Tan0002674 (gene) Snake gourd v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGGGGGAGTCACTTCTTCAATCGCCGCTAAATTCGCCTTCTTCCCGCCTACTCCGCCGTCGTACACTGTAGTCGCCGATGAATCCCACGATGGCCGTCTTTACATTCCTGAAATTCCGAGACGTGACGATGTTGATGTTCTTCGTCTTCGAACTCGTCGAGGGAATGACATTGTGGCTGTTCATGTTAAACACCCTAAGGCTTCTGGTACTCTGCTTTATTCCCATGGGAATGCTGCTGATTTGGGCCAGATGTTTGAGCTGTTCGTCGAATTGAGCGTTCGCCTTCGTGTTAATCTTATGGGGTAATTTTCCCTTTTCTTTTTATGCTTGTTTGTTGAGAGTGGCAGCATCTAGGGCATTTTTCTCCGCTAATTTCTGTTAGTTCTGATGTGGGTACTGCTTAATTTAGTAAGTTTTTCGTTACTTTGTTGAGGAATTTCTCGCCCTTTCTTAATTTGGAAGTGACATAGTTCATTTATGGTGGGGATTTCATGGGACTTCAACTTATAACGAAATGGTTCTCTAACAAAGGCGGCATGTATTGATGGTTAATTCGATGCGACTTTCAACTTCAGTTTAAACTATGAGGAATTAATGCGCTGGAATGAACATATTTGCAAGTTTCATTCGGAAGAGTATTTGGATGAGAACTGTTTGCGATTTCATGAATTTTTGTTAGTCGGTTTAGGGTTTAGTGTGGAAAGCTGTCAAATCATTCCCTTTAGAGAACTCGGTGGGTGGGAGGGGGGGAGGGGTTTATATCTTGGCTTCTAATTTTAGTTAATATCCTCTAGGGAATGAAACGTCAGATTCGTTTTTCTCCATGGAAGTGGTGGGGAAAGGGATGGGAGATGGACAGTAGTATGGAGAAGATGAAAGCATTAGAAGAGTGGATTTTTCTCAAATTATTCTTCAGAAGCAGTGCCATTAAATGAACATTTATGCATCCTCTCAATTGTTTTTTTACATTGGGGACCACTATTCCAGTCACACAATGATATTACTAAGCAAGGTGCTTGAACTCAGCTTTCAGATCTTCCCATTCTTGAACTTAAGGGTGATGGATTACAACTCATTTCTAATCTGCCTGACTTGATCAATATGTTGATCATTTTATACAATGGGATAAGTTTATGATGGAGGAACTTGAATACTATAGGGCAGCGATTTTTGCAACGGAGATTTGCTTTAAATCTTTTGGGGCTTTGGAAATGATATTGATTACTACTTGGATTTTCCTGATGTTTTTTGGAATTCGTTGTTAAATGGTAAAGAAAGAGTCCTTTGGCAGGCTGCCCATTCACTATATTTTAGAACATTGAGTTAGAGAGGATCAAAAGGAAAGGGTGTAGATGGGTCTAGGAAGGAGGCTTGTAGCTTCGCATGCATAATGCTTTCTTTTTGGATTTTTTTTGCAGGTTTTTCTTTTTTTTGGAAAAATTAATGACTATCATTTGTTTTTTACTCTCTACAACTGGGGCCTCTTTTTTTTTAATTTTCATATTTGAGGTTTCTTTTGCTTGCTTGGCATTTTGTTTTTGTAGTCTCATTCATCTTCATGAAAGTTAGGTTCTTATTTTAAAAAATGATATGATTAGGAAGTACCTTATCTTGTGAGAACTTTTCTGCTAATTACATTATGCATGAACACAATGATCAACATCCCTTTACCATTTATAACTGCTGAAATGGGTACTTTCATTGTACCACAAATTTCTTGAAGTATTATTTAAACTGCATCTAATGTCAGATTTGGTTCATGAACCTATACTTTGTATTTTATGCAGGTACGATTATTCTGGCTATGGACAATCATCTGGAAAGGTAGCTTACATTTTCCTTTCTTTTTCTAGTTTGTAAATTTTGCCTATATAAATGTCCATTATTTTGGATGCTTCTTTCTATAAATTTAGCTAGGAATGAATTAATGCCATGATATAATTGTGGTTTAAAATATATGCATATTCATTTTACAAGTTTTGGTGCTCGCTTATATTAGGGTATGCATTTATGTGCATTGAGGACATGGTAGCCTACTTCACATAATACGAAATGCTCTTAATAGGACAGTAGGTGTGTATCTCTAGTGAAGTCCAAATATTTATTCTTCATCTTCTTCTTCTTTGTATTATTTAGGAAAAATTATGTTTTTGGCCCCTTAGGTTTTTTCATTAATAGGTTCTTTTGATTTGTGAGTTTTCAAAATGTGCACTTTAACCTCGGTGTTTTGAGAAATATGTGTAAAAGGTTCTCCCACTAACAAATCTGTTAAACTCTGTGGAAAGCTGACTAGGATTTATAATTAGCTAATGTCACAGGCTAACTTGTAAAAAATGATGAAATGGCAACCTTAGTTTTCTCTCTCCTCTTTCTCCCTCTTTCCTTCTCTCCATGGTCGATGCCCCTCCCCTCCCTTCAGATTTTCATCAACGGTGCCCTCCCCCTCTATCTCTTGTTTTTGTCATCGTGACACTCTCTTGATGCCTCTTTCTCAACTGGCGATTGCATTGCTACCCCTTCCCATTTGATTTCCGTTTCACTTGTTGTTTGAACTCAAGCTTCGTCATCGCACATTACTGAAATCTCATGTGATTTCTTTTATCGCACAATACAGTCTTTTGATCTCTCTCCCCCTCGAGTAGCAAGTGTTTGTTTATTCCTTAATTCCTGGAATTTAGAGGTAATTTTACTTACCCATTATTGTTATATATACTTTTTTCTGGTTAAGATTGGTTATCAGATTGTGAAGAGTTGATTTTTGCATGTGATTTTTGTTTTTTATTTATAAGAACATGTAATTCTTGTTATTAGTCACATGGGTCTATAATTTTGTTGAAATTTTGGAGAACTAGAGTGATGGGCCATGGGATGTATAGGGATGATGACAATTTCTGGGGTATTGTTTGATGGGCATAAGGAGATTTAAAGGAATTAGATTTTGTGTAGTGATTTCCCTGGGGCTTCATGGCTTTTTATCAAGATTGTTGGTTGGAGTTGAAGTCTTTGGAAAGTTTTTTGTGAGTTTCATAGAAGAAAGAGGGATCATTGACAAGACTATGAATGAGACTTATGTTTGCCTGATTCCATAAAAAGAACAAGTTGTAGAGTTAAAGATTTCAGGGTTTCTCTTGTAGCTCATTTTTCTATTTGTTGTCTGTGCCTTCCTCGCCTCAAACATCTTGTGGCTTTCCCTTTCTCTGGAAGGTCAAAATCCCTAGGAAAGTAAAGTTTTTTGTGTGGCTAGTTATGGGAGAGTCAACACTTTGGACTGTGTTCAAAGACACTCCTCTTTGGTGTTGTTCCCGCAGTGGTGCATTTTTTACAAGTGCTAGCCCGAGGATCTCCATGACTTGCTGTGGGGTTGCTAGTTTGCTCAGTCTCTTTGGGCTTGATGATTGACTTCGTTCAAGTTATGTTTGGCTTAGAGCAGAGACTGTTTTGCTTTGGTGGAGAAGGTGCTTCTGGGTTTGCCTTTTTGAGATAAGGGCAAAGTCTTGTGACACGCTAGTTTCATTGCCCTTTTCTTGGGGTATTTGGCATGAGCGAAACAATAAGATTTTTAGAGAGGTTGAGAGGTTTGGTAATGAGGTTTGGGAGGTGGTGAGGTTTCATGCATCTTTGTGGACATCGATTACTAGCCCTTTTTGTAATTCTGATCTTAATTTAATTTTTTTATTGGAGTCCATTTCTGTAGTTACCTCTTGGACCTCTTTTGTTGTAGGCTTTGTTTTTTTTTTTTTTTGTATGCCATTCGTTTTAAAGCTCAGTTTCTCATCAAAAAAGAAAATGGAATTAAAGATCTTAAGCCAGTAAGACTTATGACTAGTCTATACAATATAATAACAAAGACTATGGTTGTTAGGCTTAAGAAGAATCTCCCTAGTACTATTTCCAAATCCCAAGGAGCTTTTGTTGGTAGGTAGATTTTGGATCTAGAGTTGATTACTAATGAGGTGATTGAGGACTATAGAAAGAGAAAGGTTGAAGGTGTGGTTTTCAAGATTGAGTTTTTAGAAAGCCTACAATCATGTTGAATGGGATTTTCTAGGCAAGGTCCTCAAGAAAAAAGGGTTCGGCTAGAAATGGAGAGCTTGGATTTGGAATTGTATAAGATTGGTTCATTTCTCCATTTTTGTTAATGGAAGGCTAAGTGGCAAGATTTTTGCTACTAGAAGCTTGAGACAAGGTGATCATCTCCTCTCTCACCTCTGTTCACTCTGGTAATTGATGTTTTGAACAGTTTGGTGTCCAAAGGTTTTGAGAAGGGATTCGTGGAGGGTTTTAGGGTGAGTTCTGGGAAGCTTCATATCTGACACCTTCAGTTTGTTGACAATCCTGATGACACCCTCTTCTTTTGCTTGGGGAAGGAAAGTTCCTTCAATAATCTTAATGGCTTTCTGTTCTTTGAAGTTATTTCAGGCTTTAAGATAAATAGAGGGAAAAGTACTATTATTGGTTTAAATGGCGATCCTTCTAAAGTGAGTTTTTGGGCATCTTTAGTGGGTTGTGATCCTTCTAAAGGAGGGGGGAGAATCACCTTGATTTAGTCTGTGCTGAGTGGGATTCCTATCTATTTTCTCTCTCTGGTTAGAATCCCGGTTTTGGTGAGTAGAAACATTGAGTCTTATGACTAACTTTTTATAGGAAGGAGTTGAAGGGTGGGAAATTACACCGAGCAAGATGGGAGATCGTTTTGAAGCCGCTAGAGGCTTAAGCATTGGTAACCTAAGAATATCAAATGAGGCTTTGCCGATAAGAACAAAATGGTTATGGCGTTTCTTTAGGGAATCTAATGCTTTGTGGTGTAGGATGATTGTGAGTAGGTATGGACCACACTCTTTTTTTGAGTGGGCACTAGGCGATGGGTTGAAAGGTTCTAGCAAAAATCCCTCGACCACCATTACTTTATGCTTACCTTTGTTTTCTAAGTTTGAAATGCTCTATCGGGGGTGGGTCTAATACTTATTTTGGGGGGAGGATAGGTGGTGGGTGATAAGCCTCTTTTTGAGTTGTTCCTGCAGCTATATCACTTGTCTGGTAGGAGTTTGGTGTTGATTTCCTCCAAGCCTTCCCTTTCATTTCTTTGGGCTTTTGTTGTCCTCTTACTGATGGCGAGTCTTTGGAGGTGGTGGGCCTTCTTTCTATTGTTTCTCATTGGAGGATTTTTCTAGGGAGAATGGATGTTCAAGTTTGGGAGCCTAACCCATCGGAGGTGTTCTTATGTTGATCCTTCTTTCTCATCCTTCGTTTCTGTTCTCCCATCCTGGGGGTCTTCGTTTTCCCCTCTCTTTGGAAGGTTAAAATCCATAAGAAAGTGAAATTCTTTGTCGGACAAGTTTTACATGTGAAAGTGAACACCAAGGATCATATCCAACGACATTCTTCCTTAGCGTCTGCAGTGGTGTGTCCTTTGCAGACAACAGGAGGAGGATCTCGATCATCTTCCTTGAGGGTGCCAGTTTTCTTACTCTCTTTGGAGTTGTTACTTTAGATCGTTTGAGGTTTCTTTGGATTTGTCAAGGGCAAGATGAAGAAGCCTGACACATACAGTCTAGAAAAGTGAAATACTAATGGTCAGTTATAGTGGCAAGAGACCTTTTAGATTCAACTGTAGAGTCATTTGTTCAAACCATATTTAGACATCAGATACACTACATGTTCTCTGACTATCATAATATCTGTAGGATTATACAGGCGAAAGGCCAAGAGTTTTTTTTTCCTTTGAGAGAACTATTATCTTAACTTCTTTAAAATCCTTTTAAGGATGTGACATGTTTTTTGCTTTAACCTTCAAAGTCACAACAACTGAAGTTATTTATGATTGTAGTAGATATTCGAGTAACTTGGATTCTTCTACCTTAACTCTTTCCTCCATTGTCCTATCTTCTCGTCTTTCTATCACAATGGTATATCTTTAAAGCATCTACCGTATCCTTGTCTGCATGGTTCTTTCCTCCATGGCCCTTCTAACTCTATGAATGTTTTGATACCTATTGAAGCCTCCAGGTAGTCATAGATCCTCAACCGTTTTGGTTTTGGACTTTTGATATTTCTCCATGTTTCTGTTCAGAGAAATTAACAATCACGATAACAAATTTGAGCCTGTCCTAGATCTAATTTAACAATCGTGATAACAAATTTTAAAATATCCAAACTAGTGGAAAACATTTTATCTGTATAAAAATGGATTAATGTAATTAAAAAAAATCTTGCTTAATGAGAAAGCACGAGTTTTTTTCAAGTACAATGAAATGTTGCAAAAGCTCCAAAAAGAGAAATACGGTAAATCAGGCCTAAGAAATAACTAAATAACTATGTACAAGATATGATAAAAAATATCCCCACTTTAAAAATGAGCCCTACCTGGTACCTCCCACTTATCATATACAGGGGTTTTTTGGTGGTGGTGGTGGGGGGTTTAATATATCTTAATTCTGAAAAATTGGGGGCTTAGTGCTGACATTCAAAGAAATTGAAGAATTAAAAATATGAGCATTAAGACCTTTCGGCCAATTGACAATATATCAATGTCCTTTAATTATGATAACAATTGCCTCAAAAGTCTGTATGTCCTAGCTAATAACCTCTTGAAATAGACTTGAGGTACTTTTGCAATTTCACTCTCATTCATCCAATAGTGCAAAACTATCAGCCACATTGTGACAATCTCTTTCAATAATTTCTTTCCTGAGGTTCGCTAGTGCCATAGGTTGTTGAAGGACCTTCCCCTTGCAAGACGAAGAAAAGTAACATAGCACCTCCTTGAAGTCCTCCCCTAACCTTTGGATTGAAACAGATTCCAAGAATGTGGAAAACCACCACAGTAAGGGGGCGTTTGGCATGCAGAGTTGAGTTGAGTTGGACGGAGTTAGTTTGTCAGTGAGTTCAGAAGTATGTCTTTGGGGTGCGGAGTTGAGTTGAGTTGTCAGAGGTATCCGATTCAATTTTTTCTAACATGAACTAGACTGATTTTTGGTTGACTATTTTTGTTTCCTTTATTTTTAATTTTTCCAATAATTCATCTAGAAACATATTTTTTCATATCTGCCACACTGAATTCATATGTCCATTTCAATATAATATATATATAAATATATATATTTCAACATTAATTTTTTTTTAATAAAAAATACCATTCTTTATCTTTTTTTTTTTTAGAAATTGATTTTTTTCAAAATATAGACAATGTAGCATTGTTTCCTCTTTTTGATATGCATTAAACTTCTTTCCATTTATAGAAATCACATATTTTTAGTACACATTGAACTCATTTCAATTGATAGAAATAAAATATTGTATTCTTTATAACAATAAATAGCAATTGATGAATGGAAAAGGGACAATGTACCTGTATTTTTTTCTTTAAACACAAATTGAACTTCCATTAAAATAGAGAAATCTAAAGTTTCATTGTCGAAACATATATTGAGCTTCTTTGAAACTTACAAATGAGGAACTTATCAGGACCCTTTTTAATTAGTAATACTAATAATAATAGGGTCATTTGTTTTAAAATACAATGACCATTACATTTTTTTTTTTTTTGGAAAAGGAACATTAGTTTGTTTACATTTGTTAAATCACATGAAGATGACAATAAAACGACGATATATTTCAACATTAATGTCATGTAAAAGTGAAATATTCACAAAATATAAGTAGGTTATCAAGGACCTATTTACATGATTAATAAAACATAGTTATGGTATCAAAGATCTATTTACATGATTCACAAACATAATTATGGTTCACAAAATATAAGTAATGACCAACAATGGTCGATTGTGAGTCCGAAGAAAGATTGTTGGAGTAGAGAGTAAGACCAACTAAGTACATATGTATTTCATATTATTTTGAATCATGGGTGTCGTCAGTCGCTGGAAATTATTGTTGGCGATACTCGTCGGAGAAGATGCTGTTGGTTGCTAGATAAGGTCACCAACAATTGTTGTAAATCGTCAGACAAGGTGACCATCACCGCATATGGTCATCGGTAGTGAAGGTCGTCGGTCGCCGGAGAAGGTCATTAGAGGTGGTTGTCGGTTGCCGAAGATGGTTGTCGACCACTGGAGATGGTCAGCGATTGGCAGAGATAGTTGTCAGAGGCAGTTTTTGGTTGCTAAAGATGGTCACTGATTGCCAGAGATGGTCGTCGGAGGTGGTTTTCAGTCATTGGAGAAGGTCATCAGAGGTAGTTGTCGATTGTCGAAGAAGGTTGTTGGTTGTCGAAGGAGGTTGTCAGTCGTCGGGGGTGGTCGTCGAAGATGGTCGCCAGAGGTGGTTTTCGGTCGTCGGAGATGGTCGCCAGAGGTGGAGATGGTGGTCAGAGGAGGTTTTCGGTTGTCGGTCGTCGGAGATGGCATCGGTTTTTGGAGATGGTCACTGGAGGTGATTACCGATTGTCGATGGTGGTCGTCGGTTGTTGGAAAAGCGGTGATAAAATATGTTAATAGGATTACTGTACAAGTCGATGGAGTTAATATCTTAAGTCGATGGAGTTGAGTTGAGTTAGTTTATTTATGGGACGTTTATTTATGGAGCAAATAGTGAGTTGGGTTTATAACCCAACCCAACTCAACTCAACTCAGGGAGCCAAACACTCCCTAAGGGTGCATTTGGATCGCAGAGTTGGGTTAAGTTGAGTTGAGTTGAGTGCAGGAAATCTGTGTTTGGGGTGCTGAGTTGAGTTGTTGCAGGAAATCTGTGTTTGGGGTGTAGAGTTGAGTTGAGTTGTGCAGATGTATTTTGTGCAGTTTTTTTTTTTCAAGATCAAATAATCAGTTTTTAATCTTATTGATGGTTTTAAGATCAAATAATCACTTTTTATTTTTCCATCATTGACGATACATTCATTCATGACAAAAGAATTAATGGCATGCTATCAAATCTTATCTCCCATGCCCCAAAAAAATTAAAGTATACAAAAAATATTATCGTTCGCAAAATATATCTAACGAAATAAGCATGAAGTGTCTGGGTCATCTTGGTTTAGTAAAAGATGGGTGGAGTAGGTGTTCAACCAGTCCTACCAAGAAGATGCAAGCAGTATCTCTTCTTGGATTGTGGTGGGACTTGGAAGAAGCAGTCCGTCTTCTGGATGTCTGCGACTAAGGGGATCATCCTTGGTCAACCCTTCTATTGCATACAGTTGGTCTACAACATCTTTACGTCTAGCGGATTCCATTTCATATTTTTCTTTTCTTAATCACTCCCCTGTAACTTTTCTTTTCGTTTCAGCAACGAAACTTATGGATGATTCAACTTAAACCCTCTCTTTTTTTGTAACCCCCGTAGATCAAATGTATTAATTGTATTTGATTTAAATTTGAATTTTTGGATAATCGGATAAGGAGTATGAATATAGAGATTTTTTTAGAAAATGGTGTTTCAAAGTCTAAAAAGGATTAGGATTTATGTTTTAAAAAAACGGATTAAGATTTCTTTTTTAAAAAATGAGGATTAGGATTTCCTTTTTTAAAAAATAGGATTTCTTGTTCTAAAAAGGATTAAGACTTTTTGCTACCTATTTAAACTAGAGTAATTGGAACTTAAAGGGTGCACTTCAAAACTCCCCTCTTCTTCTTCTTTTCTTTTTATCTCACTCTTCATCTCACCGGACAATCGCGCGGAGTTTCGCCGGAAAGTTGTTGGGACATCGCCGCAAAGTCGCCGGACCACTGTCGGAAGTCGTTAGGCCACCGTCGGAAGTCGCCGGAAGTTGTCGGACCACCACCGAAAGTCGCTGGGTCACTGTCGGAAGCCGTCGAACCACCACCAGAAGTTGTTGGACCACCGTCGGACCGCTGGAAGGGAATCAAGGTTTAGGAAAATTGGTGGAGAGGTGTGTGAATTGATTTTGTGGGGAGATGTAAAGTGAGAATATTGAGGGAGATATTTGGGGAAGTGGGGAGTTGAGAACTCAACCCAACTCAATGCCCCAAACACTGAGTTAGTTTTTTAAACCAACTCAACTCAACCCATATCAGTGAGCCAAACAATCCCTAAATGTGTATATAGGCCCGGTGGTGCTGTTCCCTGATGGACCTGGTTACCTAGATTGTATCATGTATGATTTCGAGATGGACTAACATTGAATTCCTCTTAAGCAGGCTATTTTTTTAGTACTTTACAAATTCCTCTAAAGGAGGCTATTAAATTTACTTCTTAGGAAGCTTCAAAGCTATAGTAGATTCTATCATTATAACTGAAAATTTTAGTTCTCATACCTTCAGTGAGATGGGAAATAGCATCTCTTTTTCTATTACCTAAAAGTACTTTTAAGTGAAATCAGACAAGATGCCATGGATATCTAAATAAAAGAATGTGTAGTGTCTTGCTCACTTTCGAGATTATATAGCATCAACAGTCTTGTAAGGAAACATGGCTTGAACTCAATCCTAGAAATCAAAGAGACAGTCTAAACAGGCTCATAATTAGTAGATGATTGCAACAGAAATGTTAGTTTGTATAATAAACTTTTGCTTACGTTTCAACTTATAAGTACATCAATTCACCATACTGTTAATGTTGCAAATGTATTTATTCATGTGAATTATATGTGCTTGCTTGAGCATCATTCTTACCCCCGAAAACCCAGATAGATAGTTTCATACCTACCTATTTGCCTAATAATATACTTGAAAAATTTTTGTTAATGAAATGCAAGTGTGAAATTATTTGTAGCATTGCATGTCAATGATGCTTCTTTTCAGTTGTACCATGTAATTCAGCCATGTTTACTATGAAGAATCAAAAGAGGTTTTATCTGGCAATAACTTAAATTCTAACTTGAAATTTTCATTTTCCTCTGAAAAGACTTCAAATTACTAATTCTCAATCAGCAATGTTCAGGTGTTGTTTGATTGGAAATGTTCAGAGGTCTGATATGAGATCTGGATATTTCAGATTAAGGAGAAAAAAACTCAATATTTAAAGCTGAAATATGACTTTGCATTAGCTTAGTTATTTACTGGGGTTGTCATTTTGATGACTGCTGAGTTTTGGCCTTCAATTATCCTTAGTAACATCTTATACAATTTTCTTTTGAAACAGCCAACTGAATATAACACATATGCAGACATTGATGCTGCATATAAATGCCTCAAGGAGAAGTATGGGGTAAATGATGAACAACTAATATTGTATGGTCAATCTGTTGGTAGCGGCCCTACACTTGATCTTGCTTCACGATTATCAAACTTGAGAGGTGTAGTTTTACATAGCCCAATCTTATCTGGACTGAGGGTATTATACCCTGTCAAACGGACTTATTGGTTTGATATCTACAAGGTATGTTATTCTACTTTGATATCACTCGTTTAATTCATAAGATAGTATCTTATTGTTCTGTTTCCTTGTTCAGAACATCGACAAAATTGGTTTGGTGAACTGTCCTGTCTTAATCATACATGTAAGTGAACTGTCCTCTTTTTTAAATATCGCCCCCTCTATCTCATGTATATATAGGGTGAGCATGATTAGGAAGGTTAAATCTATGCACAATTTAGAGTGAAGGCATCCTCTTTTACACCAGTGCATAGGTTTAACAAACACTAAAGCTTTCGGATCAGTGATGTGTATGCAAGATTAGAAGCAATCATGTAAATTGAATTCATAGTATTGTCATTGTTATATAAGAATAGTTCTTCACACCAAAGAAACATCTCTACGAACATGAGACATGGACATGACATAGATATAGTGACATGATATTTTCTAAAAATCTTGGACACGTAACATTTATAAAAATATTAACTTTTTAGAATATAGTCAATGAAAAATTCAATAAACTATGCATTTATATACTCAAAGAAACAAATTTGAAGTATTTAACTCTCAAACTTCTTCTTTCTATATTACTATAAACTATTTATGTCTATTTATTATGTTTAAATAGTGTTTGACACGTTAGACTCGCATTCAATTTATACATTGTGTTAACAAGTGTCTAACAAGTGTTGGAGTGTTTGACACGGGTCTAGAGGCTAAAGTGTTTTTTTACCTAATAGCTTCACATAAATAAACTTTTATCAGGGGATGCAAACAACCCATCAAAGATTATTAGATGGTCGTGGGGATAAGGGGGTGGCACGACTGGGTTGCACATAGCTTTCATATACAGCCTATATTTTTGATTATGCAATATCTTTTCTTGTCAAATAATTTTGTTAACTACCCCATCACTGCATCTCCTCAGATCCACTGCAATGGTCATTCAAATAATGGGCAGAAAAAATAGACTACTTCCCTAATGTGTTTGTCTTGCAGGGGACAGCTGATGAAGTTGTTGATTGGTCCCATGGAAAGCAGCTTTGGGATCTTTGCGAGCAAAAGTATGAACCTCTATGGCTAAGTGGAGGTGGGCATTGCAATCTTGAGCTCTACCCTGAGTTCATTAAACATTTAAAGAAATTTGTACAGTCACTTGGGAAATCAAAAGCATCAACAAATGGTTCTGAGAAAGCTAAAGTAGAGATCGACAGTCAGAACAAACCATCTGAAACTGGGCCTTCAGATACGTTCGAATTGGCTGCTGATCTTCCAGAAGTTTCCCGGAACAGTTTAGATAGTCGGCTTGAGAAGTCAAAAAAAGTAATCAAGCCTGAGAAATCTCGGATGAGCACTGATCGTGTCGATAGGTTTAGGAAAAGAAAGGGCCTCGTTTGGTAAATGGGGGGAGTCACTTCTTCAATCGCCGCTAAATTCGCCTTCTTCCCGCCTACTCCGCCGTCGTACACTGTAGTCGCCGATGAATCCCACGATGGCCGTCTTTACATTCCTGAAATTCCGAGACGTGACGATGTTGATGTTCTTCGTCTTCGAACTCGTCGAGGGAATGACATTGTGGCTGTTCATGTTAAACACCCTAAGGCTTCTGGTACTCTGCTTTATTCCCATGGGAATGCTGCTGATTTGGGCCAGATGTTTGAGCTGTTCGTCGAATTGAGCGTTCGCCTTCGTGTTAATCTTATGGGGTACGATTATTCTGGCTATGGACAATCATCTGGAAAGCCAACTGAATATAACACATATGCAGACATTGATGCTGCATATAAATGCCTCAAGGAGAAGTATGGGGTAAATGATGAACAACTAATATTGTATGGTCAATCTGTTGGTAGCGGCCCTACACTTGATCTTGCTTCACGATTATCAAACTTGAGAGGTGTAGTTTTACATAGCCCAATCTTATCTGGACTGAGGGTATTATACCCTGTCAAACGGACTTATTGGTTTGATATCTACAAGAACATCGACAAAATTGGTTTGGTGAACTGTCCTGTCTTAATCATACATGGGACAGCTGATGAAGTTGTTGATTGGTCCCATGGAAAGCAGCTTTGGGATCTTTGCGAGCAAAAGTATGAACCTCTATGGCTAAGTGGAGGTGGGCATTGCAATCTTGAGCTCTACCCTGAGTTCATTAAACATTTAAAGAAATTTGTACAGTCACTTGGGAAATCAAAAGCATCAACAAATGGTTCTGAGAAAGCTAAAGTAGAGATCGACAGTCAGAACAAACCATCTGAAACTGGGCCTTCAGATACGTTCGAATTGGCTGCTGATCTTCCAGAAGTTTCCCGGAACAGTTTAGATAGTCGGCTTGAGAAGTCAAAAAAAGTAATCAAGCCTGAGAAATCTCGGATGAGCACTGATCGTGTCGATAGGTTTAGGAAAAGAAAGGGCCTCGTTTGGTAA ATGGGGGGAGTCACTTCTTCAATCGCCGCTAAATTCGCCTTCTTCCCGCCTACTCCGCCGTCGTACACTGTAGTCGCCGATGAATCCCACGATGGCCGTCTTTACATTCCTGAAATTCCGAGACGTGACGATGTTGATGTTCTTCGTCTTCGAACTCGTCGAGGGAATGACATTGTGGCTGTTCATGTTAAACACCCTAAGGCTTCTGGTACTCTGCTTTATTCCCATGGGAATGCTGCTGATTTGGGCCAGATGTTTGAGCTGTTCGTCGAATTGAGCGTTCGCCTTCGTGTTAATCTTATGGGGTACGATTATTCTGGCTATGGACAATCATCTGGAAAGCCAACTGAATATAACACATATGCAGACATTGATGCTGCATATAAATGCCTCAAGGAGAAGTATGGGGTAAATGATGAACAACTAATATTGTATGGTCAATCTGTTGGTAGCGGCCCTACACTTGATCTTGCTTCACGATTATCAAACTTGAGAGGTGTAGTTTTACATAGCCCAATCTTATCTGGACTGAGGGTATTATACCCTGTCAAACGGACTTATTGGTTTGATATCTACAAGAACATCGACAAAATTGGTTTGGTGAACTGTCCTGTCTTAATCATACATGGGACAGCTGATGAAGTTGTTGATTGGTCCCATGGAAAGCAGCTTTGGGATCTTTGCGAGCAAAAGTATGAACCTCTATGGCTAAGTGGAGGTGGGCATTGCAATCTTGAGCTCTACCCTGAGTTCATTAAACATTTAAAGAAATTTGTACAGTCACTTGGGAAATCAAAAGCATCAACAAATGGTTCTGAGAAAGCTAAAGTAGAGATCGACAGTCAGAACAAACCATCTGAAACTGGGCCTTCAGATACGTTCGAATTGGCTGCTGATCTTCCAGAAGTTTCCCGGAACAGTTTAGATAGTCGGCTTGAGAAGTCAAAAAAAGTAATCAAGCCTGAGAAATCTCGGATGAGCACTGATCGTGTCGATAGGTTTAGGAAAAGAAAGGGCCTCGTTTGGTAA MGGVTSSIAAKFAFFPPTPPSYTVVADESHDGRLYIPEIPRRDDVDVLRLRTRRGNDIVAVHVKHPKASGTLLYSHGNAADLGQMFELFVELSVRLRVNLMGYDYSGYGQSSGKPTEYNTYADIDAAYKCLKEKYGVNDEQLILYGQSVGSGPTLDLASRLSNLRGVVLHSPILSGLRVLYPVKRTYWFDIYKNIDKIGLVNCPVLIIHGTADEVVDWSHGKQLWDLCEQKYEPLWLSGGGHCNLELYPEFIKHLKKFVQSLGKSKASTNGSEKAKVEIDSQNKPSETGPSDTFELAADLPEVSRNSLDSRLEKSKKVIKPEKSRMSTDRVDRFRKRKGLVW Homology
