Gene Details:
- MSU gene ID: LOC_Os02g51180
- RAPdb gene ID: Os02g0746000
- Gene Symbol: OsCUL3a OsSPL88
- Genome: MSU7 , IRGSP-1.0
- Species: Oryza sativa
Functional Descriptions:
- The rice lesion mimic mutant OsCUL3a displays a significant increase in the accumulation of flg22- and chitin-induced reactive oxygen species, and in pathogenesis-related gene expression as well as resistance to Magnaporthe oryzae and Xanthomonas oryzae pv.
- OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice.
- Here, we show that rice OsCUL3a is important for the regulation of cell death and immunity.
- Strikingly, OsCUL3a interacts with and degrades OsNPR1, which acts as a positive regulator of cell death in rice.
- Our data demonstrate that OsCUL3a negatively regulates cell death and immunity by degrading OsNPR1 in rice.
- We cloned the OsCUL3a gene via a map-based strategy and found that the lesion mimic phenotype of OsCUL3a is associated with the early termination of OsCUL3a protein.
- Furthermore, the OsCUL3a osnpr1 double mutant does not exhibit the lesion mimic phenotype of the OsCUL3a mutant.
- In OsCUL3a (oscullin3a) mutants, OsCUL3a-associated molecular switches are responsible for disrupted cell metabolism that leads to increased total lipid content in rice grain, a late accumulation of H2O2 in leaves, enhanced Xoo disease resistance, and suppressed panicle and first internode growth.
- In OsCUL3a mutants, PRM confirmed up-regulated molecular switch proteins include lipoxygenases (CM-LOX1 and CM-LOX2), suggesting a novel connection between ferroptosis and rice lesion mimic formation.
- OsSPL88 Encodes a Cullin Protein that Regulates Rice Growth and Development.
Function-related keywords:
- resistance , magnaporthe-oryzae , cell-death , immunity , lesion , lesion-mimic , reactive-oxygen-species , growth , panicle , disease , disease-resistance , xoo
Literature:
- OsCUL3a Negatively Regulates Cell Death and Immunity by Degrading OsNPR1 in Rice . DOI: 10.1105/tpc.16.00650 ; PMID: 28100706
- OsCUL3a-Associated Molecular Switches Have Functions in Cell Metabolism, Cell Death, and Disease Resistance . DOI: 10.1021/acs.jafc.9b07426 ; PMID: 32320244
- OsSPL88 Encodes a Cullin Protein that Regulates Rice Growth and Development . DOI: 10.3389/fgene.2022.918973 ; PMID: 35899195
Related News:
Gene Resources:
Sequences:
cDNA Sequence
- >LOC_Os02g51180.1
