MELO3C006171 (gene) Melon (DHL92) v3.5.1
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.GAAAGGAAATAGAGAGCCCAATTTCCAGTTGTTGGATCGTCCACACTCCGGCGACCCGCTCCCTCCAATAGGCAAGTTCGGTTTGTTGTATTTCTAAAGCTTCCGAAAGAGGAAAGGCTCATCAAATTCGCCAAAGTCGAAGTAGCTCAGAGGACGATGTTGTTGAAGAGATTCCGTAGCTGGTTCGAACTGCCGTCTTTGTTTGCCTCTTCTAATTCGTTTTCATGGATTGTTTGCTAACTGTATTTATTTGCGTAGGAATGAGTTTTCTCAAAGGTGTAGTTGACTATATTGGGTCGATCTTCTCAGAAACGAGCTCAATTCACGATTCGCCGCAGAACCGGAGCCACGAGGGTGCTTCGACCATGGACAGCGTTAATGGAGTTCCTGTTTCGAACGAGCGATATGCTTCCAAGTTCAAAGGGTACTTTAATTTGTCGCAGGAGGAGATAGCCAAGGCCGTCAGGGCAGAGGAGTGGGGCATAATCGACGATGCGATCCTGCACTACCAGAATGCTAACCGCATTCTGACTGAGGCCAGTTCAACCGCTGTGCCTTCGTTTATCAGTTCCAGGTATTCAGAATTTTGCCAATTTTTTGGATATTTAATCCCCATTTCATCATTTTATCAATCCACAAGGTAAACTGTATTAGTGCAGATGTCTAAATTTTGATGTCTAATAGGATGGGGAAGGAATCCATGTCTGAAACTCGAGAAATATATAACTGGGAACAAATGGGCAATAGTTAGAAAATATTTGGAGTTCTAGCGTGATTTATAATGTTTTGTCTTGCAAATTCCGAGAAATAATAACTCGGGAATCTCTGGCATCGTCGTTTGTTTTACCATGGACGTTAGTCTTTTCACAGCTCGACAGTACGCAATTGTCCCTATAATATTTAGTCACTATTCTGTAATCTTTTATTTTTTGTTTTATTTTGCAGACTTTTTTTCCTTTAATTATTTTGTTATTCATATCTGCCTTATACGATATTCTTACACTCCTTAAAGAAGATACACCTATAATTTTGACGGAGTACCAGTCGAAGTTCATTGATTTTTTGTTCTTTCACTTATGCTTGTTCTACAATCATTTTCTTTCCCAACAGCGAACAAGAAAAGGTGAAATCTTATAGACAAAAAATCTCAAAGTGGCAAAGTCAAGTTTCTGATAGATTAGCAACTCTAAGTATTCGAGCAGGTTCAGTTCTTGTTCTGTAATAACTCAAATCATTTTCATCAATGATGACCTTTGTTATCGGGGGCATTTACTAACTTATAATGTCTCTTGTTCTGCAATCTTATAAATCCAGGTGTTACATCGTCAAACAAGGTATGGTTTCATCTTTCTGAAGTGTAACTGTGTAAATATTCAATGTAAGATTCTATGATCTTGCTTGAATTAGAAACATTGCCCTTCTTCTTAGTGAGTAAATGCTTGAATATATTATAAACCCCAAACTCGGATCACTTGAGCTTCAGCTAAGAAAGAAAGAGAATTGCCAACTTATCTGGGATCTTATAAACTAGGTGCGTTAGGACTATGTTCCAATTCTAATTTCAATGTAAGTAGTAAGTTATCTCTCTGGAGTTGGGAAAAGTAGGTTTTACAATTATTTGGCGGCGTGCTTGATGTTTATTATTCTGAAAGTTAAGGACCAAGCATGAGAGCAATGTTGGCTATCTTATGACAAAGTATCTTTCTTCTTTTATTTTTCATATCTGAGATATGGTTCAATTAGCAATATAAACGTTTCAGATTCTATGTATTTCTTTGTTCCAGGTTTAAATCCCATTTTGGACCCCAAATTATCTGTTTATTCTATTTTAATCCTTAAAACTTTCAAAATGTCAATTTTGGTACTTAAGCTTTCTTGTTTGTTCCAATTTGGTCCCTAAACTTTCATAATGATCATTTTAGTTCCTAAACCTTTATAAAACAACTATTTTGGTCCATGTTATGTTACTTTTCCATCTAATTTTCACTTGTCCAATGCTCATTTCTAATCTCTGTGACTTGAAACCACACTTGTACGATAGTACACATACTTAGAGGTTATATTGGTAAGCTAAAGACTCTTCAAAGTCGAGGATCAAAATGGAACAAATCCGATTTCAAAGAACAAAATAGACATTTTTGAAAGTAAGAAGCAAAATTAAATACATCTGAATTTCAGCAGCCAAAATAAGATTTAAATATTTATTTTGTTAAATTTTATTTCAGAGCTCCTTGAATCATGTGCAAAGAGCTGGAAACGCTTCAAAAATGCCAAACAAAAAGCCAGTGTTAAGGAGCTCTTCTCACAGTGGTGCAAATAATTCAATAACAAGAAGTCAACCGGCTAATGTTGGAACTTCACAATCTACTCGGGAAGTTCCCGATGGATATGATCCAAAATTGGTTGAAATGATAAACACTGCTATAGTGGATCGAAGTCCTTCTGTAAAATGGGATGATATTGGTAGTACATATTTTCCCTTCACCTTCATTTACTTCATTACATTTTGTTAATTTTATTTTCGACTCGTACTCTCTAATTGGACTCTGAAATAGTCTGGTTCAATTGTAGCTGGACTTCAGAAGGCAAAGCAAGCTTTACTGGAGATGGTTATTTTGCCCACAAAGAGAAGAGATTTATTTACTGGTCTTCGAAAGCCAGCTAGAGGTATTGCTTTCAGAAACTGTCAATACACTCCGAGTACTACTTCTTTTGAAAGTGTCATACCATCTTACAGAAATGAATTTTGTGTCAAGATTCATGGGCCTGGACAGTATACATTACTGCAAGATTGTGGTTTATGTTGAATCAATAAGAATAGTTACATTTGATATGAATGCCCGGTATATGGGTAATTCAAACCAAAAATATTAGAGTATTTGTCGGTTGCAATACAAGGCACTAGGTACAGCAAACCAGATGGGGTGCTGAAATAATACGCATCATCTACGCAAACTTCAGTATATTCTTGGTTTTTCCTAACATCTCAACTTGTCTGAGAAGCCTGTTGTAATTGACAATCCTAGTCAAATAGCTGGAATTTCTCATCATTTTCCAACACTTCTTAGTTGGATTCTTCAGTGTCTAGCTAGTCTCCATAAAACAACCAAACCGATCTTAAATTTTATTAAATTTATAGTATCAACTTACATTTGTGGAGGCCTCATATGCACAGACCTTTAATTGTGTGGAGGTCTAGGGCGCACCTGTGTGTTTACTGCTCTAAGTAATAATCTGTCACTGTAACATCTAGTCAACTACTTACTAATATTTTTTATCTTCTAAGCTAGTCAATCACTTCCCTTAGGTTCACCCTTTCTCTAAAGTTTATAATGTTTTAGAGCCAAGCTTCTAGAAAATTTTGCGACTAATTTCGTTAATTGGATCCAATCCATATTTCCTCAGGTCTTCTTCTCTTTGGTCCACCTGGTAATGGGAAGACTATGCTTGCTAAAGCTGTAGCTTCAGAATCAGAAGCCACTTTTTTTAACTTGTCAGCCGCATCCTTCACATCAAAATGGGTATGTCTCAATTCCATATCAAGAATTATATTTTCTTTCTGAAAAAAGTTCTTCCCCCTATATTTCCTTTCTAGTTAATATCCTTTTAAATTCTAACATATTATATTTGCATCAAGTTAGGAGAAAGTGAAAAGCTTGTACGGACTCTCTTCATGGTAGCTAAGTCCAGGCAGCCCTCCGTAATTTTCATGGATGAAGTATGTCTTGTTCTCTTGCCAAACCATTATTTTAAGGATGAGTTAATTGTACATTGTTTTTGTATGTTAATTGTTTTTTTTTTTTTCCTTATGAGTGCAATGTAGTTTTTGGTAATTTGACATAAAAATAGATAAATCACAGCATGGTTCTAAGAGGTCGGGTATTTTAGTACTCTTAGCTTAGCTCTTGGACAACAATTGAACTTTTGGATGCAGAAAATAGCTTTTGGTGTGGCATAATTAACAACTATATTGTACTTATAATTTGAATGGTTAATTGTTTTAGTTGGTATTTTGTCAGTTGTTTGCCTAGTTAGTAGGCTGTAAATTAACTCATTAGGCTCTTATAAATATAGGGTTAATATTTTATTATTGAATTTCATTGATTCTTAATGAACATTTCATTTAAGGATTTTGGGATATTTTCTCCTTTGATGCTTGGTTCTATCAAATTGGTATTAGAGCAACCCTCAACCTTACAAAGGGCAATGGCTAGGATGATGGAGTCACTAGCCAGTTAGCCATCGTCAGATGTGCCACAGTTCATTCTGGTGGGGAATTCGAAGTGGAACTCCACTAAAATTGGCAACTAGACCCTTGCTGTCAGTTGATGCATATCTTGGATGAATTCAAAGAAATTTGATCAAAGTTCAATGTATGGTGGGTACAATGGTCAAACAATTGGATCAAGAACTATCTGTATTATCAGCAAGAATGCGCCAAAAACAGAGAGCCGCATTCTAGAAATGGTTAGGAAACCTTTTCATGATGATAAACCCCTAGAGTGTCGGAACAAAAGGTTATTCCAATTTTTCCAGCAAATATGAGGAGTTATGTTTTTGTTATTTGGAAGGACTCACCGGAGGGATTTTAGAGTTACGAACAGGAGTTCCTCCTTTTACGAGAAGGATTGTTTCTTATAGTTTGTTGATTTGTGTGCCTTGTTATGGGACATCTAGAGGGAGATAAATAAGAAAATAACAGAGGCGTTGAAAGAGAGATTGGATCTATTTTTCCCCTTCTCCCAATAGGGGATTTAGCATAGTTAGTAATAATTTTCTAATTTCATTTCAATTGTGAATTTTTTTAGTTAGTAGTAGTTAGTTAGTTGTTTACCTAGTTAGTATGCTGTAGACTAGCCCATTAGTCTTGTTATAAATAGAGGGTTAATCTTTTGTTACTGACTTACCTTTTGATTCATAGTAAACTTTGTTCCTTTGGTACTTGGTTTCATCAATTTTCCCTCTTTTCCTGCTTGGTTGAGTCGCTTAGACTAGAGAACTTAAAACTTGAGGTATTATATTTACATATCCGTCTATATTTTGTTATTACCTTTAGCACGATTTGACAACATCTCACATAAATTTCATTCTTGTTAATAACTATTTCTAAGTTTAATACAATTGTTTATAGCCTTCTACCGTTTTCCCTTCTAGAGTTTTTCCATTATCTGAATTAGAATCTCCTTGACACGTAAAACTAGTTGGTCTGTCAAGACCTATTACCTATTTTTATCTGTATATAGAAACTGGGACTTGATGTACACACTGCCAACGCCATGTAAAAAGACTAATATCCATATAGATTATCAGAAATGAAACAGCTCGCAGTAAAAATATAGCTAAGTGCGGCGCCTTTCAAAATAAGCTTGTACCCAAAAAAAAAAAAGAAAGAAAAAGAAAAAGAAAAAGAACAACAACAATTGATGAGATTCTGATTATCTCTTTAATTTGACTGTATAGATTGATAGTGTTATGTCGTCGAGACATGCTGGTGAACATGAAGCTAGCAGGAGGTTGAAGTCTGAGTTTCTTGTACAGTTTGACGGCGTAACGTCCAATTCTACTGATCTTGTAATCGTTATTGGTAAGCTTAGGTCTAGCTACGTCTGTTCTGCTCCTTTGCCAATTCTTCAGTAGTTTGGTGTATATGGAAGGAAAGGAATAGCCTAATTGTTAGACATTAAGATGAAACGAAGTGCAATGATCTGACTTTTGAACTTTTTGATTTCCATGCTTGTTCCAGATGCCACGAAAAGTTTGTAGGGGCTAAGCTCAAAACGTATAACATTATTTACCAGTTCAGGAATTATGAGATATGATCCACTGAACACTGTGTGGTTGATGTAATATTATCTATTAACACTTGCATGATATTCCTGTCTCCATATACACTTTTACCTTTTATTTTCCAATTTACATTTTGTATATTATTATCTGTTTGTTCTTTTATATATACATGGCCATTTTTACTTCCACATAGGATATCAACTAACTTACATGTGTCTGCAGTCTGAAAAAAATTCTTTTTCTATAATGAAATGATAGGTTGCAACAACCTGAAAGAAAATCATGTGCTCTCTTCCTTATTATGAACTCGTTCGCTAGTTGAAATCCATGCAAACTTTTAGATTGCATTTTGATACGAGCTTAGTGGCTGCTATAAGCATGCTGAATTTTTTTTGCTAGTTTGTGTTTTAGGTTTCTTTCTTATCCTTTGGACATACAAGGTTTTATGCTTACTGTGCAGGTGCAACTAATAAGCCCCAAGAATTGGATGATGCAGTTCTTAGGAGATTGGTATGTAAAATTTTTAATGGTTCTGTTTTTATTTTTGATTTGTTTTTAATGAGGAACATATAGAACAAAAAAGGCGTAAAACAAAAGCCCAACAAGAGGAATTCTATCAAGTATGGGGACTCCTAAAGAAATCAAACCAAGCTGAGTCTCGAGAAACAAATCTCGGAAAGAAGATTTGAGTCTAATGTTGTCAAAGCCCTCTTTTCAAGACCTGTCAATTCTATTAAGTGCTACTAAACTTATTTTTTCCAAGAGCTCTTGATACTAATAGTTGAAGTGAATAGTCCCCACCTCCAAGTATGTATCGATTTTTATCATAGGCTGCCCCAAGGCAAGTATAGTGGTCAAAATGGCATATACCTCTGCCTGTGAAATCAAGGTTTTTGAGATCACAGATGAAATTAAGTNNNNNNNNNNNNNNNNNNNNATATATATATATATATATATATTGAACCGATCATAAAAGGAAGGGAAGGAAAGGGTAGAGTTTATGGTTCTACAAAAAATCATTAATATACGTTGATTAAAGGACACTTTTGAAGACGAACAAGAATACGTCAATGTGGAATTGCTCTCTTGCTCTCACTCACACACACTCGTGAGGGCATGGATATCTGGTTAGTGCAGTGTGTGACAACATTGGCCAGATACAACATCCTTTCTGTGATTACTTCACTAAAAGCTTTCTATGTATTTTAATTTTAAACTGCTTTCTCATTCAAATGCCTTTCCCCCACAACAGGTGAAGAGAATTTACATTCCCTTGCCAGATGAAAACGGTAGAAGACTTCTTCTCAAGCACAACCTCAAGGGACAGTCATATTCTCTACCAAGTAAGAATGAGGGTTTGGTGAAGTTCCTGTGCTAGATATTTCCTTAAAACTTGTATCAACTTTAATGCAAACATTTTATTTTCTCTAACTATATTGTGTACAGTTTTTTTTTCCTTACTAAGATGTCTATACAAGACCAAGAAAAGGCTATTTGATTCCATAAATGATGTAAAGTGTACAAGGAGCTAAAGGAGGAAGTTGCAAAATTATATGTTGAGTTTACAAGTGAAAATTATGGGAGGGACTCACCTAAATTATTAAATATTCTACAATTTCAACACTTTATTTGAAGGTAGGTTGATTATCCTACGGGATTAGTCAGTAGCCGATGGTTGAGACTGTGGACTTTATACCTCTCTCCTTCCATTGAACAGTAACACTTAGCCCCATACTTATTTTTTTTTTTCGTTATTGCCTTTTGTTGTCATTAATGCTACTGAGGTCTGATTGATTAATTTAGTATGCTAGTTAGAATTGCTTCTCATGTTCTAATCGTATATTATTGTAATACACGCAAATGGAATGTGTCATTTGCCCTATATGTTTATCACTTTAGTTGAACCACTGTAACCATTGTAGTTTGACCTAGTAAAAAAGGAGACATAATCTCAATAACTAACAAGAGGTTATGGCTCAATCCATGGTGGCCACCTACCTAGAAATTAATTTCCTACGATTACCTTGACACCAAATGTTGTAGAGTCAGGCGGGTTGCCCCGTGAGATTATATCTTTTTTCTAATTTACTCTAACATAAATGTCTTATTTTTGTTGACAGCTAGAGATCTAGAAAGACTAGTTAAACAGACTGAAGGTACTTTATTATTTTCTTGCCTTATTGTTTTTCATCTTTCCATACTTAAATAGGCGAAAAATTAACAACCTCCAAGAATGGCATGAACAGAAATGAGTTAGATAACCCCGTGTATCTGATGATCTTACAGTGTCCATCCAGTGTTCAGAGACTTTAGTAGAGCTATTTGTGTTAAAATAAGAAATCAAATCTGTATTGACAAGTATAAACATACAGAAGCTAGAAGTAATCGTTAACTTTTCCGCACACAAATAATAATAATAATAATAATAATAATAAATAAAATAAATACAGTAGATTAGAAGTTCAAACTAGGACTGTGCTGAAAAAGGGAAACTAAATAATAGTGACTATTTGTTCCGAGCATATATCTGATTGAATTTTGCAGAAAAAATAAAGAACATTTGCAAGTAGGAATTCCAACGGTTAGTGATATAAAATACGGTTTGCATAGGAATGCCCTGAAGAAAGCTAGAAATAGAAGCCGCACTCCAAGTCTCCTCCCATCAAAAACACTAATGAGAACACTTGTCCTACAAAACTCTTCTGAAAAGTGAATCTTAACAACTCGAAGTTTGTGCCAAAAAGCTCATGGTATATTATTTACATGTACAGGATATTCTGGAAGTGATCTACAAGCCTTGTGCGAGGAAGCTGCAATGATGCCAATTAGGGAGCTAGGTGGAAACATTCTCACAGTAAAAGCAGATCAGGTAACTCACATAAAATCTGTTAACTCTAATTCTCTCTGTTTCACTAAAGATACGAGTGAAGTAGCTTTTTCTTTGTCAATTCATATCATGTGTGATTATTTGCTGAACAAATCCCGTTTATCAATAGTTTTTCCCTTTTGTAGTTAAAACTTCCATATTATATTCATGATAAACTCTTTATATAGCTAATTCGGATCAGGAATTTTTAAATTCTCACCTCCTCCTTTCCCAGTTCCCCGGTTTCCTTTTGGTTGGTGAGAGGAGGAAAAATCTCACTTTCCCCTTCTGATTGATAGAATAACCTCATTTTGCGACATATAGGATTTGAACTTCTATTATCATATCGTACTCTTATCTGTAACAGGGTAAGCTCACACAAACATGTGTCTAATTCCATTGAGTGATTATAGAAAAGGCGATGTATAGGAAATTTGTAGTGTGTTTTAAAGTAGCTTGTTGGTTGACTCCTGCGTTTCGAGCTAAGTGAGAGTTTTCTCCTTTCCTTTTATTTTGCCGGTAAACATCGATTATCATCAATTATCATATCGTAATCGTACCTATTACAGCTAATTCGAATTTGGATTTTTACCTGTACTGTTTCATTGAAATTTACATTTTTGTATACACCAGATAAGATCATTAAAGTATGAAGATTTCCAGGAGGCAATGAAGGTCATTAGACCCAGTTTAAGCAAAAGCAGTTGGAAGGAGCTTGAAGAATGGAACCAGAGTTTTGGATCCAATTAGATATGCAAACATTATGTATTCTTTTGGAGACGACTGTTGTGAAGAGAACCCTTCGCCACTATGTATTATATTGTACAGACTTAATTCCGATACCAACTTCTAGATAGTTCTATTTTTTGGTTTCTTGTTTG