Gene Details:
- Gene ID: AT4G19040
- Gene Symbol: EDR2
- Gene Name: ENHANCED DISEASE RESISTANCE 2
- Description: ENHANCED DISEASE RESISTANCE 2;(source:Araport11)
- TAIR Accession: locus:2117134
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0025195 — pollen tube cell — célula del tubo polínico (Spanish, exact), 花粉管細胞 (Japanese, exact)
- PO:0025281 — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
Gene Ontology:
- GO:1900150 — involved in — regulation of defense response to fungus
- GO:0009723 — involved in — response to ethylene
- GO:0010008 — located in — endosome membrane
- GO:0005886 — located in — plasma membrane
- GO:0005789 — located in — endoplasmic reticulum membrane
- GO:1900056 — involved in — negative regulation of leaf senescence
- GO:0009751 — involved in — response to salicylic acid
- GO:0070273 — enables — phosphatidylinositol-4-phosphate binding
- GO:0005739 — located in — mitochondrion
Function-related keywords:
Literature:
- START lipid/sterol-binding domains are amplified in plants and are predominantly associated with homeodomain transcription factors. DOI: 10.1186/gb-2004-5-6-r41 ; PMID: 15186492
- Learning the lipid language of plant signalling. DOI: 10.1016/j.tplants.2004.06.008 ; PMID: 15358268
- Regulation of plant defense responses in Arabidopsis by EDR2, a PH and START domain-containing protein. DOI: 10.1111/j.1365-313X.2005.02523.x ; PMID: 16212604
- EDR2 negatively regulates salicylic acid-based defenses and cell death during powdery mildew infections of Arabidopsis thaliana. DOI: 10.1186/1471-2229-7-35 ; PMID: 17612410
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Suppression of edr2-mediated powdery mildew resistance, cell death and ethylene-induced senescence by mutations in ALD1 in Arabidopsis. DOI: 10.1016/j.jgg.2011.03.001 ; PMID: 21530897
- SR1, a calmodulin-binding transcription factor, modulates plant defense and ethylene-induced senescence by directly regulating NDR1 and EIN3. DOI: 10.1104/pp.111.192310 ; PMID: 22345509
- RPN1a, a 26S proteasome subunit, is required for innate immunity in Arabidopsis. DOI: 10.1111/j.1365-313X.2012.05048.x ; PMID: 22577987
