Tan0007884 (gene) Snake gourd v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.CGTAAATTCTTCCCACGTTCTGACTGTACAGTTTTTGCTCAATTCCGTTCACTTTCTTCCTCTTTTGATTCCTTTTCCGTTGAATTAACCCGATCTGACTTCTTCATCCAGTCGTCGTCCGGCTATCTCCAGCCTTCCTTGCCCTTCTATTCTCTCTCCGATCGACGAGTTCAAGCAGAAGAACTGTTCGAAATCAATTCACCCCCAAACCCAGGTTGGTCCTTTTCAAATCTCAAAACCCAGATGGGTTTTCCCTTCACTCGTTCTGAAAGTGAGAACCCGGAAGAGGGTTTTCTTCTTGGCTCTTGAAGAAAGTATTAACTTGTCGTAACAGTTAAGTCAATATGGCACTATCCTGATTCTCAAGAAATTCGATTAAGTTTTGATTTTCTAGTTCTTTTTGAAGATTTCTTGCCCGAAACGGAATATGCAATAAACCTCAGTGGCGATAAATCCTTTTTGAAGTTTTCCCTTTGACCTTACATGGACTGTTATTTGTTTGTTGAAATTTCTTTTGATCGGAGTGTAATGGTGATTGTCCTTTCTCACGTCCCACTTCTCATATTGGTGAAATACTTTTATTTTCTTTTGGTGAAATACCTTTCACTAATTTGACCCTTTCATTTTTGGCTATATGATCTATGTGTTTATTGGTCTTTCAATCTATGCGTTTATTTCCCTTTTCTCTTCGAGAAGAAAGTAATCACTGAACCTCACTATCGATCTTTCTTCACATTTGGAAAGCTTAAACTATTTTTGTGTTCTTTACGTACGTGTGATAAGCTCTGAATAAGTATTGGTGTACGTGTATTGCATTCTGATACTGTTCATTTGTTTAGATGTTATTGCCTGATTGCACAAAAGAGGGCCTTAATTTGGGCCTATCTTAGTATGGGACCTGAAATTGGATCAAAAGTGAAGGAGGAAGCTTTGATGGAGGACAAAAATGCTGTTCAGGATAAGCAGAGTGCAAGTAGTGGTCAGGAAAAAATTCATGACATGGAAGCTCCATCTGTTGAACGAACTATGATGTTAGATAGAAGTGAGGATATGGAGCTTGATATTATTGGGTGTACAGATAATTGTGAGGGAGGTCCTAGTAGTGAATGCAATGTTTCAACTGAAAATTCAAGCTCGTTTGGTGATACTGTTTCTGGGACAGATTATGGTTTGTTATTGGATGATGAAGAAGTTGAATCCCAATTATATGGAGATAATAATTTGCAGCCTATGTCTAATGGATACAGAGAAGTATTTCCAAGGTAGTACATGTATCTTTTCTTTTTCTTTTCCCTTGTCCTGCATTGATTTGTTTCTTTTTTTCGACTTTTTCTCTCTACTTCATTGTGTGCTATTGGTGGATGAACAATTTGAAAGTTGATTTTTATATACCATCAGTGGTGTATAGAGATTGGACTATTTATCCTTTTTTCTTGAGCTTCCAAATTCAAGTTTTCCTTTCAGATTAATATTGATTAACATGTGAAAGATTCTCATCTTTGTTGGTCTTTTGCTTCAAGATTAAAAATTATTGTACAGCCTTCTCACCTCTTCTACTTTTGAGTTCGGATGTGTCAGTAGACTCGTATATCTGAAATACTTTGCTAGTGAATTTCAATCAGGAGTGAAGAAAATAACCTTGTCAAAAGAGAATTGAAGTCCTTGTCTCTGGATGTACTATGAATTACGATCACTGATTCACTGTCCAACCAAACTCCCAAAGGATAGCAACAGTTGCTTGAATCAAATTCTGCTGCGTGAAATTTTTAGCTCAATTATTGTACTTTCCCTGCTAATTGAGTATGACAGGTCTCTATGTTGTGTACTTATTCTAGGAGGGCTTGAAGGGAATTTATGCGTAGTATGGTCATTTAGTTTTGTCTGTTATAGGGGGTAGGAATTAGGATATTACTCCATAGCTTCAAAAATTATGCAAACCATCTTATAATGATCAACCGGCATCTTTAAGGGCGCGAAGTGTTCTGTGGAGGAGGTTTGGTCCTTAGCTAGGTTTAACACCTTGCTTTGGGCAACTGCATCTAAAGAATTTTTAATTACTTCCTTTTTATTTTTCTAAAAAAATTATTCGTTAAGTCCTATCTCTTGGAGTTGAGCCCTTTTCTTTTTTATTAGGCTAGTCCCTAGTTTTTTTAATGGCCATTGTTGGCCCTCTTGTATTCTTTCGTTTTTTCTCAATGAAAGTTTGGTTTTTAATCCAAATATGATATAATGAACAAGTCACTTATGTCAAAATGAAACTATAATTAACACAAAGAAGATTACAAATATCATATATGAATTTCCTAGCCCTAAAAAAGTATCATATACATGTATATGATAATGTTGTATTGGTTGGGTTGCCATCCTTTCCCTTGTGATGGAAGAGGTGGTTTGGATCCTCCTTTTAGGGAGAAGGGTGAAGTATTGTGGCAAGTGAGTTTCTTTGCAGTTTTGTCGGGTATTTGGATTGAGGGGAACAATAGATTTTTTCTAGAGGTTGAGAGGCCGGGTCTGGAGGTTTGGGAGGTGGCTAGGTTTAATATCTCATTGTGGGCTTCGGTCTCTAGTCTTTTTTGTAATTATGATCTTGGTATTGTTATTTTAGATTGGTCGGACTCCCTTTATTTATGTAAGGGCTTGTTTTTTGTATGATATTGTATTCTTTCATTTTTCTCAATGAAAGTACGATTTCTTACCCCCCAAAAAACGCAAGCCATGTCAAGTCAAGCTAGGTTGAGTTGAATTTTGTCTTTTAAAATTTTGTAACTTCTTTAAATATGTATTGTTGGACTAGGACAGATACGACTCAACAATTCAACTTGGTTGAGTTTTGAACCATGGGTTAGGGTGCACTTGCTTACTCCTTAAAATATTAATGATTTCATCTGTCTTCACCTTGCATGGCTGACATAACGAGAACAAGGCAAAAACTTTTGTGATTCATAGTATCAAGTCTACGTTTTCCACAAATATGTTATCGTTTCTCTCAACTTTATATGATAATGATATTCACGTGTTTATATATACATCTTACTTTCTAGGAAGAAAAAATTGACAGATCACTGGAGGAAGTTTATAAGTCCTGTTATGTGGCGGTGTAGATGGTTAGAACTGCAAATTAAGAAACTTCAGTCTCAATCATTAAAATATGATAGAGAACTTGCATTATATGATCAAAGAAAGCAGTCTGTCTACGAACACTTCTCAATGGAAGATTTTGATGTGAAGTCAACAGGATTCTCAATTCACACTCAAAGACACAGGGTTATGAAAAGAAAGAGAAGGAAGAAAACTGAAGAGACAACTGAAGCAGCTTCATATATGGGACACCATAATGTGTTCTCCTACTATGGTATCAAGTCCTCAACTATTTCTATGCAACACTTTTTTCCCTAGTATCTCCTTCTTTGACATTGTAGCCTTCTTTTGTTATTCCAGAGAAGAAGAGGCCCATTGCTGATGACATAACTATGGAAGATACTTCTCTTAAATTAGGTAAGTGAAGTTGATCGTATTATTACTTTGGTTGATTTCATCAAATTGTACACGGCTGAATAGGAGTTTGCTGCAGATTAGTAATAACCGGAGGAGTGAAAGCTATTTTAAGTCTTTTATCGTCAAATAAATTAGTTCTATACTTGATATTTGATTATGAAAAGTTTACACTATCGTTTTTCTTAAGGTATGTGATATTGTTATCCCTTTTTTCCCCGTATGTGGGGTTGACATAGTTGATCCTTATGAACTTACAACAATCCCTATGGAGATGCTTCCAAGAGAATATACCAAAAACTTGTCCTATTTCTCTCATTTTCTCTTAGATGATAGTTTTAACAATATTGAGCCATAAAATCGGCTTTTCTTTTTCTGGGATGGCCTGAAAGAGTCTCAATACCGAAATTCTTTGAAGTTCTAGGGTGTTAGGAAGGACAAGGTGTGTTTTCGGGGTGGACTAGGGTTAGGAATATTAGTAGGGAAATGTTAAGAATATTGATAGGATATTAGGAAGGCATTTTTCTATCAATAGGAAATGGTTTATGAAAGGTATTGAGAGTTTGGAGGTAGAGAGAATTTGGAGTGAAGTTATTTTAGGAGGCTCCATGATTCTCGAAGTGCTTGGGTAATGTATTTTCTTTTATCATTTCCACTTTCTACCAGTTTCCATTGCAAAATTGGTTCCTATCATAGGGAGAACCATTTCCAAGCCAAAGATATTACAAATAAGTTTCATAGATCAAGAGAATGAGAACATCGTAAGAAAAATGATTTGATGCCTTTCAATGGGGACCTGCAAAGAGAGAACCAGCCCAGCAAGATGCTGAAATTACAACATTTTTATCAGACTTCATCATAAGACTGACTTAATAATATTTATAGACCATGCTGTAAATAGGAAAGAGACTCACATGCGAAAGAACCTGACTTGTCACTGTGCCAAAGTCTATTTTGTGGAGATCTTTAATATGACAGTGATGTATAGTTTCTGGAGTGTATGAAATCATCCAATGGATTTCGGATTTTCCAATTTTATCGGTAGATGATATACATCTATTACACTTGGGTTGGAAGAAACATCTTGCGCCACATACATTTCACTCAAGAAATCTACTCTTTCCAAATAGATTGTTAGCTAGAAATTAGAATCCATGTGGATAATGAGGAAGTTTTAGCGTAGGCAACTAGGCAAAAGTGCATTGCTGGTGGTTGGCCATTAACCTACCGAGGTAGCCCTTGGGAGGGAATTTGGTGAAAAATGGGAATCCCATGAACCATGGTAGAAAGGAACCTGAACAAGCTAAATAGATAGAAAAATATGACTCATAAAGGAGGCTATATCACCTTGTCACAATCAAGACTCACCAGCATCCTATTAATAATTTCTTGTCCCTTCTAAATAAAGATGTCCACGGGGCGGGGCGGGGTTGGGGAATGGCTCCCCGTCCCCGTCCCCGCCTCCCATTTTATTCCCCGTCCCCGGGCGGGGATTCGCCGGGATCGGATTCCCCGCGGGGAATAATTTCCCGTTTAGAATTTTATTTTTCTAAATTTTATTTAATGTTTCTTTTTTTTTTTTTTTTTTTGAAAATTTGTATTTCAATGGTTAATTATTCTTTAGAGAATTCTAGTTAAGAGACATTTTTTCAATTTTCTTAAAAAATAAAATGATATTTAATAAACTTTTAGACTTATGGTTTTATTAGATGTATACAAATATATATATTTAAAATTAAATAAATTAATCAGGGCGCGGACGGGGAATGTATTCCCTGTCCCTGTCTCCGCTTAGCCAACGGGGAAAAATTTTATCCCCGCTCCCTCCCCCATTCCCCGCCCCCGCGGGGAAAATGGACATCTCTACTTCTAAACGTATGTGGCACAAGATGTTTCGTTTTTTGATTTTGTTGGTTGTCCCTCCCCCCCGCCCCTTACGACCGTTGTTTTCCCCTCGCTTTGGAAGGTTAAAATTCCTAGGAAGGTAAATTTTTTGTGTGGCCAGTGCGTGCTCCTTTCTCAAACCTGAACAACTCTGAACGTTATGGAAGATAAGGGAAGTCACAAATTTTACATGAGGGAGTCAACACTTTAGATTGTGTTCAACGACATTTCTCTTTGGTATTGTTCCCGTAGTGTGTGTTCTTTGTAGGAGTCAGGAAGAGGATCTCTATCACTTATTATGGGGTTTTCAGTTTGCTCAATCTCTGTGGGCGTGGTGGCTGCAGTTGTTTTGGTGTTGTTTGACTTGGAATAGAGATTGTTATGTTATGGTGGAGGAGGTGCTTCTAAGCTCCTCCTTTTGTTAAAGGAGCAAAGTCTTATGTCATGCTAGCTTATTTGCCATTCTGTGAGGTATTTGGCTTGAGCATAATAATAGGACTTTAGGGAAGTGGAGAAGTTGGGTAAGGTTTGGGAGGTGGCGAGGTTGAATGCTTCGTTGTGGGTTTTGGTTATTAAGCCTTTTTGTAATGATATTGGTTTGATTTTGTTGGACTGGAGTCCAGTTCAGTAGTTAGTTCTTGGACTCTCTTTTTGTTGGGCTTGTTTTTTGTATGCTCTTGTTTTCTTTCATTTTCTCAATGAAAACATCGGTTTCTTACCAAAAAATCATTTCTTGTCCCTTTCCAAGATCTTTGAGTACGGTAGTGAATATTATTGAAAATGGAAAATGTGCAAGTGGCACACTGCTTCTCTCTTCGTTGATGTAGGCAGCTTGGGCTTGAGAAACCTAAGCAAGAATATTGTTGCTTTCTTAATGAATGTGTTGATTTTAATACAAACTGGATTCCTTGTTTGGCTTTCTTTGTAGCTAGCAAATATTGAAGCGGAAGGATTGGCTAGTTTTCAGCTATCAATAATGGGATTAGTGAAAGCAGGTGAAGTTTCTAAAGGTTTATCTAGGAATCCAGCAAGCCTATGAGTGGCTATGGAGATTGGGCAATGGGTGATGTACTGTCTTTTGGGAGACTTGTGGATTTACTAATCAACCTCTGAAGTATGGTTCTCAGATTCTTCCAACTGTGGCTAGTTTGGAAACCTTTTTTTATGAAAGATTCTTGGAATCCTACAGAAGGGGGATGAAGTCTTTCATTCAGAAGAACTTTTTTTTTTTTTTTTTTTGATAAGAAACTGAGCTTTCATTGAGAAAGAATGAAAAAATACAAGGGCGTACAAAAAACAAGCCCACAAAAGAGAGGGGGAGCTTACAACAAAACACTCCACCCAAGCAAAATAAAATCTAGAGGATAATTACAAAAAGACTTAGACACCGAGGCCCAGAGAGAAACATAGAATCTAATAAGGTCCAAATATCAAAGGAGGAATGCTCCAACCCTCGAAAGATTCTATTGTTTCTCTCCCCTAAGTCCCCAAAGGACAGCACAAACCCCTGCCTTCCATAAAAACGCCCCTTTCCCCCTAACTGAGGGTGCAAAAGGAACTCCTCCAACCTCTCCCGACAAGTCCCTTCTCCTCTAGAAAAGGAAAGCCCAAACTCACCGACGAAAAGATTCCAGACATCCTGAGCCAACTCACAACTCCAAAATAAATGGTCGATATTCGCTGCCGCCCTCTTGAAAAGAATACAACACCAGGGATCAACCAAGGACGGCAATCTTCTCGAGACCCTATCCAGAGTATTGACTCGTCCGTGAAGAACCTGCCAAGCAAAAAACTTAACATTTTTTGGGATTTTCACCTTCCAGACTAAGGCAAAGACAGACTCCCCTCGTGAAGCAGAGGAAGAAGGATTACCAAAGAGAATTGGAGGAGTACAAATAGGCAATCTTGGTGAGTATTCTTGAGCGGTTCCTGACTTAACCAACATAGACGCGCCATTTTATGACAGATAGACAAGTCCCAGAATTAATCTCGTTAATCATTTGCTGCCCATCTTACTCAACACCTTACCTTTTAAGGGCTATTTGGAATAGAATCCACAGAAAAGTCAAGGTTATTCTTTGGTCCCTAGTTTTGAGGGGGATAAACACTACGGGCATGGTGCAAATAAAACATCCTTACATGTGATCTCTCCTAACAGGTATTATCTTTGTAACAGAATTTGGACGACCTAGACCTTGTCTTCCTCTACTACACTATGATTACAAATGCTAGTGTTAGAATATGTTGAATGTGTATAGTCTCTCCTGATGCTTACCAAAGAATGTTAATGATTTTTTTGGAAACATGGACTGTCATTTTGTGGGCATCCCTTGAGACGAAAGCCTAAAACCATCTCAAAATGTGAGTTGTGATGACATTTCTTTGAGAAGCTGGTTGGAAAGAGACCAAAGAGATGTTCAAAAGTTCCAATCTTCGCTAGGTCTTTCCTAGAAGCAGTTCAGATGCATTTTTCCCACTCATCTCCGGGACTTTCTTTCGTGGCAATGCTAGAATCCTTTGGTACAATGCGGTGGTGGCTCTCTTTTGGAGAGACTGCTTTGACAGAAACAAAGGATTTTTCAAGGGGAACACTGGCCTCGTTACATTTTTTGAGATTTAGTTAAACTTCACTCTTCTACTTGGCTTTATAGGGATATCTCATCTCCTTTTTGTACATGGTCAATAATATCGTTTTTTCCCTAGAAAAATACAAGGGAAAAAAAATCTAGTGTTTGTAATGTCCTTAAGGATCCTATTTGACTTTTTTATGCTTCACAGCTTACGCTTTTGAACTTCTCTGTAACCATGCCTTCTTTATGCTAATTAGAGTAATATTCATGGTCATGTCTTGTACTTTTAAAACTTTTTTCCGAGTGTCTATCAATATAATTGTAATTAATAAACAAATAATTCTGTTTCTTACAGTTAAAAGAATAGCCCAATTTATAGGATTTTAAGTTTGAAAAGACTATTTATGTGTGGAGAGCTCTTGGCTACACTAGTCAATAGGCTAGCTATTGATTCTCTGCTCTGATCTCTACAGACAAGACAAGGAATATGAAACATGATGCCATCAATGACTTCGGGCCAATTGCAACTGATGGATGGCCATCTTCTATGTTGGGAGATAATGATAATAATTTGGAAGAAATCTTTCTAAAAATTGAAGCTGCGCAGTCAAAAGTTCACGAGTTGAAGAACAGAATTGACAAGGTGGTGAATGAAAATCCCATGAAGTTCTCCTCAATCAGTCAGCTATACTTGCTTGCATCAAGTGATGATCCCGCTTCACCTGAAGACGGAAATGATGTGTTTGTTAGGTCTTTGCATGAAGCATCACAACACATGTCTGAGCATGCATTAGATGTACTTATGCCCGAAAGTGCGACTAGAAGTCATGGAGAGGTCATGCTACTTCCTGATATGATTCAGAGCGTGGATCGTGGAAGTGTAAGTTTCCCCTACTACTTCTATATGCAATATATTTCTTTTCCTTTCAACTATAGAAATGTCACCAAGCATGGATTATTATCTTCTACACTGTTCATTTGTGAAAGTGTTGGTATGCATCCCTCTACTATATGCCATTCTGCTCTCATTTTCAATTTTCAATTAAAGAAATGCTTTAATTATTGGTCACGCAAGTCTCATATATCCTGTCATTGCAATCCTAACACTGTATGATGTATGCTGAGGTTTTCCTATGTTTATTCTGTTTAACAACGTGATCCTCTATCAGAATAGTAGCATTAGCAGTGTTATTTTTTGCTTTTTTTTAACCAAAAACAAAACTTTTCATTGATAGAATGAAAAGAGACTAATGCTCAAAAGTTACCATCTCTACAAGGGAGTGAAAAGAACAAAAGAAAAAAAATCAGCCCACAAAACTCATAAAATCTGAAAAGAATAAAAACCATAAAACACACAAAACTAGGATGGACTCCCAATTCATACTAATATCTTGCAAGTACACTATTGAGAAGTTTTCCATCTAGCCGCCTCGAACCTATCAACCATTGATTTTCCTTGTTTTAAAAAACCCTTTGATTTCGTTTCAACCAAAATTAAAGAAATAATGGCTTTGACTACATTAACCCGTAAGAAATGTGGTCTTCGTACACATCGGGGGACTAATACTGAACTGATTTCTTGTATTGTTATTGTGTTGCAACTGTTATGATTATACGAAAAACATGGTAGTTCTAAACAATTGGATCTTACTTGTATATTTGCAGACTGAGAAAGTTCTGATGCAAGATTCCGCAGTCAAGGAAGAGGTGCAAATTCCTGAAGAGGTTAATACTCAGTTTATTGAGCAGACTCCGAAATTGGAGGAGCAAATCATTTCTCCAGCTGCAGCCTCTCAAGCTGACTTAGCCTCAGAAGACAAGGAGCCTGACATGCAACACAAAACAAAACCCCCTTCTGCTGTCAAACCTAGTTCATCTAAGAGAACAAGAAAGCGGGGAAGGCGAAAAATCAGTTCGAGTAAACAGAAACGGAAAGCAACAGGTTAGCTGGATAAATGGGACTACAGAAGATGGTTATTTTTCTTCTTATGATGTGGTTGATGGAGGTTAGAATTTTGTTAATGGTTATTGCTCTACTTCTACTGTATATTTTCCATGTCATGGTCCTCTCTCGTCTGCTGCACATATCAACTCAATTATTTGTATATGCTGCAAATATTCATTAATTATGTTAATATGAAGAATAGCATTAATCCACAGTGGTTGGCCAC CGTAAATTCTTCCCACGTTCTGACTGTACAGTTTTTGCTCAATTCCGTTCACTTTCTTCCTCTTTTGATTCCTTTTCCGTTGAATTAACCCGATCTGACTTCTTCATCCAGTCGTCGTCCGGCTATCTCCAGCCTTCCTTGCCCTTCTATTCTCTCTCCGATCGACGAGTTCAAGCAGAAGAACTGTTCGAAATCAATTCACCCCCAAACCCAGATGTTATTGCCTGATTGCACAAAAGAGGGCCTTAATTTGGGCCTATCTTAGTATGGGACCTGAAATTGGATCAAAAGTGAAGGAGGAAGCTTTGATGGAGGACAAAAATGCTGTTCAGGATAAGCAGAGTGCAAGTAGTGGTCAGGAAAAAATTCATGACATGGAAGCTCCATCTGTTGAACGAACTATGATGTTAGATAGAAGTGAGGATATGGAGCTTGATATTATTGGGTGTACAGATAATTGTGAGGGAGGTCCTAGTAGTGAATGCAATGTTTCAACTGAAAATTCAAGCTCGTTTGGTGATACTGTTTCTGGGACAGATTATGGTTTGTTATTGGATGATGAAGAAGTTGAATCCCAATTATATGGAGATAATAATTTGCAGCCTATGTCTAATGGATACAGAGAAGTATTTCCAAGGAAGAAAAAATTGACAGATCACTGGAGGAAGTTTATAAGTCCTGTTATGTGGCGGTGTAGATGGTTAGAACTGCAAATTAAGAAACTTCAGTCTCAATCATTAAAATATGATAGAGAACTTGCATTATATGATCAAAGAAAGCAGTCTGTCTACGAACACTTCTCAATGGAAGATTTTGATGTGAAGTCAACAGGATTCTCAATTCACACTCAAAGACACAGGGTTATGAAAAGAAAGAGAAGGAAGAAAACTGAAGAGACAACTGAAGCAGCTTCATATATGGGACACCATAATGTGTTCTCCTACTATGAGAAGAAGAGGCCCATTGCTGATGACATAACTATGGAAGATACTTCTCTTAAATTAGACAAGACAAGGAATATGAAACATGATGCCATCAATGACTTCGGGCCAATTGCAACTGATGGATGGCCATCTTCTATGTTGGGAGATAATGATAATAATTTGGAAGAAATCTTTCTAAAAATTGAAGCTGCGCAGTCAAAAGTTCACGAGTTGAAGAACAGAATTGACAAGGTGGTGAATGAAAATCCCATGAAGTTCTCCTCAATCAGTCAGCTATACTTGCTTGCATCAAGTGATGATCCCGCTTCACCTGAAGACGGAAATGATGTGTTTGTTAGGTCTTTGCATGAAGCATCACAACACATGTCTGAGCATGCATTAGATGTACTTATGCCCGAAAGTGCGACTAGAAGTCATGGAGAGGTCATGCTACTTCCTGATATGATTCAGAGCGTGGATCGTGGAAGTACTGAGAAAGTTCTGATGCAAGATTCCGCAGTCAAGGAAGAGGTGCAAATTCCTGAAGAGGTTAATACTCAGTTTATTGAGCAGACTCCGAAATTGGAGGAGCAAATCATTTCTCCAGCTGCAGCCTCTCAAGCTGACTTAGCCTCAGAAGACAAGGAGCCTGACATGCAACACAAAACAAAACCCCCTTCTGCTGTCAAACCTAGTTCATCTAAGAGAACAAGAAAGCGGGGAAGGCGAAAAATCAGTTCGAGTAAACAGAAACGGAAAGCAACAGGTTAGCTGGATAAATGGGACTACAGAAGATGGTTATTTTTCTTCTTATGATGTGGTTGATGGAGGTTAGAATTTTGTTAATGGTTATTGCTCTACTTCTACTGTATATTTTCCATGTCATGGTCCTCTCTCGTCTGCTGCACATATCAACTCAATTATTTGTATATGCTGCAAATATTCATTAATTATGTTAATATGAAGAATAGCATTAATCCACAGTGGTTGGCCAC ATGGGACCTGAAATTGGATCAAAAGTGAAGGAGGAAGCTTTGATGGAGGACAAAAATGCTGTTCAGGATAAGCAGAGTGCAAGTAGTGGTCAGGAAAAAATTCATGACATGGAAGCTCCATCTGTTGAACGAACTATGATGTTAGATAGAAGTGAGGATATGGAGCTTGATATTATTGGGTGTACAGATAATTGTGAGGGAGGTCCTAGTAGTGAATGCAATGTTTCAACTGAAAATTCAAGCTCGTTTGGTGATACTGTTTCTGGGACAGATTATGGTTTGTTATTGGATGATGAAGAAGTTGAATCCCAATTATATGGAGATAATAATTTGCAGCCTATGTCTAATGGATACAGAGAAGTATTTCCAAGGAAGAAAAAATTGACAGATCACTGGAGGAAGTTTATAAGTCCTGTTATGTGGCGGTGTAGATGGTTAGAACTGCAAATTAAGAAACTTCAGTCTCAATCATTAAAATATGATAGAGAACTTGCATTATATGATCAAAGAAAGCAGTCTGTCTACGAACACTTCTCAATGGAAGATTTTGATGTGAAGTCAACAGGATTCTCAATTCACACTCAAAGACACAGGGTTATGAAAAGAAAGAGAAGGAAGAAAACTGAAGAGACAACTGAAGCAGCTTCATATATGGGACACCATAATGTGTTCTCCTACTATGAGAAGAAGAGGCCCATTGCTGATGACATAACTATGGAAGATACTTCTCTTAAATTAGACAAGACAAGGAATATGAAACATGATGCCATCAATGACTTCGGGCCAATTGCAACTGATGGATGGCCATCTTCTATGTTGGGAGATAATGATAATAATTTGGAAGAAATCTTTCTAAAAATTGAAGCTGCGCAGTCAAAAGTTCACGAGTTGAAGAACAGAATTGACAAGGTGGTGAATGAAAATCCCATGAAGTTCTCCTCAATCAGTCAGCTATACTTGCTTGCATCAAGTGATGATCCCGCTTCACCTGAAGACGGAAATGATGTGTTTGTTAGGTCTTTGCATGAAGCATCACAACACATGTCTGAGCATGCATTAGATGTACTTATGCCCGAAAGTGCGACTAGAAGTCATGGAGAGGTCATGCTACTTCCTGATATGATTCAGAGCGTGGATCGTGGAAGTACTGAGAAAGTTCTGATGCAAGATTCCGCAGTCAAGGAAGAGGTGCAAATTCCTGAAGAGGTTAATACTCAGTTTATTGAGCAGACTCCGAAATTGGAGGAGCAAATCATTTCTCCAGCTGCAGCCTCTCAAGCTGACTTAGCCTCAGAAGACAAGGAGCCTGACATGCAACACAAAACAAAACCCCCTTCTGCTGTCAAACCTAGTTCATCTAAGAGAACAAGAAAGCGGGGAAGGCGAAAAATCAGTTCGAGTAAACAGAAACGGAAAGCAACAGGTTAG MGPEIGSKVKEEALMEDKNAVQDKQSASSGQEKIHDMEAPSVERTMMLDRSEDMELDIIGCTDNCEGGPSSECNVSTENSSSFGDTVSGTDYGLLLDDEEVESQLYGDNNLQPMSNGYREVFPRKKKLTDHWRKFISPVMWRCRWLELQIKKLQSQSLKYDRELALYDQRKQSVYEHFSMEDFDVKSTGFSIHTQRHRVMKRKRRKKTEETTEAASYMGHHNVFSYYEKKRPIADDITMEDTSLKLDKTRNMKHDAINDFGPIATDGWPSSMLGDNDNNLEEIFLKIEAAQSKVHELKNRIDKVVNENPMKFSSISQLYLLASSDDPASPEDGNDVFVRSLHEASQHMSEHALDVLMPESATRSHGEVMLLPDMIQSVDRGSTEKVLMQDSAVKEEVQIPEEVNTQFIEQTPKLEEQIISPAAASQADLASEDKEPDMQHKTKPPSAVKPSSSKRTRKRGRRKISSSKQKRKATG Homology