BLAST of Tan0002674 vs. ExPASy Swiss-Prot
Match: Q6DEY3 (Alpha/beta hydrolase domain-containing protein 17B OS=Xenopus tropicalis OX=8364 GN=abhd17b PE=2 SV=1) HSP 1 Score: 258.5 bits (659), Expect = 1.1e-67 Identity = 128/262 (48.85%), Postives = 178/262 (67.94%), Query Frame = 0
BLAST of Tan0002674 vs. ExPASy Swiss-Prot
Match: Q6DCC5 (Alpha/beta hydrolase domain-containing protein 17B OS=Xenopus laevis OX=8355 GN=abhd17b PE=2 SV=1) HSP 1 Score: 257.7 bits (657), Expect = 1.9e-67 Identity = 128/262 (48.85%), Postives = 178/262 (67.94%), Query Frame = 0
BLAST of Tan0002674 vs. ExPASy Swiss-Prot
Match: Q5ZJ01 (Alpha/beta hydrolase domain-containing protein 17B OS=Gallus gallus OX=9031 GN=ABHD17B PE=2 SV=1) HSP 1 Score: 256.9 bits (655), Expect = 3.2e-67 Identity = 127/262 (48.47%), Postives = 178/262 (67.94%), Query Frame = 0
BLAST of Tan0002674 vs. ExPASy Swiss-Prot
Match: Q5VST6 (Alpha/beta hydrolase domain-containing protein 17B OS=Homo sapiens OX=9606 GN=ABHD17B PE=1 SV=1) HSP 1 Score: 256.5 bits (654), Expect = 4.2e-67 Identity = 127/262 (48.47%), Postives = 178/262 (67.94%), Query Frame = 0
BLAST of Tan0002674 vs. ExPASy Swiss-Prot
Match: Q7M759 (Alpha/beta hydrolase domain-containing protein 17B OS=Mus musculus OX=10090 GN=Abhd17b PE=1 SV=1) HSP 1 Score: 256.1 bits (653), Expect = 5.5e-67 Identity = 126/262 (48.09%), Postives = 178/262 (67.94%), Query Frame = 0
BLAST of Tan0002674 vs. NCBI nr
Match: XP_022948868.1 (protein ABHD17B-like [Cucurbita moschata]) HSP 1 Score: 678.3 bits (1749), Expect = 3.4e-191 Identity = 334/342 (97.66%), Postives = 336/342 (98.25%), Query Frame = 0
BLAST of Tan0002674 vs. NCBI nr
Match: XP_023525269.1 (protein ABHD17B-like [Cucurbita pepo subsp. pepo]) HSP 1 Score: 677.6 bits (1747), Expect = 5.8e-191 Identity = 333/342 (97.37%), Postives = 336/342 (98.25%), Query Frame = 0
BLAST of Tan0002674 vs. NCBI nr
Match: KAG7036754.1 (Protein ABHD17C [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 676.0 bits (1743), Expect = 1.7e-190 Identity = 335/343 (97.67%), Postives = 337/343 (98.25%), Query Frame = 0
BLAST of Tan0002674 vs. NCBI nr
Match: XP_022998218.1 (protein ABHD17B-like [Cucurbita maxima]) HSP 1 Score: 676.0 bits (1743), Expect = 1.7e-190 Identity = 333/342 (97.37%), Postives = 334/342 (97.66%), Query Frame = 0
BLAST of Tan0002674 vs. NCBI nr
Match: KAG6607053.1 (Alpha/beta hydrolase domain-containing protein 17C, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 674.9 bits (1740), Expect = 3.7e-190 Identity = 333/342 (97.37%), Postives = 335/342 (97.95%), Query Frame = 0
