Information report for AT5G13000
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)
- PO:0000084 — plant sperm cell — célula espermática o esperma (Spanish, exact), male gamete (exact), microgamete (exact), 植物精子細胞 (Japanese, exact), sperm nucleus (related), sperm cell (broad)
Functional Keywords
Literature and News
- Binding of arabinogalactan proteins by Yariv phenylglycoside triggers wound-like responses in Arabidopsis cell cultures. DOI: 10.1104/pp.104.039370 ; PMID: 15235117
- The Arabidopsis callose synthase gene GSL8 is required for cytokinesis and cell patterning. DOI: 10.1104/pp.108.133918 ; PMID: 19286936
- HrpN Ea-induced deterrent effect on phloem feeding of the green peach aphid Myzus persicae requires AtGSL5 and AtMYB44 genes in Arabidopsis thaliana. DOI: 10.1007/s12038-011-9016-2 ; PMID: 21451254
- Biology of callose (β-1,3-glucan) turnover at plasmodesmata. DOI: 10.1007/s00709-010-0247-0 ; PMID: 21116665
- Callose biosynthesis regulates symplastic trafficking during root development. DOI: 10.1016/j.devcel.2011.10.006 ; PMID: 22172675
- Evolutionary history of callose synthases in terrestrial plants with emphasis on proteins involved in male gametophyte development. DOI: 10.1371/journal.pone.0187331 ; PMID: 29131847
- Analysis of a novel mutant allele of GSL8 reveals its key roles in cytokinesis and symplastic trafficking in Arabidopsis. DOI: 10.1186/s12870-018-1515-y ; PMID: 30466394
- CRK2 and C-terminal Phosphorylation of NADPH Oxidase RBOHD Regulate Reactive Oxygen Species Production in Arabidopsis. DOI: 10.1105/tpc.19.00525 ; PMID: 32034035
- A Phytophthora effector protein promotes symplastic cell-to-cell trafficking by physical interaction with plasmodesmata-localised callose synthases. DOI: 10.1111/nph.16653 ; PMID: 32396661
- Localization of Arabidopsis Glucan Synthase-Like 5, 8, and 12 to plasmodesmata and the GSL8-dependent role of PDLP5 in regulating plasmodesmal permeability. DOI: 10.1080/15592324.2022.2164670 ; PMID: 36645916
- Large-scale analysis of in vivo phosphorylated membrane proteins by immobilized metal ion affinity chromatography and mass spectrometry. DOI: 10.1074/mcp.T300006-MCP200 ; PMID: 14506206
