IVF0026031.2 (mRNA) Melon (IVF77) v1
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.ATGGAACTGGAGAATAATGAGAAAGAAATTAGAATTGCTATGTCATCCATTGAAGAAAACACAAGAAAGCTGTATGAGGTAACAGAGAAGGGTTGTATTGAAAGCTTGAAGATATTGATGGAAGAAGATCCATATATCATTCAAACAGTTGTTAGTACCTCTTCTTCCAACAACAATGAGACCCATCTTCCATTATTGCACCTCTCTATTTCCAGTGGCCATCTTGAATTCACTCGACTCCTAATTCATTACAAGCCTCAACTAGCTGCCGAGGTTGACTCGCTTCAACGAACTCCCCTCCATCTCGCTTCTAAACTTGGAAAAATGGAGATTGTTGAAGCTTTGTTGGAGAAGAACATGAGTGCTTGCTTTGTTTACGACAGTGATGGGATGATTCCTCTTCACTATGCAGTACTTTCTGGACAAACGGATGTAATACAAAAGCTTGTCAAAGTAAGGCCAAGATCTCTTTGGATGAAGCTTAAGAACAACGGTCAAACGGTTTTACATTTATGTGTTGAGAGTAACCATTTGGAAGTGATGAAGTTTCTTATTGAAACATACGTGAATGATGATGAAGACTTCCTTAACTCAATCGATGACCATGGAAACACTATTTTGGATCTATCGATGTTGCTCAGACAAAGAAAGGTAAAGTAATTTCTTAGTGGAAAAAAACTTGGGTTGCACCCGAGCAACTTTTGATAGAAATTAAATTTACCCAATAACATTTTTATTATTTTTAAATGATTTTTTGAGTTTTTTCTTTGTGTGCCATGGAGAATAAAATTATAAGATCGCGGTGTAGCTTAATTATTGCTTATTAAACAAAACGCTAAAAGAGTAGGCCAAAATTAAAGTATATATGGCGCTATATATCTCAGAATAATGAAAAAAAAAAACCTTTCATAACAAATTTCTCGAGCAACGATTAATAGAAATAATACTTCAATATTATATTTTTGAAAAAAAAAACATATTTGTTACCTAACAAATTTTATCGTTAATTTGTAGGATTGCAAAGGTGAATCTATTATTAACATCTAAATAATTTGAGTAATTATAATGGATAACAATTTTAAAGATAATGATCAAATGTATTAACAATATTTTAAAATAACAAAGTCTATTAGCAATAGACTTCTATCAATCGTTTTTTGAGCAAGAAACAGAATGAGACTATATGAAACAACCTACCAAGAGGGGCCATATAGCAATCCAATATATTAGAGAATCAAAGTTGATACAAAATGAAAGGGCTAGAGAAAAGCCCTATAAGAAGACACATACAATAGTATCTTAATTAAAGAAAGCTTGAACGTTTAGGGCAATTTGTGCCGGAGAGTAGTTTGAAAGGAGTTTGTTCCTACAAGACCAAAGCCCTATTAAGTTGCAGATATTTTCCCAAATAGTGGTAATTGAATTTGGTTTTCCCCTGAAAGTTCTATTGTTCCTTTCTTTCCAAATAGACCAAAGTAAAAGAGCTCCACCACTAAGAATGATGACGTTTTGTATGTTTGTGGGTTTATGGGAGCAGAGAGAGAGGCCAAGGGTATGTAAATTGCTTCTGTCGCCAACTTCGAAAATCAGAGAGCAAAACTTATGCCAAAGGTGAGAGGTGATTTTGCAATTCAGAAAAAGGTGATCCAAATCCTCTCCCTTTTCCATACAAAGGATGCAGACACTTGGGTTGACAATGATTTTGGAGCTTTTTCTGGAGGATGTCGATCGTATTGATTTTTTGTGGAAGAGGGACAAGAGGAAGAATTTGATGTTCTTCAGAAGTGTGGACTTCCATAAGGAGGAGAAGAGCTGGCGAGTTCCATCAAATTGCTGGTTCGAGGACCTGTCTACGACCAAGGTATGTTTGATTGAAGCAATTGAGAACGTATTGTCTTTGTTTAAATTCCATTTAGGTTTTCCTTCTCTCATAGCTTGATCTGGGATGTTAAGAAAGGATTGAATGCTATCCTAGATTCTTTTTTCTCTATCATTTAGGGGTCTTCTGTGATCTAGGGTCCAAATTTTGTTTCTGTCATCCCATCTATCCAGAATGGTAGCCTCTTTATTGATAGTTAGTGCAAATAATCTTGGGAAAACTTTATGAAGAGGACCGTTGTTGGACCAATTTGCAAACCAGAAAGAAATGTTCCCACCATTGTTGATTTTCTCCAATGGTAATTTCTATCGAACGACTCCAAACCTTTCGTAATAGAGTTCCAGGGCGCGTTTGACCTGCTGTGTTTACAAATTTTTGGAATATCCCTAATGTGATTAACTTGGTATTTTGCTGAGATTAATTTTCTCCAAAGAGCCTGTTGTTCATTTTGAAAACGCCACAACCATTTGCAGAGCATAGCAAAATTTATGTCGTGAATAGTGGGAATGCCAAAACCCCCTTTGTCTTTAGAAGTAGTCGCTTCATTCCAGTTGATGATGTGTGATATGGTTGATTCCTTGTTGCTTATCCAGTGGAAATTTCTCTAATTCTTTTCAATTTCCTTGTAGACAGAAGCAGGGGCTTTGAAAACTGATAACTGGTATGTTGGGATACTCGATAAAGAAGCTTTGAGGAGGTTAAGTTTGCTACCTTTGGAGATATGTTGATATTTCCAGCTATTAAACTTCTTGTGGATTTTGCCAATGATAGGATCCTAGAAACTTTTGCTTCGAGGTTTTCCCATAAGGGGGCATCAAGGTAATTGATGGGGAGATGATGGAGAGGGATGTCCCAAGAGGTTGTGACAGCCATAACCTTGTCCAAGTGGACATTTATGGGGGATAGCGACAACTTTTTGCGATTTATTCTAAGGTCTTAAGCTTTTTCAAATAGCTAGATGGCCATTTGGAGATTGCTAACTGAGATACCATCATCTTCGATGAAAATAAGAATGTCTTCCGCAAAGAGGCTGTGGTTGGTGATCGTTTTCCCATTTATCTCAACCCCTTTAATGGTCTTTTTATCTTGGAGAAAGTAAAGAAGGCTACTTAGGTAATCCATGGCCAGGATAAAAATAAAGGGGGAGATTGGGTCTCCTTATCTGATACCTTTGTTTGGTTTAATCCTGCCATAGGGTTTGCCATTGATAAGCACGAAGTATTGTACATTCCTCACGCTAGGCTTAATCCAGTTTCTCCACTTCTCATGGTAGTTTTTCTTCATAAGCATGAAATTGATGAAGTCTCAGTTGATTGTGTCAAAAGCTTTTTTGATATCCAGCTTTAAAATAAAACCTTTTGTCTTTTTAAGTTTCTAGTAGTCAACTATCTCATTTTCCATCAGAATGGCATCAGTGGTTTGTCTCCCTTTAACAAAAGCTAGTTCGTTATCTGCAATGGTTTCTGGAAGAGTAAGTTTTAGTATATCAGCCAACATTTTTGCAATCATTTTGTAAATGGAGGTTGTTAGGCTGATAGGGCTGTAGTCTGTGGGGCTTTCGCTACTATATCTTTTGGCTATAAGGGCGATGAAAGTGTTGTTCATAGCCTTGTTGATGATTGCTTTTGAATGAAAATCCCTTAACAGTGTTAGGATATCGGCCTTGAGGAGGTGCCAAAATTTTTTGTAGAAAGCCATTGAGAAACCATCGAGACCGGGGGCTTTATTGTTGTTGAAAGAGAAGATGACTTTTTTATTCCATCTGCTTCAAAAACAGCACATAAAGAGAGGTGGTGAATGTTGTTGATCGGGCCTCCAATCCAAATTGTCGATAAGAAATTGGATGTGGTAGGACTATTGTAGATTTTCTCAAAATGCGACACAAAAGTTTTTGCAATAGAGTAGTTGGAGGTATGTACTATACCTTTGTCATCTATGATTTTTGAGATTAAGTTCTTCTTTTGTTGGACTGAGCATACTCTTTGGAAAAAGCCTGAATTTTTATCACCTTCTTCAATGCAAGGTTCTTTAGCTCTTTGAGACCAATAAGAAGCTTCTTTTATTTTCAATTCTGTTAGATCAGCTTTAAGGGTCTTTCTCTTGTCACTGCGTATGCTGCTGATTGAATTTTGACCTTCTAACGGGTCGATGTAATTGATTTCATCGATAATGGTTTGTTTTTGTGTTTTTGAGAACACAAACTTTTGATTCATCCAAATTCTGATTTTAGAAGCAAGTTGTTTAAGCCTTTGCATGAAAGCAAAACCCGGATAGCCCACATTGGTGGTATAGTACCACAAATTCATCAAATTGTTTTTGAATTCGATGTCATTCAGGTAAAAGTTGTTGATACGAAACGGGGAAGGACCCCATCTGATCTCAGAGGATTTAAGAGCCAAAGGAAAATGATCTAATGTTGTTCTGGAAAGGTTTTTTGAGTAATGAGGTTTGAAAGTTTGTTTCCAAGGAGAGTTATATAAGAAGCGGTCAAGTCTTGAGAGAACTGCGTTTATCCTTTAATTTGACCATGTGTATTTGTTGTTGGTAAGTGGCGGGTCAATCAAATTATTCTTTAGGATATAACCGTTGAATTTGTTCATGCTGAAGATAGCTGGATTCTTGGGGCATCCAGAAGGGCACTTTGACGAGATATCATTGAGCTCATTCCAGAAATCAGTTCTCTATCTTCTTGTAGCAGGACCATAAACAACATTGAGGGACCAAAGGGGAAGGACTTGATTGGAGAAGTTTGCCGTAATGGTGAAGTTACCTTTGAAGTAATTGACCATCTTGTGTTTCATGTCGTTCCATAAAATTAAAATGCCACCTGAATTTCCTTCATAACTTTTATAAATGAAATTTACGCATCTTAAATTCTAAATAGATTTTATGGTTGTCCTTCTAACTTGAGACGTTTTGGTTTCTGTAATGATAACGAAATCAGGGTCGTAGTTGGAAATAACTTTATTGATAAGTACTCTTCTTAGGGGAGAGCATAAACCCCTTACATTCCATTGTAGTACTTTCATTTAAAGAAGTTATTTCTCCCATTGTCTTGGAACCTTTCATCCCCAATCCCAACTTGATCAGAAGCAGTTTCTGCGGCCATTTGTTGTGGGAGGTCAATTATTGTGGTAGCCAATTTTAGGTTGTTGTCTTCGAGCCACTGGATTAGTTTGACCTTGAAAGCATCTTCTACTTCTTTGTTCGTCATGTCAACCTCATATGAAGCTATTTGTAAACAATTTTCTTGAGCACCTTTTGTATTTGCAATTTGAGCTTCATCCTTTTCTGGGTCGATGTCTTGTGTTTCGTTGACAAAATCTGGGTTGGAGTCTGTATGATCTTCAATTTGAATATGAAGTTGTGGATTAATAAGAGATAGGTGGCCTACATTAATAGTGAGATCACCTCCTTTGTTTTGGTCATAAAAAAGGGTCGATTGGGTTGGTTTTACAATTAGGCTAGGAATAATGGACTTTGGCCTATATTCCTTGTTTTTGCCTGGTTTCTTTCTTTGTTTTAGTTCCCCAATGCTGTTGATTTTTCTTGATGACTCAGCACTTTCAGTCTGCCTTGCTGGAGCGTGATTGGGATTGAAGAAGATGGTTTTATTTTTTAGTGATAAGAAGCAAACTTTTCTCTTTCCTCTGGATCTAGCAGATATGCTATCCATCTCATTTATATCTTCAAATGAATGCTCAGGGTCAGAACTCATCTCATCATTGTTTGTAGTAATTACAACTCTTTTTTCCATCCATCTTTCTACCAGTTTCGACCTCTGAGAGTTTTTTATACCCGATTTTGGAAGATCCTTGTCATTAATTTCCTTGTCATATGTGGGATTTCCTTCCAATGTCAACTTTGTCATTAACGATTTGTTTTTTGGGATTTCAAACTCGTCGGTCGGAATTACGAAATTGCGGAAGAAGGTGTACTGCTCCGCTTTTGGGTTGAAGTTATCAAATTCAATGGCTGCCTGTCTTTTGAAAGAACTGTGTATTTCAACATCGCGTTCGGCTAACCACTTGCCCGAGCTAACCAGTTTTCCATATTCATTGTTGCTTTGTCTTCTTCCAACAGGCCACCACATGGATTTCCAATTTGGAGGAAAGTGTCCATATTCCAAGCGTGTATGGGAATCCCTCTGAAGGAGGTCTATCCTCCATAGCTTGGGATAAGTTTTTGACCCGCATGTTTTTCAATGCTCCAAAGCTCAAATTTTACCTGGAATTTTCCGACTGATGTCCAACCCGAGTTGCTACAAAGAGACTTAGCATTCTAAGGATCTGTAAAGATGATCAGGGCTTTTTCTGCATGGAAGGGATGGTATGTGAAAGTAGATTCAGTTTGCCTCTTTAGACTGCTCATGATGACTTTCCAATCGTCATGGAATAGGCGTCTGGTTATAACTACTGCATTTTCAAGATGGAGCAATTTGACTGATCTTTGTTTTTTTTACTTCTAAACAGGCGAAGGATTCACTTGAATAACCTTCTGACACAACCCTTGCATATGACTTCCTTGAAGAGTCTGAATCAGAGTCAGTTGTTGCGATGTTCTTACCTTTTTTGAAAAAATGATCAAGAGGAGGGCGCACCTTTGGTTTAGTTTCCACATTAGGGTTGATCATAGAGAGGAAAGAGACCCATCATAGGTTGAATCACCTTCGGGAACCAGAACACAACATTTTCTACCTTGTTGATCGATACTAAAAACTTCTATAATGTAGCCATTTCTGTTTCTTGTCTTTCTAATGCAATAGTAGTACTCATGGAACCTTTTTTCAATGAAAAACCTGTTTTGTTTTGGCGTTTCAATGAGAGATTTCATAGTGTTTTTTAGCCAAGTCAACGCATCCAGGGAGAAGAGAATTGAAAAGGACCTATGGTCCCCCAATTTTGTTATTCAGAAACGAATAGCATTTGTTTTTTTTTTTTTTTTTTTCTAAAGATAGTACGAATTCTTTTCTTTCAATTTGACAGTTGTGGGGTAGGTGTTTGGAAAGAGCCATATTGTCGTTGTAGGAGGGGAAGGAAATAATTTAATGTGAAAAAAGGGAGGGTGTAATTGTGATAAGCAAGTAAAAGGTACCTTTTAAAGAAGTTGGTAGCTGCATGGTGTCTGAATTTATGGTAACAATCAGAATACTGCATGTTCCATTAATGGCAGCCGCCGCCATCTTGCTATCAAAGAGATGTGCTTGAGTGTCATCGGGTAGTGGAACAGTCTCAAAAGGTTTCGTTCACCTGAAAACCTCTCTCTCTCCTCTCTCTAACATCTATTTCATACTCATGTTCTGTTTTGTGTGTTTGGTTGAAAAGTTTGAAATAAAATCTTATTTTGTGTTTGGTTTAAAATAAAAAAAGATGTTGAAATGTTGACAATAGAAGTGGAAAATGGAAGAAAATGTAGTCGTTGTCCTCATTCTCCTTTGACTTCTATCAATCGTTGATTAACCCTTTCTTTTAATGATAGATTAATATTTACAATATGGTTTATGAGTTATAGATTTTTATCATATTGAGATAGACTTTTACAGTTTTCGTTATATTTGTATTTTTCTTAAAATATTGTTATATATATATGTGAATTCAAATATTTTTCATTGTTTTCACTGTAGATGGTGGGATATTTACTTTCGGCTCTAGAAGTAAAAACTAAAACAAGCATCATTACAAACTTTGAAACTTCTGATGGCACGAACGAAAGTTTAGAACTCCAAGAGATCTCAAAGACAAGAAATCCCAAAAGACAAAAATCAGGAAAACATGGATCGAAAAAGACAACTAAGCCACGGTGGAGGGCATGGAGAACAAATTTGAAGTATAAAGGGGGTTGGTTTCAAGAAGTGCAAGGCACAATGATGCTTGTGGCTACGGTCATTGCTACCGTCACTTTTCAAGCCGGAGTGAACCCTCCTGGTGGCGTTTGGCAACCAGACACTCCATTTAATTCTTCCTACTACTTCAATAATGATCCAAGATCATTTAATTCTTCCAGCTACTTCGATTATGGTCCATATTATATACCGAGCATACAATTAACAGCTGGAACTGCAATCATGATGTATTTAGAACCCGACAAATATACGGCTTACACACACATGAATACAATCTCGTTCTTGGCATCTATAAGTGTGATTTTGTTGGTCGTTGGCCGGTTTCCTTTGAAAAATAAGATCTGTAGCTGGCTGTTGGCACTGGCCATGTCTGTTGCGGTGGCGGCCTTAGGACAGGGGTATTTTCTAGGAGTTGAGATGGTTAACAAATATTCGTACTTTAATGATTCTTTCAGTGGATCATTCTATTTGTTATATTTATTAGTTATCTCTTGCCTTGGGCTAGTCAGAGTGGCGGGTGTATGGCACATCCTTTCCTTTAAGTTATGGATTGTCAAGACCTTATTCCGCACTTTCACCACTCAGGTTAAATTCTACTGCTTCAAACGCACCACACCTTGA ATGGAACTGGAGAATAATGAGAAAGAAATTAGAATTGCTATGTCATCCATTGAAGAAAACACAAGAAAGCTGTATGAGGTAACAGAGAAGGGTTGTATTGAAAGCTTGAAGATATTGATGGAAGAAGATCCATATATCATTCAAACAGTTGTTAGTACCTCTTCTTCCAACAACAATGAGACCCATCTTCCATTATTGCACCTCTCTATTTCCAGTGGCCATCTTGAATTCACTCGACTCCTAATTCATTACAAGCCTCAACTAGCTGCCGAGGTTGACTCGCTTCAACGAACTCCCCTCCATCTCGCTTCTAAACTTGGAAAAATGGAGATTGTTGAAGCTTTGTTGGAGAAGAACATGAGTGCTTGCTTTGTTTACGACAGTGATGGGATGATTCCTCTTCACTATGCAGTACTTTCTGGACAAACGGATGTAATACAAAAGCTTGTCAAAGTAAGGCCAAGATCTCTTTGGATGAAGCTTAAGAACAACGGTCAAACGGTTTTACATTTATGTGTTGAGAGTAACCATTTGGAAGTGATGAAGTTTCTTATTGAAACATACGTGAATGATGATGAAGACTTCCTTAACTCAATCGATGACCATGGAAACACTATTTTGGATCTATCGATGTTGCTCAGACAAAGAAAGATGGTGGGATATTTACTTTCGGCTCTAGAAGTAAAAACTAAAACAAGCATCATTACAAACTTTGAAACTTCTGATGGCACGAACGAAAGTTTAGAACTCCAAGAGATCTCAAAGACAAGAAATCCCAAAAGACAAAAATCAGGAAAACATGGATCGAAAAAGACAACTAAGCCACGGTGGAGGGCATGGAGAACAAATTTGAAGTATAAAGGGGGTTGGTTTCAAGAAGTGCAAGGCACAATGATGCTTGTGGCTACGGTCATTGCTACCGTCACTTTTCAAGCCGGAGTGAACCCTCCTGGTGGCGTTTGGCAACCAGACACTCCATTTAATTCTTCCTACTACTTCAATAATGATCCAAGATCATTTAATTCTTCCAGCTACTTCGATTATGGTCCATATTATATACCGAGCATACAATTAACAGCTGGAACTGCAATCATGATGTATTTAGAACCCGACAAATATACGGCTTACACACACATGAATACAATCTCGTTCTTGGCATCTATAAGTGTGATTTTGTTGGTCGTTGGCCGGTTTCCTTTGAAAAATAAGATCTGTAGCTGGCTGTTGGCACTGGCCATGTCTGTTGCGGTGGCGGCCTTAGGACAGGGGTATTTTCTAGGAGTTGAGATGGTTAACAAATATTCGTACTTTAATGATTCTTTCAGTGGATCATTCTATTTGTTATATTTATTAGTTATCTCTTGCCTTGGGCTAGTCAGAGTGGCGGGTGTATGGCACATCCTTTCCTTTAAGTTATGGATTGTCAAGACCTTATTCCGCACTTTCACCACTCAGGTTAAATTCTACTGCTTCAAACGCACCACACCTTGA ATGGAACTGGAGAATAATGAGAAAGAAATTAGAATTGCTATGTCATCCATTGAAGAAAACACAAGAAAGCTGTATGAGGTAACAGAGAAGGGTTGTATTGAAAGCTTGAAGATATTGATGGAAGAAGATCCATATATCATTCAAACAGTTGTTAGTACCTCTTCTTCCAACAACAATGAGACCCATCTTCCATTATTGCACCTCTCTATTTCCAGTGGCCATCTTGAATTCACTCGACTCCTAATTCATTACAAGCCTCAACTAGCTGCCGAGGTTGACTCGCTTCAACGAACTCCCCTCCATCTCGCTTCTAAACTTGGAAAAATGGAGATTGTTGAAGCTTTGTTGGAGAAGAACATGAGTGCTTGCTTTGTTTACGACAGTGATGGGATGATTCCTCTTCACTATGCAGTACTTTCTGGACAAACGGATGTAATACAAAAGCTTGTCAAAGTAAGGCCAAGATCTCTTTGGATGAAGCTTAAGAACAACGGTCAAACGGTTTTACATTTATGTGTTGAGAGTAACCATTTGGAAGTGATGAAGTTTCTTATTGAAACATACGTGAATGATGATGAAGACTTCCTTAACTCAATCGATGACCATGGAAACACTATTTTGGATCTATCGATGTTGCTCAGACAAAGAAAGATGGTGGGATATTTACTTTCGGCTCTAGAAGTAAAAACTAAAACAAGCATCATTACAAACTTTGAAACTTCTGATGGCACGAACGAAAGTTTAGAACTCCAAGAGATCTCAAAGACAAGAAATCCCAAAAGACAAAAATCAGGAAAACATGGATCGAAAAAGACAACTAAGCCACGGTGGAGGGCATGGAGAACAAATTTGAAGTATAAAGGGGGTTGGTTTCAAGAAGTGCAAGGCACAATGATGCTTGTGGCTACGGTCATTGCTACCGTCACTTTTCAAGCCGGAGTGAACCCTCCTGGTGGCGTTTGGCAACCAGACACTCCATTTAATTCTTCCTACTACTTCAATAATGATCCAAGATCATTTAATTCTTCCAGCTACTTCGATTATGGTCCATATTATATACCGAGCATACAATTAACAGCTGGAACTGCAATCATGATGTATTTAGAACCCGACAAATATACGGCTTACACACACATGAATACAATCTCGTTCTTGGCATCTATAAGTGTGATTTTGTTGGTCGTTGGCCGGTTTCCTTTGAAAAATAAGATCTGTAGCTGGCTGTTGGCACTGGCCATGTCTGTTGCGGTGGCGGCCTTAGGACAGGGGTATTTTCTAGGAGTTGAGATGGTTAACAAATATTCGTACTTTAATGATTCTTTCAGTGGATCATTCTATTTGTTATATTTATTAGTTATCTCTTGCCTTGGGCTAGTCAGAGTGGCGGGTGTATGGCACATCCTTTCCTTTAAGTTATGGATTGTCAAGACCTTATTCCGCACTTTCACCACTCAGGTTAAATTCTACTGCTTCAAACGCACCACACCTTGA MELENNEKEIRIAMSSIEENTRKLYEVTEKGCIESLKILMEEDPYIIQTVVSTSSSNNNETHLPLLHLSISSGHLEFTRLLIHYKPQLAAEVDSLQRTPLHLASKLGKMEIVEALLEKNMSACFVYDSDGMIPLHYAVLSGQTDVIQKLVKVRPRSLWMKLKNNGQTVLHLCVESNHLEVMKFLIETYVNDDEDFLNSIDDHGNTILDLSMLLRQRKMVGYLLSALEVKTKTSIITNFETSDGTNESLELQEISKTRNPKRQKSGKHGSKKTTKPRWRAWRTNLKYKGGWFQEVQGTMMLVATVIATVTFQAGVNPPGGVWQPDTPFNSSYYFNNDPRSFNSSSYFDYGPYYIPSIQLTAGTAIMMYLEPDKYTAYTHMNTISFLASISVILLVVGRFPLKNKICSWLLALAMSVAVAALGQGYFLGVEMVNKYSYFNDSFSGSFYLLYLLVISCLGLVRVAGVWHILSFKLWIVKTLFRTFTTQVKFYCFKRTTP Homology
BLAST of IVF0026031.2 vs. ExPASy Swiss-Prot
Match: Q8GYH5 (Ankyrin repeat-containing protein BDA1 OS=Arabidopsis thaliana OX=3702 GN=BAD1 PE=1 SV=1) HSP 1 Score: 75.1 bits (183), Expect = 2.5e-12 Identity = 77/312 (24.68%), Postives = 140/312 (44.87%), Query Frame = 0
BLAST of IVF0026031.2 vs. ExPASy Swiss-Prot
Match: Q54KA7 (Ankyrin repeat, PH and SEC7 domain containing protein secG OS=Dictyostelium discoideum OX=44689 GN=secG PE=2 SV=1) HSP 1 Score: 66.6 bits (161), Expect = 8.9e-10 Identity = 58/201 (28.86%), Postives = 95/201 (47.26%), Query Frame = 0
BLAST of IVF0026031.2 vs. ExPASy Swiss-Prot
Match: Q9ZU96 (Ankyrin repeat-containing protein At2g01680 OS=Arabidopsis thaliana OX=3702 GN=At2g01680 PE=2 SV=1) HSP 1 Score: 65.5 bits (158), Expect = 2.0e-09 Identity = 60/223 (26.91%), Postives = 104/223 (46.64%), Query Frame = 0
BLAST of IVF0026031.2 vs. ExPASy Swiss-Prot
Match: Q92625 (Ankyrin repeat and SAM domain-containing protein 1A OS=Homo sapiens OX=9606 GN=ANKS1A PE=1 SV=4) HSP 1 Score: 62.8 bits (151), Expect = 1.3e-08 Identity = 45/135 (33.33%), Postives = 68/135 (50.37%), Query Frame = 0