GAAAGGAAATAGAGAGCCCAATTTCCAGTTGTTGGATCGTCCACACTCCGGCGACCCGCTCCCTCCAATAGGCAAGTTCGGTTTGTTGTATTTCTAAAGCTTCCGAAAGAGGAAAGGCTCATCAAATTCGCCAAAGTCGAAGTAGCTCAGAGGACGATGTTGTTGAAGAGATTCCGTAGCTGGAATGAGTTTTCTCAAAGGTGTAGTTGACTATATTGGGTCGATCTTCTCAGAAACGAGCTCAATTCACGATTCGCCGCAGAACCGGAGCCACGAGGGTGCTTCGACCATGGACAGCGTTAATGGAGTTCCTGTTTCGAACGAGCGATATGCTTCCAAGTTCAAAGGGTACTTTAATTTGTCGCAGGAGGAGATAGCCAAGGCCGTCAGGGCAGAGGAGTGGGGCATAATCGACGATGCGATCCTGCACTACCAGAATGCTAACCGCATTCTGACTGAGGCCAGTTCAACCGCTGTGCCTTCGTTTATCAGTTCCAGCGAACAAGAAAAGGTGAAATCTTATAGACAAAAAATCTCAAAGTGGCAAAGTCAAGTTTCTGATAGATTAGCAACTCTAAGTATTCGAGCAGGTGTTACATCGTCAAACAAGAGCTCCTTGAATCATGTGCAAAGAGCTGGAAACGCTTCAAAAATGCCAAACAAAAAGCCAGTGTTAAGGAGCTCTTCTCACAGTGGTGCAAATAATTCAATAACAAGAAGTCAACCGGCTAATGTTGGAACTTCACAATCTACTCGGGAAGTTCCCGATGGATATGATCCAAAATTGGTTGAAATGATAAACACTGCTATAGTGGATCGAAGTCCTTCTGTAAAATGGGATGATATTGCTGGACTTCAGAAGGCAAAGCAAGCTTTACTGGAGATGGTTATTTTGCCCACAAAGAGAAGAGATTTATTTACTGGTCTTCGAAAGCCAGCTAGAGGTCTTCTTCTCTTTGGTCCACCTGGTAATGGGAAGACTATGCTTGCTAAAGCTGTAGCTTCAGAATCAGAAGCCACTTTTTTTAACTTGTCAGCCGCATCCTTCACATCAAAATGGTTAGGAGAAAGTGAAAAGCTTGTACGGACTCTCTTCATGGTAGCTAAGTCCAGGCAGCCCTCCGTAATTTTCATGGATGAAATTGATAGTGTTATGTCGTCGAGACATGCTGGTGAACATGAAGCTAGCAGGAGGTTGAAGTCTGAGTTTCTTGTACAGTTTGACGGCGTAACGTCCAATTCTACTGATCTTGTAATCGTTATTGGTGCAACTAATAAGCCCCAAGAATTGGATGATGCAGTTCTTAGGAGATTGGTGAAGAGAATTTACATTCCCTTGCCAGATGAAAACGGTAGAAGACTTCTTCTCAAGCACAACCTCAAGGGACAGTCATATTCTCTACCAACTAGAGATCTAGAAAGACTAGTTAAACAGACTGAAGGATATTCTGGAAGTGATCTACAAGCCTTGTGCGAGGAAGCTGCAATGATGCCAATTAGGGAGCTAGGTGGAAACATTCTCACAGTAAAAGCAGATCAGATAAGATCATTAAAGTATGAAGATTTCCAGGAGGCAATGAAGGTCATTAGACCCAGTTTAAGCAAAAGCAGTTGGAAGGAGCTTGAAGAATGGAACCAGAGTTTTGGATCCAATTAGATATGCAAACATTATGTATTCTTTTGGAGACGACTGTTGTGAAGAGAACCCTTCGCCACTATGTATTATATTGTACAGACTTAATTCCGATACCAACTTCTAGATAGTTCTATTTTTTGGTTTCTTGTTTG