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
Gene Resources
- UniProt: F4K116
- EMBL: CP002688
- EnsemblPlants: AT5G13000.2
- Gramene: AT5G13000.2
- Orthologous matrix: TYAYSWE
- ExpressionAtlas: AT5G13000
- InterPro: IPR003440, IPR023175, IPR026899
- PANTHER: PTHR12741, PTHR12741:SF48
- Gene3D: 1.25.40.270
- OrthoDB: F4K116
- SWISS-MODEL: F4K116
Sequences
cDNA Sequence
- >AT5G13000.2
CTTTGCGTACTTAGCAGCTAAGTAGCTTAAAAAGTTGTGGCTCCTTTGCTCCGCCATTGTTAGGGTTTCTGGATCTCCGTTTCTCTGGAGGCTGAGGAAACCTTAAAACGATTTAAAACCTGGAGGTTATAGGGTAGACAAAATGTCTGCTACGAGAGGAGGTCCTGATCAAGGGCCGTCTCAGCCTCAGCAGCGGCGGATTATACGAACTCAGACTGCTGGTAATCTTGGAGAGTCATTCGATAGTGAAGTTGTTCCATCATCTCTTGTTGAGATTGCCCCCATTCTTCGGGTTGCTAATGAAGTTGAATCTAGTAATCCTAGGGTTGCGTATCTCTGTCGGTTTTATGCATTTGAGAAAGCACATAGATTGGATCCTACCTCCAGTGGAAGAGGTGTTCGGCAGTTTAAGACTGCACTTCTACAGCGTCTTGAAAGAGAACATGATCCAACACTGATGGGCAGGGTTAAGAAAAGTGATGCCCGTGAAATGCAAAGCTTTTATCAACACTACTATAAGAAGTATATTCAAGCTTTGCACAATGCTGCTGATAAGGCTGACCGTGCCCAGCTGACAAAGGCATACCAAACTGCCAATGTTTTGTTTGAGGTGTTGAAGGCTGTTAATCTGACACAGTCCATTGAGGTTGACCGGGAGATTCTGGAAGCTCAAGATAAGGTTGCAGAAAAGACACAGTTGTATGTCCCCTATAATATCCTACCTCTCGATCCTGATAGTGCCAATCAAGCGATTATGAGATATCCTGAGATCCAAGCTGCTGTTCTTGCTCTCCGCAATACTAGAGGTCTTCCTTGGCCAGAAGGTCACAAGAAAAAGAAAGATGAAGACATGCTTGATTGGCTTCAAGAAATGTTTGGATTTCAGAAAGACAATGTGGCTAATCAAAGGGAGCATCTGATCTTATTACTTGCTAATGTGCATATAAGACAATTTCCTAAGCCTGATCAGCAGCCAAAGTTAGATGATCAAGCATTGACAGAAGTGATGAAGAAGCTTTTCAAGAACTATAAGAAATGGTGCAAATACCTTGGTCGAAAGAGTAGTCTTTGGTTGCCAACTATACAGCAGGAAATGCAGCAGCGCAAACTATTGTATATGGCCCTGTATCTTCTAATTTGGGGTGAAGCAGCGAACTTGAGATTCATGCCAGAGTGTCTCTGCTACATTTATCATCATATGGCATTTGAACTCTATGGTATGCTGGCTGGGAATGTTAGTCCTATGACTGGGGAAAATGTGAAGCCAGCTTATGGAGGCGAGGAAGATGCATTCTTGAGGAAAGTTGTGACTCCTATTTATGAAGTGATTCAGATGGAGGCTCAAAGAAGCAAAAAAGGGAAGTCTAAGCACTCTCAGTGGAGGAACTACGATGATTTGAATGAATACTTTTGGTCAGTTGATTGTTTTCGGTTAGGTTGGCCAATGCGAGCTGATGCTGATTTCTTTTGTCTGCCTGTTGCTGTACCCAATACAGAAAAGGACGGGGATAACAGCAAGCCTATTGTCGCCAGAGATAGATGGGTTGGTAAAGTTAATTTTGTTGAGATTCGTTCTTTCTGGCATGTCTTCAGAAGTTTCGATCGAATGTGGAGCTTCTATATTCTGTGCCTCCAGGCCATGATTATTATGGCCTGGGATGGCGGACAACCAAGTTCAGTCTTTGGAGCTGATGTATTCAAGAAAGTTCTGAGCGTGTTTATCACAGCTGCAATAATGAAACTTGGACAAGCTGTTCTTGATGTGATCCTTAATTTCAAAGCTCATCAAAGCATGACACTACATGTTAAACTAAGATACATTCTGAAAGTGTTCTCTGCTGCTGCCTGGGTTATTATTCTGCCTGTTACTTACGCCTACAGCTGGAAAGATCCTCCAGCATTTGCCAGAACTATCAAGAGTTGGTTTGGGAGTGCTATGCACTCACCTTCTCTATTTATAATAGCAGTCGTTTCCTATTTGTCACCTAACATGCTCGCGGGTGTAATGTTTCTTTTCCCTCTGCTACGACGGTTTCTTGAGAGGTCCAACTACAGAATTGTAATGCTAATGATGTGGTGGTCTCAGCCCAGACTCTACGTTGGCAGAGGAATGCACGAGAGCGCATTTTCCCTCTTCAAATATACCATGTTCTGGGTGTTGCTTATTGCAACAAAGCTGGCATTCAGTTACTACATTGAGATCAGGCCTTTAGTTGCCCCAACACAAGCCATTATGAAGGCCCGTGTGACAAATTTTCAGTGGCATGAGTTCTTTCCTCGTGCCAAAAACAATATTGGTGTCGTTATCGCCCTCTGGGCCCCCATTATTCTGGTATATTTTATGGATAGTCAGATTTGGTATGCTATATTTTCCACATTATTTGGAGGTATCTACGGTGCATTCCGCCGCCTTGGAGAGATTCGGACACTGGGAATGCTCAGATCACGGTTTGAATCACTGCCTGGAGCTTTTAATGACCGCTTAATTCCAGATGGAAAGAACCAGCAAAAGAAGAAGGGAATAAGGGCAACGTTATCTCATAACTTTACGGAGGATAAGGTACCTGTGAACAAAGAGAAAGAAGCTGCAAGATTTGCACAGTTGTGGAACACAATAATTAGTAGTTTTAGAGAGGAAGATCTTATAAGTGATAGGGAGATGGATCTGTTGCTTGTTCCTTATTGGGCTGACCGTGATTTGGATCTCATACAGTGGCCTCCCTTCTTATTGGCTAGCAAGATTCCAATAGCATTAGATATGGCAAAAGACAGTAATGGGAAGGACAGAGAGCTCAAGAAGAGGATTGAGAGTGACACTTACATGAAATGTGCTGTCCGTGAATGCTATGCTTCATTCAAGAATATCATAAAATTTGTGGTTCAGGGAAACCGTGAAAAAGAGGTGATAGAGATCATATTTGCAGAGGTTGACAAACATATAGATACAGGGGATTTGATTCAAGAATACAAGATGAGTGCTCTTCCTAGCCTCTATGATCACTTTGTCAAGTTGATCAAATATTTGCTTGACAATAAGGAGGAAGATAGAGATCACGTTGTAATTCTCTTCCAAGACATGCTGGAAGTTGTAACAAGAGACATTATGATGGAGGATTACAATATATCGAGCTTGGTAGATTCAAGTCATGGTGGCACTTGGCATGGGGGAATGATCCCTCTCGAACAACAATATCAGCTGTTTGCATCCTCAGGTGCCATTAGATTTCCTATTGAACCAGTAACAGAAGCTTGGAAAGAGAAGATCAAACGGATATATCTTTTGTTGACTACTAAAGAGTCTGCTATGGATGTCCCCTCTAACTTGGAAGCAAGAAGGCGGATCTCATTCTTCTCAAATTCGTTGTTCATGGACATGCCTATGGCACCTAAAGTTCGCAACATGCTATCATTTTCTGTTTTGACTCCTTATTACACTGAAGAGGTCCTCTTCTCCTTGCGGGACCTGGAAACACCAAATGAAGATGGTGTTTCAATCCTCTTCTACCTACAAAAGATTTTTCCAGATGAATGGAACAATTTTCTTGAGCGGGTGAAGTGCTTAAGTGAAGAGGAACTTAAGGAGTCTGATGAATTAGAGGAGGAACTTCGTTTATGGGCTTCATATAGAGGGCAAACTTTGACTAGAACTGGAATGATGTACTATCGAAAAGCCTTGGAGCTTCAGGCATTCCTTGACATGGCTATGCATGAAGATTTGATGGAAGGTTACAAGGCTGTAGAACTAAATTCAGAGAACAATTCAAGAGGTGAAAGATCACTCTGGGCACAGTGCCAAGCTGTTGCTGACATGAAGTTTACATATGTTGTATCATGTCAACAATATGGTATCCATAAACGATCCGGTGATCCTCGTGCGCAGGATATATTGAGGCTTATGACAAGATACCCTTCACTCCGTGTTGCATATATTGATGAGGTCGAAGAACCAGTGAAAGACAAGTCAAAGAAAGGGAACCAGAAAGTGTATTATTCTGTGTTGGTTATCTACAGGATTAGGCTTCCTGGACCTGCTATTCTTGGAGAAGGAAAGCCAGAAAACCAAAATCATGCTATCATTTTTTCCCGTGGAGAAGGTTTACAGACAATCGATATGAATCAGGATAATTACATGGAGGAAGCGTTAAAGATGAGGAATTTGCTTCAAGAATTTCTTACAAAACATGATGGTGTTAGACATCCATCCATTCTTGGACTTAGGGAACATATATTTACTGGATCAGTTTCATCCCTTGCTTGGTTCATGTCAAATCAAGAGACTAGTTTTGTTACCATTGGTCAGAGATTATTGGCAAATCCATTGAGGGTGCGTTTCCATTATGGCCATCCAGATGTTTTTGATAGACTGTTTCATCTAACAAGAGGTGGTGTTAGCAAAGCATCCAAGGTAATCAACCTCAGTGAAGATATATTTGCAGGATTCAATTCTACACTTCGTGAAGGAAATGTTACCCATCATGAATACATACAAGTTGGTAAAGGAAGAGATGTTGGTCTAAATCAGATCTCTATGTTTGAGGCCAAGATTGCTAACGGCAATGGAGAGCAGACATTAAGTCGGGATATTTACAGGCTTGGACACCGTTTTGACTTTTTCCGAATGATGTCATGTTACTTCACCACTGTTGGCTTTTATTTCAGCACCCTGATTACTGTTCTCACTGTCTACATCTTCCTTTATGGACGTCTCTATCTTGTTTTGAGTGGGCTCGAACAAGGTTTAAGTACGCAGAAAGGCATCCGAGACAATACACCTTTGCAAATAGCTCTGGCTTCACAGTCTTTTGTCCAGATTGGTTTCCTGATGGCTTTACCTATGCTTATGGAAATTGGATTAGAGAGGGGTTTTAGGACTGCCTTGAGTGAATTTGTGCTGATGCAGCTTCAGTTGGCGCCAGTGTTCTTTACGTTCTCTCTTGGGACAAAGACTCACTACTATGGGAGGACGTTACTTCATGGCGGTGCCAAGTACAGGTCCACAGGAAGAGGATTTGTCGTCTTTCATGCCAAATTTGCTGATAATTACAGACTGTATTCCCGGAGCCATTTTGTGAAGGGACTTGAAATGATGCTGCTACTCGTTGTGTATCAAATATTTGGTAGTGCTTACAGAGGCGTCCTTGCATATCTTTTGATCACCATATCTATGTGGTTCATGGTCGGGACCTGGCTTTTTGCTCCCTTCCTCTTCAATCCTTCTGGTTTTGAATGGCAGAAGATTGTTGATGATTGGACTGATTGGAATAAATGGATAAACAACATCGGGGGTATTGGTGTTCCGGCAGAAAAAAGTTGGGAATCGTGGTGGGAGGAAGAGCAAGAACATCTCCGGTATTCCGGAAAACGTGGTATAGTTGTTGAGATTTTGCTAGCACTGCGGTTCTTTATCTATCAATATGGGCTTGTTTATCATCTCACTATAACAGAGAAGACTAAAAACTTTCTGGTTTATGGAGTATCATGGCTGGTGATTTTCTTGATATTTTTTTTGTTGTTTGGGCTGATATTCATGACGTTTATCGCAATTATTGTGATATTGATCACACTGGCTCACATGACGATACAAGACATAATTGTGTGTATCCTTGCCTTTATGCCCACAGGTTGGGGGATGCTCTTGATTGCGCAAGCGTGTAAGCCGGTGGTTCATAGAGCAGGATTCTGGGGATCAGTGAGGACCCTAGCTCGTGGATACGAGATAGTAATGGGACTGTTGCTGTTCACGCCAGTGGCGTTCTTGGCATGGTTTCCATTTGTGTCAGAGTTCCAAACGCGTATGCTCTTTAATCAAGCTTTCAGTAGAGGTCTTCAGATCTCTCGTATCCTTGGAGGTCATCGTAAGGATCGCTCTTCTCGAAACAAGGAATGATTCATCTCTTCATTGTAATGACAGGGAAGGGATCTTAATTTATCCCTTTTTTATCTTCATGGATGATTAGGGTTAATGTAATTTAGTTTTCAATATATCGCTTAGGTAAAAACATTGTAGTATTCATCTATAAATTAGACGTTATCTATC - >AT5G13000.1
