Gene Details:
- Gene ID: AT5G35210
- Gene Symbol: DDP1, PTM
- Gene Name: DDT-PHD PROTEIN1, PHD type transcription factor with transmembrane domains
- Description: PHD type transcription factor with transmembrane domain protein (PTM);(source:Araport11)
- TAIR Accession: locus:2182437
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0010019 — acts upstream of or within — chloroplast-nucleus signaling pathway
- GO:0009707 — located in — chloroplast outer membrane
- GO:0045893 — acts upstream of or within — positive regulation of DNA-templated transcription
- GO:0009941 — located in — chloroplast envelope
- GO:0035064 — enables — methylated histone binding
- GO:0005515 — enables — protein binding
- GO:0031010 — located in — ISWI-type complex
- GO:0005634 — located in — nucleus
- GO:0010019 — involved in — chloroplast-nucleus signaling pathway
Literature:
- EGY1 encodes a membrane-associated and ATP-independent metalloprotease that is required for chloroplast development. DOI: 10.1111/j.1365-313X.2004.02308.x ; PMID: 15659096
- Global analysis of Arabidopsis gene expression uncovers a complex array of changes impacting pathogen response and cell cycle during geminivirus infection. DOI: 10.1104/pp.108.121038 ; PMID: 18650403
- A chloroplast envelope-bound PHD transcription factor mediates chloroplast signals to the nucleus. DOI: 10.1038/ncomms1486 ; PMID: 21934661
- Inhibition of peroxisomal hydroxypyruvate reductase (HPR1) by tyrosine nitration. DOI: 10.1016/j.bbagen.2013.07.002 ; PMID: 23860243
- Chloroplast retrograde signal regulates flowering. DOI: 10.1073/pnas.1521599113 ; PMID: 27601637
- The roles of tetrapyrroles in plastid retrograde signaling and tolerance to environmental stresses. DOI: 10.1007/s00425-015-2384-3 ; PMID: 26297452
- A plant-specific SWR1 chromatin-remodeling complex couples histone H2A.Z deposition with nucleosome sliding. DOI: 10.15252/embj.2019102008 ; PMID: 32115743
- Dual Recognition of H3K4me3 and DNA by the ISWI Component ARID5 Regulates the Floral Transition in Arabidopsis. DOI: 10.1105/tpc.19.00944 ; PMID: 32358072