BLAST of IVF0026031.2 vs. ExPASy Swiss-Prot
Match: Q8WXD9 (Caskin-1 OS=Homo sapiens OX=9606 GN=CASKIN1 PE=1 SV=1) HSP 1 Score: 62.4 bits (150), Expect = 1.7e-08 Identity = 46/176 (26.14%), Postives = 87/176 (49.43%), Query Frame = 0
BLAST of IVF0026031.2 vs. ExPASy TrEMBL
Match: A0A1S3CM14 (uncharacterized protein LOC103501999 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103501999 PE=4 SV=1) HSP 1 Score: 969.1 bits (2504), Expect = 6.8e-279 Identity = 496/496 (100.00%), Postives = 496/496 (100.00%), Query Frame = 0
BLAST of IVF0026031.2 vs. ExPASy TrEMBL
Match: A0A0A0LFQ3 (ANK_REP_REGION domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_3G846590 PE=4 SV=1) HSP 1 Score: 741.1 bits (1912), Expect = 3.0e-210 Identity = 398/503 (79.13%), Postives = 432/503 (85.88%), Query Frame = 0
BLAST of IVF0026031.2 vs. ExPASy TrEMBL
Match: A0A1S3BIS1 (uncharacterized protein LOC103490026 OS=Cucumis melo OX=3656 GN=LOC103490026 PE=4 SV=1) HSP 1 Score: 433.7 bits (1114), Expect = 1.0e-117 Identity = 256/495 (51.72%), Postives = 337/495 (68.08%), Query Frame = 0
BLAST of IVF0026031.2 vs. ExPASy TrEMBL
Match: A0A1S3CKK7 (inversin-A-like isoform X2 OS=Cucumis melo OX=3656 GN=LOC103501999 PE=4 SV=1) HSP 1 Score: 425.6 bits (1093), Expect = 2.8e-115 Identity = 223/237 (94.09%), Postives = 227/237 (95.78%), Query Frame = 0
BLAST of IVF0026031.2 vs. ExPASy TrEMBL
Match: A0A5A7UTH2 (Inversin-A-like isoform X2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold606G001890 PE=4 SV=1) HSP 1 Score: 423.3 bits (1087), Expect = 1.4e-114 Identity = 217/218 (99.54%), Postives = 218/218 (100.00%), Query Frame = 0
BLAST of IVF0026031.2 vs. NCBI nr
Match: XP_008464012.1 (PREDICTED: uncharacterized protein LOC103501999 isoform X1 [Cucumis melo]) HSP 1 Score: 972 bits (2512), Expect = 0.0 Identity = 496/496 (100.00%), Postives = 496/496 (100.00%), Query Frame = 0
BLAST of IVF0026031.2 vs. NCBI nr
Match: XP_004141216.1 (uncharacterized protein LOC101203970 [Cucumis sativus] >KGN59794.1 hypothetical protein Csa_000761 [Cucumis sativus]) HSP 1 Score: 744 bits (1920), Expect = 1.35e-266 Identity = 398/503 (79.13%), Postives = 432/503 (85.88%), Query Frame = 0
