MELO3C006737 (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.ATGCAAGATCAATATCCTCAACCCTTCTTTTTAACAACTTTGGTCTGCAGCAATCCAGGATATCCATTCTGCACTGGTGTTACTTTAGCCAAGCTTGCTGCAGTTACCATGGATGAGCAGGGGAATGAAACATTTGATACAAGTGGCGCTCTTGATAAACTTCGCAAGGTTAGCTTTACCTCTCTTTTCATGAAGCTAATGTTCTGTTGTGCGAGATAGTTATGTTAATCTTTCTTGTATGCATGCATGGAGTGCAAAATACATGAATTTTCTTTTTATATGTGCATCCTTTACACCTAAATTGGACATCTTTCCTTCAGTTAGATGGCTAGTTTTCTATGTGTTTTTCTCTTTTTGTAATTTTAGTTTGTATGATTGGATAGATTGTGGACTTTATCTTTGTATCTTAGTTTGTTTTGGATATGACGAGGGTGCTAAGGGGTGTTAACCTAGTTGAGATGTCTTGGTGCACCTTTTGATCCTTGGTTCCTTTGCTCATTGTATAATCCTCTTATACTTTTCGCTTTTGTCTCCTCGTTAATATATTGATAAAAGAGACTGTTCCTTTAAAAAAGAATATGTGCATCCTTTACATACAAATTGCAGAAGAAAGAAATTCTACTTTGAGAATTTGATTATCTTTCCATTTCCCATATTTCTTTTTCTGAAGTGTTTCATAACTTTCATTGGCTTTTTGCTACAATTGTAATGGTTTTTTCTAAGGCATGAACCCTTTGTTTACAGTTAGTGCAACTTGATAGGCTTGCCATGTATCATGATTCAAATACCTTGCCATGGAGTTTGGACAAAAAGTGGGAGGATCTTAATCCCAAGGAATGGATTGAGGTATGCTCTCCAGTTTTAACGATCATGTGACATAGTCACAGATACAGACTTAATTTAGTTTCTGCAGTAAGCCTGACGTTTTGTTTAGTCAAGGCAAACATTATCATTATTATCTTTTGAGGAAACATTTGTTTGAGTGTCAACAGGTATTTGAGGATGGTATAAATGAACCCACTACTGACCATGGATTGGGGCATAAATGGGCTGTGAATCGAAATTACTTGGTTTCACCGATTAATGGAATTTTGAAATATCATCGTCTTGGAAATCTAGAAAGAAATGATCCTGAGATTCCATATGAAAAAGCTTCCTTAGTTTTGGGTGACGTGTCTTTGACAATAACGGAGGTATTGGATCTTTACTTCTTTGGTTAGTTTTGTCGGAATACTTTCATGTTTATGGAATATTACCTCAATTTCTTACCATTTTTTTTCTTTATGGTATTGATTTTTTTGTTTTATTGATTTTATTATTGTTTTCGGTTAAAGCCAAGCCAAAATTTCCTAGGGTGGCTAGAATGATTTGCCTTTCTTGGTTATTATTGCTTTTGATCTATGTGCCTTGGCTCCAAATAAGGATGTTAATAACATTGTAGTTTGTATCCTTGAGTAATAGTCAATTTGGGTGTCAACTTAGTTGAGATAGTCTCTTTGGGTGTCAACCTAGTTAGGATGTCTGAATGCACCTGCTTATTCCTAGGTTATTGTATTACAAATGTATTCTTTATGTCTTTTCATTATCTTAATGAAATTATTGTTTCATTTTACAAAAAAAAAAAAAAAAGAAGAAGAGAAGTTTCGTACATTGTTAAAACAAAATTAACATTGTATAGAATTTTTCTGCGAAGAAATAATTTTATCATCAATTAATTTTTTGGTAGGCTCAATACCACGATTGGATAAAGCTTTTGGAAGTTGTTTCAAGGTATAAGACATATGTCGAAGTTTCCCATTTGAGACCGATGGTTCCTGTTTTGGTTGCTCCTAATCTGTGGTGGCGCTATGCTGTTCAAGCATGCCTGCAGCAGAAGAAAATGTGGTAATTTAGTTTGCAATCAATTCTCTTCGTTTGATATGAAGAAATTATATTTGTAACTGTGATCCCTGCACCAATAATGGATAAGACTGAACGACTGAATGATTCAATGCATTGGATGTCAGTGCAACTATACAATCTTTATATTCTTGTCAAATTCAATGCCTAATATTGATACTTACACTTTGTCCATTGCTTCTGAATAAGCTATCGGTTTTCTTGGGAGCGAATACGGCAACTTTGTCAACTTCGTAGACGCTATATTCAGCTATATGCTGGTTCATTGCAACGAATGTCAAATACTAGTAACAACGAGATTAGAGAAATTGAGAAGGATCTCGATTCCAAAGTGATACTTTTATGGAGGTACATAAATTATTTTCTGTAGTTATTTATGTGTTAGACTGGTATGAGTGTGTTTGAGTAGATCTTATTGCTAGATGTTTGTTTGTTTGAAAATAAACAGAACTTTTCATTGAAAAAGTGAAAAAAACTAAAGATTGAAGATACAATTATTCTCAAAGAGAGGAAAGAAACAAAGTAAAACTAAGGTAAAACATTTTTTTTTTTTAAACGGAGACAAAAACTTCTTATTAATTAGAACTCAGAGTACAAGAGAGGTACAAAAAAAGAGCAATAAAGAAGTCGTAAGCAAGGGAGACCTGGAGGGATCATGGGGGCACTTGAACATCTCAACTGTGTTGACACTCCGAAAATGCCAATCATCATATCCTGAGCATACAGAACCAAGAACAAACATACAAAAACTAAGGTAGAACGTAGAAATGTAGCTTAATCCCATTTCTTTTCCACAACTCCTATTCACAAGAAGGAAACTCTTCAACATCTGATTTCAATAGTTGAAGATTGTAATATTTCATTTGGTGGAACAATGGTTTCAAAGACACGTGATCACAAAGGATGGATCTTTGAATTCCGTGAATCTCATTAGGGTTTGGTGATATTCTTCTGAGTTGGCGCTTCCGTAGTTTTGTTGGATTTGAATCTGACCTTGGTCATAACTCATGGACCAATTAGAGCTACCTTTGTTTTTGTCAAAATTAAAGAGCTCTAGAGTTCTTCCTTCAGTGTTCTCCATTTGTTTCAGCTGGTGTTGTTTGGTTGTATAAGTCTGGTAGGCTTGGTTTTGGGAAGGCTTCTTTCTTTGGCAGCTTGCAAACCTGTCCTATTATGAGCTCTTTTGCAAGCCTCATTCGCTTTCAAAACTCCTTGTTGCTCAAGCTTCTAATTTTATTCTTTGTCAGAAGTGTCGTTTGGAAAATTTTTGCTCAATGAATTTTGTTCCTGTTGTGCTGATCTTTTCAACGTTTGTTCATTTCTCCCTTGGTTCTTTGTACTTAGAATCATTTCATTGCTTCAATGAAAAAGTCTTGTTTCTGTTAAAAAGAAAATAGTGTAATCGCATTCATTTTGGGAGCCTCATTTTCTTCTCATGGTGGCATTTTTAGAGTTTTTTGGCTTGTTGCAGTGCATTTCTTGTTTTTTTTTTTTTTTATTTAAATTTTCCTCCTGATTTTTGGTTGGCTAGGATTTATAGGACGTTTCAAAATCCTCTGCTTCCATGATTTGTTCGTTTTGGTTATGCTTGTCTTTAAGATCTTTTCATTGTAATTTAGTATCATTCTATGTTTTTCCTCCCTCCCCTTTTTGCTCTTTGTATAACCCTCGTGTATATTGAGCTTTTGTCTCTCTATTTTTCAATATTAATAATAGTGAGACTTGTTTTCTTTGCATTCCATGTTTTTGGTTAATTTTTCTGTTAAAAGGCATTTGTATTTTTAAGCAGTAGTCTATTTTATTTTATCAATAGAAAGTTTCATTTCCTTTTTGAACTTGAAATTGACGGAACTTCTTTGATTAGTTTGACTTTTTTGCCTTTCCTTTTTTTAAGAAAAGAAAAAAGAGAAAGAAAAATAGATCACAATAAATTGTTGTACAAGTTATTTAAACTAGCGTATATTATGGGAATATCAAAATAGATTGTTCTTGCACAATCTCATCCACGCCAAGCATCCTAGTTGGTACTTTCTTTTCTATGTTCGACTGGGAGGGATATTGGCTATGTTAAATAACTTGATTCTTAAATATTTTCCTTTTTTTTTTTTTTTTTTTCCTGAAACAGAAACTGAGTTTTTTTTTTTTTTTTAAAGAGAATGAAAAGAGTAGTATGAGGATAACAAAGCATCAAAACAATTGTAATCGAGTAAATCGACACAGGAACCAAAATATAAGGCACAATCTCTTTAAAACAGAAAAGCTCTTCCAAATCCCATTTAAATCTTGGATAAAATAACTCTGGAAGCTCTTAGATAATTTGTCACCAGTAATATAAGTTGTGGCTGAAACTTAATTTGATGTTGTTGCAACTTACTGTTGTTTAGGTTACTTGCTCATGCGAAGATTGAATCTGTGAAATCAAAAGAAGCAGCTGAACAGAAAAAATTGAAAAAGAGCAGCTGGTTTTCATTTCGATGGTTTGTGGAAATCTTACTCCCAATATTTGATTCAGATCAACTTTCCCAGGGCTACAATTCACCTCTTTTTTTTTCCTTTCTTTTTTTGGGAAAACAATTCTTCTTTTAATCTTGGCAATTTATAGTGGTTTTCATGTCATATTAGGCGTGCGAACTCTGAAGACACTTCTGATGGGGATGCTTCGGAGGGATCACATCTAAGTGTAGAGCAATTGACTAAAGAGGAATGGCAGGCAATTAATAAGTTGCTGAGTTACCAACAAGATGAGGACACACCATCACATTCTGGGAAGGATGGGCAGAACATGGTACAGTTTTTGTTTACAGTATCGATTAATCAGGCTGCTGCAAGAATCGTTAACATTAATCAGACTGAGATTGTTTGCGGAAGATTTGAGCAACTTTCAGTGTCAACCAAGTTAAAACAACGCAGCACATACTGTGATGTGTTGCTGAAATTTTATGGTTTATCTGCTCCAGAAGGTTCACTTGCTCAGGTTTGTTCGCATCTTGATTGGTTTTACTCGATATAATGTTTATTTCATTGTTGCTGACAGATATTTTCCTTTTAATTTTTAACTTTTACATTTAAATTAATTTTCTAATAAGAAATAACACTTTCATTAATGATTGAAATGCTATGAAAGAGTGCAATAAAGTATCCATAAGAGGTAATTGCAAGATTGAGGGAAATCTATAGTTCGACCCTAGAAAAATATCCCGAATTATTTCAAATATCATTAAAGAGAATAGGCAGAAAAAAACTTAGACAAGCAATACTTGCTAAGCCTAGACCAAGTTCAACTCAAATGATGAATTAATGTTCATGTGGAAACTTCCAGATAAAACGGACTTGCTTTTATAACTAATTTATTTGTTTTGTTCTCTATTATTGAAAAATGCTTTTAAATTCGTTTGTTCTGCCTTATTTTGATGTAATCTTTTATTATAACTTCTATTATTACCAGTATTGTATGGATAGGATGAGGATGCTAAGAGGGTGTCAATCTAGTGGAGATGTCGGGTGCGTCCTTGGTCCCTAGGTCTCTTTATTTGTACTCATAGTATATAACTCTTGTACTTAGAGTTTTTTCATTAATAAAGAGGCCGTCTCCTTTTAAAAGAAGAACCCTACTCCTGTGTAATTTATCATTACATTGTTTACTTCAAAGAAAATGTTTTTTAAGAATAAGAAAAAGAACTTTTCATTGATACAGTGGAAAGAGAATATGATTGTGTTAAAGTGTTGATAAATTTCCCTAAACTTGTTAGCTTAAGCTTTGGGGTCAATCTGTGACTTAACGGATTAATACATTATTTCTTATATGGTTCAAATCATTTGATAAAACACTATTTGTAATTTCAACATCCAATAAAATCACTATTTTTTTGAATTCTTTTAATTTCCTTTTATATAATTTTTACATATTGATTTTTTTTTTCAATTCTTGGCTTAATATTTAATAAAATTGGATCATAATTTTACTTTTCTATTCGTAAAATTTGGAAACGAGTCTCTTTATTAATATAATAAAATACGACAAGGAGATTAATGCTCAATGTACAAGGGTATTATACAAAGAACAAGAGGACCTAAGGATCTGAAGGCGCGCCTTGGCATCTCAACTAGGTTGACACCCCTTTAGCACCCTAATCATCACGGTATAATTTATCTCAAGATACCTGGTGATAATCCAAAATATAGCTGACCATGTAAAAGAATAATCGAAGGAGAAATATGAAGAGTCCTAGACAATAATGAAATGGTGTAAATGTTCTCCTTTATTCAATTTGTATGTCCTCACGACCCTTTTTCTTTTTTTTTTTTGAAATGGAAACAAACATCTTTATTAATAATAATAATAAAAGAGATTAATACTCAAAGTACAAGAGTACTGTACTAAGAGCAAATGACCTCACGACTCTTATAACCAATTGGAGAAACATTCTGTAACTCCTTTGGTTTTGGGCTTTGTTGCCCCCCTTTCTATCTTCATTTATCAACGAAAGTAATTTCTTATACAAAAAAAAAAAGAAAAAAAACCCGAAATTGTACATAAGACTTGATATCTAGATGGATAGGCTCAAAATAAATAAAATAAAATTTGGAGCATAACTTCAGGTTCATTTTTGAATATGGAAATCAAAAGTTGTATTGGGATCTTTATTTCGGTATTTGACATGAGAACAGTTTTATTTTGGAAGATTTGACTTTTAAGAGAAGGATTTCTCTATCTTTATCTTCTTTGCAATGGTTTGAAGAAAGGTTAGTCGAAATGCTTCAGTCTTCTATTGACTAATTCTTTCAAAAGGAAGATAGAAATGAGTTAGAAGTGATTTGGCTAGCAAAATTTTGTACTTAGAAGGGCTGGTTATTGGAGTGTGCTTTGTGGCCTGCTACTGGTGGGAGATCAAGGAATCCTTTCAAAAGACATTTGTTTTGGGAAAGAGGTTGCAAATCTCTTTCAAACTCCACCACTCAAAAAGTTACCCCAACTGCCTTCTTTTAAGCTTTTGTTCATTAAGTCTTGTAAATTCCTTCTACGTACTCCCTTATTGAAGCCTGTGGTTTGAAACTCAGTAGGGCCATTCATCACCAAACAATATACTTTTGTTGGAGAACAGAAATTTCTGAAATTTGTCTGTTGCTTCAAAAGAGGTCTTGCATTTTATTCATTTAACATTGGAGATCTTGAGGCATTTGATTGTGTCCCTTCTTGTTTATTGTGGTTGGAGATTACTTCAGGCCCCAGATTATTTTTGGAGGAAAATGATTCAAAGCATACGAAGGAAAAGTTCTTTTCTTATGTCTGTTGGTTGGTTAGAGTGGTTTGAATCTTTGGGATCGGTTGCTTAACTTTGGGTTGGAGAACATTTGTCATGTGCTATTTGTTTTGGATGACATTGGGGTTGTAGATTTGTGGTATTGCAACAATTGCTTCTTGTCCAATCAAGTTCAGGGCTGGTGGTTCTTTTTCCAAGTTGTCTGGAATTTTTTTTTTCAGTTATCCCCTGTTTCTTGGTAAATTAATTTTTCTGAAAGGTTTTTGGAAGTTATTTTGTTCCAAAATATTATCCCTCCATCCCTTGGGCCATTATTCCATTATTTTGCTTGTTTGGGTTTTTTGGCGTTCCTTTGGCTCGTTCACTTTGAAGATTCAAGATTTTTTGTTTCCTATTGGTGTTTTTGTTTCTAAGATTTTAACTGTATTTTCTCTCCAAATTGTATGCTTAATTGGAGGGGCTCTTATTTAGTTTGCCTATTATTCGTTCGCATGACTCTTGGTTTGTTCTAAGTTTTTTGCATCTTCACTTTGTTTCCTTGTATTTTGAGCAAGTCTCTTTTCATTATGTCAATGCAAAATTTTGTTTCCTTTCAACAAATTTTAAAAAATTTGGATATGAATTCAGTAACAATTTTTGTTAATTACCTAATTGAAAAATAACAAAAAAAATAGGTCATGGTTTAAAATTATTTCTTACATTGACACTTTTGTATTTTATTAACTTATTTAAATTCCTATAATAAAAATTAACATGCCCTTGACACCCAAATATTGTAGGGTCAGATGAGTTTTTCGTGAGATTAGTCGAAGTGAACGTAAGTTGGTCTGAACTCTCACAGACATAAAAATGAAAATTAACAAGTAATTTTCATTAGTATTGGGTAGAGTGCTTGATTCTTATATACTCCTTGGTGGAAGTCTTCTTTTGTGATTTTAAAATAAAGTTTCTGTAGCATGTAATGTTGAATTATTTTCTGTCATTCATCTTATTGTTACAATATCAAAGATATTTGTTTCTGGTCAAAATTGTTCAACAGAGTGTCTCTAGCGAGCAAAAGGCAAATGCATTGGCTGCTAGCTTTATACACATGCCAGTTGGGGAAAATATTGACTGGAGACTATCTGCGACTATTTCTCCATGCTATGTGACGGTAATTATTTACTTTTGAATCTTTATTCAGTTTTTATCATTCAATATCTTTTGAGTTATACTTCATTTGTCTGATCAAGAAAAAGGAAGATGCAATAATGGTAAGAGATTTTGGAAAATATCTTTTGAGTTATAGTCAAAGTTTCCTTTGTTTGTAATTACAGCTTGAACTCAAATTTATACTAGTTGGGCATTTTTTTTTTTGTAATTTGTTGTGTGAGGAATACCTCATCTCCCCTATATTTGTATCGTTATTTGTGATAATGAAAGTTAAATTTTTTATAAAAGAAGTCCCCTTTGTGCGAGAATTATTGCTATCTGCTTGTAATTGCATTTATCCTTGGATTCAAGCATTTCTTTCTTTCCTAATTTATTATTATTGTTTTTCTTAATGTGACAATATTGATTGCTTGAATTCTGTAGACATTTGCAATCATGACCAAGGTCATTAATGGTTCACTAGTAGATATCCTGGAAGAAAGGGTTAAAAAAAAGGAAAAAAAGAAGAAAGAAAAAACATGAGAAGGTTTCAAATCTGCAAGGATAACTTGCCCTTGTCTCATCTTCTGTTTGTAATGTTTTTTGAGACGGAGGCAAGCTTCTTTATAAATAATAGTAAATGAGACTAATGCTCAAAGTACAAAAGTATTATACTAAGAGCAAAATAAGAAAAAGAAAAAATCATCCAAACAAGCTATACAAAGATGAACTCAGGCAATACAAAAGGGAAAAAATGACCAAAACAAACAATAGAAAAGAACAAGATAATAATTTGGACTCTAGGGAAAGTAGTGTGAACACAATTGGATTCGAAGAGCCGTACTTAAGGAGGAGAGAGAATTTTAAGAATTTTAGTTTTGAAAGGAACAAGACAGAGGAAGTTGAAGAGGAACTTTTAACAAAGAAAGAGAAAATACCGGTTGTGCCTTCTTTTACGGCTGGAAAGTCACCTCAACCAGTCAGCAACCCATCTTTTGGTGATCCTCTCTTCTCCAATCCTTTGAACAGAAAGTTGAACTCTCAAATTAATTCGACTGATATTTTCCTAAAGAAAGACAATGTAGTTCCCGTTTCAATGGATGTTCCTCCTTTCAACCCTTCATTTTCAGTTTCCCTTTCCACTTCTTATCTTCTCTTCAACAAAGTCAGGCTGCAGCGAAAATTTGAAAAGAAACAAAATAAATGCTGAGATCTTCCCACATTACCTCAAGCTGTTTTCGAAGTACTTTATCCAGAAGAAAAAATCAAAGAAGATTTTGGCAAAACGTTCCTTAAAATCTCGGGCTTTTGAAGATCAAGTACCCGATTTGCTTGAGGAAAATTTTGTCCGTTCTCTTTCATTAGCTTATTTCAGCAGCTCCAAGTTGTTTTTAGAGGCTAATCTTGTTTTATTGGAAGTTAGTTGCACCCAAGTTCAAGGCCCAACCCGTTCTTCTAAGTCAATTTCTCATCTCACCCTACCCAATTTAAATACTCTGAGTTCTCTTTGCCTAACTTTAAGGTAATGTTTCTGACGGGCTCTTCGAGCAAAACCCCTTTCAATTAATCCAACAAGAAGGGTAAGCCTTTTTTCGACTCCCTATTCAGCATTAATAGTGAGGAATTGGAGCATTTGAATAGGTCAATTGAGCTTGAAAATCAAAAACATTTTGAGCCTATAGAAATAGATCTTAATGCCTTGTGTCAATGCGAGTAGAGCCAAGATCCGCAAATTTTCCTTCTACAACTCGTTCTTGTCTCCAGTCTTGCGAAATACCAGATCATTTAAAATCAAAAGTTGCCGATTGTTGAATTATTCTAATTTGATTCTTCAGTAGTTTAATGTATTTCTCCTTGATGTTGGTCCGAATTCGGTCTTTCTTCGATTTTCCTTCATGTGGGTGGCAAGTAAAGCCTTCATGCTGATGCTGAGATGGTGGAAGACTTTTTCGAGCTTCCTCTAGATTCAGGAATAATATGGCAAGGCAACTTCGAGGCAGCCAGTTGCATCTTCTTGCAAGTTTTTAGTTTCAAATTGGTTCTTTATGAGAGAATTTTTTCATTATGCTTTGTATCTAGATTTCTACGGTTATGGTTTTGTTTAGCTTGATCTCTTCTGTTTGGAATTTGTTTTTTAGCTTTTGTTGTAGCTGTAGACTGAATTTTTTTTTCTTTTCTCTTGCTCTTAGTATAATACTCTGGTACTTTGAGCTTAAGGCTCTTTTATTAGTATAAAGTTAGAGGTTTGCCTCCGTTTAAAAAAAGTATATAATTGCCCTCACCGGTTGAAGGGTTCGAGTTGGGAAAAATGTAAAAGGACAAATTTTAGGTTTCTTTTTTAACAACTTGCTTATGATTTTCATAAAATTTTATTTGTGTGCAGATTTTTATGGACAGCTGTGATCGTTTTTTAGAGTTTTTGAGGAGGAGTAATGAAGTTAGCCCCACTGTTGCTCTGGAAACCGCAGCAGCTTTGCAGGTGATATTGTCTAATAACTTTCCACTGCCATTTTTTGAACTAAACTTATAGTACTTGATCCAAAGTGCAGGTAAAATTTGAGAAAGTGACTCGTAGAGCGCAAGAGCAATTTCAAACTGCATTAGAGGAACAGAGCAGGTAA ATGCAAGATCAATATCCTCAACCCTTCTTTTTAACAACTTTGGTCTGCAGCAATCCAGGATATCCATTCTGCACTGGTGTTACTTTAGCCAAGCTTGCTGCAGTTACCATGGATGAGCAGGGGAATGAAACATTTGATACAAGTGGCGCTCTTGATAAACTTCGCAAGTTAGTGCAACTTGATAGGCTTGCCATGTATCATGATTCAAATACCTTGCCATGGAGTTTGGACAAAAAGTGGGAGGATCTTAATCCCAAGGAATGGATTGAGGTATTTGAGGATGGTATAAATGAACCCACTACTGACCATGGATTGGGGCATAAATGGGCTGTGAATCGAAATTACTTGGTTTCACCGATTAATGGAATTTTGAAATATCATCGTCTTGGAAATCTAGAAAGAAATGATCCTGAGATTCCATATGAAAAAGCTTCCTTAGTTTTGGGTGACGTGTCTTTGACAATAACGGAGGCTCAATACCACGATTGGATAAAGCTTTTGGAAGTTGTTTCAAGGTATAAGACATATGTCGAAGTTTCCCATTTGAGACCGATGGTTCCTGTTTTGGTTGCTCCTAATCTGTGGTGGCGCTATGCTGTTCAAGCATGCCTGCAGCAGAAGAAAATGTGCTATCGGTTTTCTTGGGAGCGAATACGGCAACTTTGTCAACTTCGTAGACGCTATATTCAGCTATATGCTGGTTCATTGCAACGAATGTCAAATACTAGTAACAACGAGATTAGAGAAATTGAGAAGGATCTCGATTCCAAAGTGATACTTTTATGGAGGTTACTTGCTCATGCGAAGATTGAATCTGTGAAATCAAAAGAAGCAGCTGAACAGAAAAAATTGAAAAAGAGCAGCTGGTTTTCATTTCGATGGCGTGCGAACTCTGAAGACACTTCTGATGGGGATGCTTCGGAGGGATCACATCTAAGTGTAGAGCAATTGACTAAAGAGGAATGGCAGGCAATTAATAAGTTGCTGAGTTACCAACAAGATGAGGACACACCATCACATTCTGGGAAGGATGGGCAGAACATGGTACAGTTTTTGTTTACAGTATCGATTAATCAGGCTGCTGCAAGAATCGTTAACATTAATCAGACTGAGATTGTTTGCGGAAGATTTGAGCAACTTTCAGTGTCAACCAAGTTAAAACAACGCAGCACATACTGTGATGTGTTGCTGAAATTTTATGGTTTATCTGCTCCAGAAGGTTCACTTGCTCAGAGTGTCTCTAGCGAGCAAAAGGCAAATGCATTGGCTGCTAGCTTTATACACATGCCAGTTGGGGAAAATATTGACTGGAGACTATCTGCGACTATTTCTCCATGCTATGTGACGATTTTTATGGACAGCTGTGATCGTTTTTTAGAGTTTTTGAGGAGGAGTAATGAAGTTAGCCCCACTGTTGCTCTGGAAACCGCAGCAGCTTTGCAGGTAAAATTTGAGAAAGTGACTCGTAGAGCGCAAGAGCAATTTCAAACTGCATTAGAGGAACAGAGCAGGTAA ATGCAAGATCAATATCCTCAACCCTTCTTTTTAACAACTTTGGTCTGCAGCAATCCAGGATATCCATTCTGCACTGGTGTTACTTTAGCCAAGCTTGCTGCAGTTACCATGGATGAGCAGGGGAATGAAACATTTGATACAAGTGGCGCTCTTGATAAACTTCGCAAGTTAGTGCAACTTGATAGGCTTGCCATGTATCATGATTCAAATACCTTGCCATGGAGTTTGGACAAAAAGTGGGAGGATCTTAATCCCAAGGAATGGATTGAGGTATTTGAGGATGGTATAAATGAACCCACTACTGACCATGGATTGGGGCATAAATGGGCTGTGAATCGAAATTACTTGGTTTCACCGATTAATGGAATTTTGAAATATCATCGTCTTGGAAATCTAGAAAGAAATGATCCTGAGATTCCATATGAAAAAGCTTCCTTAGTTTTGGGTGACGTGTCTTTGACAATAACGGAGGCTCAATACCACGATTGGATAAAGCTTTTGGAAGTTGTTTCAAGGTATAAGACATATGTCGAAGTTTCCCATTTGAGACCGATGGTTCCTGTTTTGGTTGCTCCTAATCTGTGGTGGCGCTATGCTGTTCAAGCATGCCTGCAGCAGAAGAAAATGTGCTATCGGTTTTCTTGGGAGCGAATACGGCAACTTTGTCAACTTCGTAGACGCTATATTCAGCTATATGCTGGTTCATTGCAACGAATGTCAAATACTAGTAACAACGAGATTAGAGAAATTGAGAAGGATCTCGATTCCAAAGTGATACTTTTATGGAGGTTACTTGCTCATGCGAAGATTGAATCTGTGAAATCAAAAGAAGCAGCTGAACAGAAAAAATTGAAAAAGAGCAGCTGGTTTTCATTTCGATGGCGTGCGAACTCTGAAGACACTTCTGATGGGGATGCTTCGGAGGGATCACATCTAAGTGTAGAGCAATTGACTAAAGAGGAATGGCAGGCAATTAATAAGTTGCTGAGTTACCAACAAGATGAGGACACACCATCACATTCTGGGAAGGATGGGCAGAACATGGTACAGTTTTTGTTTACAGTATCGATTAATCAGGCTGCTGCAAGAATCGTTAACATTAATCAGACTGAGATTGTTTGCGGAAGATTTGAGCAACTTTCAGTGTCAACCAAGTTAAAACAACGCAGCACATACTGTGATGTGTTGCTGAAATTTTATGGTTTATCTGCTCCAGAAGGTTCACTTGCTCAGAGTGTCTCTAGCGAGCAAAAGGCAAATGCATTGGCTGCTAGCTTTATACACATGCCAGTTGGGGAAAATATTGACTGGAGACTATCTGCGACTATTTCTCCATGCTATGTGACGATTTTTATGGACAGCTGTGATCGTTTTTTAGAGTTTTTGAGGAGGAGTAATGAAGTTAGCCCCACTGTTGCTCTGGAAACCGCAGCAGCTTTGCAGGTAAAATTTGAGAAAGTGACTCGTAGAGCGCAAGAGCAATTTCAAACTGCATTAGAGGAACAGAGCAGGTAA