MELO3C009560 (gene) Melon (DHL92) v4
Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ACCATTGTCCATAGTTGGGAATAAATCTTAAATCTCCACCCTCCACCCTCCAAGAAAGGGGGAGAAAAAACGTTTAATCAAATCTTAGAAAATATCTAAACTTGCAAGAATTATTTATCATCCCCAAGTCTTATTCGATTAATACTAAAAGAATTGACTTAGTTTGTCACTTTCCTATGAGATTTCAAAGATGAGGCTACAATTACACACAAATTAACCAAACTAACAGTCCAAATTCAGAAGTTTCAATCTTTGTTCAAGATGATTGCCTAGAAATCAGTGGGGGATTGAATTGGGATTGGGAAAGGTTGAAAATTTGAATTCAGTTGACTATTCAAAAACCAATTTCAGCGTAAGAACAAAGGCAAGGACGTGACCATCATTCATTCATTCATTCATTCATTCACTGAATGACGTTTCCTTCGAATATTACAAAGCTAAGGCCCCGCGCCAAATCCCCAATTCCTTTTTCTTTCTCTCCTTTCCCTTCTTTTTCCTTCGCCATTGTAGTTTTCTTCCGGACCCATCTTCTTGATTTGCTCCAAATCACTCACTGTTTATCACTTTTTCTGTTTTCCTTCAACCCCACCTCGAAAAAAGGCTGCTCTGCCCGATCTTTACTAGTTCTTGCCATTGGGGATGAGTTAACTTAGCGTATTCAAACAAACCCTTTGTGGGTTTCATTTGATTCTTCTTCTATCTTTCTTTTGTGGTGGATTCGATTGCTTCTTGAAACGTGTGATTTAGCGGTGGAGTGAGTTAATATCGAGGGCGAAACGAACGCCTGACACTGACCATGTTTCTGGATTTGCTCGTATCAGCTGGCTTTGTCTCCTCAGCAATAACCGATGTGATTTGTATTAAGTCTTATTGAGATCTGCATTTACTGTCGGGGAATTTTATTCTGGAAGAGTTGGAGATGTTTATATATGCTGACTGGTCAATCCTCAGCTTCAATATTGAAAAATTTGGAGTTTTCTTACTGTAGTTCCATCTGGGTACTTTCCTTTTTTCATGCATTCAACCAATAATTCTGATGATTAACAATACATATCATGTGTTTACTGTGCTTTGATTTTCTAAGCTTTACTGTCGCACTGAAACTTTTGTAGATCTCTGAAAAGGAGAGTTTTGGAAAGCCTTCTTTACCGGGAGAAAGGGGGGTGTTATGTCATCATTGAAATTTGCTTTTATTTGAACCATGATTTTTGTGCTGAATACGTGTGAATGCATTTCTTTTTATCTTTTGTGGGTTTGATTTATTTCTTTATTGGTTGGTATGGATTACTTTTATGTAAAGCTATACGATGATGGTGAGTTTGCTTAAATGGCATGTGCTATTCATTCGATCCGTTCTCATTTGCTAAGATGTGTAGAGCATTTAGAGAGTCCCTTTGAATTTAAGAAAATTCTAATAAGTAAGATTCCTATGAGCTTGTTGGCTAGCATTTTGGAACTTGCAAGATCTTCTGTTAAGATTTTTTTGGTAATTTGTAAGTAATCTTCTTCTTCCTAAGGATTCGATTGTCATTTAAAGCTGTTTATATCTTCTTAAACGTACTAGTGTTGCTTCATCTAATGTCAACAAGGGATGTTAATTATTTCCTCAACCCACTTTCTATTTATCTGCTACAAATTTGAATCCAAGTTCAAATGCTTTGCTTAAAGTATTTACAGTCGATCAAGTTTGAGTAAGGTACTAAGGTTTCAATGAACCTGTGATTAAATGGCTACTGATGATGCATTTTCATTGTTCTGGTTCAATTTCTCGGAACTTTATTAACACCATCCATCTCATAAAAATCTAGGAGGTGATTCTGAAGACAAGGTGAAAATTTTCGCATCCTTTTCCCTGGTGCCTTCTGACAGAAGACGAATTGTTCCTTTTTAAGTTCAAATGCCAGATGGAGAAAAAGAAAAAGATCACGCAGTATAGAGAGAGGCTAGATAAAACACTTGCATCTCCTGATCTAACAAACCAGGAGTCTATTAATTCTCTAGTTTCAAATCAAATTCACCTTTCGAATTTGAGACATGGAACTGAAGGTTGGTGATGAACTGATGGATCAGGATATTTAGACATTTTGAGCTTATGTATGTCCTCATCATGTTGGTTTAACCATCCATTCTGGAGGTTCTGATATTTCTTTTATATGTTGAAGGATGTAATGATAATGTGGTATTGCGAAGAACTGCCGAAGTATCAAATTTTCTTGACATGTTGAGAAGTGCTTCAAGTAATGATAATGCTAGCAGCAGAGCTTCTGAGACAGGGCATTCTGAATGGAAAGTATGTTATGCTGAAATTTCATCTTCATCGTTTCTGTTGTATTTAAATCTAAATTCTATTTTCTCATTCCACAGAAAATAAAAGGTAAAATTTGATGAGTGAATAAAAGAAAACCAACTGTTATAACTAACATCTCCATCACTTTACAGGTTACACTTATCCCCAATTGTTAAAATTAAAAAAAAAGTGGGGAAGAAGAACGTTCTGATGACTTATTTGTTGATCTTTGTTTCCTGCGTACAGTGAAACGTTGCCTATTGCCTTGTGTTTCCATGCAATATGCAAGAGTTGTGAAATTTTGACCTGTTGTATAGTACTCCTATAATATCAGAAAATGTTAAAACTTTCTCGTATAATGAACCTATCTTAGAGTTTGTGAAGTCAATTTTATTTGAGAGTCGGGTCGCACTTGGATCGTGTGATCAATTAAAATCTTCCATATTTCAGATGAAGCAGGATGATGAAGAATTTCGAGTTATGTATCGGGAAGGACCAAAGGGCACTCCATATCATACGTTACTTGTTGAAGGTTTTGTAGATGGGCCTGTTGATATTTGTAAGTGTTACTGATAAATAGTTGACTTTATCCTAAAAATTTTAATTTGTTAAATCACATTTAACCTCGATGTGATTGTTGATCATGGACACAACTCCCACTTATTTGTTTGCAGGTTTGTGTACGTCTTGGGAGTCTGAACTTTATAAAAGATGGTGGGTATAATCTTTGATCTTTTGTGTATTTTGGAAAAACTATGTCTGGTTGTGCATGCTTAACATGTATTAGTTTGCAAAGAGAAAAAGAAACAAGTAAACAAAGCTTCTGTTATGCGCTGAAGTCGATAATATGACATACGCTTAATTCATATTACTCTTTGGACGTTCGTTCTGTTGTTATCAACTTTCCTTCCGGTTATTATTATACATCTTTGTGGATGGTCAATGGTATTTGGTTGGGATGATCTTTTCAGTGTTCCCTTTTTTTCTTTTATTTGCGGAGTATTAAGAATCTTACCTGAAATGGCCCATCTCTCAATTCATAATGTGACTTCACTCACTCAAAGACCAGCTTCAGGAAACAACAATGGATAAGATTATTATTAGGGGGCTCCGTTTAGCTATGCAAAAATTACCCTAATTCACCTTGGACCCACAACATGGCATCAGTCCTAGCCAAAGTGCTGAATTATATGAGTTTTAAATTAACTCTTAACAATGAACTGATTAAATGACGTTTGTGGGAGGCATAGTCACTAGTTTTCTCTTTCCACTTTTCTCCCTCAGGTGGCCTCAATTTACCCTGCCATCCTTCAAAATTCTCACCAGCAAATGTCTCCAGAAAGTGCGGATTGGTGAACAGATTGCGTTAGTAAGGTTTGTCTAGCTATACAGTCAGCATTTACATGCACACACACAAATATATCAGCCTCTCATTTTTATTTTGGAATACTGAACTTCTTTAATTTTTTTGAAAGCAAGGGTGAAGGTTTCATGGCCCCTGTCAACCAGGGAGATCGTCGTGCACTATTTTTTGTTTGAGTACTTTCAGGATGACCTTATTGTCATTCTTCTGAACTCGGTAATTTTTTCCTTTAGATTAACAGTTGTAAATCTTCTAAAGCATGTAAATCGTTGTAAACTAGGATTTCCCCCGCTTTTTGCTCCTTGTTTTTGTTTGGGCTAACCCGCTAACTGCTGGATTGACATCTAAATACAAAGATGGTTTTATTATGTTTCTTTCATTTCAGATATCTGATCTGGACAGCATTGATGTAACTACTCATGGATTCACCAGGCATGCTATACCGGATGCAGATGACGTTGTAAGGATTGATGTCGTGGGAGGCTTTGCTATACAGAAGGTGACAGATAACAGGAGCTACTTCCGGTGAAGATTTTTCTCTCTTTTGCCACTGACATTAATTTACTAATCCCAGCGAACTCTGTTGTTAATAAATTAAGTTCAACATAAACATATAAGAAAGTGAGTACGGTTGACTAGGGCTGGTATGCTGTTGACTTGGACAATAATTTTTTAATCCATTAATTGTAAGGACCATTGGAATTGATAAGTTGAAGCACGAGAATAAAATAGAAACTTATAAATTACATGTACTGACAAACACATAAGTGCTAGTTTGAGAAGTATAATTTAACCGTTTTCTAAAAATGTTGAATTGAGTCCCTAACCAAATTTATTCTGTATGTAGTTCAAATGTTATAGAGCTTTGTAATTGAAATGGCATTATATAGCTTATTTGAGATAATTTTTTAGACTATAGTTATTGATTCTGCTATGCCAAAATTATTTAGAATCTCTTATGAAAATAGCTTTATGTCATGAGTTTCCTGAGATTGAGTTTGTGGCGTATGTTGGGTTGTAAAATAACTTGAGAATCGAGATTATCATCCATATGCTATTATGCACCACTATGGGGATTGGAAAGAAACCTATCTCGAAAATTTATTGTTCGTGACTCCTTGTTCTGTAAGAAATCCTTTTTTGTTACCTAGTCCATATTATCATATGGAACTTGAACAGTGAAAATTTTTGCAGGACAATTGCAAACATGGACATGAAGCTGGATTTTGTCCCTCCATCGCTCATTAACTTCGTCTCAAGGCAACTTATTGGCAGTGGTTTCCGGCTCTATCAAAAGGTTATACATTTTTTTAATCCAATGTAGTCGGGAACTAATCCTCAAAATTATATTATTTGTTGCTCTATTTTTCTAATTCTTATTTTCAAATTAATATCTTCATTAGTTCTCCATCTTCCATTTTTTAAGAGGTTTGGGAACTGTAGAACAACCTTCAAAGTTTACCTGGACGCAATTATTCTAATATTATGTTCCACTGTCGTCTTTAAAATTCCATTGTCAATAATATTGCAGGTAGTGGCTTCTTTCAAATCTGATGAAGATTTTATGAAGGCTTTGAAAGACCCACTTTACACTCGTATAAATGAAGCCCTCTACCAGAGGAATAGAAAAGAAAAGGTGTTTGAAGAAAAAGAGGTCGGTTATCAAATCGATCAAGCTGGAATGCATTATTTTCAAGAAGAGCAGCTGGAAGAGCAGGAGGAAAATTCGATGGAAGATCAGACGGTTAATGTCATTTATGATGCAAATGAACCCACAAAAACTGCCATTGAGATCAACGAAACTAAATCTTTTGGGGAAATTGAGGAGGAAGAGAGCAAAGAAAGTAGGGATGATAAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAGGATAAAAATGACACTTTAGATATTAGTATTGCAGAAAAAAGTAACTTTAAGGGTAAAAAAGTTTCTATAATTAGTCCAGAGGTGGAAAAGGCTCTCCAAACTTTAGATGAAGTCATTAATATGATGAGGAAATGTAGACTCAATACTGAAGCGAAGGCTGCTTCTTGCTTGATTGATGAAAAGCCTCCAGATATGGAGAAGGATACTGAGAAGAACTTGAGTATTTCAAAAGACACCAATGTTTATCCGGAAGTCAAGCTTTTTGCTAATTTGTCAAAGAAAGAAACCACAGAGAGAGGTTCAGATGAACCACCTCGAACGAGCTCTAACCATAGTTCCAGGTAATAATTTTAATTGAACCGCACCATTTTCTATGATGTTATCACATTGAATGCTTTAAAAACTATCATGGGTTGGCTAAGTGGTTAATAAAAGTTAGTTCTATGGTGATCATCTAATCTATAAGAGTTTTCCTAGTAACCAAATGTTGTCATGGTTAAACTAATTTTTATCATGAAGCATCATGGACATGAAAACATATAAAACTCTGGAACGAAAATGCATCTCAATAGTTTGACAAGTTTGTCTAATTATGCTTTTGAATTGTATTACAGGCGTTTAGGATCATCAAATTCTTTGTCCAAGGATGTCAACCACAACAAAATAGTTCCAGCATCTCCAGAACAGAAATCTTTACCCTCTGGACCTGCTGAAGTTAACCACACGATATCAAGTTTCATCGAACATGGAATGACACAAAATCTGCATTCAGATCAAAATTCTCATGATCATGTTAAGCAACCAATAAGTCAGCATAATAGCATCAATGACATCAGTGAGGATGCAGTGGAGAGGTATGTGAGGAACAGAAAAACCCGGTACTGGTGCTTTCCGGGGAGTCCGATTCGGCTTAAGAAGGGAAGAAGTTGAAGTCTAGTTGAAGGTGAAGCAGAAATGACAAATGCATTTCTGAAGAAGCCACCCTTAACTGATTATTTAACAAGGTTTCTTCTTAACATCTTACTACATCTGTAAAAACATCAATAAACTCCAATTTGGCTGAATTTTTGTGTTTTCGTTTATTACCAATGTTATATAAATATATATTTATGATAACTCTCTTTTATTTGATTGTAACTGATAACTTGTGGAAGGAATGAGCTCCCTGAATAAACCCTTTTGGCAAAGATTAATGTGTAATGGTTTCAATTTGAGATTTATATGAAAACATTTTTTAAAGAAAAACATTCTTTACAAAATATTGGCAAT