MELO3C018110 (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.CTCAATCCCCCATCCACGCCATAAAGGTCATAAGGCAGTTGAGAAGAATTGGAAAACTCCTCCATTCCTCTTTGATCTGTGAAATCAAAAGAAGGATTTATTCAAAATCTGTTATTCTCGGAAAACCCAATTTGGAAACATGCATGATTTCTGCTTCACAATCCCTTATGGATTGATTTTAGTTGGTGGTGGCATTTTTGGCTACCTCAGGAAAGGGAGCATAGCATCGCTAGCTGGAGGTGTGGGTACTGGATTGGTTCTAATTCTCGCTGGATACTTGAGCCTTGGAGCTTTCAAGAAGAAGAAAAACTCTTATCTTGCTCTGATTCTTGAGACTGGTATTGTTGGTTTTCTAACTTCTGTTTCATGTTCATCTTTTCGTGTTTGATATTGTTTTTACGTTTTCTGGAGTTGAAGATCTTGTCTGCTACTATTGATACTGGTAGTTATACCAGTTATAGAACCTTTAAAAATTGGATGCTTGCCACTTAAATGTGTCAATTGTTTTCTAATTTCTTTTTGCTGTTTTTAGTGTTCTTGTTTCTTCAAACTTGAGACGCTTGTGAGCCGACTCATTCGAGGTATTGTGGTTCTCTTCTTTGTTTTGTGCGTAATCCATGCGGAGAACATCACTAATCACTAGGATGTTCGAATCTCCTTATAATAATTTATTAACAGGATATCTCGTTATGAATCTATTACTACAATTCATGAGAACTTGCTGAACACGTGTTATTTCATCTTCTTCTTCTTGCCGAGCTGCTTTTGACCAGTATAGCTTCTTGTTCTCTTCTCGAATTTGGTTTCCGAATGGTTAACTTTCTTGGTTCTTTGCTGGGTATTATCTTGATTCTATGTAACGGGTGGTATCTGATGGCTGTAAACTTTTGAAAAAGAGATCCAATGTACTTTCAATTTGCACTGGTATGTTCATATTTTTCATTGGTCCCAGAACGGTTGTATGAAAGAGAACTATAAGGGCTTACCGTTTATAGGTAGGAGTAGTATGGTATTGCAGAGGCATAAGGATAATATTAGTTAGTGTATTTGGTTATAAATAGAGGGAGGGCGATTTGGGTAAGAGAGGCCATTGTTGAGTGATTTAGGGCTTGGGTTAACATACTAAAGGGAAGAGGAGGTTCCAAGTGCCTTATACTTGGTATTTTAGTTCTTAATCCTTTACATTTCAATATTTTCAGTTCTTGATTCTTTTAGGTGGTATCGTAACATTTTCATTAGCACATCCTGAGCTGCCACCTGAGCCCTGCCTCTCTAGCCTATGTGCGCAAGCACAGAACTGGTACTGCTGCTATACCCTGCCTCCCATCAGGTCAAATGCACACCATTGCCCAAGGCAGGTGACTTGTACACTGGTTAAGTGAAGTGCTATAGACAGTGATATTCTACATACTTGTTAATGACTCCATTTTCCTTGATCCTTTATCTGGAGCTTTTATCCATAAGCATTGTTTTTTTTTTTTATTAATTAGCTACAAATATAGAAGGTAGAGCAATTTGGTTGGAGTTAAACTGTCCAAGAAAATCAAGGATGCTACGAAGAAGGTAGCACACTACTTTGATTTTTCCTTCCCGCCACTACTAAGCGAGTGTATTGTTACTACTTTTGCACCTGCATCTCCTATTATGGTGGAATGAAATCCTACGCCTAAAACTTCTTTTCATTGCATTTCTTCTTTTTCTACAATAGTCAAGCTTATTGCTTCTACACCTACAACTTCGACTGGAATTTTGGGAACATGGAAAGAAGGTTACTTTGAAAAACATTTGAGCAAGCGGACAGTGGAGATTCGACCAAATCTTTTATGACCCCTTTATCCATCATTCGAGCTTTCTCCTTTTTGTATTAAAATTTCCTTTGGAACTGTCAAGGCACTTTTCCCGGGAAGATCCTGAGATGGCTGTAGGTTCTACTTTAGGTGAAATATTTCTACATTTCCGTGGGAGTTTTGAGGTTTAGGCATGGGAACTTAAGGAAAAGAAATCAGAAATTTGTCTTTCCCTTTTTATTAAATAATGGTGGGGTTTTCCCTTGGAAAGGTAGGAATTATGGCAAGGTTACAACTTACTAGTATGGGGTTTCTGCCCCTTGGGATTTGTGTTCAGCTTCATGTATTAATGCCAGTTCCAGTAGTTTCTGGAAATCAATTTTAGGTTTGAGTGATTTGCTTGTTTAGAGGATTAATCTTGTGGTGCGGAATGGTGTTAATTGGAGCTTTTGGAAGGAGACCTGGCTCCATTTTCTTTTCCCAAGTTGTTTGCCTGTGGCAAGTTTCTTGCATAATTACTTGGATGGCTATCTGAGAAACCTCAATCCTAAAGGAACATGAATGATGAAGAGGCCTTGGAGTGGGTTGGGTACAATGGCTGGACAAAGATTAAGGTCTTTGTTTGGAAATGTGTATGAACAGGCCTTAGTACTTAAGATAAAGTTCAAGCAAGAAACTCTAATCACTTCTCCCATTATTGTAGTCTGTGTAAGACAAAGATATATTTTACATCCCAGAGGGGCTATAATTGGAGATACCATTGTTTCTGGTACAGAAGTTCCTATAAAAATGGGAAATGCCCTACCTTTGAGTGCGGTTTGAACTATTGGTTTACGTAATTGGAAGTAACCAATTAGGTTTACGACGAAACCTAGAAATCAATCACTGATCCAGAGGAGACTGGCAATTACCTTCTATTTTGGTGCCCTTTTCCTCCATCTTTGGCTCCAGCCCTTAAGTATCTTTGGCTTCAATATGATTTCTCGTATTGATGCTGTTAGGATATCTTCTAACAAGAACACTCATGAACAAACAAAGAACACTAAAACATAGAATTATACTGCAATATCAAGAAGAAGCTACAATATACCTCAGCACATTCTAGAGGGCTGAGAATCCTCCTCCAGATTCTCCAATTAGGATTTGAAATGCCTTGAATTTGTTACGTGGAACTATCAACAACCTAGTAACTCTTTAGTTTTCATAATTGAGTCCATGTACTTATTTATGAGTTATTTATGTTTATGATCCAGGGTAAAGAGAAGTGCAATATATGAAGTGCAATATATATACTCTCTGACCTAGTGGCGCTGGTTTGTATTATGAAATATTCTCTCTAATAATATTGTTCTCCTTTTGCTCCATGGATGTAGCTAATACATTGTTAACGAACCACGTATATCTGTGTGTCGATCTTTATACTTTTTTTATATTGCTTAATTGTTGATTTAGTAGCATAGGTAATCACCACAAAATTCTTGGCACTTTGCTTCCAACCTAAACCCTCTAATTACAACTAAAATCTCTAACAAACTTACCAACTAATTACTATTTTGTCCCTTCTAATATTCTACTAATAGTCCTATTATTCCCCTAACTAGGGCCTACGGGTCTTACATGCTTAACAACTTTTTTGTCTTAACTGTTGTGTATGTCGTCCCAAAAAGATGCCTGATTCTCCTCACGAACATGACTATATCATTTTTATGAGAAAAATGATTATTTTGCACAGGAGCTTATGGTTTCCAGAGTGCCTCTCTACGTTGTAAAATTAACTTTTTGTGACATTAGTATTTTGACTCTCATAGGAGATTAAAAGAGCGGGCGGACAGGTAGTAGCTAGGTTTACCGTTAGTGTGCCTTTACGTAATTTATAAAAGTGGTCTTGTTTTTTTGGATTGAAGTTTTGTTTCCTAGTTTACTTTAGGATAATGCTCAAGTTTGTTTTTTTGTATGCCTTGAACTTTTGCTTTTTTCTTCAACGAAATCTTCGTTTCTTACCCAAGATATTGACAATATATTCTTACATTTATACCAGCTGGAGGAATTTTTTTCGTAATTCCCCTGGCTTCCGGTTGTGTTCAATCATTTCATTCCTCGAACAAAGTTTGTCTTGAATAGAAAAATGGTATTTTTCTGATGCCACAATGTTCTGCGTTTCTCAAGATTTCTAATTAACGATCTATCACTTTCAATATCAAATTAGATTTGATTTTTGTTTCTTTAAATGGAGTCATAAATATGTCTATGCCTTTGCAACAGTATGCGATTTGATTTTTGTTTCTTTAAATGGAGTCATAAATATGTCTATGCCTTTGCAACAGTATGCGGTGCGCTCACTTGGGTGATGGAACAATATGTCTATGCCTTTGTTACGTCAGTGTGTCTTTTTGTAATTATGAATGTAGTCTTGTTTCTTTGGATTGGAGTTCTGTTTCCTAGTTTGTTGTTATTAGTGGGCTATGTCCAAGGAAAGATTTAACCTAATTTTCATTCCTTTTTCATCGGAAGCTTGTTGTCTATTTATTGTCCCCTTTGTATCTTTTGTTCATATGAGAAAATAATAAGAAAGTCAAATCGTAGTTTTTCTCTGGGTACTTCGATTTGCACGTAATAAGGTGTCTATTTTCTTTTACCGCTTTTAATATGATATCAAAACGGGATAAAGACACAACCCTAGACACGAATATTGATAGAACCCAAACAAAGACCGACCACGAGACAGCTGCCGCCATGTAAAAGTTGCTCCACCAACTTTAGAAGCCTCCAATGATCACAACAGGCCCACCCTCAAAGCTAATCGCGCTGCCTAGTGGAGGGAACCAGACGCACGTGCCACATTTACCCATGTGCTGCCGTTCGTCATCTTTGCAGTTCAGCTGGCCTACTCCCAACCGTGGTCCTCTATCCAGCCGTAACACCCTTTTGGTTAGCTGAACATTCACGCGCCGTTCCTGCCCTCGTTTCACGTGCTGTCCTCTTCTCATGTGTTGTTGCATTTTGATTCTTTACAGCAATCGCATATTCGTGGTATTGGGATTGATCAACTCCATGAGAAATCTGGGTTTGAAGTTGGTGAATCTGCGGCACAATCCTAACCAGTTGACTTGCCGAGGTATTCCAAGAACCCGGTAACTTCGTTCCCTACTTTGTCTTCAAATTATATAATTAGTTCTCTGGCATCATCTACAGGTATCTTTCTAGGAGAGCAGCTGAATGGCCAGAACTTTTTTTCCTGGTCTCAATTAGTCAAAATGTTTCTTGAAGGACGTCACCGGTTCAGTTTTCTGATAGAGGAGACTCTTCGTCCCTTACCTGGTGATGTCCAGGAACGTTATTGGAGAGGGGACTCCCTTCTATAGTCCATTCTGATTAATAGTATGGAACCACAATTTTGCAAACCTTTGCTTTATGCAGCAACTTCAAAGGATTTATGGGACACTACTCAGAAACTCTATTCGAAGCGTTAGAACACCTCTCGTCTGTATACTATGAGAAAACAAGTCTATGATTGCAAGCAAGGAAACTATGGATGTAACCTCCTAATTCAATAAACTTTCCACACTGGCGAGAGATGGACCTGTGCAGAGAGACAATAGGGGATACTCCGAATGATGGCATACAGTATGCTAAACTTGAAGAAGTTGATCGGATTTATGACTTTCTTGCAGGTCTCAACCCCAAGTTTGACATTGTTCGTGGTCGTATACTTGTCCGGTGACCCCTTTCCTCCTTAGTGGAAGTGTGTTATGAAGTCTGTCTTAGAGAAGACCGTACAAGTGCCATGAGTATTTTGACTACTTGTGTTACTCACTTTGTTGCCTTAAGTGCTAGATCCTCTACCCATGATAGTGAGAAGAACAATGGGCGATCCTTATTTGTGGGCATTGCAAGAAACAGTGGTACACTAAGGATCAGTATTAGAAACTTCATGGTCGTCCTCCAGAAGGTAAGAAATGTTCCTTAAATGATAAACATAATTTAGGGCGTGCTTATATGAGTGAGTATGCTAGAACCTCTCAACCATCTGGCCCTATTGTAAACCAGAACGGTCCTAGTCCATCCTCCACTCTAAGAGCCATTGTTTAGTCAGGTATGCCTCAGTCCCTTAGCCTTATCAATGTTGATGGGAAGAATCCCTGAATCCTAGACTTGGCTGCTACATATCACTTGATAGGTTCCTTTGAGAATTTTGTTTTTTATATTCCGTGTGCAGGTACTGAAAAGATCAGAATAACCAACAGTTCCTTAGCTCCAATTGCTGGTCAGGGCAAATTTTTTCCTTTGAAGGGCTATCCCTCCAGAATGTGTTGCATATGTCTAAGATTTCCTATAATTTGCTTTCTATAAGTAAGATCACTCGAGAGTTGAACTGTAAAGCTACTTTCTTACCTGATTCTGTTTCTTTTTAGAACTTGAGCTCGGGGAGAATGATTAGCATTGCCCGACATAGCAGGGGACTCAATCTCCTCGACGATGATACCTCCGCTAGTAGTAACTCTAGGACTAGTTTACTATCTTCATATTAAACTATTTTTGAACAAGATTGTATGTTGTGGCTTTTCCAGTTAGGCCACCCAAACTTTCAATATATGAAGTATCTATTTCTCCATCTCTTCTCTAAAGTTGATGTTTCCTTTTTACTTTTTATCTTATGAAGTGTGTATTTAGGCCAAACAACATCAGGTTTCCTTTCCCTCATAGCCATATAAGCCAACCCGATTGTTCACCCTTATCCATAGTGACGTTTGGGTTCCCTTAAAGGTCACTACCTCTTCTGGAAAACAATGGTTTGTGACCATTATTGATTGTCATATCCGTCTTACGTGAGTCTTCCTTATCACTGATAAATTCGAGGTCTCCTCTGTATTTCAGAACTTCTATCACACCGTAGAAACGAAGTTCAATGCAAAAGTTGCAATTCTTTGGAGTGATAATGGTCGAGAGTTTCAAGACCATACCCTGAGTGAGTTTCTATCCTCCAAAGGGATTGTTCATCGGAGCTCGTATGCTTACACCCATACATAAAATGGGGTTTCTAAGCAAAAAACCTGTCACCTTTTGGAAGTAGCTTGGTCTCTTATGTTGTCGACTTCCCTTCCTTCTTATATGTGGGGAGATGCTGTTTTTACTGTAGCTTATCTCATCAATAGGATGCCCTCTCGTGTCCTTCACCTCCAGACTCCCTTAGATTGTCTCAAGGAGTCGTATCCCTCTACTCGCCTACTTCTAAGGTTCCCCTTCGTGTGTTTGAATGTACAGACTATGTTCATTGCTTTGGCTCTAACTAGACCAAATTCATCCCTCGGGCTCAAGCAAGTGTGTTTGTTGTGTATCCCCTTCATCAACGAGGCTATAAATGTTTCAGTCCTCATTTCCGTAAATACTTTGTCACTATTGATGTCACCTTTCGTGCGGGTCGACCTTTCTTTCTCGCTAGCCATCTTTAGGGGAGAATGTGAGTGAAGAGTCTAAATGTCCCTTAGAGTCTACCAATCCTACCCTTGTTAACTTACTTGACCCTAATCCTCATCCCATGGTCCTACCTACAAACCAAGTTCACTGGAAAACCTATTATAAGAGAAATCTCAAAAAGGAAATTGGGTCCCCTATTGACCAGTCAACTTTGGTCCAAGACTCTAAACCTCCACGAGATCAAGGTATGACTAATCCTATTGACTCATATGTTGACGATAAAATGAGTGAGAGTGACAGGTGCAAGACTTGTGCCAGAATAGAAGGGTCAATTTTGGAAAATAAGTATTTTAATTTATTGTATGAATTTTGGAGAAGGCTTTGAAAAGAAAGTGTTTTGTTGAAGCACGTAGCTAGGCGATGCGAAGAAGGAAGATGTGTTTTAAAGCTTAGCGGTACCTAGGTGACACAAGGAGAATGAGAAGGCAAACAAGACTGACTAAGCAATTTCAAGTTCAATGCGAGATAAGCTATGTGATGAAGGATTAGTTATTTTTCTGGGGAATTTTCTATTAGTGCTTAATTAGTGGCTATGTGTCAAGATTAAAATTAAGCATATTCATGAGAAAGATAGGGCTTACACGTGTACCACTATAGGTAGGAGCTGGCAAGTTAGTAAGGACCTCAGGATGACTAATCTATTTTGGAGATTAGTACAAATAGAGCAGAAGGAACAGGAAAAGGATTATTATACAAAAAGGACGGGAAAAGGATTATTATACAAAAATACTTAGTGTTATTCTACTGGGAAAAGAAAAAGTTAGGCGAGAAGAAGCTTGAAGACAAGACGTTCTGAGCCAATGGGAAACTAAGGATTAGTGAGTGATTATCCAAAATGTTTAATGTTTTTAAAGCTTCTTTTGAACTTCTTGTTCAAATGTAAAGTTGTTTCTACATATTTAACGTTTATGAAAGGAATGATTATTCTAAAGAAAGCCTTTATGCTAAGTAAAATTCTATACGCAATGAACGCTTTGTATTGTATAATATGTTCATTGAAAACTATTAGTCTTATTCCTATCAATGAAGCTAACTGTTATGTGCACATTAAGAATAAAGGTAGCCTTGTAGAAAAGGACTGCATGGTGGAGTGAAGCGGACCAATGCCTAAAGGAGCGTATTGTGTTTAGCGGCCTGAGCAATGGGAAATGAATTAGGATATTCTCCCAGGGATGTTGCAGATGAAAAGGACGTCACAGTAGTCTATGTGTGGGAATGGTTCATGTTCTCGGCGAAAGGAAAATGGAAGACTTATGTGTGTTTATTGTTTTATGAAATGAGACGTTGAAGCCTATTGTGTTATGAAAATGAATTGTTGGTTAAATTATATTTCCCTAAAAGGTTTTCAAAACTATCACTCACTAAGTCTTTGACTTACGTTTTGAAGTTTTCTCTCCCTAGGTGATCAGACGTTAAGGGTCAAGTAAGGAAGGATAAGATAAGTTGCTAGGCGTGGAAGCTGAGCCAACGATCTAAGTACTTTTATCTTGTATTACTTGTAATTGAAAAGTTATTTCATTTTTTTTAGAAGTCTTGTAGGAAAGGAGCTGCATCTCAGTTTTGTGAGAGCTAGCAAGACGTTTAAGTTTAACATGTATCTTTGTACGAAGGAAGTAAGGAAAGTGTTGTTGTGTAACTCTTGGTTCAAGTAATAAGAAAGGTTTGTTTATTGGCTATATTTGAAGTCTTTTATTTGCTTTCAGTTGCGTGTTAAAGTTGAAGTGTAAGATTTAAGTGAGCGTTTTGGCGTTTCACTTGAGGTGTCATAACTGCTCAAGTCGCGTTTTGATCCGCATAGCGAGACCAAGGACGTGTGTGGGGCGGGCCATGACAACAGGTTCGATGTCTTTGTTCCTGAAGATATTGGAGAAAAGGACAGTGTTGATGAGACGGAGGTCAGAGTAGAAATTGATGGTAATGAAGCTAAACAAGATCATTTAAGTAATCTTGGTGAGTATGATCCTTCTCTTAACATTCCCATTGCGTTGAGAAAAGGTACCGGGTCCTACACGAAACATCTTATTTATATCTATGTTTCTTATGAGAGACTATCTCCACAGTTCAGAGACTTCACAGCCAGTGTTGACTCTACCATGATACCTAAAAATATCCACATTGCTTTAGACTGCTCTAAGTGGAAAACTGTTGTTATGGATAGAGCTCTTGAAAAGAATAAGACTTTGGAGATCTATACTCTCCCTAAATGAGATAAAACCGTGAGATGTAAATTAGTGTTCACACTTAAATACAAGACAGATGGAACTGTTGATAGCCACAAGGCTAGGTTAGTTGCAAAAAGGCTTACTCAAACCTATGATGTCGATTATTCTTAAACTCTTTCCCTTGTTGAAAAACTAAAATACCGTTAGAGTCCTGTTATCTATTGTTGTGAATAAAGACTGGCCCTTATATCAGCTGGCTGTTAAGAATGTGTTTTTGAATGGAAACTTGAAAGGGGAAGTCTATATAAGCCCCCCTGCAGGGTTTGAAGCGCAGTTTGATCATCAGGTTTGTAAACTTCAAAAACCCTTGTATGGGCTAAAATAGTAACCGAGAGCATGGTTTGATAGGTTTATTACCTTTGTCAAGTCTCAAGGGTACAGTCAGGGCACCTAATCACACCTTGTTTACAAAAGTTACCAAGGCTGGAAAGATCACCATTGTTGATTGTTTATGTTGATGACATTGTTTTTCTCTAGGGATGACAACGCTAAGATCATCCAACTAACAAAGAAGGTGGGTGATGAGTTTGGAATTAAAGACTTGAGGAAAGTATTCCTTGAGATGAAGGTAGCTAGATCAAAAGAGAAGGTATCTCTGTATCTTCTTACGTTTATACCAATTGGAGGAATATTTTTCGTGATTCCCTTGGCTTCCAATTGTGTTCAATCATTTTATTTCTTGAACAAAGTTTGTTTTGAATACAAGAATGGTATTTTTTCTGATGCTACAACGTTTTGTGTTTCTCAAGATTTCTAATTAACGATATATCACTTTTCAATATCAAATTAGGTTTGGTTTTTCTTTTCTTTAAATGGAGTGATAAATATGTCTACGCTTTTGGAACAGTATGTAGTGGTGCGCTCACCTGGGTGATGGAACAGTATGTCCTTTGTTACGTCAGTGTGCCTTTTTGTAATTATGAACGTGGTCTTGTTTTTTCGGATTGGAGTTTTGTTTCCCAGTTTACTTTAGTATAATGCTGAAGTTTGCTTTTTGTATGCCCTTTGAACTCTTGCTTTTTTTTTTTTTCTTCGATGAAATCTTAGTTTCTTACCTAAAATAATAACAATATATTCTTACATTTATACCAACTGGAGGAATCTTTTTCGTAATTACTCTGGTTTCCGGTTGTGTTCAATCATTTCATTCCTGAAACAAATTTTGTTTTAAATACAAGAAAGGTATTTTTCTGATGCCACAACTTTCTGTGTTTCTCAAGATTTCTAATTAACGATCTATCACTTTTCCATATCAAATTAAGTTTGATTTTCTTTTTCTTTAAATGGAATTATAAATGTATCTATGCCTTTGGAACAGTATGTAGCGGTGTGCTTACCTGGGTGATGGGTCAGCGCTATTTACAGACTTCTAAGATCATGCCGGCTGGCATTGTAGCTGGAATCAGGTAACTTGATCTACTTCTAAATTCACGTCACAAATTTCTTTTAAATGCAAGCAATCATTTTCTTGCGCTGTTGTCTATATCTTGATTGAAAGGACATAGTGATGGCACTATTTATCATATTGTTCTTTGCTGCTAACTCAGCTATCCAAACTATACCTTTTGATTTTGGTCTGAATTACAATATGAACAAAAACTTGTTTTAAAGTATACCCTAAACCCTAAAGCAATAGATTTGACTGGTGATGTTATTATCACATTATTGTAACTTAAATTATAGTTGTTATCATTATTCTTAAGAAACGAAGCTTTCACAACTGATGTTCACGAGAATATTAAATCTCACCACCACCTGTCCCTGAACACAACCTACCTGCAAAATCAAACTAAGGTCATAATTACAAAAGGCCTAGTTACGAATGCTCACAAGAAGACATTAAACTTCACCACCTCCCAAAATTTGTTACTCGACTTCTTCACACTTCCAAAAGAACCTATCATTTCTCAAGTCAAACTGAAAACTGGGGTTGGAGCTAACACATGTACCAATTTCTTTTTGTTATCCTTGAAATTTTCTCTTGGCTTTACTTTACCTGATTATGTTACACTTTTCTTTTTGTTATTCTCTTGCAGTTCTCTCATGACTTTATTTTACCTGTACAAGCTCGCAACTGGCGGTAACCATATTTCTCCCAAGGCCGAGTAATGATTTCAAACACTTCCGATATTCAATATGGGAAACGCACTGGATCACACTAGAAACTCAAACAATGTATTAGTATACAAACAATTGCTGTTATTGCTAATTTATGTTGGACGTGTAAACTGAATGATCATTGCTGAATATAGATAAGGTGGGTTGAAAGAAAGGCTTAGAGTTGTTATTTGAACGTGTGCTTGGGGAAGCTCTGAGCTGTTGCTGGATGAGTTTGTCCCCGTCCTTTTACATGTGTTCTTACTTGGAATCAAGTTTTCTCGTAAATCTTTGGATTCTGTTACAGATTCTTGTTTGTATTTTTTTTCTTCTTGTCATCATCTTTTTTGTTCATTGATGTAGTACTTAATGAAACCGACTGGGAGCTAAAAAACATCTTTGCTGACATTCCACATTGTCAAATATTCAAAGATTTTGTTTTTTCTTTTGGTATGAGATAATTGTTTCATTGT CTCAATCCCCCATCCACGCCATAAAGGTCATAAGGCAGTTGAGAAGAATTGGAAAACTCCTCCATTCCTCTTTGATCTGTGAAATCAAAAGAAGGATTTATTCAAAATCTGTTATTCTCGGAAAACCCAATTTGGAAACATGCATGATTTCTGCTTCACAATCCCTTATGGATTGATTTTAGTTGGTGGTGGCATTTTTGGCTACCTCAGGAAAGGGAGCATAGCATCGCTAGCTGGAGGTGTGGGTACTGGATTGGTTCTAATTCTCGCTGGATACTTGAGCCTTGGAGCTTTCAAGAAGAAGAAAAACTCTTATCTTGCTCTGATTCTTGAGACTGTATGTAGCGGTGTGCTTACCTGGGTGATGGGTCAGCGCTATTTACAGACTTCTAAGATCATGCCGGCTGGCATTGTAGCTGGAATCAGTTCTCTCATGACTTTATTTTACCTGTACAAGCTCGCAACTGGCGGTAACCATATTTCTCCCAAGGCCGAGTAATGATTTCAAACACTTCCGATATTCAATATGGGAAACGCACTGGATCACACTAGAAACTCAAACAATGTATTAGTATACAAACAATTGCTGTTATTGCTAATTTATGTTGGACGTGTAAACTGAATGATCATTGCTGAATATAGATAAGGTGGGTTGAAAGAAAGGCTTAGAGTTGTTATTTGAACGTGTGCTTGGGGAAGCTCTGAGCTGTTGCTGGATGAGTTTGTCCCCGTCCTTTTACATGTGTTCTTACTTGGAATCAAGTTTTCTCGTAAATCTTTGGATTCTGTTACAGATTCTTGTTTGTATTTTTTTTCTTCTTGTCATCATCTTTTTTGTTCATTGATGTAGTACTTAATGAAACCGACTGGGAGCTAAAAAACATCTTTGCTGACATTCCACATTGTCAAATATTCAAAGATTTTGTTTTTTCTTTTGGTATGAGATAATTGTTTCATTGT ATGCATGATTTCTGCTTCACAATCCCTTATGGATTGATTTTAGTTGGTGGTGGCATTTTTGGCTACCTCAGGAAAGGGAGCATAGCATCGCTAGCTGGAGGTGTGGGTACTGGATTGGTTCTAATTCTCGCTGGATACTTGAGCCTTGGAGCTTTCAAGAAGAAGAAAAACTCTTATCTTGCTCTGATTCTTGAGACTGTATGTAGCGGTGTGCTTACCTGGGTGATGGGTCAGCGCTATTTACAGACTTCTAAGATCATGCCGGCTGGCATTGTAGCTGGAATCAGTTCTCTCATGACTTTATTTTACCTGTACAAGCTCGCAACTGGCGGTAACCATATTTCTCCCAAGGCCGAGTAA MHDFCFTIPYGLILVGGGIFGYLRKGSIASLAGGVGTGLVLILAGYLSLGAFKKKKNSYLALILETVCSGVLTWVMGQRYLQTSKIMPAGIVAGISSLMTLFYLYKLATGGNHISPKAE*
BLAST of MELO3C018110 vs. Swiss-Prot
Match: FAX5_ARATH (Protein FATTY ACID EXPORT 5 OS=Arabidopsis thaliana GN=FAX5 PE=3 SV=1) HSP 1 Score: 183.3 bits (464), Expect = 1.5e-45 Identity = 86/119 (72.27%), Postives = 102/119 (85.71%), Query Frame = 1
BLAST of MELO3C018110 vs. Swiss-Prot