CTTTGCGTACTTAGCAGCTAAGTAGCTTAAAAAGTTGTGGCTCCTTTGCTCCGCCATTGTTAGGGTTTCTGGATCTCCGTTTCTCTGGAGGCTGAGGAAACCTTAAAACGATTTAAAACCTGGAGGTTATAGGGTAGACAAAATGTCTGCTACGAGAGGAGGTCCTGATCAAGGGCCGTCTCAGCCTCAGCAGCGGCGGATTATACGAACTCAGACTGCTGGTAATCTTGGAGAGTCATTCGATAGTGAAGTTGTTCCATCATCTCTTGTTGAGATTGCCCCCATTCTTCGGGTTGCTAATGAAGTTGAATCTAGTAATCCTAGGGTTGCGTATCTCTGTCGGTTTTATGCATTTGAGAAAGCACATAGATTGGATCCTACCTCCAGTGGAAGAGGTGTTCGGCAGTTTAAGACTGCACTTCTACAGCGTCTTGAAAGAGAACATGATCCAACACTGATGGGCAGGGTTAAGAAAAGTGATGCCCGTGAAATGCAAAGCTTTTATCAACACTACTATAAGAAGTATATTCAAGCTTTGCACAATGCTGCTGATAAGGCTGACCGTGCCCAGCTGACAAAGGCATACCAAACTGCCAATGTTTTGTTTGAGGTGTTGAAGGCTGTTAATCTGACACAGTCCATTGAGGTTGACCGGGAGATTCTGGAAGCTCAAGATAAGGTTGCAGAAAAGACACAGTTGTATGTCCCCTATAATATCCTACCTCTCGATCCTGATAGTGCCAATCAAGCGATTATGAGATATCCTGAGATCCAAGCTGCTGTTCTTGCTCTCCGCAATACTAGAGGTCTTCCTTGGCCAGAAGGTCACAAGAAAAAGAAAGATGAAGACATGCTTGATTGGCTTCAAGAAATGTTTGGATTTCAGAAAGACAATGTGGCTAATCAAAGGGAGCATCTGATCTTATTACTTGCTAATGTGCATATAAGACAATTTCCTAAGCCTGATCAGCAGCCAAAGTTAGATGATCAAGCATTGACAGAAGTGATGAAGAAGCTTTTCAAGAACTATAAGAAATGGTGCAAATACCTTGGTCGAAAGAGTAGTCTTTGGTTGCCAACTATACAGCAGGAAATGCAGCAGCGCAAACTATTGTATATGGCCCTGTATCTTCTAATTTGGGGTGAAGCAGCGAACTTGAGATTCATGCCAGAGTGTCTCTGCTACATTTATCATCATATGGCATTTGAACTCTATGGTATGCTGGCTGGGAATGTTAGTCCTATGACTGGGGAAAATGTGAAGCCAGCTTATGGAGGCGAGGAAGATGCATTCTTGAGGAAAGTTGTGACTCCTATTTATGAAGTGATTCAGATGGAGGCTCAAAGAAGCAAAAAAGGGAAGTCTAAGCACTCTCAGTGGAGGAACTACGATGATTTGAATGAATACTTTTGGTCAGTTGATTGTTTTCGGTTAGGTTGGCCAATGCGAGCTGATGCTGATTTCTTTTGTCTGCCTGTTGCTGTACCCAATACAGAAAAGGACGGGGATAACAGCAAGCCTATTGTCGCCAGAGATAGATGGGTTGGTAAAGTTAATTTTGTTGAGATTCGTTCTTTCTGGCATGTCTTCAGAAGTTTCGATCGAATGTGGAGCTTCTATATTCTGTGCCTCCAGGCCATGATTATTATGGCCTGGGATGGCGGACAACCAAGTTCAGTCTTTGGAGCTGATGTATTCAAGAAAGTTCTGAGCGTGTTTATCACAGCTGCAATAATGAAACTTGGACAAGCTGTTCTTGATGTGATCCTTAATTTCAAAGCTCATCAAAGCATGACACTACATGTTAAACTAAGATACATTCTGAAAGTGTTCTCTGCTGCTGCCTGGGTTATTATTCTGCCTGTTACTTACGCCTACAGCTGGAAAGATCCTCCAGCATTTGCCAGAACTATCAAGAGTTGGTTTGGGAGTGCTATGCACTCACCTTCTCTATTTATAATAGCAGTCGTTTCCTATTTGTCACCTAACATGCTCGCGGGTGTAATGTTTCTTTTCCCTCTGCTACGACGGTTTCTTGAGAGGTCCAACTACAGAATTGTAATGCTAATGATGTGGTGGTCTCAGCCCAGACTCTACGTTGGCAGAGGAATGCACGAGAGCGCATTTTCCCTCTTCAAATATACCATGTTCTGGGTGTTGCTTATTGCAACAAAGCTGGCATTCAGTTACTACATTGAGATCAGGCCTTTAGTTGCCCCAACACAAGCCATTATGAAGGCCCGTGTGACAAATTTTCAGTGGCATGAGTTCTTTCCTCGTGCCAAAAACAATATTGGTGTCGTTATCGCCCTCTGGGCCCCCATTATTCTGGTATATTTTATGGATAGTCAGATTTGGTATGCTATATTTTCCACATTATTTGGAGGTATCTACGGTGCATTCCGCCGCCTTGGAGAGATTCGGACACTGGGAATGCTCAGATCACGGTTTGAATCACTGCCTGGAGCTTTTAATGACCGCTTAATTCCAGATGGAAAGAACCAGCAAAAGAAGAAGGGAATAAGGGCAACGTTATCTCATAACTTTACGGAGGATAAGGTACCTGTGAACAAAGAGAAAGAAGCTGCAAGATTTGCACAGTTGTGGAACACAATAATTAGTAGTTTTAGAGAGGAAGATCTTATAAGTGATAGGGAGATGGATCTGTTGCTTGTTCCTTATTGGGCTGACCGTGATTTGGATCTCATACAGTGGCCTCCCTTCTTATTGGCTAGCAAGATTCCAATAGCATTAGATATGGCAAAAGACAGTAATGGGAAGGACAGAGAGCTCAAGAAGAGGATTGAGAGTGACACTTACATGAAATGTGCTGTCCGTGAATGCTATGCTTCATTCAAGAATATCATAAAATTTGTGGTTCAGGGAAACCGTGAAAAAGAGGTGATAGAGATCATATTTGCAGAGGTTGACAAACATATAGATACAGGGGATTTGATTCAAGAATACAAGATGAGTGCTCTTCCTAGCCTCTATGATCACTTTGTCAAGTTGATCAAATATTTGCTTGACAATAAGGAGGAAGATAGAGATCACGTTGTAATTCTCTTCCAAGACATGCTGGAAGTTGTAACAAGAGACATTATGATGGAGGATTACAATATATCGAGCTTGGTAGATTCAAGTCATGGTGGCACTTGGCATGGGGGAATGATCCCTCTCGAACAACAATATCAGCTGTTTGCATCCTCAGGTGCCATTAGATTTCCTATTGAACCAGTAACAGAAGCTTGGAAAGAGAAGATCAAACGGATATATCTTTTGTTGACTACTAAAGAGTCTGCTATGGATGTCCCCTCTAACTTGGAAGCAAGAAGGCGGATCTCATTCTTCTCAAATTCGTTGTTCATGGACATGCCTATGGCACCTAAAGTTCGCAACATGCTATCATTTTCTGTTTTGACTCCTTATTACACTGAAGAGGTCCTCTTCTCCTTGCGGGACCTGGAAACACCAAATGAAGATGGTGTTTCAATCCTCTTCTACCTACAAAAGATTTTTCCAGATGAATGGAACAATTTTCTTGAGCGGGTGAAGTGCTTAAGTGAAGAGGAACTTAAGGAGTCTGATGAATTAGAGGAGGAACTTCGTTTATGGGCTTCATATAGAGGGCAAACTTTGACTAGAACTGGAATGATGTACTATCGAAAAGCCTTGGAGCTTCAGGCATTCCTTGACATGGCTATGCATGAAGATTTGATGGAAGGTTACAAGGCTGTAGAACTAAATTCAGAGAACAATTCAAGAGGTGAAAGATCACTCTGGGCACAGTGCCAAGCTGTTGCTGACATGAAGTTTACATATGTTGTATCATGTCAACAATATGGTATCCATAAACGATCCGGTGATCCTCGTGCGCAGGATATATTGAGGCTTATGACAAGATACCCTTCACTCCGTGTTGCATATATTGATGAGGTCGAAGAACCAGTGAAAGACAAGTCAAAGAAAGGGAACCAGAAAGTGTATTATTCTGTGTTGGTTATCTACAGGATTAGGCTTCCTGGACCTGCTATTCTTGGAGAAGGAAAGCCAGAAAACCAAAATCATGCTATCATTTTTTCCCGTGGAGAAGGTTTACAGACAATCGATATGAATCAGGATAATTACATGGAGGAAGCGTTAAAGATGAGGAATTTGCTTCAAGAATTTCTTACAAAACATGATGGTGTTAGACATCCATCCATTCTTGGACTTAGGGAACATATATTTACTGGATCAGTTTCATCCCTTGCTTGGTTCATGTCAAATCAAGAGACTAGTTTTGTTACCATTGGTCAGAGATTATTGGCAAATCCATTGAGGGTGCGTTTCCATTATGGCCATCCAGATGTTTTTGATAGACTGTTTCATCTAACAAGAGGTGGTGTTAGCAAAGCATCCAAGGTAATCAACCTCAGTGAAGATATATTTGCAGGATTCAATTCTACACTTCGTGAAGGAAATGTTACCCATCATGAATACATACAAGTTGGTAAAGGAAGAGATGTTGGTCTAAATCAGATCTCTATGTTTGAGGCCAAGATTGCTAACGGCAATGGAGAGCAGACATTAAGTCGGGATATTTACAGGCTTGGACACCGTTTTGACTTTTTCCGAATGATGTCATGTTACTTCACCACTGTTGGCTTTTATTTCAGCACCCTGATTACTGTTCTCACTGTCTACATCTTCCTTTATGGACGTCTCTATCTTGTTTTGAGTGGGCTCGAACAAGGTTTAAGTACGCAGAAAGGCATCCGAGACAATACACCTTTGCAAATAGCTCTGGCTTCACAGTCTTTTGTCCAGATTGGTTTCCTGATGGCTTTACCTATGCTTATGGAAATTGGATTAGAGAGGGGTTTTAGGACTGCCTTGAGTGAATTTGTGCTGATGCAGCTTCAGTTGGCGCCAGTGTTCTTTACGTTCTCTCTTGGGACAAAGACTCACTACTATGGGAGGACGTTACTTCATGGCGGTGCCAAGTACAGGTCCACAGGAAGAGGATTTGTCGTCTTTCATGCCAAATTTGCTGATAATTACAGACTGTATTCCCGGAGCCATTTTGTGAAGGGACTTGAAATGATGCTGCTACTCGTTGTGTATCAAATATTTGGTAGTGCTTACAGAGGCGTCCTTGCATATCTTTTGATCACCATATCTATGTGGTTCATGGTCGGGACCTGGCTTTTTGCTCCCTTCCTCTTCAATCCTTCTGGTTTTGAATGGCAGAAGATTGTTGATGATTGGACTGATTGGAATAAATGGATAAACAACATCGGGGGTATTGGTGTTCCGGCAGAAAAAAGTTGGGAATCGTGGTGGGAGGAAGAGCAAGAACATCTCCGGTATTCCGGAAAACGTGGTATAGTTGTTGAGATTTTGCTAGCACTGCGGTTCTTTATCTATCAATATGGGCTTGTTTATCATCTCACTATAACAGAGAAGACTAAAAACTTTCTGGTTTATGGAGTATCATGGCTGGTGATTTTCTTGATATTTTTTTTGTTGTTTGGGCTGATATTCATGACGTTTATCGCAATTATTGTGATATTGATCACACTGGCTCACATGACGATACAAGACATAATTGTGTGTATCCTTGCCTTTATGCCCACAGGTTGGGGGATGCTCTTGATTGCGCAAGCGTGTAAGCCGGTGGTTCATAGAGCAGGATTCTGGGGATCAGTGAGGACCCTAGCTCGTGGATACGAGATAGTAATGGGACTGTTGCTGTTCACGCCAGTGGCGTTCTTGGCATGGTTTCCATTTGTGTCAGAGTTCCAAACGCGTATGCTCTTTAATCAAGCTTTCAGTAGAGGTCTTCAGATCTCTCGTATCCTTGGAGGTCATCGTAAGGATCGCTCTTCTCGAAACAAGGAATGATTCATCTCTTCATTGTAATGACAGGGAAGGGATCTTAATTTATCCCTTTTTTATCTTCATGGATGATTAGGGTTAATGTAATTTAGTTTTCAATATATCGCTTAGGTAAAAACATTGTAGTATTCATCTATAAATTAGACGTTATCTATC
CDS Sequence
Protein Sequence