Gene Details:
- Gene ID: AT4G25090
- Gene Symbol: AtRbohG
- Gene Name:
- Description: Riboflavin synthase-like superfamily protein;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Literature:
- Analysis of EF-hand-containing proteins in Arabidopsis. DOI: 10.1186/gb-2002-3-10-research0056 ; PMID: 12372144
- NADPH oxidase AtrbohD and AtrbohF genes function in ROS-dependent ABA signaling in Arabidopsis. DOI: 10.1093/emboj/cdg277 ; PMID: 12773379
- The vegetative vacuole proteome of Arabidopsis thaliana reveals predicted and unexpected proteins. DOI: 10.1105/tpc.104.027078 ; PMID: 15539469
- Global transcription profiling reveals comprehensive insights into hypoxic response in Arabidopsis. DOI: 10.1104/pp.104.055475 ; PMID: 15734912
- High heterogeneity within the ribosomal proteins of the Arabidopsis thaliana 80S ribosome. DOI: 10.1007/s11103-005-0699-3 ; PMID: 15821981
- Heat stress phenotypes of Arabidopsis mutants implicate multiple signaling pathways in the acquisition of thermotolerance. DOI: 10.1104/pp.105.062257 ; PMID: 15923322
- Expression profiling of the Arabidopsis ferric chelate reductase (FRO) gene family reveals differential regulation by iron and copper. DOI: 10.1007/s00425-005-0165-0 ; PMID: 16362328
- In silico insights on diverse interacting partners and phosphorylation sites of respiratory burst oxidase homolog (Rbohs) gene families from Arabidopsis and rice. DOI: 10.1186/s12870-018-1378-2 ; PMID: 30097007
- Six Arabidopsis thaliana homologues of the human respiratory burst oxidase (gp91phox). DOI: 10.1046/j.1365-313x.1998.00136.x ; PMID: 9628030
- The vegetative vacuole proteome of Arabidopsis thaliana reveals predicted and unexpected proteins. DOI: 10.1105/tpc.104.027078 ; PMID: 15539469
- High heterogeneity within the ribosomal proteins of the Arabidopsis thaliana 80S ribosome. DOI: 10.1007/s11103-005-0699-3 ; PMID: 15821981
Sequences:
cDNA Sequence
- >AT4G25090.1
