Information report for AT5G16780
Gene Details
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Functional Descriptions
- PO:0000025 — root tip — punta de la raíz (Spanish, exact), 根端 (Japanese, exact)
- PO:0000037 — shoot axis apex — ápice del epiblasto (epiblastema) (Spanish, exact), シュート頂、茎頂 (Japanese, exact)
- PO:0009009 — plant embryo — embrión (Spanish, exact), 植物胚 (Japanese, exact), germ (related), embryo (broad)
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0009025 — vascular leaf — foliage leaf (exact), hoja vascular (Spanish, exact), leaf, vascular (exact), vascular leaves (exact, plural), 維管束のある葉, または維管束植物の葉 (Japanese, exact), crozier (related), macrophyll (related), megaphyll (related), ascidia (narrow), ascidium (narrow), fiddlehead (narrow), frond (narrow), needle-like leaf (narrow), pitcher (narrow), pitcher blade (narrow), pitcher-blade (narrow), scale-like leaf (narrow), sterile frond (narrow), trophophyll (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)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
- dot2-1 — dot2-1 mutants are dwarved plants that display an aberrant spurred leaf venation pattern and fail to flower. They also have an abnormal cotyledon number, shorter petioles, significantly shorter roots and smaller rosettes when compared to wild-type plants.
Functional Keywords
Literature and News
- Laser capture microdissection for the analysis of gene expression during embryogenesis of Arabidopsis. DOI: 10.1111/j.1365-313X.2005.02355.x ; PMID: 15773857
- Vein patterning screens and the defectively organized tributaries mutants in Arabidopsis thaliana. DOI: 10.1111/j.1365-313X.2008.03595.x ; PMID: 18643975
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- MERISTEM-DEFECTIVE, an RS domain protein, is required for the correct meristem patterning and function in Arabidopsis. DOI: 10.1111/j.1365-313X.2008.03738.x ; PMID: 19000164
- Proteomic analysis of the Arabidopsis nucleolus suggests novel nucleolar functions. DOI: 10.1091/mbc.e04-09-0791 ; PMID: 15496452
- Laser capture microdissection for the analysis of gene expression during embryogenesis of Arabidopsis. DOI: 10.1111/j.1365-313X.2005.02355.x ; PMID: 15773857
