Information report for AT5G08470
Gene Details
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Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- GO:0016558 — involved in — protein import into peroxisome matrix
- GO:0016558 — acts upstream of or within — protein import into peroxisome matrix
- GO:0006635 — acts upstream of or within — fatty acid beta-oxidation
- GO:0005778 — is active in — peroxisomal membrane
- GO:0005886 — located in — plasma membrane
- GO:0016887 — enables — ATP hydrolysis activity
- GO:0005515 — enables — protein binding
- GO:0005737 — located in — cytoplasm
- GO:0007031 — involved in — peroxisome organization
- GO:0005829 — is active in — cytosol
- GO:0005777 — located in — peroxisome
Functional Keywords
Literature and News
- Analysis of the genome sequence of the flowering plant Arabidopsis thaliana. DOI: 10.1038/35048692 ; PMID: 11130711
- How are peroxisomes formed? The role of the endoplasmic reticulum and peroxins. DOI: 10.1016/s1360-1385(01)01951-3 ; PMID: 11378467
- Functional differentiation of peroxisomes revealed by expression profiles of peroxisomal genes in Arabidopsis thaliana. DOI: 10.1093/pcp/pcg173 ; PMID: 14701923
- An Arabidopsis indole-3-butyric acid-response mutant defective in PEROXIN6, an apparent ATPase implicated in peroxisomal function. DOI: 10.1073/pnas.0304368101 ; PMID: 14745029
- Synteny conservation between the Prunus genome and both the present and ancestral Arabidopsis genomes. DOI: 10.1186/1471-2164-7-81 ; PMID: 16615871
- Functional classification of Arabidopsis peroxisome biogenesis factors proposed from analyses of knockdown mutants. DOI: 10.1093/pcp/pcm053 ; PMID: 17478547
- Peroxisome proliferation in Arabidopsis: The challenging identification of ligand perception and downstream signaling is closer. DOI: 10.4161/psb.3.9.5780 ; PMID: 19704821
- Arabidopsis ABERRANT PEROXISOME MORPHOLOGY9 is a peroxin that recruits the PEX1-PEX6 complex to peroxisomes. DOI: 10.1105/tpc.110.080770 ; PMID: 21487094
- Molecular foundations of reproductive lethality in Arabidopsis thaliana. DOI: 10.1371/journal.pone.0028398 ; PMID: 22164284