- Proteomic study of the Arabidopsis thaliana chloroplastic envelope membrane utilizing alternatives to traditional two-dimensional electrophoresis. DOI: 10.1021/pr034025j ; PMID: 12938931
- Proteomic study of the Arabidopsis thaliana chloroplastic envelope membrane utilizing alternatives to traditional two-dimensional electrophoresis. DOI: 10.1021/pr034025j ; PMID: 12938931
Sequence:
cDNA Sequence
- >AT5G35210.2 AGGCTTAAAGGAAAAAGCACTCTCCTTCTTCTTCTTCTTCGTCTTCTCTCTCTTATGTCCTTGTCCAATTCCCAAATCCTTCGTTGTTGAATTTTGTCTTCTTTCTTCCTGAGTTTTCCCTTCTTCTCTTCAAGAAACCTTGATCAGGGCTTATGGGTTTCGATGAAACAATGAGATTTTGATGAATCTAGGTAGTGGAGAAACTTACTGCTCCCAAAGAGATTTTGGCCATAGAGTATGAAATTCCCCCAAAGGTTGTTTTGATGGAAGCGAAGGTTCCTAGACCTAGGGGAAGACCGAGGAAACGTCAGAGATTAGAGGATGATAATCGAAAATTGAACAATCGAGGGAAAAAGCAAGTTCTGGAGGTTGAGCCTGCAGTGCCGATATCTTTACTTGGTTGTTATATGCTGAAAGATTTTGATGACAATGAAGTTTTTCTAGGGAAGATAGTGTCTTATGATACTGGGTTATATAGAGTGATATATGAGGATGGTGATTGTGAGGAATTGGAGAGTGGTGATCTTCGTCGTTTAATTATTTCGGATAGTTACTTAGACGATGAGTTACGTGTTAGAAGGAAGAAATTAGATAAACTTATACTGAAGAAGGAGGAGAAAAAGAAACGAAATTCGCCGGAGAACAAAGCAGTTGAGTTGCCAAATCAAGTAAATGGAGTGCAGGCACGAGCAGTTACGAACTCCGAAGATGGTGATTCATATAGTGACTCAGAGTCGTCTGAGAGTGGAGATAAGAGAGGTTCAGATCTTGAAATTGAGGCTCCTCTTGTTCCACCAGTGGATTTACCTCCTTCATCAGGGACAATTGGTATCCCAGAGGAGGCTGTGGCACATCTCTTATCTGTATATGGGTTCTTAAGGTCATTTAGTTTTCAGCTTTATATCTGCCCATTTGAACTCAATGATTTTGTGGGAGCGTTGTATTTCTCGGGACCAAATTCTTTGTTGGATGCTGTTCATGTGGCCTTGTTGCGGGCATTGAAGGGTCATCTAGAGAGACTTTCCTCCTCCAAGTCTGTCCTAGCCTCAAAATGCTTGAGGTGCATTGATTGGAGCTTGCTCGATGTGCTAACTTGGCCTGTTTATTTGGTTCAGTACTTTACTGCGATGGGGCATGCTAGTGGGCCTCAGTGGAACATTTTTAACAAATTTGTTGTGGAAATAGAATACTACTCGTTACCCATTGGGATGAAATTGAAGATTCTACAAATTCTCTGTGATGACATCTTTGATGTAGCTGATCTAAGAGATGAAATAGATGCTCGCGAAGAATCTGAAATTGGATTTGATCCTGATAGAGTTGCCACAGGTCTTCTTGAAAATGTACCTAGACGGGTCCACCCCAGATTCGCTAAAACCTCAGCTTACAAGGAAAAAGAGGTTACTGATAGCTCAACAAACGAGTCTAAAGATTTGGACTCAAGATGTACTAATGGCGGTTCAAATGAAGTTAGCTCAGATCTAGATGGAAACAGTGATGAATGTAGGATTTGTGGAATGGATGGAACCTTGCTTTGTTGTGATGGATGTCCTTTAGCATACCACTCAAGATGCATTGGTGTGGTCAAAATGTATATACCAGATGGGCCATGGTTTTGTCCAGAGTGCACTATTAACAAAAAGGGGCCGAAGATTGCTCATGGAACCTCACTTAGAGGAGCTGTACAGTTTGGAATGGATCCACATGGGCGACTCTTCTTGGGTACTTGCAATCACTTACTGGTGCTTAACATATCTGTCAATGGAGATGCAGTTGTCAAGTACTACAATGTTAATGACATATCAAAAGTTGTACTAGTGCTTATATCTGCATCAAGCCATACACTAGAATATGTAGAGATTTGCAAAGCGATCACCCAATACTGGGATCTTCCTGAAGGTATCTCCTTGAGGGAAGGGGAGATTGGTTTAACTCAAGCAAAGGATAGAGAGGATGGCAAGGTTTCAGAGATCACTAAGTCAGATAGTGCAAATATTTCCAATAGAAGTCATACCCAGACTGTGTTTGACCTCCCTACATCTACTTTGGGTAATACCAACAGTGCTGTTACAGGAGGTTCATGTGGAATACAGGGGAAAAAATTGGCTGCTCGTGTTACCTACCTGGGTTTATCGTTTAAACCCAACACATACAATAATCATTACACAAATGGAGAATTGGCTGTATCTGCTGCTGCCAGTTTGGCTGTCCTATCGTCAGAGGAAACCCATGAACCTGACCTTCGCAAGTATAATAGTGCCAAGAAAGCTGCATCAAGTAACATCTTAGAGCAGATGAAAGCTTTTTCATTAGTAGCCCCCCGTTTCTTCTGGCCAAGTCCTGATAAGAAGGAGATTACCAGAGAAAGATGTGGTTGGTGTCATTCTTGCCGACTCACATCTGCAAGCAGGAGAGGATGCATGTTAAATGCAGCTGTAGCGGGTGCCACTAAGGGTGCAATGAAGATCTTCAGTGGTCTTTTTCCTCTAAAGAATGGGGAGGGAGTCCTTTCGAGTATTGCAGCATATATTCTATATCTAGAGGAAAGCTTGCGTGGTCTGATAGCTGGGCCATTTCTCAGTGAAAGTCCAAGAAAACAGTGGCGTAAGCAGGTAGAGGAAGCCTCGACATGCAAAGCCCTAAAAGCACCCCTCCTTGAACTTGAGGAAAATATCTGCAGTATTGCTCTGTCATGCGATTGGTTTAAACAGATGGATGATTGGTTGATAGAACATTCTATTTTCCAAAGTGCTCCAGTTACACTTGGGGTTCCACAGAGACGTGGACCTGGTAGGACGAAGCAAAATACCCAGGCTGAAGTTACAGCTGAAGGTTCCGACGCTGATAGCTTTACATGGTGGCGAGGAGGGAAGTTATCAAAAGTTATTTTGTTGAAAGCAGTTTTGTCACAACCGGCAACAAAGAAAGCAGCTTGGCAAGGGGGTTCTAAAAAGATTCCTGGATTAAATTATGGTGATGCTTCTTACATCCCTAGGAGAAGCAGACGGTCTTTTTGGAAAGCTGCTGTTGAAAGTAGCAAGAATATATCTCAGCTTGCTCTTCAGGTAAGATATCTGGATATGAGTTTAAGATGGAGAGAACTTGTGCGGCCAGACCAAAATCTCCAGAATGTCAAAGGCCCAGAGACAGATGTTGCCATTTTTAGAAACGCTCGGATATGTGACAAAAAGCTTAGTGATAACAAGGTTAGCTACGGAGTTTTCTTTGGAAATCAAAAGCATCTGCCATCACGCGTCATGAAGAATATAATGGAGGTCGAGAAAACCCAAGATAGAAATGAAAAGTATTGGTTACAAGAAGCCCATGTTCCCCTATACTTGATCAAAGAATTTGAAGAGAGCTTGCATAGAGTACAAATGCCTTCTTCAACCAAGAAGCCATCCAAGAAATTATCAAAGCTTCAGAGAAAGCAGCTGAAAGCTTCCCTCATGGACATATTTTCATATATAGCCTCAAGGAGGGACAAGATGGAGAAATGTTCTTGTGCATCATGTGATCATGATGTTCTATTACGGGATACAACAACATGCAGTTCTTGCCATGGATTTTGTCACAAGGATTGCACTTCGATGTCTCAACACACAAATGGAAATGTTGAAGTTCTGGTCACCTGCAAACGGTGTTACCTTTCAAAAACTCGAGTTCCAACAAATATCAATCACAGACAGTCAACAGCACCCCAGTTCACGATCAACGTACGACATCAAAATGCAGTCATTCCAGTCATCAAGGTTAAGCCTCCTAGTCAACAATTATCATCCCAGAAGCCACGGGAGAACACTTCGGGAGTTAAACAAGTCACTCCTGATTCTAGTGTATCTAAGAGTAAACAGAAGACACTGTCCTGTGGAGTCATATGGAGGAAAAAGAACGTAGAGGACACAGGTGTTGATTTCCGGAATCAAAACATTCTCTTGGCCGGTAGATCAGATAAACCGAGCCTGGAACCGGTTTGTGGGATCTGCCTACTGCCGTATAATCCTGGGTTAACGTATATTCACTGTACAAAATGCGAAAAGTGGTTCCACACTGAAGCTGTTAAGCTCAAAGATTCACAAATTCCTGAAGTTGTTGGGTTCAAATGTTGCAAATGTCGACGTATACGATCCCCTGATTGCCCTTACATGGATCCCAAACTCAAGGAACAGAAGCAGATCAAAAGAATAGTCTTCACGAACCAGAAACAGAGGCAAGGAAATTCTGGGTTGGATTCTGATTCTGAAAGAATGTCTGAACAAAAAGACTCGAAACCTTCTACTCCGTTACCTGCCACTCCTTTATATCCTCCTGACGATGTATTTATTCCAGAAGATGATCCTCTCCTGGTATCAGTTTCCAAAGTCAAACAAATCACACCCAGTAGTTTCGATCTTGAATGGAGCACCACTGCTTTTGCGCCTGGACCCCAAAAGCTACCAGTTAGAAGGCAAGTGAAACGAGAAGATTCTGATGCAGCCTATCCTGAACTGCATCCTATTGTGAAACCCGAGGCAGAGGAGCAAGCTTTACCTGTTCTAACAGAATGGGATTTGTCTGGTGAGCTACTTTTCGACTACGAGGACATGGAATTTGAACCGCAAACTTATTTCTCGTTGACCGAGCTACTGACAGCCGATGATAGTGGTGGTGGTCAGTACCAGGAAAATGGTGATATGGTTGTTTCAGGAAACCCTCAGTTCGAACCAACAGAAAAAGAAGAGTGTGAAGATGATATGGGTCCATGTCAGAGATGTTTGCAAATGGATCCAGCGCCTGATCTTTTGTGCACGGTTTGTGGATTGCTTATACATTCTCACTGTTCTCCATGGTCAGCCTTACCCGGAAGTAGCTGGAGCTGTGGTCAATGCCGTGAGTGGCAGTAGCTGGACCCTTTGATTTCAAGCCCCTTCCCAAATTTTAACTTCCACATTCTTTGACAATGAATTTGAGGGAAAATTGTATCCTCCTTTGTTTGGCTTATAATGGCAAATGAGCTGTAATTTCTAGTTTTTTTTTAGGTTTGTCTTCGTCTATTTTATTTATCTTCGTTTATAGAGTGGATACATGTTTGCTTTCAAATTCATACCAAGCAGGGATGCTTACTTGGTGGAATGATTAACTTTCATGAATTAGGGCACTAGGAAGCATTACACTAGGAAGCTTTGGTGCAATCACACAGTTCAAGTCGATTCTTCCTGACCGGAGTACAAAAGTTGACATTTCGCTAGCTGGTCCATTTGCTGGAGCTGCACTCTCAGTTTCCATGTTTGCTGTTGGTCTGTTCCTATCTACAGAACCAGATGCAGCTAACGACCTGGTCCAGGTTCCCAGCATGTTATTTCAAGGTTCATTACTTCTTGGACTCATCAGCAGAGCAACTCTGGGATATGCAGCTTTGCATGCTGCGACAGTTTCAATCCACCCGCTTGTAATTGCCGGATGGTGTGGTTTAACAACAACAGCATTTAATATGCTTCCAGTGGGATGTTTGGATGGAGGAAGAGCTGTACAGGGCGCATTTGGGAAAAATGCACTGGTTACATTTGGTTTGTCAACCTATGTAATGCTTGGACTCAGAGTGCTCGGTGGCCCTTTGGCACTTCCTTGGGGACTCTACGTACTAATCTGCCGGGTACACAAAATTTCTAAACTCTGCTACTTCAAAAATACGAGTCAGCTTTAAAAGATGTTTCTAAGCAGTATGTTTTGGACATAGAACACCTGAAAAACTGTGTCTAAACGACGTGACCGAGGTTGGAACTTGGAGGAAGGCCCTTGTAGGGATTGCACTAATCCTAGTGGTTTTGACACTCCTGCCTGTATGGGACGAACTCGCAGAAGTAGGCATAGGGCTTGTAACCACATTTTGATGTTATCTTCCTTCTTTGAGCAGATGTTGTAGTTAGGGCCAATCCGAAACAAATTTTTTGTTTTGGCAATATTTAGATTGCCAGATATAATGAGCCATGTAGGTACACTGTAAGCTAATAGAAAAGTATTCATATGTAATTACTTCAATTCATTCTTC