Gene Resources
- UniProt: A0A178UP47
- EMBL: CACSHJ010000096, LR881470, LUHQ01000005
- AlphaFoldDB: A0A178UP47
- EnsemblPlants: AT5G16780.1, AT5G16780.2, AT5G16780.3
- Gramene: AT5G16780.1, AT5G16780.2, AT5G16780.3
- KEGG: ath:AT5G16780
- Orthologous matrix: KRRDYTG
- ExpressionAtlas: AT5G16780
- InterPro: IPR005011
- PANTHER: PTHR14152, PTHR14152:SF5
- OrthoDB: A0A178UP47
- SWISS-MODEL: A0A178UP47
Sequences
cDNA Sequence
- >AT5G16780.2
GCAAAATCGTTCTCCTCTCTTCGCCACCAGAGAGTCTCTCCGTCTCTTTCCACGGCGAGTTTGCGATCGTCCGCGGTTTGCTGTTTGTCGTCATCTCTCTCGTTTGAAGCATTCTTTTCTAAATTCTTCGCAGTTGCTAGGTCTTTATCTTCTAAACCTTACTATTCGTCGGTGTGCTTTCGCAATTTATCTCTAAACCCTCGGAAATTTCTCCTGCAATTCTGAGCTCTTTGTTCGTCGATCCGAATATTCAGTACTTTCCATTGAAGGTTTGATCTAGAGGTCTTGACTAAAGTTCTTGAAAATGGAAGTGGAGAAGTCTAAATCAAGGCATGAAATCAGGGAAGAGAGGGCTGACTACGAGGGTTCGCCTGTTAGAGAACACAGAGATGGAAGGAGGAAAGAGAAGGATCATAGGAGCAAGGATAAAGAAAAGGACTATGATCGAGAAAAGATCAGGGATAAGGACCACCGCAGGGATAAGGAGAAAGAGAGAGACCGAAAAAGAAGTAGAGATGAGGACACTGAGAAGGAGATCTCTAGAGGTAGAGATAAAGAGAGGGAGAAAGATAAGAGTAGAGATCGGGTTAAAGAAAAGGACAAGGAAAAGGAAAGAAATAGACATAAAGATAGAGAAAATGAGAGGGATAACGAGAAGGAAAAAGACAAGGATAGGGCAAGAGTCAAGGAGAGAGCGAGTAAGAAAAGTCATGAAGATGATGACGAGACTCATAAAGCTGCAGAAAGATATGAACATTCTGACAACAGAGGTCTGAATGAAGGTGGCGATAATGTTGATGCTGCATCAAGTGGGAAAGAAGCATCTGCGTTGGACCTTCAGAATCGCATTTTGAAGATGAGAGAGGAAAGAAAGAAGAAAGCTGAAGATGCTTCTGATGCTCTATCATGGGTTGCAAGGAGCCGTAAGATTGAGGAAAAACGAAATGCTGAGAAGCAAAGAGCACAGCAGCTCTCGAGAATTTTTGAGGAGCAGGACAATCTTAATCAAGGTGAAAATGAAGATGGCGAGGATGGCGAGCATCTATCTGGTGTTAAAGTTCTACATGGTTTGGAGAAAGTGGTGGAAGGTGGAGCAGTTATCTTGACACTAAAAGACCAAAGTGTCCTTACCGATGGAGACGTTAACAATGAGATTGACATGCTAGAAAATGTGGAAATTGGAGAACAGAAGCGCCGGAATGAAGCTTATGAAGCAGCCAAGAAGAAAAAGGGAATATACGATGATAAGTTTAATGATGATCCCGGGGCAGAAAAGAAGATGCTTCCTCAGTACGATGAGGCTGCTACTGATGAGGGGATCTTTTTGGATGCAAAGGGTCGCTTCACCGGTGAAGCTGAGAAGAAGCTAGAGGAGCTGCGTAAGAGAATTCAGGGTCAGACGACACATACTTTTGAAGACCTTAACTCCTCAGCAAAGGTCTCTTCAGATTACTTCTCACAGGAAGAAATGCTAAAATTCAAAAAACCCAAGAAAAAGAAACAATTGCGTAAAAAGGATAAATTGGACTTAAGTATGCTTGAAGCAGAAGCTGTTGCATCGGGATTGGGAGCTGAAGATCTTGGTTCTCGTAAAGATGGCAGAAGGCAGGCCATGAAAGAAGAGAAAGAAAGGATCGAGTATGAAAAACGGAGCAATGCCTATCAGGAAGCCATTGCTAAAGCTGATGAGGCATCCAGGCTACTTAGAAGGGAACAAGTTCAGCCTTTTAAAAGAGATGAAGATGAGAGTATGGTGTTGGCTGATGATGCTGAAGATCTTTACAAATCGTTAGAGAAAGCTAGGAGGCTAGCTCTCATTAAGAAAGAGGAAGCTGGATCTGGTCCACAGGCAGTTGCGCATCTTGTGGCTTCCAGCACCAATCAAACAACAGATGATAATACCACCACCGGGGATGAGACACAAGAAAATACAGTGGTTTTTACAGAGATGGGAGACTTTGTCTGGGGTCTCCAGCGCGAGAACGATGTGCGGAAGCCTGAAAGTGAAGATGTTTTCATGGAAGAAGATGTAGCACCCAAAGCTCCCGTTGAAGTAAAAGAAGAGCATCCTGATGGTTTGACAGAAGTAAATGACACTGATATGGATGCAGCAGAGGATTCATCAGATACCAAAGAGATAACACCTGATGAAAATATACACGAGGTTGCGGTTGGAAAAGGATTATCTGGTGCATTGAAGCTTCTTAAAGACCGAGGAACCCTAAAGGAGAAGGTCGAATGGGGTGGTAGAAATATGGACAAAAAAAAGAGCAAGCTTGTGGGTATTGTGGATGATGATGGAGGTAAAGAATCTAAGGATAAAGAATCTAAGGATAGATTCAAGGACATCCGGATTGAGAGGACTGACGAGTTTGGTAGAACTTTAACTCCAAAAGAAGCCTTTCGACTACTCTCGCACAAATTCCACGGGAAGGGGCCTGGAAAAATGAAGGAAGAGAAACGGATGAAACAGTACCAGGAAGAGCTCAAGTTAAAGCAAATGAAAAACTCAGACACACCATCGCAGTCTGTTCAAAGAATGAGAGAAGCTCAAGCTCAATTGAAAACTCCTTACCTTGTCCTCAGTGGCCATGTCAAACCAGGACAAACCAGTGATCCTCAGAGTGGGTTTGCGACTGTTGAGAAGGATGTTCCTGGAAGCTTAACACCAATGCTTGGTGACAGAAAGGTGGAGCATTTCTTGGGAATAAAGCGGAAATCAGAGCCCGGAAACTCGGATACACCACCAAAGAGACCAAAGCCTTGAAGGACACTTTTAGATAATCAAAAGGTCTTGCTTGCGTCTTTGTTTCACATTGATTTGTCTCTGGTAAACTCTTTTTCAGGATTTGTTAGTCTTTAGAAGAAGACATAGCTCGCTCATTATATAGATTCATGCTGCTGAGACTGATGATATTTTGATGAAGTTGCCAAAACCGATCATAAAATGTTGAGTCGTTTGACTTAAACAAAAAAAATGTTCACGCGTCATCGTTTAGTTTTGGCCGCAAGGTTAAAAATAGTGCGAAGATGTTCTGTGCCCTGAGACATGTAGCGAAATGGCCATGGTTCCGAACAAGTTTGCCTGCAAAACGGAGAATTATAACATTAGACTAGCCAAATCGTCCATATTCACTGAATGCATTCATGTGGTAACTATAAAATTCAATCTATGTGGGAGAGTACTGATAGGACTTACTCTATTATCTCTTTCCAAAAAGAATCACTTGCTCCATCATCAATAGTGTCACACCATGGGTGATGATGATCTTGTGTAAACGTTGAGTTTGATGATGAAGGGTTTGAAGCATCATGATGATGGTAATCGACGATGTCTTTGTTCTTGATCATCCTTTGAGTTTCTTTAGATTCTTCAGGAGACGCCGGAACCAATAGAGGGAGTGAATTATGATCATCTTGAAAACCGGGTTGTATGGGGGAAGAAAAAGAGTCCAAAGGGTTATCAATAATTTGGGTTTTGACCATCAAATTCTCATCCTCAAGAATGTGAGAGAAGTTTTGAGACTGACCAAAAAGATTTTGGTTCTCTAAGTAAGAAGCTTGGCCAAAGAGATTGGTGTTACTGTTTTGCATAGTTGATGAAGAAAAAGAAGGATTGGTGGTGTTGTTATTGGTGCTAAGGACTTGAATCATAGTGTGTAGCAGTTGAGCTTTAGCAAGAGTTGTTGCATCCAGTTGCACATTTTGGTTGAGATTCAAGAGGCTGTTGAAATTTGCGGCGGCTATAAGCTGCGGGAGAGCTGCTAAAACGTTTAGATGGTCGGTTCTTGGCCTATGGGTCACCGGATCAATCCCCATTTGGAGAAGTTTCTTTCTCAAATGTGTGTTCCAATAGTTTTTTATTTCATTGTCCGTTCTTCCAGGAAGATTACCGGCTATCGACGACCACCTTCCAAAACATATACGAAATAATTAAACATTAATCAAATTGATATTATGGCAGTGGATTAGTCTAAGACTAATATATACCTAATATTGTCTTGCTTTAGTCGTAACAAGATTTACTTTTCAAGATTGAAAAACGGCTACAGACGTATGCACCTAGAGAAAACCAG - >AT5G16780.1
GCAAAATCGTTCTCCTCTCTTCGCCACCAGAGAGTCTCTCCGTCTCTTTCCACGGCGAGTTTGCGATCGTCCGCGGTTTGCTGTTTGTCGTCATCTCTCTCGTTTGAAGCATTCTTTTCTAAATTCTTCGCAGTTGCTAGGTCTTTATCTTCTAAACCTTACTATTCGTCGGTGTGCTTTCGCAATTTATCTCTAAACCCTCGGAAATTTCTCCTGCAATTCTGAGCTCTTTGTTCGTCGATCCGAATATTCAGTACTTTCCATTGAAGGTTTGATCTAGAGGTCTTGACTAAAGTTCTTGAAAATGGAAGTGGAGAAGTCTAAATCAAGGCATGAAATCAGGGAAGAGAGGGCTGACTACGAGGGTTCGCCTGTTAGAGAACACAGAGATGGAAGGAGGAAAGAGAAGGATCATAGGAGCAAGGATAAAGAAAAGGACTATGATCGAGAAAAGATCAGGGATAAGGACCACCGCAGGGATAAGGAGAAAGAGAGAGACCGAAAAAGAAGTAGAGATGAGGACACTGAGAAGGAGATCTCTAGAGGTAGAGATAAAGAGAGGGAGAAAGATAAGAGTAGAGATCGGGTTAAAGAAAAGGACAAGGAAAAGGAAAGAAATAGACATAAAGATAGAGAAAATGAGAGGGATAACGAGAAGGAAAAAGACAAGGATAGGGCAAGAGTCAAGGAGAGAGCGAGTAAGAAAAGTCATGAAGATGATGACGAGACTCATAAAGCTGCAGAAAGATATGAACATTCTGACAACAGAGGTCTGAATGAAGGTGGCGATAATGTTGATGCTGCATCAAGTGGGAAAGAAGCATCTGCGTTGGACCTTCAGAATCGCATTTTGAAGATGAGAGAGGAAAGAAAGAAGAAAGCTGAAGATGCTTCTGATGCTCTATCATGGGTTGCAAGGAGCCGTAAGATTGAGGAAAAACGAAATGCTGAGAAGCAAAGAGCACAGCAGCTCTCGAGAATTTTTGAGGAGCAGGACAATCTTAATCAAGGTGAAAATGAAGATGGCGAGGATGGCGAGCATCTATCTGGTGTTAAAGTTCTACATGGTTTGGAGAAAGTGGTGGAAGGTGGAGCAGTTATCTTGACACTAAAAGACCAAAGTGTCCTTACCGATGGAGACGTTAACAATGAGATTGACATGCTAGAAAATGTGGAAATTGGAGAACAGAAGCGCCGGAATGAAGCTTATGAAGCAGCCAAGAAGAAAAAGGGAATATACGATGATAAGTTTAATGATGATCCCGGGGCAGAAAAGAAGATGCTTCCTCAGTACGATGAGGCTGCTACTGATGAGGGGATCTTTTTGGATGCAAAGGGTCGCTTCACCGGTGAAGCTGAGAAGAAGCTAGAGGAGCTGCGTAAGAGAATTCAGGGTCAGACGACACATACTTTTGAAGACCTTAACTCCTCAGCAAAGGTCTCTTCAGATTACTTCTCACAGGAAGAAATGCTAAAATTCAAAAAACCCAAGAAAAAGAAACAATTGCGTAAAAAGGATAAATTGGACTTAAGTATGCTTGAAGCAGAAGCTGTTGCATCGGGATTGGGAGCTGAAGATCTTGGTTCTCGTAAAGATGGCAGAAGGCAGGCCATGAAAGAAGAGAAAGAAAGGATCGAGTATGAAAAACGGAGCAATGCCTATCAGGAAGCCATTGCTAAAGCTGATGAGGCATCCAGGCTACTTAGAAGGGAACAAGTTCAGCCTTTTAAAAGAGATGAAGATGAGAGTATGGTGTTGGCTGATGATGCTGAAGATCTTTACAAATCGTTAGAGAAAGCTAGGAGGCTAGCTCTCATTAAGAAAGAGGAAGCTGGATCTGGTCCACAGGCAGTTGCGCATCTTGTGGCTTCCAGCACCAATCAAACAACAGATGATAATACCACCACCGGGGATGAGACACAAGAAAATACAGTGGTTTTTACAGAGATGGGAGACTTTGTCTGGGGTCTCCAGCGCGAGAACGATGTGCGGAAGCCTGAAAGTGAAGATGTTTTCATGGAAGAAGATGTAGCACCCAAAGCTCCCGTTGAAGTAAAAGAAGAGCATCCTGATGGTTTGACAGAAGTAAATGACACTGATATGGATGCAGCAGAGGATTCATCAGATACCAAAGAGATAACACCTGATGAAAATATACACGAGGTTGCGGTTGGAAAAGGATTATCTGGTGCATTGAAGCTTCTTAAAGACCGAGGAACCCTAAAGGAGAAGGTCGAATGGGGTGGTAGAAATATGGACAAAAAAAAGAGCAAGCTTGTGGGTATTGTGGATGATGATGGAGGTAAAGAATCTAAGGATAAAGAATCTAAGGATAGATTCAAGGACATCCGGATTGAGAGGACTGACGAGTTTGGTAGAACTTTAACTCCAAAAGAAGCCTTTCGACTACTCTCGCACAAATTCCACGGGAAGGGGCCTGGAAAAATGAAGGAAGAGAAACGGATGAAACAGTACCAGGAAGAGCTCAAGTTAAAGCAAATGAAAAACTCAGACACACCATCGCAGTCTGTTCAAAGAATGAGAGAAGCTCAAGCTCAATTGAAAACTCCTTACCTTGTCCTCAGTGGCCATGTCAAACCAGGACAAACCAGTGATCCTCAGAGTGGGTTTGCGACTGTTGAGAAGGATGTTCCTGGAAGCTTAACACCAATGCTTGGTGACAGAAAGGTGGAGCATTTCTTGGGAATAAAGCGGAAATCAGAGCCCGGAAACTCGGATACACCACCAAAGAGACCAAAGCCTTGAAGGACACTTTTAGATAATCAAAAGGTCTTGCTTGCGTCTTTGTTTCACATTGATTTGTCTCTGGTAAACTCTTTTTCAGGATTTGTTAGTCTTTAGAAGAAGACATAGCTCGCTCATTATATAGATTCATGCTGCTGAGACTGATGATATTTTGATGAAGTTGCCAAAACCGATCATAAAATGTTGAGTCGTTTGACTTAAACAAAAAAAATGTTCACGCGTCATCGTTTAGTTTTGGCCGCAAGGTTAAAAATAGTGCGAAGATGTTCTGTGCCCTGAGACATGTAGCGAAATGGCCATGGTTCCGAACAAGTTTGCCTGCAAAACGGAGAATTATAACATTAGACTAGCCAAATCGTCCATATTCACTGAATGCATTCATGTGGTAACTATAAAATTCAATCTATGTGGGAGAGTACTGATAGGACTTACTCTATTATCTCTTTCCAAAAAGAATCACTTGCTCCATCATCAATAGTGTCACACCATGGGTGATGATGATCTTGTGTAAACGTTGAGTTTGATGATGAAGGGTTTGAAGCATCATGATGATGGTAATCGACGATGTCTTTGTTCTTGATCATCCTTTGAGTTTCTTTAGATTCTTCAGGAGACGCCGGAACCAATAGAGGGAGTGAATTATGATCATCTTGAAAACCGGGTTGTATGGGGGAAGAAAAAGAGTCCAAAGGGTTATCAATAATTTGGGTTTTGACCATCAAATTCTCATCCTCAAGAATGTGAGAGAAGTTTTGAGACTGACCAAAAAGATTTTGGTTCTCTAAGTAAGAAGCTTGGCCAAAGAGATTGGTGTTACTGTTTTGCATAGTTGATGAAGAAAAAGAAGGATTGGTGGTGTTGTTATTGGTGCTAAGGACTTGAATCATAGTGTGTAGCAGTTGAGCTTTAGCAAGAGTTGTTGCATCCAGTTGCACATTTTGGTTGAGATTCAAGAGGCTGTTGAAATTTGCGGCGGCTATAAGCTGCGGGAGAGCTGCTAAAACGTTTAGATGGTCGGTTCTTGGCCTATGGGTCACCGGATCAATCCCCATTTGGAGAAGTTTCTTTCTCAAATGTGTGTTCCAATAGTTTTTTATTTCATTGTCCGTTCTTCCAGGAAGATTACCGGCTATCGACGACCACCTTCCAAAACATATACGAAATAATTAAACATTAATCAAATTGATATTATGGCAGTGGATTAGTCTAAGACTAATATATACCTAATATTGTCTTGCTTTAGTCGTAACAAGATTTACTTTTCAAGATTGAAAAACGGCTACAGACGTATGCACCTAGAGAAAACCAG - >AT5G16780.3