Match: FAX6_ARATH (Protein FATTY ACID EXPORT 6 OS=Arabidopsis thaliana GN=FAX6 PE=3 SV=1) HSP 1 Score: 179.5 bits (454), Expect = 2.2e-44 Identity = 84/119 (70.59%), Postives = 99/119 (83.19%), Query Frame = 1
BLAST of MELO3C018110 vs. Swiss-Prot
Match: FAX1_ARATH (Protein FATTY ACID EXPORT 1, chloroplastic OS=Arabidopsis thaliana GN=FAX1 PE=2 SV=1) HSP 1 Score: 85.1 bits (209), Expect = 5.6e-16 Identity = 44/112 (39.29%), Postives = 65/112 (58.04%), Query Frame = 1
BLAST of MELO3C018110 vs. Swiss-Prot
Match: FAX7_ARATH (Protein FATTY ACID EXPORT 7 OS=Arabidopsis thaliana GN=FAX7 PE=3 SV=1) HSP 1 Score: 66.6 bits (161), Expect = 2.1e-10 Identity = 41/102 (40.20%), Postives = 56/102 (54.90%), Query Frame = 1
BLAST of MELO3C018110 vs. Swiss-Prot
Match: TM14C_BOVIN (Transmembrane protein 14C OS=Bos taurus GN=TMEM14C PE=1 SV=1) HSP 1 Score: 62.8 bits (151), Expect = 3.0e-09 Identity = 37/95 (38.95%), Postives = 51/95 (53.68%), Query Frame = 1
BLAST of MELO3C018110 vs. TrEMBL
Match: A0A0A0LD52_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G418720 PE=4 SV=1) HSP 1 Score: 233.8 bits (595), Expect = 1.1e-58 Identity = 115/119 (96.64%), Postives = 116/119 (97.48%), Query Frame = 1
BLAST of MELO3C018110 vs. TrEMBL
Match: A0A0B2PW60_GLYSO (UPF0136 membrane protein OS=Glycine soja GN=glysoja_019907 PE=4 SV=1) HSP 1 Score: 205.7 bits (522), Expect = 3.2e-50 Identity = 97/119 (81.51%), Postives = 110/119 (92.44%), Query Frame = 1
BLAST of MELO3C018110 vs. TrEMBL
Match: I1M6T8_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_14G024900 PE=4 SV=1) HSP 1 Score: 205.7 bits (522), Expect = 3.2e-50 Identity = 97/119 (81.51%), Postives = 110/119 (92.44%), Query Frame = 1
BLAST of MELO3C018110 vs. TrEMBL
Match: C6SYD8_SOYBN (Putative uncharacterized protein OS=Glycine max PE=2 SV=1) HSP 1 Score: 205.7 bits (522), Expect = 3.2e-50 Identity = 98/119 (82.35%), Postives = 110/119 (92.44%), Query Frame = 1
BLAST of MELO3C018110 vs. TrEMBL
Match: B7FH11_MEDTR (Transmembrane protein 14C OS=Medicago truncatula GN=MTR_5g092160 PE=2 SV=1) HSP 1 Score: 204.1 bits (518), Expect = 9.3e-50 Identity = 95/119 (79.83%), Postives = 110/119 (92.44%), Query Frame = 1
BLAST of MELO3C018110 vs. TAIR10
Match: AT1G50740.1 (AT1G50740.1 Transmembrane proteins 14C) HSP 1 Score: 183.3 bits (464), Expect = 8.6e-47 Identity = 86/119 (72.27%), Postives = 102/119 (85.71%), Query Frame = 1