MQDQYPQPFFLTTLVCSNPGYPFCTGVTLAKLAAVTMDEQGNETFDTSGALDKLRKLVQLDRLAMYHDSNTLPWSLDKKWEDLNPKEWIEVFEDGINEPTTDHGLGHKWAVNRNYLVSPINGILKYHRLGNLERNDPEIPYEKASLVLGDVSLTITEAQYHDWIKLLEVVSRYKTYVEVSHLRPMVPVLVAPNLWWRYAVQACLQQKKMCYRFSWERIRQLCQLRRRYIQLYAGSLQRMSNTSNNEIREIEKDLDSKVILLWRLLAHAKIESVKSKEAAEQKKLKKSSWFSFRWRANSEDTSDGDASEGSHLSVEQLTKEEWQAINKLLSYQQDEDTPSHSGKDGQNMVQFLFTVSINQAAARIVNINQTEIVCGRFEQLSVSTKLKQRSTYCDVLLKFYGLSAPEGSLAQSVSSEQKANALAASFIHMPVGENIDWRLSATISPCYVTIFMDSCDRFLEFLRRSNEVSPTVALETAAALQVKFEKVTRRAQEQFQTALEEQSR*
BLAST of MELO3C006737 vs. Swiss-Prot
Match: VP13A_DICDI (Putative vacuolar protein sorting-associated protein 13A OS=Dictyostelium discoideum GN=vps13A PE=2 SV=1) HSP 1 Score: 97.8 bits (242), Expect = 3.5e-19 Identity = 116/501 (23.15%), Postives = 210/501 (41.92%), Query Frame = 1
BLAST of MELO3C006737 vs. Swiss-Prot
Match: VP13E_DICDI (Putative vacuolar protein sorting-associated protein 13E OS=Dictyostelium discoideum GN=vps13E PE=3 SV=1) HSP 1 Score: 63.5 bits (153), Expect = 7.4e-09 Identity = 68/300 (22.67%), Postives = 128/300 (42.67%), Query Frame = 1
BLAST of MELO3C006737 vs. TrEMBL
Match: M5XMM3_PRUPE (Uncharacterized protein (Fragment) OS=Prunus persica GN=PRUPE_ppa000005m2g PE=4 SV=1) HSP 1 Score: 792.7 bits (2046), Expect = 2.6e-226 Identity = 387/488 (79.30%), Postives = 430/488 (88.11%), Query Frame = 1
BLAST of MELO3C006737 vs. TrEMBL
Match: B9HIJ3_POPTR (C2 domain-containing family protein OS=Populus trichocarpa GN=POPTR_0008s10000g PE=4 SV=2) HSP 1 Score: 772.7 bits (1994), Expect = 2.8e-220 Identity = 374/495 (75.56%), Postives = 424/495 (85.66%), Query Frame = 1
BLAST of MELO3C006737 vs. TrEMBL
Match: A0A0D2UVT8_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_011G204400 PE=4 SV=1) HSP 1 Score: 767.3 bits (1980), Expect = 1.2e-218 Identity = 372/489 (76.07%), Postives = 424/489 (86.71%), Query Frame = 1
BLAST of MELO3C006737 vs. TrEMBL
Match: A0A0D2VPK8_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_011G204400 PE=4 SV=1) HSP 1 Score: 767.3 bits (1980), Expect = 1.2e-218 Identity = 372/489 (76.07%), Postives = 424/489 (86.71%), Query Frame = 1