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
Sequences:
cDNA Sequence
- >AT4G19040.2
ACACAGATATTTCTCTCTCTGCTGTTTTATTTTTTTATAGAAAATATTAATTTAGCTTTGGATTTTTTTCTTTTTTTTTCTCTGTCAAAGTTGAATTGCTTTTTCTCTTGTTTTTCGTCGAAGTGGAAAATTTGATTTTATTTTTTCCGGAATTTTGAAAATCTGTGAGCTCATAAATCTTCGCTAATCGCAGAGACGAATCTGCGAAAATTCCAACACCAGATTCCGGCGCCGGAGCGCCGATGAACAATCAGGTCGTTTAGTAAAATTCGATGAATCTCCCGCGGAAATAATTAGATTCGATTTCGATTTCCGTGGGGAAGTTTTGTGCCATTTGATTTGTTTTCGTTCGTCCCCGTTGGAGATTTTTTGTAATTTCTGGGGACAGAAACAATGTCTAAGGTAGTGTACGAAGGATGGATGGTTAGGTATGGAAGGAGGAAGATCGGACGATCGTATATTCATATGAGGTATTTTGTGTTGGAGCCTCGTCTTTTGGCGTATTACAAGAAGAAACCTCAGGATTATCAGGTTCCTATCAAGACCATGTTAATTGATGGTAACTGCAGAGTTGAGGATCGAGGCTTGAAAACACATCATGGACATATGGTTTACGTTTTGTCTGTCTATAACAAAAAAGAAAAGAGTCATAGAATTACGATGGCAGCGTTCAACATTCAGGAAGCACTAATGTGGAAGGAAAAAATTGAGTCTGTTATAGACCAGCATCAAGAGTCCCAAGTTCCAAATGGTCAGCAGTATGTTTCATTTGAATATAAATCTGGAATGGATACTGGAAGGACTGCTTCATCTTCAGACCATGAAAGCCAATTTAGTGCGGCAGAGGATGAAGAGGACTCTCGACGTAGCTTAATGAGGAGGACAACTATTGGAAATGGTCCTCCAGAATCTGTACTTGACTGGACCAAAGAATTTGATGCAGAGTTGGCGAACCAGAATTCCGACAACCAAGCATTTTCCAGGAAACACTGGCGTCTCCTTCAGTGCCAAAATGGTCTTCGGATTTTTGAAGAGCTTCTTGAAGTTGATTACCTTCCAAGAAGCTGTAGCAGGGCAATGAAGGCTGTTGGTGTAGTGGAGGCAACATGTGAGGAAATATTCGAGCTTCTGATGAGCATGGACGGCACTCGTTATGAGTGGGACTGCAGCTTTCAGTTTGGTAGCTTAGTGGAAGAGGTCGATGGTCACACAGCAGTCCTCTATCACAGACTTCTGCTCGACTGGTTTCCAATGATTGTGTGGCCTCGCGACCTCTGTTATGTCCGCTATTGGCGCCGTAATGATGATGGGAGTTATGTTGTGTTGTTCCGTTCTAGGGAGCATGAGAATTGTGGTCCACAACCTGGATGTGTTCGGGCTCATCTTGAGAGTGGAGGATATAATATTTCCCCACTAAAGCCTCGGAATGGGAGGCCTAGAACGCAAGTGCAACATCTAATACAAATTGATCTAAAAGGGTGGGGTGCAGGCTATCTTCCAGCATTTCAACAACATTGTCTTCTTCAAATGCTGAATAGTGTTGCTGGTTTGCGGGAATGGTTTTCACAGACAGATGAGAGAGGTGTTCATACCCGGATCCCTGTCATGGTTAATATGGCATCATCTTCCTTGAGCTTGACTAAGAGTGGGAAGTCTCTGCATAAGTCTGCCTTTTCTCTTGATCAAACAAATTCCGTTAACAGAAACTCCTTGCTTATGGATGAAGACTCGGATGATGATGATGAATTTCAGATTGCTGAATCAGAACAAGAGCCTGAAACAAGTAAACCAGAGACCGATGTCAAGAGACCAGGTGTGCACCCTATCAAAGAAGAACCTGCTCACAACATTGATCTGTCATGCTTCTCGGGTAACCTAAAGCGCAATGAAAACGAAAACGCCCGTAACTGCTGGAGGATTTCTGATGGTAACAACTTCAAAGTTCGGGGCAAGAATTTCGGTCAAGAGAAAAGAAAGATACCTGCTGGCAAGCATCTTATGGATCTCGTTGCTGTTGACTGGTTCAAAGACAGTAAAAGAATAGATCATGTTGCTAGACGCAAAGGCTGCGCAGCACAAGTTGCTGCAGAAAAAGGTCTATTCTCAATGGTGGTAAATGTTCAAGTTCCAGGATCAACACACTACAGTATGGTGTTTTATTTCGTGATGAAAGAACTAGTACCTGGGTCCCTCTTGCAACGGTTTGTGGATGGTGATGATGAATTCCGAAATAGTAGGCTAAAGCTTATACCATTAGTTCCTAAGGGCTCATGGATAGTACGGCAAAGTGTGGGAAGCACCCCTTGTCTCCTTGGGAAAGCAGTGGACTGCAACTACATCCGTGGCCCGACATACTTAGAAATTGACGTAGATATTGGTTCATCAACCGTTGCAAATGGAGTGCTCGGCCTCGTCATTGGCGTAATCACGTCTCTGGTTGTGGAAATGGCTTTCCTTGTACAGGCAAATACAGCGGAAGAACAGCCAGAGAGGCTTATCGGTGCAGTTCGGGTTTCGCATATTGAGCTCTCTTCGGCTATAGTTCCGAATCTGGAGTCAGAATAAACCCTTGAGAAATTATCATCAAACTTCATATATAAGTTCTGTCACATTAAGTGTTTGGTGGTTCTTTGGAATAGTCACTGCTTCAATTCTTTATCTTGCGTCTACTTTTAGTTTTCCTTTATTTCAATACATCTTTTTCTTTTTTTTAGTAATGTCAAAAAATTTATAGTTAAAAGTAGTTTGTTATGTATCTATCTATTAACATTGCGTCAATATTGTAATGCGTTGCCTTTATCATGCATGATACCTGCGCCATTAAAGTCGACATGACAAATTAGTAGCCG - >AT4G19040.3
ACACAGATATTTCTCTCTCTGCTGTTTTATTTTTTTATAGAAAATATTAATTTAGCTTTGGATTTTTTTCTTTTTTTTTCTCTGTCAAAGTTGAATTGCTTTTTCTCTTGTTTTTCGTCGAAGTGGAAAATTTGATTTTATTTTTTCCGGAATTTTGAAAATCTGTGAGCTCATAAATCTTCGCTAATCGCAGAGACGAATCTGCGAAAATTCCAACACCAGATTCCGGCGCCGGAGCGCCGATGAACAATCAGGTCGTTTAGTAAAATTCGATGAATCTCCCGCGGAAATAATTAGATTCGATTTCGATTTCCGTGGGGAAGTTTTGTGCCATTTGATTTGTTTTCGTTCGTCCCCGTTGGAGATTTTTTGTAATTTCTGGGGACAGAAACAATGTCTAAGGTAGTGTACGAAGGATGGATGGTTAGGTATGGAAGGAGGAAGATCGGACGATCGTATATTCATATGAGGTATTTTGTGTTGGAGCCTCGTCTTTTGGCGTATTACAAGAAGAAACCTCAGGATTATCAGGTTCCTATCAAGACCATGTTAATTGATGGTAACTGCAGAGTTGAGGATCGAGGCTTGAAAACACATCATGGACATATGGTTTACGTTTTGTCTGTCTATAACAAAAAAGAAAAGAGTCATAGAATTACGATGGCAGCGTTCAACATTCAGGAAGCACTAATGTGGAAGGAAAAAATTGAGTCTGTTATAGACCAGCATCAAGAGTCCCAAGTTCCAAATGGTCAGCAGTATGTTTCATTTGAATATAAATCTGGAATGGATACTGGAAGGACTGCTTCATCTTCAGACCATGAAAGCCAATTTAGTGCGGCAGAGGATGAAGAGGACTCTCGACGTAGCTTAATGAGGAGGACAACTATTGGAAATGGTCCTCCAGAATCTGTACTTGACTGGACCAAAGAATTTGATGCAGAGTTGGCGAACCAGAATTCCGACAACCAAGCATTTTCCAGGAAACACTGGCGTCTCCTTCAGTGCCAAAATGGTCTTCGGATTTTTGAAGAGCTTCTTGAAGTTGATTACCTTCCAAGAAGCTGTAGCAGGGCAATGAAGGCTGTTGGTGTAGTGGAGGCAACATGTGAGGAAATATTCGAGCTTCTGATGAGCATGGACGGCACTCGTTATGAGTGGGACTGCAGCTTTCAGTTTGGTAGCTTAGTGGAAGAGGTCGATGGTCACACAGCAGTCCTCTATCACAGACTTCTGCTCGACTGGTTTCCAATGATTGTGTGGCCTCGCGACCTCTGTTATGTCCGCTATTGGCGCCGTAATGATGATGGGAGTTATGTTGTGTTGTTCCGTTCTAGGGAGCATGAGAATTGTGGTCCACAACCTGGATGTGTTCGGGCTCATCTTGAGAGTGGAGGATATAATATTTCCCCACTAAAGCCTCGGAATGGGAGGCCTAGAACGCAAGTGCAACATCTAATACAAATTGATCTAAAAGGGTGGGGTGCAGGCTATCTTCCAGCATTTCAACAACATTGTCTTCTTCAAATGCTGAATAGTGTTGCTGGTTTGCGGGAATGGTTTTCACAGACAGATGAGAGAGGTGTTCATACCCGGATCCCTGTCATGGTTAATATGGCATCATCTTCCTTGAGCTTGACTAAGAGTGGGAAGTCTCTGCATAAGTCTGCCTTTTCTCTTGATCAAACAAATTCCGTTAACAGAAACTCCTTGCTTATGGATGAAGACTCGGATGATGATGATGAATTTCAGATTGCTGAATCAGAACAAGAGCCTGAAACAAGTAAACCAGAGACCGATGTCAAGAGACCAGGTGTGCACCCTATCAAAGAAGAACCTGCTCACAACATTGATCTGTCATGCTTCTCGGGTAACCTAAAGCGCAATGAAAACGAAAACGCCCGTAACTGCTGGAGGATTTCTGATGGTAACAACTTCAAAGTTCGGGGCAAGAATTTCGGTCAAGAGAAAAGAAAGATACCTGCTGGCAAGCATCTTATGGATCTCGTTGCTGTTGACTGGTTCAAAGACAGTAAAAGAATAGATCATGTTGCTAGACGCAAAGGCTGCGCAGCACAAGTTGCTGCAGAAAAAGGTCTATTCTCAATGGTGGTAAATGTTCAAGTTCCAGGATCAACACACTACAGTATGGTGTTTTATTTCGTGATGAAAGAACTAGTACCTGGGTCCCTCTTGCAACGGTTTGTGGATGGTGATGATGAATTCCGAAATAGTAGGCTAAAGCTTATACCATTAGTTCCTAAGGGCTCATGGATAGTACGGCAAAGTGTGGGAAGCACCCCTTGTCTCCTTGGGAAAGCAGTGGACTGCAACTACATCCGTGGCCCGACATACTTAGAAATTGACGTAGATATTGGTTCATCAACCGTTGCAAATGGAGTGCTCGGCCTCGTCATTGGCGTAATCACGTCTCTGGTTGTGGAAATGGCTTTCCTTGTACAGGCAAATACAGCGGAAGAACAGCCAGAGAGGCTTATCGGTGCAGTTCGGGTTTCGCATATTGAGCTCTCTTCGGCTATAGTTCCGAATCTGGAGTCAGAATAAACCCTTGAGAAATTATCATCAAACTTCATATATAAGTTCTGTCACATTAAGTGTTTGGTGGTTCTTTGGAATAGTCACTGCTTCAATTCTTTATCTTGCGTCTACTTTTAGTTTTCCTTTATTTCAATACATCTTTTTCTTTTTTTTAGTAATGTCAAAAAATTTATAGTTAAAAGTAGTTTGTTATGTATCTATCTATTAACATTGCGTCAATATTGTAATGCGTTGCCTTTATCATGCATGATACCTGCGCCATTAAAGTCGACATGACAAATTAGTAGCCG - >AT4G19040.1
ACACAGATATTTCTCTCTCTGCTGTTTTATTTTTTTATAGAAAATATTAATTTAGCTTTGGATTTTTTTCTTTTTTTTTCTCTGTCAAAGTTGAATTGCTTTTTCTCTTGTTTTTCGTCGAAGTGGAAAATTTGATTTTATTTTTTCCGGAATTTTGAAAATCTGTGAGCTCATAAATCTTCGCTAATCGCAGAGACGAATCTGCGAAAATTCCAACACCAGATTCCGGCGCCGGAGCGCCGATGAACAATCAGGTCGTTTAGTAAAATTCGATGAATCTCCCGCGGAAATAATTAGATTCGATTTCGATTTCCGTGGGGAAGTTTTGTGCCATTTGATTTGTTTTCGTTCGTCCCCGTTGGAGATTTTTTGTAATTTCTGGGGACAGAAACAATGTCTAAGGTAGTGTACGAAGGATGGATGGTTAGGTATGGAAGGAGGAAGATCGGACGATCGTATATTCATATGAGGTATTTTGTGTTGGAGCCTCGTCTTTTGGCGTATTACAAGAAGAAACCTCAGGATTATCAGGTTCCTATCAAGACCATGTTAATTGATGGTAACTGCAGAGTTGAGGATCGAGGCTTGAAAACACATCATGGACATATGGTTTACGTTTTGTCTGTCTATAACAAAAAAGAAAAGAGTCATAGAATTACGATGGCAGCGTTCAACATTCAGGAAGCACTAATGTGGAAGGAAAAAATTGAGTCTGTTATAGACCAGCATCAAGAGTCCCAAGTTCCAAATGGTCAGCAGTATGTTTCATTTGAATATAAATCTGGAATGGATACTGGAAGGACTGCTTCATCTTCAGACCATGAAAGCCAATTTAGTGCGGCAGAGGATGAAGAGGACTCTCGACGTAGCTTAATGAGGAGGACAACTATTGGAAATGGTCCTCCAGAATCTGTACTTGACTGGACCAAAGAATTTGATGCAGAGTTGGCGAACCAGAATTCCGACAACCAAGCATTTTCCAGGAAACACTGGCGTCTCCTTCAGTGCCAAAATGGTCTTCGGATTTTTGAAGAGCTTCTTGAAGTTGATTACCTTCCAAGAAGCTGTAGCAGGGCAATGAAGGCTGTTGGTGTAGTGGAGGCAACATGTGAGGAAATATTCGAGCTTCTGATGAGCATGGACGGCACTCGTTATGAGTGGGACTGCAGCTTTCAGTTTGGTAGCTTAGTGGAAGAGGTCGATGGTCACACAGCAGTCCTCTATCACAGACTTCTGCTCGACTGGTTTCCAATGATTGTGTGGCCTCGCGACCTCTGTTATGTCCGCTATTGGCGCCGTAATGATGATGGGAGTTATGTTGTGTTGTTCCGTTCTAGGGAGCATGAGAATTGTGGTCCACAACCTGGATGTGTTCGGGCTCATCTTGAGAGTGGAGGATATAATATTTCCCCACTAAAGCCTCGGAATGGGAGGCCTAGAACGCAAGTGCAACATCTAATACAAATTGATCTAAAAGGGTGGGGTGCAGGCTATCTTCCAGCATTTCAACAACATTGTCTTCTTCAAATGCTGAATAGTGTTGCTGGTTTGCGGGAATGGTTTTCACAGACAGATGAGAGAGGTGTTCATACCCGGATCCCTGTCATGGTTAATATGGCATCATCTTCCTTGAGCTTGACTAAGAGTGGGAAGTCTCTGCATAAGTCTGCCTTTTCTCTTGATCAAACAAATTCCGTTAACAGAAACTCCTTGCTTATGGATGAAGACTCGGATGATGATGATGAATTTCAGATTGCTGAATCAGAACAAGAGCCTGAAACAAGTAAACCAGAGACCGATGTCAAGAGACCAGGTGTGCACCCTATCAAAGAAGAACCTGCTCACAACATTGATCTGTCATGCTTCTCGGGTAACCTAAAGCGCAATGAAAACGAAAACGCCCGTAACTGCTGGAGGATTTCTGATGGTAACAACTTCAAAGTTCGGGGCAAGAATTTCGGTCAAGAGAAAAGAAAGATACCTGCTGGCAAGCATCTTATGGATCTCGTTGCTGTTGACTGGTTCAAAGACAGTAAAAGAATAGATCATGTTGCTAGACGCAAAGGCTGCGCAGCACAAGTTGCTGCAGAAAAAGGTCTATTCTCAATGGTGGTAAATGTTCAAGTTCCAGGATCAACACACTACAGTATGGTGTTTTATTTCGTGATGAAAGAACTAGTACCTGGGTCCCTCTTGCAACGGTTTGTGGATGGTGATGATGAATTCCGAAATAGTAGGCTAAAGCTTATACCATTAGTTCCTAAGGGCTCATGGATAGTACGGCAAAGTGTGGGAAGCACCCCTTGTCTCCTTGGGAAAGCAGTGGACTGCAACTACATCCGTGGCCCGACATACTTAGAAATTGACGTAGATATTGGTTCATCAACCGTTGCAAATGGAGTGCTCGGCCTCGTCATTGGCGTAATCACGTCTCTGGTTGTGGAAATGGCTTTCCTTGTACAGGCAAATACAGCGGAAGAACAGCCAGAGAGGCTTATCGGTGCAGTTCGGGTTTCGCATATTGAGCTCTCTTCGGCTATAGTTCCGAATCTGGAGTCAGAATAAACCCTTGAGAAATTATCATCAAACTTCATATATAAGTTCTGTCACATTAAGTGTTTGGTGGTTCTTTGGAATAGTCACTGCTTCAATTCTTTATCTTGCGTCTACTTTTAGTTTTCCTTTATTTCAATACATCTTTTTCTTTTTTTTAGTAATGTCAAAAAATTTATAGTTAAAAGTAGTTTGTTATGTATCTATCTATTAACATTGCGTCAATATTGTAATGCGTTGCCTTTATCATGCATGATACCTGCGCCATTAAAGTCGACATGACAAATTAGTAGCCG
CDS Sequence
Protein Sequence