ATGAGTTTTCTCAAAGGTGTAGTTGACTATATTGGGTCGATCTTCTCAGAAACGAGCTCAATTCACGATTCGCCGCAGAACCGGAGCCACGAGGGTGCTTCGACCATGGACAGCGTTAATGGAGTTCCTGTTTCGAACGAGCGATATGCTTCCAAGTTCAAAGGGTACTTTAATTTGTCGCAGGAGGAGATAGCCAAGGCCGTCAGGGCAGAGGAGTGGGGCATAATCGACGATGCGATCCTGCACTACCAGAATGCTAACCGCATTCTGACTGAGGCCAGTTCAACCGCTGTGCCTTCGTTTATCAGTTCCAGCGAACAAGAAAAGGTGAAATCTTATAGACAAAAAATCTCAAAGTGGCAAAGTCAAGTTTCTGATAGATTAGCAACTCTAAGTATTCGAGCAGGTGTTACATCGTCAAACAAGAGCTCCTTGAATCATGTGCAAAGAGCTGGAAACGCTTCAAAAATGCCAAACAAAAAGCCAGTGTTAAGGAGCTCTTCTCACAGTGGTGCAAATAATTCAATAACAAGAAGTCAACCGGCTAATGTTGGAACTTCACAATCTACTCGGGAAGTTCCCGATGGATATGATCCAAAATTGGTTGAAATGATAAACACTGCTATAGTGGATCGAAGTCCTTCTGTAAAATGGGATGATATTGCTGGACTTCAGAAGGCAAAGCAAGCTTTACTGGAGATGGTTATTTTGCCCACAAAGAGAAGAGATTTATTTACTGGTCTTCGAAAGCCAGCTAGAGGTCTTCTTCTCTTTGGTCCACCTGGTAATGGGAAGACTATGCTTGCTAAAGCTGTAGCTTCAGAATCAGAAGCCACTTTTTTTAACTTGTCAGCCGCATCCTTCACATCAAAATGGTTAGGAGAAAGTGAAAAGCTTGTACGGACTCTCTTCATGGTAGCTAAGTCCAGGCAGCCCTCCGTAATTTTCATGGATGAAATTGATAGTGTTATGTCGTCGAGACATGCTGGTGAACATGAAGCTAGCAGGAGGTTGAAGTCTGAGTTTCTTGTACAGTTTGACGGCGTAACGTCCAATTCTACTGATCTTGTAATCGTTATTGGTGCAACTAATAAGCCCCAAGAATTGGATGATGCAGTTCTTAGGAGATTGGTGAAGAGAATTTACATTCCCTTGCCAGATGAAAACGGTAGAAGACTTCTTCTCAAGCACAACCTCAAGGGACAGTCATATTCTCTACCAACTAGAGATCTAGAAAGACTAGTTAAACAGACTGAAGGATATTCTGGAAGTGATCTACAAGCCTTGTGCGAGGAAGCTGCAATGATGCCAATTAGGGAGCTAGGTGGAAACATTCTCACAGTAAAAGCAGATCAGATAAGATCATTAAAGTATGAAGATTTCCAGGAGGCAATGAAGGTCATTAGACCCAGTTTAAGCAAAAGCAGTTGGAAGGAGCTTGAAGAATGGAACCAGAGTTTTGGATCCAATTAG MSFLKGVVDYIGSIFSETSSIHDSPQNRSHEGASTMDSVNGVPVSNERYASKFKGYFNLSQEEIAKAVRAEEWGIIDDAILHYQNANRILTEASSTAVPSFISSSEQEKVKSYRQKISKWQSQVSDRLATLSIRAGVTSSNKSSLNHVQRAGNASKMPNKKPVLRSSSHSGANNSITRSQPANVGTSQSTREVPDGYDPKLVEMINTAIVDRSPSVKWDDIAGLQKAKQALLEMVILPTKRRDLFTGLRKPARGLLLFGPPGNGKTMLAKAVASESEATFFNLSAASFTSKWLGESEKLVRTLFMVAKSRQPSVIFMDEIDSVMSSRHAGEHEASRRLKSEFLVQFDGVTSNSTDLVIVIGATNKPQELDDAVLRRLVKRIYIPLPDENGRRLLLKHNLKGQSYSLPTRDLERLVKQTEGYSGSDLQALCEEAAMMPIRELGGNILTVKADQIRSLKYEDFQEAMKVIRPSLSKSSWKELEEWNQSFGSN*
BLAST of MELO3C006171 vs. Swiss-Prot
Match: SPAST_XENLA (Spastin OS=Xenopus laevis GN=spast PE=2 SV=1) HSP 1 Score: 339.3 bits (869), Expect = 6.8e-92 Identity = 186/366 (50.82%), Postives = 251/366 (68.58%), Query Frame = 1
BLAST of MELO3C006171 vs. Swiss-Prot
Match: SPAST_CHICK (Spastin OS=Gallus gallus GN=SPAST PE=2 SV=2) HSP 1 Score: 338.2 bits (866), Expect = 1.5e-91 Identity = 179/327 (54.74%), Postives = 232/327 (70.95%), Query Frame = 1
BLAST of MELO3C006171 vs. Swiss-Prot
Match: SPAST_XENTR (Spastin OS=Xenopus tropicalis GN=spast PE=2 SV=1) HSP 1 Score: 336.7 bits (862), Expect = 4.4e-91 Identity = 183/366 (50.00%), Postives = 250/366 (68.31%), Query Frame = 1