GAGAGAGAAAAAAAAAAAGCAGGCGACGCCAGCACTGCAGGGAAGAAGAGGAACTGAAGCCTTTCTCTTCTGTCCGCCGCTGCGCCCTCCCCCTCTCTGTCCACGTTCCCCCACCCCACCTCGGCCTAAAACCCTAGCCGCCGGCGGAGCGGGACCTCACCGGCGGCGGCGATGAGCGGGGGCGGGCCGCCGAAGAAACGCAACTTCAAGATCGAGCTGTTCAAGCACCGCGTGGAGCTCGACCCCAAGTACGCGGAGCGGACATGGAAGGTCCTGGAGCACGCCATCCACGAGATCTACAACCACAACGCCAGTGGCCTCTCCTTCGAGGAGCTCTACAGGAGTGCCTACAACATGGTGCTCCACAAGTATGGTGAGAAGCTATATGATGGCCTGGAGAGAACTATGACATGGCGCTTGAAGGAAATATCAAAATCAATAGAGGCTGCACAGGGTGGTTTGTTTCTGGAGGAGCTGAATGCCAAGTGGATGGATCACAATAAGGCATTGCAGATGATCCGAGATATTCTAATGTACATGGATCGAACATATGTCCCGCAATCCCGTAGAACACCTGTTCATGAGCTTGGTTTGAATTTGTGGAGGGATCACATAATTCACTCTCCCATGATTCATAGTCGGCTGCTTGATACCCTTCTGGATCTTATTCACAGGGAGAGAATGGGTGAAATGATTAACAGAGGCCTGATGAGGAGCATAACGAAAATGTTAATGGATCTTGGTGCTGCTGTATATCAAGATGACTTTGAGAAGCCGTTTTTGGATGTTACAGCTAGCTTCTACAGTGGAGAGTCTCAGGAGTTCATTGAGTGCTGTGACTGTGGGAACTATCTTAAGAAGTCCGAGAGACGTCTCAATGAGGAAATGGAACGTGTCTCACACTACTTGGATTCTGGCACTGAGGCAAAGATAACTAGTGTGGTTGAGAAAGAAATGATTGCCAATCACATGCATAGATTGGTTCATATGGAAAACTCAGGCCTTGTAAATATGCTTGTAGATGACAAATATGACGACTTGGCTAGGATGTACAACTTATTCCGAAGGGTTTTTGATGGGCTATCGACAATCAGAGATGTGATGACTTCATACCTAAGGGAAACAGGGAAGCAGTTAGTGACAGATCCTGAGAGGTTGAAAGACCCAGTGGAATTTGTTCAGCGCTTGTTAAATGAGAAGGACAAGCATGATAAGATCATCAACGTTGCTTTTGGCAATGACAAAACTTTCCAGAATGCTCTAAATTCATCCTTTGAGTACTTCATCAACTTAAACAACAGGTCACCTGAATTCATATCGTTGTATGTTGATGATAAACTTCGGAAAGGATTGAAAGGAGCCACAGAAGAGGATGTGGAGGTTATTCTGGACAAAGTCATGATGCTGTTTCGGTACCTCCAGGAGAAGGATGTATTTGAGAAGTACTACAAGCAGCATTTGGCGAAAAGACTATTGTCTGGCAAAACTGTTTCTGATGATGCTGAGAGGAGTATGATAGTTAAACTCAAGACAGAATGTGGGTACCAGTTCACTTCCAAATTAGAGGGCATGTTCACTGACATGAAGACCTCTCAGGACACTATGATAGACTTTTATGCCAAGAAGTCTGAGGAACTTGGCGATGGCCCAACACTTGATGTCCACATTCTTACAACTGGTTCTTGGCCAACACAGCCCTGCCCTCCCTGCAACCTTCCAACTGAAATCCTTGCAATATGTGATAAGTTCCGGACATACTACCTTGGAACTCACAGTGGCCGGAGATTGACATGGCAAACAAACATGGGAACAGCTGACATAAAAGCCACATTTGGGAAAGGTCAGAAGCATGAACTAAATGTATCCACTTATCAGATGTGTGTTCTCATGCTGTTTAATTCTACCGATGGGTTAACCTACAAAGACATCGAACAAGATACTGCGATACCTGCCTCGGATCTAAAGAGATGCCTTCAATCTCTTGCTTGTGTCAAGGGGAAGAATGTTCTCCGCAAGGAACCCATGAGCAAAGATATATCGGAGGATGACACATTCTACTTCAACGACAAGTTCACAAGCAAGCTTGTTAAGGTCAAGATTGGGACAGTAGTGGCGCAAAAGGAATCTGAGCCAGAGAAACAAGAGACTCGTCAACGGGTTGAGGAGGACAGGAAACCTCAAATTGAGGCTGCTATCGTCAGGATTATGAAATCCAGGAGGGTCTTGGATCATAACAGCATTGTAGCTGAGGTTACCAAGCAATTGCAAGCCCGATTCATGCCGAATCCTGTTGTCATAAAGAAACGCATAGAATCTCTAATTGAGCGTGAATTCTTAGAGAGGGACAAAGCAGATAGGAAGTTATATCGCTATCTTGCATAGAAGGTCATTATGTGATTATTGATGAGCAAATGGCTTGTATTCATGTAAAACGGTTTCCATGACGTTTGAGTTCAGTTTTATTCGTTCCACTTTGTCCACTGAATCATAGCTACTTCTCGTTTCCCGTAGGCAAGCTGGTGTTCAGAGTTTTCCAGCTAATACTGATGTCATGTTACGAGTTGCTGCTATCTTAATATAATGGAGATGGATCGTCAAATTCACAGCC
CDS Sequence
- >LOC_Os02g51180.1