BLAST of MELO3C018110 vs. TAIR10
Match: AT3G20510.1 (AT3G20510.1 Transmembrane proteins 14C) HSP 1 Score: 179.5 bits (454), Expect = 1.2e-45 Identity = 84/119 (70.59%), Postives = 99/119 (83.19%), Query Frame = 1
BLAST of MELO3C018110 vs. TAIR10
Match: AT3G57280.1 (AT3G57280.1 Transmembrane proteins 14C) HSP 1 Score: 85.1 bits (209), Expect = 3.2e-17 Identity = 44/112 (39.29%), Postives = 65/112 (58.04%), Query Frame = 1
BLAST of MELO3C018110 vs. TAIR10
Match: AT2G26240.1 (AT2G26240.1 Transmembrane proteins 14C) HSP 1 Score: 66.6 bits (161), Expect = 1.2e-11 Identity = 41/102 (40.20%), Postives = 56/102 (54.90%), Query Frame = 1
BLAST of MELO3C018110 vs. TAIR10
Match: AT3G43520.1 (AT3G43520.1 Transmembrane proteins 14C) HSP 1 Score: 60.1 bits (144), Expect = 1.1e-09 Identity = 36/100 (36.00%), Postives = 55/100 (55.00%), Query Frame = 1
BLAST of MELO3C018110 vs. NCBI nr
Match: gi|659109102|ref|XP_008454549.1| (PREDICTED: UPF0136 membrane protein At2g26240-like isoform X1 [Cucumis melo]) HSP 1 Score: 238.8 bits (608), Expect = 4.9e-60 Identity = 119/119 (100.00%), Postives = 119/119 (100.00%), Query Frame = 1
BLAST of MELO3C018110 vs. NCBI nr
Match: gi|449468492|ref|XP_004151955.1| (PREDICTED: UPF0136 membrane protein At2g26240 [Cucumis sativus]) HSP 1 Score: 233.8 bits (595), Expect = 1.6e-58 Identity = 115/119 (96.64%), Postives = 116/119 (97.48%), Query Frame = 1
BLAST of MELO3C018110 vs. NCBI nr
Match: gi|225461013|ref|XP_002280849.1| (PREDICTED: UPF0136 membrane protein At2g26240 [Vitis vinifera]) HSP 1 Score: 209.9 bits (533), Expect = 2.4e-51 Identity = 101/119 (84.87%), Postives = 109/119 (91.60%), Query Frame = 1
BLAST of MELO3C018110 vs. NCBI nr
Match: gi|734348751|gb|KHN11934.1| (UPF0136 membrane protein [Glycine soja]) HSP 1 Score: 205.7 bits (522), Expect = 4.6e-50 Identity = 97/119 (81.51%), Postives = 110/119 (92.44%), Query Frame = 1
BLAST of MELO3C018110 vs. NCBI nr
Match: gi|351723771|ref|NP_001235243.1| (uncharacterized protein LOC100306195 [Glycine max]) HSP 1 Score: 205.7 bits (522), Expect = 4.6e-50 Identity = 98/119 (82.35%), Postives = 110/119 (92.44%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
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:
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