- Peroxisomal ubiquitin-protein ligases peroxin2 and peroxin10 have distinct but synergistic roles in matrix protein import and peroxin5 retrotranslocation in Arabidopsis. DOI: 10.1104/pp.114.247148 ; PMID: 25214533
- hfAIM: A reliable bioinformatics approach for in silico genome-wide identification of autophagy-associated Atg8-interacting motifs in various organisms. DOI: 10.1080/15548627.2016.1147668 ; PMID: 27071037
- The PEX1 ATPase Stabilizes PEX6 and Plays Essential Roles in Peroxisome Biology. DOI: 10.1104/pp.17.00548 ; PMID: 28600347
- Disparate peroxisome-related defects in Arabidopsis pex6 and pex26 mutants link peroxisomal retrotranslocation and oil body utilization. DOI: 10.1111/tpj.13641 ; PMID: 28742939
- A pex1 missense mutation improves peroxisome function in a subset of Arabidopsis pex6 mutants without restoring PEX5 recycling. DOI: 10.1073/pnas.1721279115 ; PMID: 29555730
- Genome-wide identification of EMBRYO-DEFECTIVE (EMB) genes required for growth and development in Arabidopsis. DOI: 10.1111/nph.16071 ; PMID: 31334862
Gene Resources
- UniProt: A0A1P8BDW6
- EMBL: CP002688
- AlphaFoldDB: A0A1P8BDW6
- EnsemblPlants: AT5G08470.4
- Gramene: AT5G08470.4
- Orthologous matrix: HIDENIH
- ExpressionAtlas: AT5G08470
- InterPro: IPR003593, IPR003959, IPR009010
- PANTHER: PTHR23077, PTHR23077:SF12
- SUPFAM: SSF50692, SSF52540, SSF54585
- Gene3D: 1.10.8.60, 2.40.40.20, 3.10.330.10
- SWISS-MODEL: A0A1P8BDW6
- Conserved Domain Database: cd00009
Sequences
cDNA Sequence
- >AT5G08470.4
ATGTCTCGCAATCGGCAAATCATCATCCCCGACGACGTGATGGAAACAGAAGCGGTGGTTAATACCGTCGCCGGCGTCGACTGTTTCGTCTCACTCCCTCGTCAATTACTACACGCGCTTCAATCCACCAGCTCCTCTCCTCTCCCTCCGCTTCTCCCTGTCGAGCTACGCTCCGGTGACCGCCGTTGGTCAGTTGCTTGGTCCGGCTCTAGCTCCTCCTCTTCTGCGATCGAGATCGCTCGAGTGTTTGCGGAAAGCATTTCGTTGCCGGATGGTACAGTTGTTAAAGTTCGTGTTCTTCCTAATGTGCCCAAGGCTACTTTAGTAACAGTCGAACCAGAGACTGAAGATGACTGGGAAGTTCTTGAGCTCAATGCTGAACTTGCCGAGGCAGCTATACTTAGTCAGGTGAGGATACTACATGAGACCATGAAATTCCCTTTGTGGTTGCATGACCGAACTGTGATAAGATTTTCTGTGGTTTCAACATTTCCATCAAAAGGGGTGGTACAACTTGTGCCAGGAACTGAAGTGGCTGTGGCTCCAAAGAGACGTGACAGAAATCTCAAAGCAAAAAAGAGTCAGGAAAAAGAATGTAACAATGTGAAGGCTCTACTACGTGTACAAGAGACTGATAGATCAGCCTTTCATGAAGCTGATGTCAAAGGATTTGAGCTAAGGGTAGCCCTCACGTCTATTGCCTATATTCATCCAGAAACTGCCAAGAAACACTCTCTAGAATCTCTTCAGTTGATTTCTGTATCCCCTAGAATACCTTTGAAAGGTAGTGCAAAGAAGGATGAAGCCTTAAATATGAAAAACAGTGAAGCTTCAAAGGTGGCCGAGAATGGTACTTCAAGCGCCAAGAAAGAGCCTCGTCAAGCAATTCTTCGTCTTGTCTTTTCAGATTTAGCTGCTAAAGGACATCTAATGATGGTCGAGTCTCTTCGTCTCTATCTAGGAGCAGGCCTACACTCATGGGTTTACTTAAGGGGATGCAATGTGAATGAAGACAAAGAAATTCCTGCTCTTTCACTTTCTCCTTGTGTCTTCAAGATTTCTGAAAATGAAAAGGTGCTGGATAAGGGTACGGATAGGCTTGGTAATAACAATTCTGTTAGAAAAAGCAGTCATCCACCGTCTGGCTTGAGCACCTATGTGGATGTTGTCGACTGGTCTGTGCACGATAAGGTTGTTACAGCTCTTTCATCTGAGGGTTTGCATGACGAAGGAAATCATGATAAGAATAAGAAAGGATTGGAATACCTTACTCGCCTGTGGTCATTGGCACAGCTTGATGCTATGGCGTCAGTCACAGGAGTTGATGTTAGTTCGTTAATTGTGGGAAGAGAAACGTTTTTCCATTTCGAAGTAAGAGGGCTCGAATCTTATAAATCCATAGACGGGCAGCCTTCTGTTAATGATCGTTGGGAAAGTGGGAAGAAGGATAAACACACTCCTTTAGAAATTTTGTACGTCATGACGGTCTCTGATGAGTCTTTGCTTGGTGATAAATTCGCTGGGTATGATCTTAGCCTGGATAGAAGTGAGAAGAGCGACAATGTGGTGCATATTGAGCCAGTGCTTGAGAAGATGAATCTTGGCGAGCCTATATATTTAAAGTCGGCTAAAGAGACACACTGCAATAAAGGTGTTTCCCCAGATATATCCTCCTTGACGTGGATGGGCCCAATCGTGTCGGATGTTATCAAGAGAATGACCGTGTTGTTGTCTCCTGCAGCTGGAATGTGGTTTAGCAAGTTCAAGATTCCATCACCTGGACATATTCTCATATATGGGCCTCCTGGTTCAGGAAAGACAATATTGGCAAGAGCTGCTGCAAAGTATTTCGAAGAACAGAAAGACTTGTTGGCACATGTGATTTTAGTATCCTGTTCTACACTTGCCTTGGAGAAGGTTCAACACATCCATCATGTCCTTTCTAGTGTAATAGCTGAGGGGTTGGAACATGCACCATCTGTCATCATTTTGGATGATCTTGATAGCATTATCTCATCGTCTTCTGATACTGAAGGAACACAAGCTTCGGTTGGGGTTACAATGCTTACAAAATTCCTAACAGATGTTATAGATGATTATGGGGAATACAGGAATTCCTCTTGTGGAATTGGCCCACTTGCATTCGTTGCTTCTGTCCAGTCTCTAGAGCAAATTCCACAGACATTGAGCTCATCAGGAAGGTTTGACTTCCATGTGCAACTGGCTGCTCCTGCTACCTCGGAACGTGGGGCCATACTGAAGCATGAGATACAGAAACGCCTTTTAGACTGTTCAGAAGACATTTTACTTAACTTAGCTGCTAAATGTGAAGGATATGATGCATATGACCTGGAAATATTGGTTGATAGAGCTGTTCATGCTGCCATTGGCCGGCATCTACCTTTAGAATCAAATATATCCAAATATAATTTGGTCAAAGAAGACTTTACTCGAGCTATGCATGATTTTGTGCCTGTTGCCATGCGTGACATCACAAAATCTGCCTCTGAAGGTGGTCGTTTGGGGTGGGAAGATGTGGGAGGTGTGACTGATATTAAAAATGCTATCAAAGAGGAAGCATCTGTTTCCTGCCTCTTTGTCTGTTGGCTTTTACTTACTGAAGTTAGGTCGTGTTCAGTGGGAAACAATATTTCTGTAAGACCTGAGTTGATATAAGTTGAAATATCTTGGAATGAATCTCACGGAAATAATTCCACTGGGCTATATAAGAGCTACTAGTTATGCTAACAACTACAGTTTGAA - >AT5G08470.1
