWSCGVILFVLVAGYLPFQGPNLMEMYRKIQHGEFRCPGWFSRKLQKLLYKIMDPNPSTRISIQKIKESTWFRKGPEENRILKERTLNENTTKNVAPVLGVRRKKNAHEDVKPMSVTNLNAFEIISFSKGFDLSGMFIVKEWRNEARFTSDKSASTIISKLEDVAKALNLRVRKKDNGVVKMQGRKEGRNGVLQFDIEIFEVTTSYHIIEMKQTSGDSLEYRQLLEEGIRPALKDIVLA*