ACCATTGTCCATAGTTGGGAATAAATCTTAAATCTCCACCCTCCACCCTCCAAGAAAGGGGGAGAAAAAACGTTTAATCAAATCTTAGAAAATATCTAAACTTGCAAGAATTATTTATCATCCCCAAGTCTTATTCGATTAATACTAAAAGAATTGACTTAGTTTGTCACTTTCCTATGAGATTTCAAAGATGAGGCTACAATTACACACAAATTAACCAAACTAACAGTCCAAATTCAGAAGTTTCAATCTTTGTTCAAGATGATTGCCTAGAAATCAGTGGGGGATTGAATTGGGATTGGGAAAGGTTGAAAATTTGAATTCAGTTGACTATTCAAAAACCAATTTCAGCGTAAGAACAAAGGCAAGGACGTGACCATCATTCATTCATTCATTCATTCATTCACTGAATGACGTTTCCTTCGAATATTACAAAGCTAAGGCCCCGCGCCAAATCCCCAATTCCTTTTTCTTTCTCTCCTTTCCCTTCTTTTTCCTTCGCCATTGTAGTTTTCTTCCGGACCCATCTTCTTGATTTGCTCCAAATCACTCACTGTTTATCACTTTTTCTGTTTTCCTTCAACCCCACCTCGAAAAAAGGCTGCTCTGCCCGATCTTTACTAGTTCTTGCCATTGGGGATGAGTTAACTTAGCGTATTCAAACAAACCCTTTGTGGGTTTCATTTGATTCTTCTTCTATCTTTCTTTTGTGGTGGATTCGATTGCTTCTTGAAACGTGTGATTTAGCGGTGGAGTGAGTTAATATCGAGGGCGAAACGAACGCCTGACACTGACCATGTTTCTGGATTTGCTCGTATCAGCTGGCTTTGTCTCCTCAGCAATAACCGATGTGATTTGTATTAAGTCTTATTGAGATCTGCATTTACTGTCGGGGAATTTTATTCTGGAAGAGTTGGAGATGTTTATATATGCTGACTGGTCAATCCTCAGCTTCAATATTGAAAAATTTGGAGTTTTCTTACTGTAGTTCCATCTGGGAGGTGATTCTGAAGACAAGGTGAAAATTTTCGCATCCTTTTCCCTGGTGCCTTCTGACAGAAGACGAATTGTTCCTTTTTAAGTTCAAATGCCAGATGGAGAAAAAGAAAAAGATCACGCAGTATAGAGAGAGGCTAGATAAAACACTTGCATCTCCTGATCTAACAAACCAGGAGTCTATTAATTCTCTAGTTTCAAATCAAATTCACCTTTCGAATTTGAGACATGGAACTGAAGGATGTAATGATAATGTGGTATTGCGAAGAACTGCCGAAGTATCAAATTTTCTTGACATGTTGAGAAGTGCTTCAAGTAATGATAATGCTAGCAGCAGAGCTTCTGAGACAGGGCATTCTGAATGGAAAATGAAGCAGGATGATGAAGAATTTCGAGTTATGTATCGGGAAGGACCAAAGGGCACTCCATATCATACGTGGCCTCAATTTACCCTGCCATCCTTCAAAATTCTCACCAGCAAATGTCTCCAGAAAGTGCGGATTGGTGAACAGATTGCGTTAGATGACCTTATTGTCATTCTTCTGAACTCGATATCTGATCTGGACAGCATTGATGTAACTACTCATGGATTCACCAGGCATGCTATACCGGATGCAGATGACGTTGTAAGGATTGATGTCGTGGGAGGCTTTGCTATACAGAAGGTGACAGATAACAGGAGCTACTTCCGGACAATTGCAAACATGGACATGAAGCTGGATTTTGTCCCTCCATCGCTCATTAACTTCGTCTCAAGGCAACTTATTGGCAGTGGTTTCCGGCTCTATCAAAAGGTAGTGGCTTCTTTCAAATCTGATGAAGATTTTATGAAGGCTTTGAAAGACCCACTTTACACTCGTATAAATGAAGCCCTCTACCAGAGGAATAGAAAAGAAAAGGTGTTTGAAGAAAAAGAGGTCGGTTATCAAATCGATCAAGCTGGAATGCATTATTTTCAAGAAGAGCAGCTGGAAGAGCAGGAGGAAAATTCGATGGAAGATCAGACGGTTAATGTCATTTATGATGCAAATGAACCCACAAAAACTGCCATTGAGATCAACGAAACTAAATCTTTTGGGGAAATTGAGGAGGAAGAGAGCAAAGAAAGTAGGGATGATAAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAGGATAAAAATGACACTTTAGATATTAGTATTGCAGAAAAAAGTAACTTTAAGGGTAAAAAAGTTTCTATAATTAGTCCAGAGGTGGAAAAGGCTCTCCAAACTTTAGATGAAGTCATTAATATGATGAGGAAATGTAGACTCAATACTGAAGCGAAGGCTGCTTCTTGCTTGATTGATGAAAAGCCTCCAGATATGGAGAAGGATACTGAGAAGAACTTGAGTATTTCAAAAGACACCAATGTTTATCCGGAAGTCAAGCTTTTTGCTAATTTGTCAAAGAAAGAAACCACAGAGAGAGGTTCAGATGAACCACCTCGAACGAGCTCTAACCATAGTTCCAGGCGTTTAGGATCATCAAATTCTTTGTCCAAGGATGTCAACCACAACAAAATAGTTCCAGCATCTCCAGAACAGAAATCTTTACCCTCTGGACCTGCTGAAGTTAACCACACGATATCAAGTTTCATCGAACATGGAATGACACAAAATCTGCATTCAGATCAAAATTCTCATGATCATGTTAAGCAACCAATAAGTCAGCATAATAGCATCAATGACATCAGTGAGGATGCAGTGGAGAGGTATGTGAGGAACAGAAAAACCCGGTACTGGTGCTTTCCGGGGAGTCCGATTCGGCTTAAGAAGGGAAGAAGTTGAAGTCTAGTTGAAGGTGAAGCAGAAATGACAAATGCATTTCTGAAGAAGCCACCCTTAACTGATTATTTAACAAGGTTTCTTCTTAACATCTTACTACATCTGTAAAAACATCAATAAACTCCAATTTGGCTGAATTTTTGTGTTTTCGTTTATTACCAATGTTATATAAATATATATTTATGATAACTCTCTTTTATTTGATTGTAACTGATAACTTGTGGAAGGAATGAGCTCCCTGAATAAACCCTTTTGGCAAAGATTAATGTGTAATGGTTTCAATTTGAGATTTATATGAAAACATTTTTTAAAGAAAAACATTCTTTACAAAATATTGGCAAT ATGGAGAAAAAGAAAAAGATCACGCAGTATAGAGAGAGGCTAGATAAAACACTTGCATCTCCTGATCTAACAAACCAGGAGTCTATTAATTCTCTAGTTTCAAATCAAATTCACCTTTCGAATTTGAGACATGGAACTGAAGGATGTAATGATAATGTGGTATTGCGAAGAACTGCCGAAGTATCAAATTTTCTTGACATGTTGAGAAGTGCTTCAAGTAATGATAATGCTAGCAGCAGAGCTTCTGAGACAGGGCATTCTGAATGGAAAATGAAGCAGGATGATGAAGAATTTCGAGTTATGTATCGGGAAGGACCAAAGGGCACTCCATATCATACGTGGCCTCAATTTACCCTGCCATCCTTCAAAATTCTCACCAGCAAATGTCTCCAGAAAGTGCGGATTGGTGAACAGATTGCGTTAGATGACCTTATTGTCATTCTTCTGAACTCGATATCTGATCTGGACAGCATTGATGTAACTACTCATGGATTCACCAGGCATGCTATACCGGATGCAGATGACGTTGTAAGGATTGATGTCGTGGGAGGCTTTGCTATACAGAAGGTGACAGATAACAGGAGCTACTTCCGGACAATTGCAAACATGGACATGAAGCTGGATTTTGTCCCTCCATCGCTCATTAACTTCGTCTCAAGGCAACTTATTGGCAGTGGTTTCCGGCTCTATCAAAAGGTAGTGGCTTCTTTCAAATCTGATGAAGATTTTATGAAGGCTTTGAAAGACCCACTTTACACTCGTATAAATGAAGCCCTCTACCAGAGGAATAGAAAAGAAAAGGTGTTTGAAGAAAAAGAGGTCGGTTATCAAATCGATCAAGCTGGAATGCATTATTTTCAAGAAGAGCAGCTGGAAGAGCAGGAGGAAAATTCGATGGAAGATCAGACGGTTAATGTCATTTATGATGCAAATGAACCCACAAAAACTGCCATTGAGATCAACGAAACTAAATCTTTTGGGGAAATTGAGGAGGAAGAGAGCAAAGAAAGTAGGGATGATAAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAGGATAAAAATGACACTTTAGATATTAGTATTGCAGAAAAAAGTAACTTTAAGGGTAAAAAAGTTTCTATAATTAGTCCAGAGGTGGAAAAGGCTCTCCAAACTTTAGATGAAGTCATTAATATGATGAGGAAATGTAGACTCAATACTGAAGCGAAGGCTGCTTCTTGCTTGATTGATGAAAAGCCTCCAGATATGGAGAAGGATACTGAGAAGAACTTGAGTATTTCAAAAGACACCAATGTTTATCCGGAAGTCAAGCTTTTTGCTAATTTGTCAAAGAAAGAAACCACAGAGAGAGGTTCAGATGAACCACCTCGAACGAGCTCTAACCATAGTTCCAGGCGTTTAGGATCATCAAATTCTTTGTCCAAGGATGTCAACCACAACAAAATAGTTCCAGCATCTCCAGAACAGAAATCTTTACCCTCTGGACCTGCTGAAGTTAACCACACGATATCAAGTTTCATCGAACATGGAATGACACAAAATCTGCATTCAGATCAAAATTCTCATGATCATGTTAAGCAACCAATAAGTCAGCATAATAGCATCAATGACATCAGTGAGGATGCAGTGGAGAGGTATGTGAGGAACAGAAAAACCCGGTACTGGTGCTTTCCGGGGAGTCCGATTCGGCTTAAGAAGGGAAGAAGTTGA MEKKKKITQYRERLDKTLASPDLTNQESINSLVSNQIHLSNLRHGTEGCNDNVVLRRTAEVSNFLDMLRSASSNDNASSRASETGHSEWKMKQDDEEFRVMYREGPKGTPYHTWPQFTLPSFKILTSKCLQKVRIGEQIALDDLIVILLNSISDLDSIDVTTHGFTRHAIPDADDVVRIDVVGGFAIQKVTDNRSYFRTIANMDMKLDFVPPSLINFVSRQLIGSGFRLYQKVVASFKSDEDFMKALKDPLYTRINEALYQRNRKEKVFEEKEVGYQIDQAGMHYFQEEQLEEQEENSMEDQTVNVIYDANEPTKTAIEINETKSFGEIEEEESKESRDDKEEEEEEEEEEEDKNDTLDISIAEKSNFKGKKVSIISPEVEKALQTLDEVINMMRKCRLNTEAKAASCLIDEKPPDMEKDTEKNLSISKDTNVYPEVKLFANLSKKETTERGSDEPPRTSSNHSSRRLGSSNSLSKDVNHNKIVPASPEQKSLPSGPAEVNHTISSFIEHGMTQNLHSDQNSHDHVKQPISQHNSINDISEDAVERYVRNRKTRYWCFPGSPIRLKKGRS Homology
BLAST of MELO3C009560 vs. NCBI nr
Match: KAA0043794.1 (Mitotic checkpoint serine/threonine-protein kinase BUB1, putative isoform 1 [Cucumis melo var. makuwa]) HSP 1 Score: 1054.3 bits (2725), Expect = 3.8e-304 Identity = 570/622 (91.64%), Postives = 570/622 (91.64%), Query Frame = 0
BLAST of MELO3C009560 vs. NCBI nr
Match: TYK25340.1 (Mitotic checkpoint serine/threonine-protein kinase BUB1, putative isoform 1 [Cucumis melo var. makuwa]) HSP 1 Score: 1054.3 bits (2725), Expect = 3.8e-304 Identity = 570/622 (91.64%), Postives = 570/622 (91.64%), Query Frame = 0
BLAST of MELO3C009560 vs. NCBI nr
Match: XP_008442948.1 (PREDICTED: uncharacterized protein LOC103486699 [Cucumis melo] >XP_016899731.1 PREDICTED: uncharacterized protein LOC103486699 [Cucumis melo]) HSP 1 Score: 1049.3 bits (2712), Expect = 1.2e-302 Identity = 567/620 (91.45%), Postives = 568/620 (91.61%), Query Frame = 0