ATGTCTCGCAATCGGCAAATCATCATCCCCGACGACGTGATGGAAACAGAAGCGGTGGTTAATACCGTCGCCGGCGTCGACTGTTTCGTCTCACTCCCTCGTCAATTACTACACGCGCTTCAATCCACCAGCTCCTCTCCTCTCCCTCCGCTTCTCCCTGTCGAGCTACGCTCCGGTGACCGCCGTTGGTCAGTTGCTTGGTCCGGCTCTAGCTCCTCCTCTTCTGCGATCGAGATCGCTCGAGTGTTTGCGGAAAGCATTTCGTTGCCGGATGGTACAGTTGTTAAAGTTCGTGTTCTTCCTAATGTGCCCAAGGCTACTTTAGTAACAGTCGAACCAGAGACTGAAGATGACTGGGAAGTTCTTGAGCTCAATGCTGAACTTGCCGAGGCAGCTATACTTAGTCAGGTGAGGATACTACATGAGACCATGAAATTCCCTTTGTGGTTGCATGACCGAACTGTGATAAGATTTTCTGTGGTTTCAACATTTCCATCAAAAGGGGTGGTACAACTTGTGCCAGGAACTGAAGTGGCTGTGGCTCCAAAGAGACGTGACAGAAATCTCAAAGCAAAAAAGAGTCAGGAAAAAGAATGTAACAATGTGAAGGCTCTACTACGTGTACAAGAGACTGATAGATCAGCCTTTCATGAAGCTGATGTCAAAGGATTTGAGCTAAGGGTAGCCCTCACGTCTATTGCCTATATTCATCCAGAAACTGCCAAGAAACACTCTCTAGAATCTCTTCAGTTGATTTCTGTATCCCCTAGAATACCTTTGAAAGGTAGTGCAAAGAAGGATGAAGCCTTAAATATGAAAAACAGTGAAGCTTCAAAGGTGGCCGAGAATGGTACTTCAAGCGCCAAGAAAGAGCCTCGTCAAGCAATTCTTCGTCTTGTCTTTTCAGATTTAGCTGCTAAAGGACATCTAATGATGGTCGAGTCTCTTCGTCTCTATCTAGGAGCAGGCCTACACTCATGGGTTTACTTAAGGGGATGCAATGTGAATGAAGACAAAGAAATTCCTGCTCTTTCACTTTCTCCTTGTGTCTTCAAGATTTCTGAAAATGAAAAGGTGCTGGATAAGGGTACGGATAGGCTTGGTAATAACAATTCTGTTAGAAAAAGCAGTCATCCACCGTCTGGCTTGAGCACCTATGTGGATGTTGTCGACTGGTCTGTGCACGATAAGGTTGTTACAGCTCTTTCATCTGAGGGTTTGCATGACGAAGGAAATCATGATAAGAATAAGAAAGGATTGGAATACCTTACTCGCCTGTGGTCATTGGCACAGCTTGATGCTATGGCGTCAGTCACAGGAGTTGATGTTAGTTCGTTAATTGTGGGAAGAGAAACGTTTTTCCATTTCGAAGTAAGAGGGCTCGAATCTTATAAATCCATAGACGGGCAGCCTTCTGTTAATGATCGTTGGGAAAGTGGGAAGAAGGATAAACACACTCCTTTAGAAATTTTGTACGTCATGACGGTCTCTGATGAGTCTTTGCTTGGTGATAAATTCGCTGGGTATGATCTTAGCCTGGATAGAAGTGAGAAGAGCGACAATGTGGTGCATATTGAGCCAGTGCTTGAGAAGATGAATCTTGGCGAGCCTATATATTTAAAGTCGGCTAAAGAGACACACTGCAATAAAGGTGTTTCCCCAGATATATCCTCCTTGACGTGGATGGGCCCAATCGTGTCGGATGTTATCAAGAGAATGACCGTGTTGTTGTCTCCTGCAGCTGGAATGTGGTTTAGCAAGTTCAAGATTCCATCACCTGGACATATTCTCATATATGGGCCTCCTGGTTCAGGAAAGACAATATTGGCAAGAGCTGCTGCAAAGTATTTCGAAGAACAGAAAGACTTGTTGGCACATGTGATTTTAGTATCCTGTTCTACACTTGCCTTGGAGAAGGTTCAACACATCCATCATGTCCTTTCTAGTGTAATAGCTGAGGGGTTGGAACATGCACCATCTGTCATCATTTTGGATGATCTTGATAGCATTATCTCATCGTCTTCTGATACTGAAGGAACACAAGCTTCGGTTGGGGTTACAATGCTTACAAAATTCCTAACAGATGTTATAGATGATTATGGGGAATACAGGAATTCCTCTTGTGGAATTGGCCCACTTGCATTCGTTGCTTCTGTCCAGTCTCTAGAGCAAATTCCACAGACATTGAGCTCATCAGGAAGGTTTGACTTCCATGTGCAACTGGCTGCTCCTGCTACCTCGGAACGTGGGGCCATACTGAAGCATGAGATACAGAAACGCCTTTTAGACTGTTCAGAAGACATTTTACTTAACTTAGCTGCTAAATGTGAAGGATATGATGCATATGACCTGGAAATATTGGTTGATAGAGCTGTTCATGCTGCCATTGGCCGGCATCTACCTTTAGAATCAAATATATCCAAATATAATTTGGTCAAAGAAGACTTTACTCGAGCTATGCATGATTTTGTGCCTGTTGCCATGCGTGACATCACAAAATCTGCCTCTGAAGGTGGTCGTTTGGGGTGGGAAGATGTGGGAGGTGTGACTGATATTAAAAATGCTATCAAAGAGGAAGCATCTGTTTCCTGCCTCTTTGTCTGTTGGCTTTTACTTACTGAAGTTAGGTCGTGTTCAGTGGGAAACAATATTTCTGTAAGACCTGAGTTGATATAAGTTGAAATATCTTGGAATGAATCTCACGGAAATAATTCCACTGGGCTATATAAGAGCTACTAGTTATGCTAACAACTACAGTTTGAA - >AT5G08470.3
ATGTCTCGCAATCGGCAAATCATCATCCCCGACGACGTGATGGAAACAGAAGCGGTGGTTAATACCGTCGCCGGCGTCGACTGTTTCGTCTCACTCCCTCGTCAATTACTACACGCGCTTCAATCCACCAGCTCCTCTCCTCTCCCTCCGCTTCTCCCTGTCGAGCTACGCTCCGGTGACCGCCGTTGGTCAGTTGCTTGGTCCGGCTCTAGCTCCTCCTCTTCTGCGATCGAGATCGCTCGAGTGTTTGCGGAAAGCATTTCGTTGCCGGATGGTACAGTTGTTAAAGTTCGTGTTCTTCCTAATGTGCCCAAGGCTACTTTAGTAACAGTCGAACCAGAGACTGAAGATGACTGGGAAGTTCTTGAGCTCAATGCTGAACTTGCCGAGGCAGCTATACTTAGTCAGGTGAGGATACTACATGAGACCATGAAATTCCCTTTGTGGTTGCATGACCGAACTGTGATAAGATTTTCTGTGGTTTCAACATTTCCATCAAAAGGGGTGGTACAACTTGTGCCAGGAACTGAAGTGGCTGTGGCTCCAAAGAGACGTGACAGAAATCTCAAAGCAAAAAAGAGTCAGGAAAAAGAATGTAACAATGTGAAGGCTCTACTACGTGTACAAGAGACTGATAGATCAGCCTTTCATGAAGCTGATGTCAAAGGATTTGAGCTAAGGGTAGCCCTCACGTCTATTGCCTATATTCATCCAGAAACTGCCAAGAAACACTCTCTAGAATCTCTTCAGTTGATTTCTGTATCCCCTAGAATACCTTTGAAAGGTAGTGCAAAGAAGGATGAAGCCTTAAATATGAAAAACAGTGAAGCTTCAAAGGTGGCCGAGAATGGTACTTCAAGCGCCAAGAAAGAGCCTCGTCAAGCAATTCTTCGTCTTGTCTTTTCAGATTTAGCTGCTAAAGGACATCTAATGATGGTCGAGTCTCTTCGTCTCTATCTAGGAGCAGGCCTACACTCATGGGTTTACTTAAGGGGATGCAATGTGAATGAAGACAAAGAAATTCCTGCTCTTTCACTTTCTCCTTGTGTCTTCAAGATTTCTGAAAATGAAAAGGTGCTGGATAAGGGTACGGATAGGCTTGGTAATAACAATTCTGTTAGAAAAAGCAGTCATCCACCGTCTGGCTTGAGCACCTATGTGGATGTTGTCGACTGGTCTGTGCACGATAAGGTTGTTACAGCTCTTTCATCTGAGGGTTTGCATGACGAAGGAAATCATGATAAGAATAAGAAAGGATTGGAATACCTTACTCGCCTGTGGTCATTGGCACAGCTTGATGCTATGGCGTCAGTCACAGGAGTTGATGTTAGTTCGTTAATTGTGGGAAGAGAAACGTTTTTCCATTTCGAAGTAAGAGGGCTCGAATCTTATAAATCCATAGACGGGCAGCCTTCTGTTAATGATCGTTGGGAAAGTGGGAAGAAGGATAAACACACTCCTTTAGAAATTTTGTACGTCATGACGGTCTCTGATGAGTCTTTGCTTGGTGATAAATTCGCTGGGTATGATCTTAGCCTGGATAGAAGTGAGAAGAGCGACAATGTGGTGCATATTGAGCCAGTGCTTGAGAAGATGAATCTTGGCGAGCCTATATATTTAAAGTCGGCTAAAGAGACACACTGCAATAAAGGTGTTTCCCCAGATATATCCTCCTTGACGTGGATGGGCCCAATCGTGTCGGATGTTATCAAGAGAATGACCGTGTTGTTGTCTCCTGCAGCTGGAATGTGGTTTAGCAAGTTCAAGATTCCATCACCTGGACATATTCTCATATATGGGCCTCCTGGTTCAGGAAAGACAATATTGGCAAGAGCTGCTGCAAAGTATTTCGAAGAACAGAAAGACTTGTTGGCACATGTGATTTTAGTATCCTGTTCTACACTTGCCTTGGAGAAGGTTCAACACATCCATCATGTCCTTTCTAGTGTAATAGCTGAGGGGTTGGAACATGCACCATCTGTCATCATTTTGGATGATCTTGATAGCATTATCTCATCGTCTTCTGATACTGAAGGAACACAAGCTTCGGTTGGGGTTACAATGCTTACAAAATTCCTAACAGATGTTATAGATGATTATGGGGAATACAGGAATTCCTCTTGTGGAATTGGCCCACTTGCATTCGTTGCTTCTGTCCAGTCTCTAGAGCAAATTCCACAGACATTGAGCTCATCAGGAAGGTTTGACTTCCATGTGCAACTGGCTGCTCCTGCTACCTCGGAACGTGGGGCCATACTGAAGCATGAGATACAGAAACGCCTTTTAGACTGTTCAGAAGACATTTTACTTAACTTAGCTGCTAAATGTGAAGGATATGATGCATATGACCTGGAAATATTGGTTGATAGAGCTGTTCATGCTGCCATTGGCCGGCATCTACCTTTAGAATCAAATATATCCAAATATAATTTGGTCAAAGAAGACTTTACTCGAGCTATGCATGATTTTGTGCCTGTTGCCATGCGTGACATCACAAAATCTGCCTCTGAAGGTGGTCGTTTGGGGTGGGAAGATGTGGGAGGTGTGACTGATATTAAAAATGCTATCAAAGAGGAAGCATCTGTTTCCTGCCTCTTTGTCTGTTGGCTTTTACTTACTGAAGTTAGGTCGTGTTCAGTGGGAAACAATATTTCTGTAAGACCTGAGTTGATATAAGTTGAAATATCTTGGAATGAATCTCACGGAAATAATTCCACTGGGCTATATAAGAGCTACTAGTTATGCTAACAACTACAGTTTGAA - >AT5G08470.2
ATGTCTCGCAATCGGCAAATCATCATCCCCGACGACGTGATGGAAACAGAAGCGGTGGTTAATACCGTCGCCGGCGTCGACTGTTTCGTCTCACTCCCTCGTCAATTACTACACGCGCTTCAATCCACCAGCTCCTCTCCTCTCCCTCCGCTTCTCCCTGTCGAGCTACGCTCCGGTGACCGCCGTTGGTCAGTTGCTTGGTCCGGCTCTAGCTCCTCCTCTTCTGCGATCGAGATCGCTCGAGTGTTTGCGGAAAGCATTTCGTTGCCGGATGGTACAGTTGTTAAAGTTCGTGTTCTTCCTAATGTGCCCAAGGCTACTTTAGTAACAGTCGAACCAGAGACTGAAGATGACTGGGAAGTTCTTGAGCTCAATGCTGAACTTGCCGAGGCAGCTATACTTAGTCAGGTGAGGATACTACATGAGACCATGAAATTCCCTTTGTGGTTGCATGACCGAACTGTGATAAGATTTTCTGTGGTTTCAACATTTCCATCAAAAGGGGTGGTACAACTTGTGCCAGGAACTGAAGTGGCTGTGGCTCCAAAGAGACGTGACAGAAATCTCAAAGCAAAAAAGAGTCAGGAAAAAGAATGTAACAATGTGAAGGCTCTACTACGTGTACAAGAGACTGATAGATCAGCCTTTCATGAAGCTGATGTCAAAGGATTTGAGCTAAGGGTAGCCCTCACGTCTATTGCCTATATTCATCCAGAAACTGCCAAGAAACACTCTCTAGAATCTCTTCAGTTGATTTCTGTATCCCCTAGAATACCTTTGAAAGGTAGTGCAAAGAAGGATGAAGCCTTAAATATGAAAAACAGTGAAGCTTCAAAGGTGGCCGAGAATGGTACTTCAAGCGCCAAGAAAGAGCCTCGTCAAGCAATTCTTCGTCTTGTCTTTTCAGATTTAGCTGCTAAAGGACATCTAATGATGGTCGAGTCTCTTCGTCTCTATCTAGGAGCAGGCCTACACTCATGGGTTTACTTAAGGGGATGCAATGTGAATGAAGACAAAGAAATTCCTGCTCTTTCACTTTCTCCTTGTGTCTTCAAGATTTCTGAAAATGAAAAGGTGCTGGATAAGGGTACGGATAGGCTTGGTAATAACAATTCTGTTAGAAAAAGCAGTCATCCACCGTCTGGCTTGAGCACCTATGTGGATGTTGTCGACTGGTCTGTGCACGATAAGGTTGTTACAGCTCTTTCATCTGAGGGTTTGCATGACGAAGGAAATCATGATAAGAATAAGAAAGGATTGGAATACCTTACTCGCCTGTGGTCATTGGCACAGCTTGATGCTATGGCGTCAGTCACAGGAGTTGATGTTAGTTCGTTAATTGTGGGAAGAGAAACGTTTTTCCATTTCGAAGTAAGAGGGCTCGAATCTTATAAATCCATAGACGGGCAGCCTTCTGTTAATGATCGTTGGGAAAGTGGGAAGAAGGATAAACACACTCCTTTAGAAATTTTGTACGTCATGACGGTCTCTGATGAGTCTTTGCTTGGTGATAAATTCGCTGGGTATGATCTTAGCCTGGATAGAAGTGAGAAGAGCGACAATGTGGTGCATATTGAGCCAGTGCTTGAGAAGATGAATCTTGGCGAGCCTATATATTTAAAGTCGGCTAAAGAGACACACTGCAATAAAGGTGTTTCCCCAGATATATCCTCCTTGACGTGGATGGGCCCAATCGTGTCGGATGTTATCAAGAGAATGACCGTGTTGTTGTCTCCTGCAGCTGGAATGTGGTTTAGCAAGTTCAAGATTCCATCACCTGGACATATTCTCATATATGGGCCTCCTGGTTCAGGAAAGACAATATTGGCAAGAGCTGCTGCAAAGTATTTCGAAGAACAGAAAGACTTGTTGGCACATGTGATTTTAGTATCCTGTTCTACACTTGCCTTGGAGAAGGTTCAACACATCCATCATGTCCTTTCTAGTGTAATAGCTGAGGGGTTGGAACATGCACCATCTGTCATCATTTTGGATGATCTTGATAGCATTATCTCATCGTCTTCTGATACTGAAGGAACACAAGCTTCGGTTGGGGTTACAATGCTTACAAAATTCCTAACAGATGTTATAGATGATTATGGGGAATACAGGAATTCCTCTTGTGGAATTGGCCCACTTGCATTCGTTGCTTCTGTCCAGTCTCTAGAGCAAATTCCACAGACATTGAGCTCATCAGGAAGGTTTGACTTCCATGTGCAACTGGCTGCTCCTGCTACCTCGGAACGTGGGGCCATACTGAAGCATGAGATACAGAAACGCCTTTTAGACTGTTCAGAAGACATTTTACTTAACTTAGCTGCTAAATGTGAAGGATATGATGCATATGACCTGGAAATATTGGTTGATAGAGCTGTTCATGCTGCCATTGGCCGGCATCTACCTTTAGAATCAAATATATCCAAATATAATTTGGTCAAAGAAGACTTTACTCGAGCTATGCATGATTTTGTGCCTGTTGCCATGCGTGACATCACAAAATCTGCCTCTGAAGGTGGTCGTTTGGGGTGGGAAGATGTGGGAGGTGTGACTGATATTAAAAATGCTATCAAAGAGGAAGCATCTGTTTCCTGCCTCTTTGTCTGTTGGCTTTTACTTACTGAAGTTAGGTCGTGTTCAGTGGGAAACAATATTTCTGTAAGACCTGAGTTGATATAAGTTGAAATATCTTGGAATGAATCTCACGGAAATAATTCCACTGGGCTATATAAGAGCTACTAGTTATGCTAACAACTACAGTTTGAA
CDS Sequence
Protein Sequence