BLAST of MELO3C006737 vs. TrEMBL
Match: A0A0D2RQE4_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_011G204400 PE=4 SV=1) HSP 1 Score: 767.3 bits (1980), Expect = 1.2e-218 Identity = 372/489 (76.07%), Postives = 424/489 (86.71%), Query Frame = 1
BLAST of MELO3C006737 vs. TAIR10
Match: AT1G48090.1 (AT1G48090.1 calcium-dependent lipid-binding family protein) HSP 1 Score: 714.1 bits (1842), Expect = 5.9e-206 Identity = 351/511 (68.69%), Postives = 416/511 (81.41%), Query Frame = 1
BLAST of MELO3C006737 vs. TAIR10
Match: AT4G17140.3 (AT4G17140.3 pleckstrin homology (PH) domain-containing protein) HSP 1 Score: 300.4 bits (768), Expect = 2.0e-81 Identity = 178/494 (36.03%), Postives = 272/494 (55.06%), Query Frame = 1
BLAST of MELO3C006737 vs. NCBI nr
Match: gi|659077001|ref|XP_008438979.1| (PREDICTED: uncharacterized protein LOC103483912 [Cucumis melo]) HSP 1 Score: 983.8 bits (2542), Expect = 1.1e-283 Identity = 488/488 (100.00%), Postives = 488/488 (100.00%), Query Frame = 1
BLAST of MELO3C006737 vs. NCBI nr
Match: gi|778679130|ref|XP_011651092.1| (PREDICTED: LOW QUALITY PROTEIN: uncharacterized protein LOC101213129 [Cucumis sativus]) HSP 1 Score: 959.1 bits (2478), Expect = 3.0e-276 Identity = 476/488 (97.54%), Postives = 482/488 (98.77%), Query Frame = 1
BLAST of MELO3C006737 vs. NCBI nr
Match: gi|596285995|ref|XP_007225547.1| (hypothetical protein PRUPE_ppa000005m2g, partial [Prunus persica]) HSP 1 Score: 792.7 bits (2046), Expect = 3.7e-226 Identity = 387/488 (79.30%), Postives = 430/488 (88.11%), Query Frame = 1
BLAST of MELO3C006737 vs. NCBI nr
Match: gi|645233701|ref|XP_008223471.1| (PREDICTED: uncharacterized protein LOC103323263 [Prunus mume]) HSP 1 Score: 789.6 bits (2038), Expect = 3.1e-225 Identity = 385/488 (78.89%), Postives = 429/488 (87.91%), Query Frame = 1
BLAST of MELO3C006737 vs. NCBI nr
Match: gi|658036261|ref|XP_008353679.1| (PREDICTED: LOW QUALITY PROTEIN: putative vacuolar protein sorting-associated protein 13A [Malus domestica]) HSP 1 Score: 789.6 bits (2038), Expect = 3.1e-225 Identity = 380/488 (77.87%), Postives = 429/488 (87.91%), 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.
The following mRNA feature(s) are a part of 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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