BLAST of MELO3C006171 vs. Swiss-Prot
Match: SPAST_RAT (Spastin OS=Rattus norvegicus GN=Spast PE=1 SV=1) HSP 1 Score: 334.3 bits (856), Expect = 2.2e-90 Identity = 200/460 (43.48%), Postives = 270/460 (58.70%), Query Frame = 1
BLAST of MELO3C006171 vs. Swiss-Prot
Match: SPAST_DICDI (Spastin OS=Dictyostelium discoideum GN=DDB_G0287165 PE=3 SV=1) HSP 1 Score: 334.3 bits (856), Expect = 2.2e-90 Identity = 185/401 (46.13%), Postives = 259/401 (64.59%), Query Frame = 1
BLAST of MELO3C006171 vs. TrEMBL
Match: A0A0A0L4C5_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G124960 PE=3 SV=1) HSP 1 Score: 940.3 bits (2429), Expect = 9.7e-271 Identity = 485/491 (98.78%), Postives = 487/491 (99.19%), Query Frame = 1
BLAST of MELO3C006171 vs. TrEMBL
Match: A0A067HDH4_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g011393mg PE=3 SV=1) HSP 1 Score: 702.2 bits (1811), Expect = 4.4e-199 Identity = 358/490 (73.06%), Postives = 417/490 (85.10%), Query Frame = 1
BLAST of MELO3C006171 vs. TrEMBL
Match: V4TXZ6_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10019901mg PE=3 SV=1) HSP 1 Score: 702.2 bits (1811), Expect = 4.4e-199 Identity = 358/490 (73.06%), Postives = 417/490 (85.10%), Query Frame = 1
BLAST of MELO3C006171 vs. TrEMBL
Match: D7U7L3_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_15s0048g01720 PE=3 SV=1) HSP 1 Score: 687.2 bits (1772), Expect = 1.5e-194 Identity = 356/491 (72.51%), Postives = 410/491 (83.50%), Query Frame = 1
BLAST of MELO3C006171 vs. TrEMBL
Match: A0A0D2Q046_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_001G173400 PE=3 SV=1) HSP 1 Score: 685.3 bits (1767), Expect = 5.6e-194 Identity = 349/490 (71.22%), Postives = 409/490 (83.47%), Query Frame = 1
BLAST of MELO3C006171 vs. TAIR10
Match: AT2G45500.1 (AT2G45500.1 AAA-type ATPase family protein) HSP 1 Score: 627.9 bits (1618), Expect = 5.4e-180 Identity = 323/492 (65.65%), Postives = 388/492 (78.86%), Query Frame = 1
BLAST of MELO3C006171 vs. TAIR10
Match: AT3G27120.1 (AT3G27120.1 P-loop containing nucleoside triphosphate hydrolases superfamily protein) HSP 1 Score: 301.6 bits (771), Expect = 8.8e-82 Identity = 151/297 (50.84%), Postives = 213/297 (71.72%), Query Frame = 1
BLAST of MELO3C006171 vs. TAIR10