BLAST of MELO3C009560 vs. NCBI nr
Match: XP_011652044.1 (uncharacterized protein LOC101210898 [Cucumis sativus] >XP_011652045.1 uncharacterized protein LOC101210898 [Cucumis sativus] >KGN59232.1 hypothetical protein Csa_002108 [Cucumis sativus]) HSP 1 Score: 986.1 bits (2548), Expect = 1.3e-283 Identity = 540/623 (86.68%), Postives = 553/623 (88.76%), Query Frame = 0
BLAST of MELO3C009560 vs. NCBI nr
Match: XP_038903792.1 (uncharacterized protein LOC120090292 [Benincasa hispida] >XP_038903793.1 uncharacterized protein LOC120090292 [Benincasa hispida] >XP_038903794.1 uncharacterized protein LOC120090292 [Benincasa hispida]) HSP 1 Score: 866.3 bits (2237), Expect = 1.5e-247 Identity = 478/623 (76.73%), Postives = 516/623 (82.83%), Query Frame = 0
BLAST of MELO3C009560 vs. ExPASy TrEMBL
Match: A0A5D3DQ01 (Mitotic checkpoint serine/threonine-protein kinase BUB1, putative isoform 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold352G004790 PE=3 SV=1) HSP 1 Score: 1054.3 bits (2725), Expect = 1.8e-304 Identity = 570/622 (91.64%), Postives = 570/622 (91.64%), Query Frame = 0
BLAST of MELO3C009560 vs. ExPASy TrEMBL
Match: A0A5A7TKE7 (Mitotic checkpoint serine/threonine-protein kinase BUB1, putative isoform 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold236G001260 PE=3 SV=1) HSP 1 Score: 1054.3 bits (2725), Expect = 1.8e-304 Identity = 570/622 (91.64%), Postives = 570/622 (91.64%), Query Frame = 0
BLAST of MELO3C009560 vs. ExPASy TrEMBL
Match: A0A1S4DUS3 (uncharacterized protein LOC103486699 OS=Cucumis melo OX=3656 GN=LOC103486699 PE=3 SV=1) HSP 1 Score: 1049.3 bits (2712), Expect = 5.9e-303 Identity = 567/620 (91.45%), Postives = 568/620 (91.61%), Query Frame = 0
BLAST of MELO3C009560 vs. ExPASy TrEMBL
Match: A0A0A0LEU8 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G782790 PE=3 SV=1) HSP 1 Score: 986.1 bits (2548), Expect = 6.1e-284 Identity = 540/623 (86.68%), Postives = 553/623 (88.76%), Query Frame = 0
BLAST of MELO3C009560 vs. ExPASy TrEMBL
Match: A0A6J1F5G7 (uncharacterized protein LOC111442328 OS=Cucurbita moschata OX=3662 GN=LOC111442328 PE=3 SV=1) HSP 1 Score: 765.0 bits (1974), Expect = 2.2e-217 Identity = 432/627 (68.90%), Postives = 488/627 (77.83%), Query Frame = 0