BLAST of Tan0007884 vs. NCBI nr
Match: XP_022974820.1 (uncharacterized protein LOC111473601 isoform X3 [Cucurbita maxima]) HSP 1 Score: 736.9 bits (1901), Expect = 1.1e-208 Identity = 392/481 (81.50%), Postives = 422/481 (87.73%), Query Frame = 0
BLAST of Tan0007884 vs. NCBI nr
Match: XP_022974817.1 (uncharacterized protein LOC111473601 isoform X1 [Cucurbita maxima]) HSP 1 Score: 736.9 bits (1901), Expect = 1.1e-208 Identity = 392/481 (81.50%), Postives = 422/481 (87.73%), Query Frame = 0
BLAST of Tan0007884 vs. NCBI nr
Match: XP_022946550.1 (uncharacterized protein LOC111450568 isoform X3 [Cucurbita moschata]) HSP 1 Score: 733.8 bits (1893), Expect = 9.4e-208 Identity = 390/481 (81.08%), Postives = 419/481 (87.11%), Query Frame = 0
BLAST of Tan0007884 vs. NCBI nr
Match: XP_022946534.1 (uncharacterized protein LOC111450568 isoform X1 [Cucurbita moschata]) HSP 1 Score: 733.8 bits (1893), Expect = 9.4e-208 Identity = 390/481 (81.08%), Postives = 419/481 (87.11%), Query Frame = 0
BLAST of Tan0007884 vs. NCBI nr
Match: XP_023540268.1 (uncharacterized protein LOC111800693 isoform X3 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 730.3 bits (1884), Expect = 1.0e-206 Identity = 389/481 (80.87%), Postives = 419/481 (87.11%), Query Frame = 0
BLAST of Tan0007884 vs. ExPASy TrEMBL
Match: A0A6J1IEX6 (uncharacterized protein LOC111473601 isoform X3 OS=Cucurbita maxima OX=3661 GN=LOC111473601 PE=4 SV=1) HSP 1 Score: 736.9 bits (1901), Expect = 5.4e-209 Identity = 392/481 (81.50%), Postives = 422/481 (87.73%), Query Frame = 0
BLAST of Tan0007884 vs. ExPASy TrEMBL
Match: A0A6J1IBA7 (uncharacterized protein LOC111473601 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111473601 PE=4 SV=1) HSP 1 Score: 736.9 bits (1901), Expect = 5.4e-209 Identity = 392/481 (81.50%), Postives = 422/481 (87.73%), Query Frame = 0
BLAST of Tan0007884 vs. ExPASy TrEMBL
Match: A0A6J1G437 (uncharacterized protein LOC111450568 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111450568 PE=4 SV=1) HSP 1 Score: 733.8 bits (1893), Expect = 4.6e-208 Identity = 390/481 (81.08%), Postives = 419/481 (87.11%), Query Frame = 0