GCAAAATCGTTCTCCTCTCTTCGCCACCAGAGAGTCTCTCCGTCTCTTTCCACGGCGAGTTTGCGATCGTCCGCGGTTTGCTGTTTGTCGTCATCTCTCTCGTTTGAAGCATTCTTTTCTAAATTCTTCGCAGTTGCTAGGTCTTTATCTTCTAAACCTTACTATTCGTCGGTGTGCTTTCGCAATTTATCTCTAAACCCTCGGAAATTTCTCCTGCAATTCTGAGCTCTTTGTTCGTCGATCCGAATATTCAGTACTTTCCATTGAAGGTTTGATCTAGAGGTCTTGACTAAAGTTCTTGAAAATGGAAGTGGAGAAGTCTAAATCAAGGCATGAAATCAGGGAAGAGAGGGCTGACTACGAGGGTTCGCCTGTTAGAGAACACAGAGATGGAAGGAGGAAAGAGAAGGATCATAGGAGCAAGGATAAAGAAAAGGACTATGATCGAGAAAAGATCAGGGATAAGGACCACCGCAGGGATAAGGAGAAAGAGAGAGACCGAAAAAGAAGTAGAGATGAGGACACTGAGAAGGAGATCTCTAGAGGTAGAGATAAAGAGAGGGAGAAAGATAAGAGTAGAGATCGGGTTAAAGAAAAGGACAAGGAAAAGGAAAGAAATAGACATAAAGATAGAGAAAATGAGAGGGATAACGAGAAGGAAAAAGACAAGGATAGGGCAAGAGTCAAGGAGAGAGCGAGTAAGAAAAGTCATGAAGATGATGACGAGACTCATAAAGCTGCAGAAAGATATGAACATTCTGACAACAGAGGTCTGAATGAAGGTGGCGATAATGTTGATGCTGCATCAAGTGGGAAAGAAGCATCTGCGTTGGACCTTCAGAATCGCATTTTGAAGATGAGAGAGGAAAGAAAGAAGAAAGCTGAAGATGCTTCTGATGCTCTATCATGGGTTGCAAGGAGCCGTAAGATTGAGGAAAAACGAAATGCTGAGAAGCAAAGAGCACAGCAGCTCTCGAGAATTTTTGAGGAGCAGGACAATCTTAATCAAGGTGAAAATGAAGATGGCGAGGATGGCGAGCATCTATCTGGTGTTAAAGTTCTACATGGTTTGGAGAAAGTGGTGGAAGGTGGAGCAGTTATCTTGACACTAAAAGACCAAAGTGTCCTTACCGATGGAGACGTTAACAATGAGATTGACATGCTAGAAAATGTGGAAATTGGAGAACAGAAGCGCCGGAATGAAGCTTATGAAGCAGCCAAGAAGAAAAAGGGAATATACGATGATAAGTTTAATGATGATCCCGGGGCAGAAAAGAAGATGCTTCCTCAGTACGATGAGGCTGCTACTGATGAGGGGATCTTTTTGGATGCAAAGGGTCGCTTCACCGGTGAAGCTGAGAAGAAGCTAGAGGAGCTGCGTAAGAGAATTCAGGGTCAGACGACACATACTTTTGAAGACCTTAACTCCTCAGCAAAGGTCTCTTCAGATTACTTCTCACAGGAAGAAATGCTAAAATTCAAAAAACCCAAGAAAAAGAAACAATTGCGTAAAAAGGATAAATTGGACTTAAGTATGCTTGAAGCAGAAGCTGTTGCATCGGGATTGGGAGCTGAAGATCTTGGTTCTCGTAAAGATGGCAGAAGGCAGGCCATGAAAGAAGAGAAAGAAAGGATCGAGTATGAAAAACGGAGCAATGCCTATCAGGAAGCCATTGCTAAAGCTGATGAGGCATCCAGGCTACTTAGAAGGGAACAAGTTCAGCCTTTTAAAAGAGATGAAGATGAGAGTATGGTGTTGGCTGATGATGCTGAAGATCTTTACAAATCGTTAGAGAAAGCTAGGAGGCTAGCTCTCATTAAGAAAGAGGAAGCTGGATCTGGTCCACAGGCAGTTGCGCATCTTGTGGCTTCCAGCACCAATCAAACAACAGATGATAATACCACCACCGGGGATGAGACACAAGAAAATACAGTGGTTTTTACAGAGATGGGAGACTTTGTCTGGGGTCTCCAGCGCGAGAACGATGTGCGGAAGCCTGAAAGTGAAGATGTTTTCATGGAAGAAGATGTAGCACCCAAAGCTCCCGTTGAAGTAAAAGAAGAGCATCCTGATGGTTTGACAGAAGTAAATGACACTGATATGGATGCAGCAGAGGATTCATCAGATACCAAAGAGATAACACCTGATGAAAATATACACGAGGTTGCGGTTGGAAAAGGATTATCTGGTGCATTGAAGCTTCTTAAAGACCGAGGAACCCTAAAGGAGAAGGTCGAATGGGGTGGTAGAAATATGGACAAAAAAAAGAGCAAGCTTGTGGGTATTGTGGATGATGATGGAGGTAAAGAATCTAAGGATAAAGAATCTAAGGATAGATTCAAGGACATCCGGATTGAGAGGACTGACGAGTTTGGTAGAACTTTAACTCCAAAAGAAGCCTTTCGACTACTCTCGCACAAATTCCACGGGAAGGGGCCTGGAAAAATGAAGGAAGAGAAACGGATGAAACAGTACCAGGAAGAGCTCAAGTTAAAGCAAATGAAAAACTCAGACACACCATCGCAGTCTGTTCAAAGAATGAGAGAAGCTCAAGCTCAATTGAAAACTCCTTACCTTGTCCTCAGTGGCCATGTCAAACCAGGACAAACCAGTGATCCTCAGAGTGGGTTTGCGACTGTTGAGAAGGATGTTCCTGGAAGCTTAACACCAATGCTTGGTGACAGAAAGGTGGAGCATTTCTTGGGAATAAAGCGGAAATCAGAGCCCGGAAACTCGGATACACCACCAAAGAGACCAAAGCCTTGAAGGACACTTTTAGATAATCAAAAGGTCTTGCTTGCGTCTTTGTTTCACATTGATTTGTCTCTGGTAAACTCTTTTTCAGGATTTGTTAGTCTTTAGAAGAAGACATAGCTCGCTCATTATATAGATTCATGCTGCTGAGACTGATGATATTTTGATGAAGTTGCCAAAACCGATCATAAAATGTTGAGTCGTTTGACTTAAACAAAAAAAATGTTCACGCGTCATCGTTTAGTTTTGGCCGCAAGGTTAAAAATAGTGCGAAGATGTTCTGTGCCCTGAGACATGTAGCGAAATGGCCATGGTTCCGAACAAGTTTGCCTGCAAAACGGAGAATTATAACATTAGACTAGCCAAATCGTCCATATTCACTGAATGCATTCATGTGGTAACTATAAAATTCAATCTATGTGGGAGAGTACTGATAGGACTTACTCTATTATCTCTTTCCAAAAAGAATCACTTGCTCCATCATCAATAGTGTCACACCATGGGTGATGATGATCTTGTGTAAACGTTGAGTTTGATGATGAAGGGTTTGAAGCATCATGATGATGGTAATCGACGATGTCTTTGTTCTTGATCATCCTTTGAGTTTCTTTAGATTCTTCAGGAGACGCCGGAACCAATAGAGGGAGTGAATTATGATCATCTTGAAAACCGGGTTGTATGGGGGAAGAAAAAGAGTCCAAAGGGTTATCAATAATTTGGGTTTTGACCATCAAATTCTCATCCTCAAGAATGTGAGAGAAGTTTTGAGACTGACCAAAAAGATTTTGGTTCTCTAAGTAAGAAGCTTGGCCAAAGAGATTGGTGTTACTGTTTTGCATAGTTGATGAAGAAAAAGAAGGATTGGTGGTGTTGTTATTGGTGCTAAGGACTTGAATCATAGTGTGTAGCAGTTGAGCTTTAGCAAGAGTTGTTGCATCCAGTTGCACATTTTGGTTGAGATTCAAGAGGCTGTTGAAATTTGCGGCGGCTATAAGCTGCGGGAGAGCTGCTAAAACGTTTAGATGGTCGGTTCTTGGCCTATGGGTCACCGGATCAATCCCCATTTGGAGAAGTTTCTTTCTCAAATGTGTGTTCCAATAGTTTTTTATTTCATTGTCCGTTCTTCCAGGAAGATTACCGGCTATCGACGACCACCTTCCAAAACATATACGAAATAATTAAACATTAATCAAATTGATATTATGGCAGTGGATTAGTCTAAGACTAATATATACCTAATATTGTCTTGCTTTAGTCGTAACAAGATTTACTTTTCAAGATTGAAAAACGGCTACAGACGTATGCACCTAGAGAAAACCAG
CDS Sequence
Protein Sequence