BLAST of IVF0026031.2 vs. NCBI nr
Match: XP_008464013.1 (PREDICTED: inversin-A-like isoform X2 [Cucumis melo]) HSP 1 Score: 429 bits (1102), Expect = 2.28e-146 Identity = 223/237 (94.09%), Postives = 227/237 (95.78%), Query Frame = 0
BLAST of IVF0026031.2 vs. NCBI nr
Match: KAA0058458.1 (inversin-A-like isoform X2 [Cucumis melo var. makuwa] >TYK07288.1 inversin-A-like isoform X2 [Cucumis melo var. makuwa]) HSP 1 Score: 426 bits (1096), Expect = 8.08e-146 Identity = 217/218 (99.54%), Postives = 218/218 (100.00%), Query Frame = 0
BLAST of IVF0026031.2 vs. NCBI nr
Match: XP_008447612.1 (PREDICTED: uncharacterized protein LOC103490026 [Cucumis melo]) HSP 1 Score: 437 bits (1123), Expect = 2.23e-145 Identity = 258/492 (52.44%), Postives = 338/492 (68.70%), Query Frame = 0
BLAST of IVF0026031.2 vs. TAIR 10
Match: AT4G10720.1 (Ankyrin repeat family protein ) HSP 1 Score: 97.4 bits (241), Expect = 3.3e-20 Identity = 83/320 (25.94%), Postives = 147/320 (45.94%), Query Frame = 0
BLAST of IVF0026031.2 vs. TAIR 10
Match: AT4G10720.2 (Ankyrin repeat family protein ) HSP 1 Score: 97.4 bits (241), Expect = 3.3e-20 Identity = 83/320 (25.94%), Postives = 147/320 (45.94%), Query Frame = 0
BLAST of IVF0026031.2 vs. TAIR 10
Match: AT5G51160.1 (Ankyrin repeat family protein ) HSP 1 Score: 94.7 bits (234), Expect = 2.2e-19 Identity = 101/388 (26.03%), Postives = 174/388 (44.85%), Query Frame = 0
BLAST of IVF0026031.2 vs. TAIR 10
Match: AT4G03500.1 (Ankyrin repeat family protein ) HSP 1 Score: 87.8 bits (216), Expect = 2.6e-17 Identity = 107/445 (24.04%), Postives = 186/445 (41.80%), Query Frame = 0
BLAST of IVF0026031.2 vs. TAIR 10
Match: AT5G54620.1 (Ankyrin repeat family protein ) HSP 1 Score: 79.0 bits (193), Expect = 1.2e-14 Identity = 81/317 (25.55%), Postives = 144/317 (45.43%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (IVF77) v1
Date Performed: 2021-10-25
Relationships
This mRNA is a part of the following gene feature(s):
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following polypeptide feature(s) derives from this mRNA:
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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