Match: AT1G80350.1 (AT1G80350.1 P-loop containing nucleoside triphosphate hydrolases superfamily protein) HSP 1 Score: 271.2 bits (692), Expect = 1.3e-72 Identity = 160/403 (39.70%), Postives = 241/403 (59.80%), Query Frame = 1
BLAST of MELO3C006171 vs. TAIR10
Match: AT2G34560.2 (AT2G34560.2 P-loop containing nucleoside triphosphate hydrolases superfamily protein) HSP 1 Score: 242.3 bits (617), Expect = 6.4e-64 Identity = 153/367 (41.69%), Postives = 209/367 (56.95%), Query Frame = 1
BLAST of MELO3C006171 vs. TAIR10
Match: AT4G24860.1 (AT4G24860.1 P-loop containing nucleoside triphosphate hydrolases superfamily protein) HSP 1 Score: 240.4 bits (612), Expect = 2.4e-63 Identity = 144/357 (40.34%), Postives = 212/357 (59.38%), Query Frame = 1
BLAST of MELO3C006171 vs. NCBI nr
Match: gi|659075429|ref|XP_008438138.1| (PREDICTED: spastin isoform X1 [Cucumis melo]) HSP 1 Score: 953.0 bits (2462), Expect = 2.1e-274 Identity = 490/490 (100.00%), Postives = 490/490 (100.00%), Query Frame = 1
BLAST of MELO3C006171 vs. NCBI nr
Match: gi|778677383|ref|XP_011650781.1| (PREDICTED: spastin [Cucumis sativus]) HSP 1 Score: 940.3 bits (2429), Expect = 1.4e-270 Identity = 485/491 (98.78%), Postives = 487/491 (99.19%), Query Frame = 1
BLAST of MELO3C006171 vs. NCBI nr
Match: gi|659075431|ref|XP_008438140.1| (PREDICTED: spastin isoform X2 [Cucumis melo]) HSP 1 Score: 884.4 bits (2284), Expect = 9.1e-254 Identity = 455/455 (100.00%), Postives = 455/455 (100.00%), Query Frame = 1
BLAST of MELO3C006171 vs. NCBI nr
Match: gi|567905468|ref|XP_006445222.1| (hypothetical protein CICLE_v10019901mg [Citrus clementina]) HSP 1 Score: 702.2 bits (1811), Expect = 6.4e-199 Identity = 358/490 (73.06%), Postives = 417/490 (85.10%), Query Frame = 1
BLAST of MELO3C006171 vs. NCBI nr
Match: gi|359489371|ref|XP_003633914.1| (PREDICTED: spastin [Vitis vinifera]) HSP 1 Score: 687.2 bits (1772), Expect = 2.1e-194 Identity = 356/491 (72.51%), Postives = 410/491 (83.50%), Query Frame = 1
The following BLAST results are available for this feature:
GO Assignments
This gene is annotated with the following GO terms.
This gene is associated with the following unigenes:
The following mRNA feature(s) are a part of this gene:
The following transcribed_cluster feature(s) are associated with this gene:
Analysis Name: InterPro Annotations of melon
Date Performed: 2016-09-28
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene: |