BLAST of Tan0002674 vs. ExPASy TrEMBL
Match: A0A6J1GAH9 (protein ABHD17B-like OS=Cucurbita moschata OX=3662 GN=LOC111452400 PE=4 SV=1) HSP 1 Score: 678.3 bits (1749), Expect = 1.6e-191 Identity = 334/342 (97.66%), Postives = 336/342 (98.25%), Query Frame = 0
BLAST of Tan0002674 vs. ExPASy TrEMBL
Match: A0A6J1KG55 (protein ABHD17B-like OS=Cucurbita maxima OX=3661 GN=LOC111492933 PE=4 SV=1) HSP 1 Score: 676.0 bits (1743), Expect = 8.1e-191 Identity = 333/342 (97.37%), Postives = 334/342 (97.66%), Query Frame = 0
BLAST of Tan0002674 vs. ExPASy TrEMBL
Match: A0A1S3B9L7 (protein ABHD17B isoform X1 OS=Cucumis melo OX=3656 GN=LOC103487530 PE=4 SV=1) HSP 1 Score: 673.3 bits (1736), Expect = 5.3e-190 Identity = 329/342 (96.20%), Postives = 337/342 (98.54%), Query Frame = 0
BLAST of Tan0002674 vs. ExPASy TrEMBL
Match: A0A0A0L0Q0 (Hydrolase_4 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_4G410820 PE=4 SV=1) HSP 1 Score: 671.8 bits (1732), Expect = 1.5e-189 Identity = 327/342 (95.61%), Postives = 336/342 (98.25%), Query Frame = 0
BLAST of Tan0002674 vs. ExPASy TrEMBL
Match: A0A6J1GY97 (protein ABHD17B-like OS=Cucurbita moschata OX=3662 GN=LOC111457940 PE=4 SV=1) HSP 1 Score: 647.9 bits (1670), Expect = 2.4e-182 Identity = 316/342 (92.40%), Postives = 327/342 (95.61%), Query Frame = 0
BLAST of Tan0002674 vs. TAIR 10
Match: AT5G38220.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 531.2 bits (1367), Expect = 6.2e-151 Identity = 259/342 (75.73%), Postives = 294/342 (85.96%), Query Frame = 0
BLAST of Tan0002674 vs. TAIR 10
Match: AT5G38220.3 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 531.2 bits (1367), Expect = 6.2e-151 Identity = 259/342 (75.73%), Postives = 294/342 (85.96%), Query Frame = 0
BLAST of Tan0002674 vs. TAIR 10
Match: AT1G66900.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 471.9 bits (1213), Expect = 4.5e-133 Identity = 221/267 (82.77%), Postives = 247/267 (92.51%), Query Frame = 0
BLAST of Tan0002674 vs. TAIR 10
Match: AT4G24760.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 426.4 bits (1095), Expect = 2.2e-119 Identity = 213/340 (62.65%), Postives = 261/340 (76.76%), Query Frame = 0
BLAST of Tan0002674 vs. TAIR 10
Match: AT3G01690.1 (alpha/beta-Hydrolases superfamily protein ) HSP 1 Score: 423.7 bits (1088), Expect = 1.4e-118 Identity = 214/360 (59.44%), Postives = 268/360 (74.44%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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