- >AT5G35210.1 AGGCTTAAAGGAAAAAGCACTCTCCTTCTTCTTCTTCTTCGTCTTCTCTCTCTTATGTCCTTGTCCAATTCCCAAATCCTTCGTTGTTGAATTTTGTCTTCTTTCTTCCTGAGTTTTCCCTTCTTCTCTTCAAGAAACCTTGATCAGGGCTTATGGGTTTCGATGAAACAATGAGATTTTGATGAATCTAGGTAGTGGAGAAACTTACTGCTCCCAAAGAGATTTTGGCCATAGAGTATGAAATTCCCCCAAAGGTTGTTTTGATGGAAGCGAAGGTTCCTAGACCTAGGGGAAGACCGAGGAAACGTCAGAGATTAGAGGATGATAATCGAAAATTGAACAATCGAGGGAAAAAGCAAGTTCTGGAGGTTGAGCCTGCAGTGCCGATATCTTTACTTGGTTGTTATATGCTGAAAGATTTTGATGACAATGAAGTTTTTCTAGGGAAGATAGTGTCTTATGATACTGGGTTATATAGAGTGATATATGAGGATGGTGATTGTGAGGAATTGGAGAGTGGTGATCTTCGTCGTTTAATTATTTCGGATAGTTACTTAGACGATGAGTTACGTGTTAGAAGGAAGAAATTAGATAAACTTATACTGAAGAAGGAGGAGAAAAAGAAACGAAATTCGCCGGAGAACAAAGCAGTTGAGTTGCCAAATCAAGTAAATGGAGTGCAGGCACGAGCAGTTACGAACTCCGAAGATGGTGATTCATATAGTGACTCAGAGTCGTCTGAGAGTGGAGATAAGAGAGGTTCAGATCTTGAAATTGAGGCTCCTCTTGTTCCACCAGTGGATTTACCTCCTTCATCAGGGACAATTGGTATCCCAGAGGAGGCTGTGGCACATCTCTTATCTGTATATGGGTTCTTAAGGTCATTTAGTTTTCAGCTTTATATCTGCCCATTTGAACTCAATGATTTTGTGGGAGCGTTGTATTTCTCGGGACCAAATTCTTTGTTGGATGCTGTTCATGTGGCCTTGTTGCGGGCATTGAAGGGTCATCTAGAGAGACTTTCCTCCTCCAAGTCTGTCCTAGCCTCAAAATGCTTGAGGTGCATTGATTGGAGCTTGCTCGATGTGCTAACTTGGCCTGTTTATTTGGTTCAGTACTTTACTGCGATGGGGCATGCTAGTGGGCCTCAGTGGAACATTTTTAACAAATTTGTTGTGGAAATAGAATACTACTCGTTACCCATTGGGATGAAATTGAAGATTCTACAAATTCTCTGTGATGACATCTTTGATGTAGCTGATCTAAGAGATGAAATAGATGCTCGCGAAGAATCTGAAATTGGATTTGATCCTGATAGAGTTGCCACAGGTCTTCTTGAAAATGTACCTAGACGGGTCCACCCCAGATTCGCTAAAACCTCAGCTTACAAGGAAAAAGAGGTTACTGATAGCTCAACAAACGAGTCTAAAGATTTGGACTCAAGATGTACTAATGGCGGTTCAAATGAAGTTAGCTCAGATCTAGATGGAAACAGTGATGAATGTAGGATTTGTGGAATGGATGGAACCTTGCTTTGTTGTGATGGATGTCCTTTAGCATACCACTCAAGATGCATTGGTGTGGTCAAAATGTATATACCAGATGGGCCATGGTTTTGTCCAGAGTGCACTATTAACAAAAAGGGGCCGAAGATTGCTCATGGAACCTCACTTAGAGGAGCTGTACAGTTTGGAATGGATCCACATGGGCGACTCTTCTTGGGTACTTGCAATCACTTACTGGTGCTTAACATATCTGTCAATGGAGATGCAGTTGTCAAGTACTACAATGTTAATGACATATCAAAAGTTGTACTAGTGCTTATATCTGCATCAAGCCATACACTAGAATATGTAGAGATTTGCAAAGCGATCACCCAATACTGGGATCTTCCTGAAGGTATCTCCTTGAGGGAAGGGGAGATTGGTTTAACTCAAGCAAAGGATAGAGAGGATGGCAAGGTTTCAGAGATCACTAAGTCAGATAGTGCAAATATTTCCAATAGAAGTCATACCCAGACTGTGTTTGACCTCCCTACATCTACTTTGGGTAATACCAACAGTGCTGTTACAGGAGGTTCATGTGGAATACAGGGGAAAAAATTGGCTGCTCGTGTTACCTACCTGGGTTTATCGTTTAAACCCAACACATACAATAATCATTACACAAATGGAGAATTGGCTGTATCTGCTGCTGCCAGTTTGGCTGTCCTATCGTCAGAGGAAACCCATGAACCTGACCTTCGCAAGTATAATAGTGCCAAGAAAGCTGCATCAAGTAACATCTTAGAGCAGATGAAAGCTTTTTCATTAGTAGCCCCCCGTTTCTTCTGGCCAAGTCCTGATAAGAAGGAGATTACCAGAGAAAGATGTGGTTGGTGTCATTCTTGCCGACTCACATCTGCAAGCAGGAGAGGATGCATGTTAAATGCAGCTGTAGCGGGTGCCACTAAGGGTGCAATGAAGATCTTCAGTGGTCTTTTTCCTCTAAAGAATGGGGAGGGAGTCCTTTCGAGTATTGCAGCATATATTCTATATCTAGAGGAAAGCTTGCGTGGTCTGATAGCTGGGCCATTTCTCAGTGAAAGTCCAAGAAAACAGTGGCGTAAGCAGGTAGAGGAAGCCTCGACATGCAAAGCCCTAAAAGCACCCCTCCTTGAACTTGAGGAAAATATCTGCAGTATTGCTCTGTCATGCGATTGGTTTAAACAGATGGATGATTGGTTGATAGAACATTCTATTTTCCAAAGTGCTCCAGTTACACTTGGGGTTCCACAGAGACGTGGACCTGGTAGGACGAAGCAAAATACCCAGGCTGAAGTTACAGCTGAAGGTTCCGACGCTGATAGCTTTACATGGTGGCGAGGAGGGAAGTTATCAAAAGTTATTTTGTTGAAAGCAGTTTTGTCACAACCGGCAACAAAGAAAGCAGCTTGGCAAGGGGGTTCTAAAAAGATTCCTGGATTAAATTATGGTGATGCTTCTTACATCCCTAGGAGAAGCAGACGGTCTTTTTGGAAAGCTGCTGTTGAAAGTAGCAAGAATATATCTCAGCTTGCTCTTCAGGTAAGATATCTGGATATGAGTTTAAGATGGAGAGAACTTGTGCGGCCAGACCAAAATCTCCAGAATGTCAAAGGCCCAGAGACAGATGTTGCCATTTTTAGAAACGCTCGGATATGTGACAAAAAGCTTAGTGATAACAAGGTTAGCTACGGAGTTTTCTTTGGAAATCAAAAGCATCTGCCATCACGCGTCATGAAGAATATAATGGAGGTCGAGAAAACCCAAGATAGAAATGAAAAGTATTGGTTACAAGAAGCCCATGTTCCCCTATACTTGATCAAAGAATTTGAAGAGAGCTTGCATAGAGTACAAATGCCTTCTTCAACCAAGAAGCCATCCAAGAAATTATCAAAGCTTCAGAGAAAGCAGCTGAAAGCTTCCCTCATGGACATATTTTCATATATAGCCTCAAGGAGGGACAAGATGGAGAAATGTTCTTGTGCATCATGTGATCATGATGTTCTATTACGGGATACAACAACATGCAGTTCTTGCCATGGATTTTGTCACAAGGATTGCACTTCGATGTCTCAACACACAAATGGAAATGTTGAAGTTCTGGTCACCTGCAAACGGTGTTACCTTTCAAAAACTCGAGTTCCAACAAATATCAATCACAGACAGTCAACAGCACCCCAGTTCACGATCAACGTACGACATCAAAATGCAGTCATTCCAGTCATCAAGGTTAAGCCTCCTAGTCAACAATTATCATCCCAGAAGCCACGGGAGAACACTTCGGGAGTTAAACAAGTCACTCCTGATTCTAGTGTATCTAAGAGTAAACAGAAGACACTGTCCTGTGGAGTCATATGGAGGAAAAAGAACGTAGAGGACACAGGTGTTGATTTCCGGAATCAAAACATTCTCTTGGCCGGTAGATCAGATAAACCGAGCCTGGAACCGGTTTGTGGGATCTGCCTACTGCCGTATAATCCTGGGTTAACGTATATTCACTGTACAAAATGCGAAAAGTGGTTCCACACTGAAGCTGTTAAGCTCAAAGATTCACAAATTCCTGAAGTTGTTGGGTTCAAATGTTGCAAATGTCGACGTATACGATCCCCTGATTGCCCTTACATGGATCCCAAACTCAAGGAACAGAAGCAGATCAAAAGAATAGTCTTCACGAACCAGAAACAGAGGCAAGGAAATTCTGGGTTGGATTCTGATTCTGAAAGAATGTCTGAACAAAAAGACTCGAAACCTTCTACTCCGTTACCTGCCACTCCTTTATATCCTCCTGACGATGTATTTATTCCAGAAGATGATCCTCTCCTGGTATCAGTTTCCAAAGTCAAACAAATCACACCCAGTAGTTTCGATCTTGAATGGAGCACCACTGCTTTTGCGCCTGGACCCCAAAAGCTACCAGTTAGAAGGCAAGTGAAACGAGAAGATTCTGATGCAGCCTATCCTGAACTGCATCCTATTGTGAAACCCGAGGCAGAGGAGCAAGCTTTACCTGTTCTAACAGAATGGGATTTGTCTGGTGAGCTACTTTTCGACTACGAGGACATGGAATTTGAACCGCAAACTTATTTCTCGTTGACCGAGCTACTGACAGCCGATGATAGTGGTGGTGGTCAGTACCAGGAAAATGGTGATATGGTTGTTTCAGGAAACCCTCAGTTCGAACCAACAGAAAAAGAAGAGTGTGAAGATGATATGGGTCCATGTCAGAGATGTTTGCAAATGGATCCAGCGCCTGATCTTTTGTGCACGGTTTGTGGATTGCTTATACATTCTCACTGTTCTCCATGGTCAGCCTTACCCGGAAGTAGCTGGAGCTGTGGTCAATGCCGTGAGTGGCAGTAGCTGGACCCTTTGATTTCAAGCCCCTTCCCAAATTTTAACTTCCACATTCTTTGACAATGAATTTGAGGGAAAATTGTATCCTCCTTTGTTTGGCTTATAATGGCAAATGAGCTGTAATTTCTAGTTTTTTTTTAGGTTTGTCTTCGTCTATTTTATTTATCTTCGTTTATAGAGTGGATACATGTTTGCTTTCAAATTCATACCAAGCAGGGATGCTTACTTGGTGGAATGATTAACTTTCATGAATTAGGGCACTAGGAAGCATTACACTAGGAAGCTTTGGTGCAATCACACAGTTCAAGTCGATTCTTCCTGACCGGAGTACAAAAGTTGACATTTCGCTAGCTGGTCCATTTGCTGGAGCTGCACTCTCAGTTTCCATGTTTGCTGTTGGTCTGTTCCTATCTACAGAACCAGATGCAGCTAACGACCTGGTCCAGGTTCCCAGCATGTTATTTCAAGGTTCATTACTTCTTGGACTCATCAGCAGAGCAACTCTGGGATATGCAGCTTTGCATGCTGCGACAGTTTCAATCCACCCGCTTGTAATTGCCGGATGGTGTGGTTTAACAACAACAGCATTTAATATGCTTCCAGTGGGATGTTTGGATGGAGGAAGAGCTGTACAGGGCGCATTTGGGAAAAATGCACTGGTTACATTTGGTTTGTCAACCTATGTAATGCTTGGACTCAGAGTGCTCGGTGGCCCTTTGGCACTTCCTTGGGGACTCTACGTACTAATCTGCCGGGTACACAAAATTTCTAAACTCTGCTACTTCAAAAATACGAGTCAGCTTTAAAAGATGTTTCTAAGCAGTATGTTTTGGACATAGAACACCTGAAAAACTGTGTCTAAACGACGTGACCGAGGTTGGAACTTGGAGGAAGGCCCTTGTAGGGATTGCACTAATCCTAGTGGTTTTGACACTCCTGCCTGTATGGGACGAACTCGCAGAAGTAGGCATAGGGCTTGTAACCACATTTTGATGTTATCTTCCTTCTTTGAGCAGATGTTGTAGTTAGGGCCAATCCGAAACAAATTTTTTGTTTTGGCAATATTTAGATTGCCAGATATAATGAGCCATGTAGGTACACTGTAAGCTAATAGAAAAGTATTCATATGTAATTACTTCAATTCATTCTTC
CDS Sequence
Protein Sequence