ATGGTCTGATGGACGTAGCCGTTTATTTAAAAAGAATAACTAAGCGAAAATTTCAGGTCGTCTCGTATTACATGCCAAAGAGTTTCTAAATCCGCCAGAGCATTGACTTGAGATGCAAGAAACAAATTATTTCGTTTAATCATCATTTTCCTGGCTCCCCCGTTTTGTTTCCCTTTGAGATTGTCCGTTAAAAAGGGGACGAACCAATGCAGAGAGTGAGCTTTGAAGTAAAGGACACAGAGGCGGAGAAGAGCAGCAGCGAGATACTGAGCGGATCTTTGCCGTCGACCTACCGAAATCCGGCGATGGAAAACGTTGGAAACGCGGTGGATGATGGATCGAGCGTGAAGAACAATCCGAAACTTGATATGCAGAAACAGAACGGTTTGGTGAAGTGGTTCAAGAAGTGCTTGACAATGGTATCTGGAGAGAGTAAGGCACCTCGATTGGACCGGTCGAAGTCAACGGCCGGTCAGGCCTTGAAAGGGCTCAAGATCATCAGTAAGACCGACGGTAACGCTGCCTGGACCGTCGTGGAGAAGCGGTACTTGAAGATCACGGCCAATACTGATGGATTGCTGCTTCGGTCGAAATTCGGTGAATGCATAGGGATGAACTCAAAAGAATTTGCCTTGGAATTGTTTGACGCCTTAGCTAGAAAAAGTCACTTGAAAGGGGATGTGATTACTGAGACCGAGTTGAAGAAATTTTGGGAACAAATAAATGATAAAAGCTTTGATTCAAGGCTTATCACGTTCTTTGACTTGATGGATAAAGACTCGGATGGTAGACTTACGGAAGACGAAGTTAGAGAGATCATCAAGCTTAGTTCTTCTGCCAATCATCTGTCATGCATCCAAAACAAGGCAGATGAATATGCAGCAATGATAATGGAAGAGCTTGACCCTGATCATATGGGATACATCATGATGGAGAGTCTAAAGAAATTGCTTCTGCAAGCGGAAACAAAATCTGTAAGCACAGATATTAATAGTGAAGAAAGAAAGGAGCTGAGCGACATGCTAACTGAGAGTCTCAAGCCTACACGTGACCCTAACCATTTGAGGAGATGGTATTGTCAACTAAGATTCTTTGTATTGGATAGTTGGCAAAGAGTTTGGGTGATAGCGTTATGGCTCACGATTATGGCCATCCTCTTCGCGTACAAGTATATTCAATACAAGAATAGAGCAGTGTATGAAGTGTTGGGGCCTTGTGTGTGCTTGGCTAAAGGTGCAGCAGAGACGCTGAAGCTAAACATGGCCCTAATTCTGTTACCTGTTTGCAGAAATACCATCACATGGCTTAGAAATAAGACTAGGTTGGGTGTTTTTGTTCCTTTTGATGACAACCTCAATTTTCACAAGGTTATAGCGGTGGGAATTGCGATAGGAGTAGCCATACACTCTGTGTCCCACTTGGCGTGTGATTTTCCACTGCTAATCGCGGCAACTCCAGCGGAATACATGCCTCTCGGAAAATTCTTCGGAGAGGAGCAACCAAAGAGATACTTGCATTTTGTGAAGTCAACAGAAGGAATAACAGGGCTTGTAATGGTTTTCTTGATGGTTATTGCTTTTACACTGGCTATGCCTTGGTTTAGACGGGGGAAGCTAGAGAAAAAGCTACCAGGGCCACTAAAGAAACTTGCGAGCTTCAATGCCTTCTGGTACACTCACCATTTGTTCGTTATAGTCTACATTCTCCTTGTCCTTCACGGATACTACATATATCTCAACAAGGAATGGTACAAGAAAACGACGTGGATGTACTTGGCAGTACCAGTAGCTCTTTATGCATACGAGAGATTGATACGAGCATTCAGGTCCAGCATCAGGACAGTAAAAGTCCTTAAGATGGCAGCTTATCCTGGAAAAGTATTGACTTTGCAGATGTCAAAGCCTACAAACTTCAAATACATGAGCGGCCAATACATGTTTGTAAATTGTCCAGCAGTTTCACCGTTTGAGTGGCATCCATTTTCAATAACTTCTACACCACAAGACGACTATCTGAGCGTTCATATAAAAGCATTGGGAGATTGGACAGAGGCTATCCAAGGAGTTTTCTCAGAGGTGTCTAAGCCACCTCCGGTCGGAGACATGTTGAATGGTGCAAATAGTCCCCGTTTCCCCAAAATTATGATTGATGGTCCGTACGGCGCACCAGCTCAAGACTACAAGAAGTACGAGGTGGTCCTGCTGATAGGTCTTGGCATTGGAGCCACCCCGATGATCAGCATTATCAAGGACATTATTAACAATACGGAGACCAAGGAACAACTCAGCCAAATGGAGAAGGGATCGCCACAAGAGCAACAAGGTAATAAAGAAACTTTCAAGACTCGAAGGGCTTACTTCTACTGGGTAACAAAGGAGCAGGGCACATTTGATTGGTTCAAGAACATCATGAACGAGATCGCAGAACGGGACAAAAGTAAAGTCATAGAACTACACAATCATTGCACTAGTGTCTACGAAGAAGGAGACGTTCGTTCCGCGCTCATACGGATGCTTCAGTCTCTTAATTATGCCAAGAATGGTTTAGACATTGTTGCTGGGACAAGGGTCATGTCCCATTTCGCCCGACCTAATTGGAAAAACGTCTACAAACAGATAGCCATGGATCACCCTGGCGCTAATGTTGGAGTGTTCTATTGTGGAGCACCGGTATTGACGAAGGAGTTAAGGCAATTAGCTTTGGAATTCACACACAAGACCAGTACTAGATTCTCTTTCCACAAAGAGAACTTCTAAAGACATTGAAGCTTATAGCTTTATACCCACAAAAATGCTGATAGACTTCTGATGGTCAACAAATTAATGAAATTTGTGGGAGTAAGTATGTTACATTTGTGTTTTGAAAATTAAATTTTGGTGTTATTTTTGTTTCTTGAATAAAACGTCGGTTGTGATGACTATGTGAAATGTGTAGTTTAAGCGCTTTTTTGTTTGAATTGCATTTATCCAATATTCAAAACCATGTTTAATATCCTTTATATTTTCTTGCTCAACAAGAC - >AT4G25090.2
ATGGTCTGATGGACGTAGCCGTTTATTTAAAAAGAATAACTAAGCGAAAATTTCAGGTCGTCTCGTATTACATGCCAAAGAGTTTCTAAATCCGCCAGAGCATTGACTTGAGATGCAAGAAACAAATTATTTCGTTTAATCATCATTTTCCTGGCTCCCCCGTTTTGTTTCCCTTTGAGATTGTCCGTTAAAAAGGGGACGAACCAATGCAGAGAGTGAGCTTTGAAGTAAAGGACACAGAGGCGGAGAAGAGCAGCAGCGAGATACTGAGCGGATCTTTGCCGTCGACCTACCGAAATCCGGCGATGGAAAACGTTGGAAACGCGGTGGATGATGGATCGAGCGTGAAGAACAATCCGAAACTTGATATGCAGAAACAGAACGGTTTGGTGAAGTGGTTCAAGAAGTGCTTGACAATGGTATCTGGAGAGAGTAAGGCACCTCGATTGGACCGGTCGAAGTCAACGGCCGGTCAGGCCTTGAAAGGGCTCAAGATCATCAGTAAGACCGACGGTAACGCTGCCTGGACCGTCGTGGAGAAGCGGTACTTGAAGATCACGGCCAATACTGATGGATTGCTGCTTCGGTCGAAATTCGGTGAATGCATAGGGATGAACTCAAAAGAATTTGCCTTGGAATTGTTTGACGCCTTAGCTAGAAAAAGTCACTTGAAAGGGGATGTGATTACTGAGACCGAGTTGAAGAAATTTTGGGAACAAATAAATGATAAAAGCTTTGATTCAAGGCTTATCACGTTCTTTGACTTGATGGATAAAGACTCGGATGGTAGACTTACGGAAGACGAAGTTAGAGAGATCATCAAGCTTAGTTCTTCTGCCAATCATCTGTCATGCATCCAAAACAAGGCAGATGAATATGCAGCAATGATAATGGAAGAGCTTGACCCTGATCATATGGGATACATCATGATGGAGAGTCTAAAGAAATTGCTTCTGCAAGCGGAAACAAAATCTGTAAGCACAGATATTAATAGTGAAGAAAGAAAGGAGCTGAGCGACATGCTAACTGAGAGTCTCAAGCCTACACGTGACCCTAACCATTTGAGGAGATGGTATTGTCAACTAAGATTCTTTGTATTGGATAGTTGGCAAAGAGTTTGGGTGATAGCGTTATGGCTCACGATTATGGCCATCCTCTTCGCGTACAAGTATATTCAATACAAGAATAGAGCAGTGTATGAAGTGTTGGGGCCTTGTGTGTGCTTGGCTAAAGGTGCAGCAGAGACGCTGAAGCTAAACATGGCCCTAATTCTGTTACCTGTTTGCAGAAATACCATCACATGGCTTAGAAATAAGACTAGGTTGGGTGTTTTTGTTCCTTTTGATGACAACCTCAATTTTCACAAGGTTATAGCGGTGGGAATTGCGATAGGAGTAGCCATACACTCTGTGTCCCACTTGGCGTGTGATTTTCCACTGCTAATCGCGGCAACTCCAGCGGAATACATGCCTCTCGGAAAATTCTTCGGAGAGGAGCAACCAAAGAGATACTTGCATTTTGTGAAGTCAACAGAAGGAATAACAGGGCTTGTAATGGTTTTCTTGATGGTTATTGCTTTTACACTGGCTATGCCTTGGTTTAGACGGGGGAAGCTAGAGAAAAAGCTACCAGGGCCACTAAAGAAACTTGCGAGCTTCAATGCCTTCTGGTACACTCACCATTTGTTCGTTATAGTCTACATTCTCCTTGTCCTTCACGGATACTACATATATCTCAACAAGGAATGGTACAAGAAAACGACGTGGATGTACTTGGCAGTACCAGTAGCTCTTTATGCATACGAGAGATTGATACGAGCATTCAGGTCCAGCATCAGGACAGTAAAAGTCCTTAAGATGGCAGCTTATCCTGGAAAAGTATTGACTTTGCAGATGTCAAAGCCTACAAACTTCAAATACATGAGCGGCCAATACATGTTTGTAAATTGTCCAGCAGTTTCACCGTTTGAGTGGCATCCATTTTCAATAACTTCTACACCACAAGACGACTATCTGAGCGTTCATATAAAAGCATTGGGAGATTGGACAGAGGCTATCCAAGGAGTTTTCTCAGAGGTGTCTAAGCCACCTCCGGTCGGAGACATGTTGAATGGTGCAAATAGTCCCCGTTTCCCCAAAATTATGATTGATGGTCCGTACGGCGCACCAGCTCAAGACTACAAGAAGTACGAGGTGGTCCTGCTGATAGGTCTTGGCATTGGAGCCACCCCGATGATCAGCATTATCAAGGACATTATTAACAATACGGAGACCAAGGAACAACTCAGCCAAATGGAGAAGGGATCGCCACAAGAGCAACAAGGTAATAAAGAAACTTTCAAGACTCGAAGGGCTTACTTCTACTGGGTAACAAAGGAGCAGGGCACATTTGATTGGTTCAAGAACATCATGAACGAGATCGCAGAACGGGACAAAAGTAAAGTCATAGAACTACACAATCATTGCACTAGTGTCTACGAAGAAGGAGACGTTCGTTCCGCGCTCATACGGATGCTTCAGTCTCTTAATTATGCCAAGAATGGTTTAGACATTGTTGCTGGGACAAGGGTCATGTCCCATTTCGCCCGACCTAATTGGAAAAACGTCTACAAACAGATAGCCATGGATCACCCTGGCGCTAATGTTGGAGTGTTCTATTGTGGAGCACCGGTATTGACGAAGGAGTTAAGGCAATTAGCTTTGGAATTCACACACAAGACCAGTACTAGATTCTCTTTCCACAAAGAGAACTTCTAAAGACATTGAAGCTTATAGCTTTATACCCACAAAAATGCTGATAGACTTCTGATGGTCAACAAATTAATGAAATTTGTGGGAGTAAGTATGTTACATTTGTGTTTTGAAAATTAAATTTTGGTGTTATTTTTGTTTCTTGAATAAAACGTCGGTTGTGATGACTATGTGAAATGTGTAGTTTAAGCGCTTTTTTGTTTGAATTGCATTTATCCAATATTCAAAACCATGTTTAATATCCTTTATATTTTCTTGCTCAACAAGAC
CDS Sequence
Protein Sequence