BLAST of Tan0007884 vs. ExPASy TrEMBL
Match: A0A6J1G468 (uncharacterized protein LOC111450568 isoform X3 OS=Cucurbita moschata OX=3662 GN=LOC111450568 PE=4 SV=1) HSP 1 Score: 733.8 bits (1893), Expect = 4.6e-208 Identity = 390/481 (81.08%), Postives = 419/481 (87.11%), Query Frame = 0
BLAST of Tan0007884 vs. ExPASy TrEMBL
Match: A0A6J1IHF9 (uncharacterized protein LOC111473601 isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111473601 PE=4 SV=1) HSP 1 Score: 724.2 bits (1868), Expect = 3.6e-205 Identity = 388/481 (80.67%), Postives = 417/481 (86.69%), Query Frame = 0
BLAST of Tan0007884 vs. TAIR 10
Match: AT3G59670.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT4G37440.2); Has 77 Blast hits to 77 proteins in 14 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 73; Viruses - 0; Other Eukaryotes - 4 (source: NCBI BLink). ) HSP 1 Score: 176.0 bits (445), Expect = 7.1e-44 Identity = 133/389 (34.19%), Postives = 211/389 (54.24%), Query Frame = 0
BLAST of Tan0007884 vs. TAIR 10
Match: AT4G37440.2 (unknown protein; LOCATED IN: cellular_component unknown; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G50040.1); Has 121 Blast hits to 117 proteins in 32 species: Archae - 0; Bacteria - 6; Metazoa - 13; Fungi - 5; Plants - 66; Viruses - 0; Other Eukaryotes - 31 (source: NCBI BLink). ) HSP 1 Score: 170.6 bits (431), Expect = 3.0e-42 Identity = 128/374 (34.22%), Postives = 202/374 (54.01%), Query Frame = 0
BLAST of Tan0007884 vs. TAIR 10
Match: AT4G37440.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G50040.1); Has 220 Blast hits to 205 proteins in 55 species: Archae - 0; Bacteria - 15; Metazoa - 50; Fungi - 11; Plants - 76; Viruses - 3; Other Eukaryotes - 65 (source: NCBI BLink). ) HSP 1 Score: 163.7 bits (413), Expect = 3.6e-40 Identity = 143/450 (31.78%), Postives = 231/450 (51.33%), Query Frame = 0
BLAST of Tan0007884 vs. TAIR 10
Match: AT3G50040.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT4G37440.2); Has 70 Blast hits to 70 proteins in 12 species: Archae - 0; Bacteria - 0; Metazoa - 0; Fungi - 0; Plants - 70; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 137.5 bits (345), Expect = 2.8e-32 Identity = 96/272 (35.29%), Postives = 144/272 (52.94%), 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:
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