BLAST of MELO3C009560 vs. TAIR 10
Match: AT5G06440.2 (BEST Arabidopsis thaliana protein match is: Polyketide cyclase/dehydrase and lipid transport superfamily protein (TAIR:AT3G11720.3); Has 157 Blast hits to 155 proteins in 41 species: Archae - 0; Bacteria - 6; Metazoa - 5; Fungi - 6; Plants - 99; Viruses - 0; Other Eukaryotes - 41 (source: NCBI BLink). ) HSP 1 Score: 243.0 bits (619), Expect = 5.7e-64 Identity = 196/532 (36.84%), Postives = 276/532 (51.88%), Query Frame = 0
BLAST of MELO3C009560 vs. TAIR 10
Match: AT5G06440.3 (BEST Arabidopsis thaliana protein match is: Polyketide cyclase/dehydrase and lipid transport superfamily protein (TAIR:AT3G11720.3); Has 157 Blast hits to 155 proteins in 41 species: Archae - 0; Bacteria - 6; Metazoa - 5; Fungi - 6; Plants - 99; Viruses - 0; Other Eukaryotes - 41 (source: NCBI BLink). ) HSP 1 Score: 243.0 bits (619), Expect = 5.7e-64 Identity = 196/532 (36.84%), Postives = 276/532 (51.88%), Query Frame = 0
BLAST of MELO3C009560 vs. TAIR 10
Match: AT5G06440.4 (FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: mitochondrion; EXPRESSED IN: 22 plant structures; EXPRESSED DURING: 12 growth stages; BEST Arabidopsis thaliana protein match is: Polyketide cyclase/dehydrase and lipid transport superfamily protein (TAIR:AT3G11720.3). ) HSP 1 Score: 240.4 bits (612), Expect = 3.7e-63 Identity = 196/539 (36.36%), Postives = 276/539 (51.21%), Query Frame = 0
BLAST of MELO3C009560 vs. TAIR 10
Match: AT3G11720.1 (Polyketide cyclase/dehydrase and lipid transport superfamily protein ) HSP 1 Score: 225.3 bits (573), Expect = 1.2e-58 Identity = 183/542 (33.76%), Postives = 278/542 (51.29%), Query Frame = 0
BLAST of MELO3C009560 vs. TAIR 10
Match: AT3G11720.2 (Polyketide cyclase/dehydrase and lipid transport superfamily protein ) HSP 1 Score: 225.3 bits (573), Expect = 1.2e-58 Identity = 183/542 (33.76%), Postives = 278/542 (51.29%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (DHL92) v4
Date Performed: 2022-08-06
Relationships
The following mRNA feature(s) are a part of this gene:
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