ATGAGCGGGGGCGGGCCGCCGAAGAAACGCAACTTCAAGATCGAGCTGTTCAAGCACCGCGTGGAGCTCGACCCCAAGTACGCGGAGCGGACATGGAAGGTCCTGGAGCACGCCATCCACGAGATCTACAACCACAACGCCAGTGGCCTCTCCTTCGAGGAGCTCTACAGGAGTGCCTACAACATGGTGCTCCACAAGTATGGTGAGAAGCTATATGATGGCCTGGAGAGAACTATGACATGGCGCTTGAAGGAAATATCAAAATCAATAGAGGCTGCACAGGGTGGTTTGTTTCTGGAGGAGCTGAATGCCAAGTGGATGGATCACAATAAGGCATTGCAGATGATCCGAGATATTCTAATGTACATGGATCGAACATATGTCCCGCAATCCCGTAGAACACCTGTTCATGAGCTTGGTTTGAATTTGTGGAGGGATCACATAATTCACTCTCCCATGATTCATAGTCGGCTGCTTGATACCCTTCTGGATCTTATTCACAGGGAGAGAATGGGTGAAATGATTAACAGAGGCCTGATGAGGAGCATAACGAAAATGTTAATGGATCTTGGTGCTGCTGTATATCAAGATGACTTTGAGAAGCCGTTTTTGGATGTTACAGCTAGCTTCTACAGTGGAGAGTCTCAGGAGTTCATTGAGTGCTGTGACTGTGGGAACTATCTTAAGAAGTCCGAGAGACGTCTCAATGAGGAAATGGAACGTGTCTCACACTACTTGGATTCTGGCACTGAGGCAAAGATAACTAGTGTGGTTGAGAAAGAAATGATTGCCAATCACATGCATAGATTGGTTCATATGGAAAACTCAGGCCTTGTAAATATGCTTGTAGATGACAAATATGACGACTTGGCTAGGATGTACAACTTATTCCGAAGGGTTTTTGATGGGCTATCGACAATCAGAGATGTGATGACTTCATACCTAAGGGAAACAGGGAAGCAGTTAGTGACAGATCCTGAGAGGTTGAAAGACCCAGTGGAATTTGTTCAGCGCTTGTTAAATGAGAAGGACAAGCATGATAAGATCATCAACGTTGCTTTTGGCAATGACAAAACTTTCCAGAATGCTCTAAATTCATCCTTTGAGTACTTCATCAACTTAAACAACAGGTCACCTGAATTCATATCGTTGTATGTTGATGATAAACTTCGGAAAGGATTGAAAGGAGCCACAGAAGAGGATGTGGAGGTTATTCTGGACAAAGTCATGATGCTGTTTCGGTACCTCCAGGAGAAGGATGTATTTGAGAAGTACTACAAGCAGCATTTGGCGAAAAGACTATTGTCTGGCAAAACTGTTTCTGATGATGCTGAGAGGAGTATGATAGTTAAACTCAAGACAGAATGTGGGTACCAGTTCACTTCCAAATTAGAGGGCATGTTCACTGACATGAAGACCTCTCAGGACACTATGATAGACTTTTATGCCAAGAAGTCTGAGGAACTTGGCGATGGCCCAACACTTGATGTCCACATTCTTACAACTGGTTCTTGGCCAACACAGCCCTGCCCTCCCTGCAACCTTCCAACTGAAATCCTTGCAATATGTGATAAGTTCCGGACATACTACCTTGGAACTCACAGTGGCCGGAGATTGACATGGCAAACAAACATGGGAACAGCTGACATAAAAGCCACATTTGGGAAAGGTCAGAAGCATGAACTAAATGTATCCACTTATCAGATGTGTGTTCTCATGCTGTTTAATTCTACCGATGGGTTAACCTACAAAGACATCGAACAAGATACTGCGATACCTGCCTCGGATCTAAAGAGATGCCTTCAATCTCTTGCTTGTGTCAAGGGGAAGAATGTTCTCCGCAAGGAACCCATGAGCAAAGATATATCGGAGGATGACACATTCTACTTCAACGACAAGTTCACAAGCAAGCTTGTTAAGGTCAAGATTGGGACAGTAGTGGCGCAAAAGGAATCTGAGCCAGAGAAACAAGAGACTCGTCAACGGGTTGAGGAGGACAGGAAACCTCAAATTGAGGCTGCTATCGTCAGGATTATGAAATCCAGGAGGGTCTTGGATCATAACAGCATTGTAGCTGAGGTTACCAAGCAATTGCAAGCCCGATTCATGCCGAATCCTGTTGTCATAAAGAAACGCATAGAATCTCTAATTGAGCGTGAATTCTTAGAGAGGGACAAAGCAGATAGGAAGTTATATCGCTATCTTGCATAG
Protein Sequence
- >LOC_Os02g51180.1
MSGGGPPKKRNFKIELFKHRVELDPKYAERTWKVLEHAIHEIYNHNASGLSFEELYRSAYNMVLHKYGEKLYDGLERTMTWRLKEISKSIEAAQGGLFLEELNAKWMDHNKALQMIRDILMYMDRTYVPQSRRTPVHELGLNLWRDHIIHSPMIHSRLLDTLLDLIHRERMGEMINRGLMRSITKMLMDLGAAVYQDDFEKPFLDVTASFYSGESQEFIECCDCGNYLKKSERRLNEEMERVSHYLDSGTEAKITSVVEKEMIANHMHRLVHMENSGLVNMLVDDKYDDLARMYNLFRRVFDGLSTIRDVMTSYLRETGKQLVTDPERLKDPVEFVQRLLNEKDKHDKIINVAFGNDKTFQNALNSSFEYFINLNNRSPEFISLYVDDKLRKGLKGATEEDVEVILDKVMMLFRYLQEKDVFEKYYKQHLAKRLLSGKTVSDDAERSMIVKLKTECGYQFTSKLEGMFTDMKTSQDTMIDFYAKKSEELGDGPTLDVHILTTGSWPTQPCPPCNLPTEILAICDKFRTYYLGTHSGRRLTWQTNMGTADIKATFGKGQKHELNVSTYQMCVLMLFNSTDGLTYKDIEQDTAIPASDLKRCLQSLACVKGKNVLRKEPMSKDISEDDTFYFNDKFTSKLVKVKIGTVVAQKESEPEKQETRQRVEEDRKPQIEAAIVRIMKSRRVLDHNSIVAEVTKQLQARFMPNPVVIKKRIESLIEREFLERDKADRKLYRYLA*