MELO3C019457 (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.GGAACTCTAATTTTTTCAAATGGGCCACTGGTTTGATTGGAAGCAATGATAAATCAAAAAAGACTAAAAGCATGGCTGTGGTGAGTTCTCAACTTTTATCTTTGACATCTTCTTGTAGTGACGTAAATTATTGTTTGGACTTTGGTCATACATTTTAATTTTACTTTTGGGGTATTGATGTAAAGTTTTAGATGAATCTTTCTTTCAGATCTCTCTCTAAATTTTTAACTTTTTTTAAATGGAGACAAGCTTCTTTATTGATAAAATCTTAAAGTACAAGAGAATTATACAATGAGAATAATAGAGAAATAGATAGATAGGATCAGGAGGTGCACTCGGACATCTCAACTAGGTTGACACCCTATAGCGCCATCATCATATCCCAAAGAAAAAACAAAGACCATATAAAGACCAGATACAGCAGTACAAACCAGCCAAACTAGACAAAATTTAAATGGAAGAAAAGCAGTAGAAGAAAAGAAACAAAACAGAGAAGAATAGTCTTCAAAAAAGCCGTAGCCTCCATTAAGGTGAATGCCGAATGAAGGCAGTCCAGTTGAGACAAACATTTGGAATTGAATAGTCTTTGAATTTAGCATTCAAGGAGCACAAGGCTGCTGCATTCCTTTTTGACTTGTCCATGGTGTCGAAGCAACCCCTTTCCTTGTCATGAAAAATATGCTGATTGGTGCTCAACATATCTCAGCCAGCAGTGCTTTTGCCATATTTACCCAAATTAGATTCGGTTTCTTTGGCAACAAGGGTCCCCTCAGTAGCTGAAAAACATTGGGGTTTAAGGATTCGTAAAAAACCCATACCACTTTAAACATAAAGAAAATGCTATTCCAACATTTAGAATAGGGGCATAAGACAGAATAAGTGTAGTAAATCCTATTGTCCTTTAAACAAAGAGGACACACTGATGGCAGCAAGCACTTATTAGGAAGCTTCCTTTGCATAATCGGAGAGCAGTTAAGAAGACCAAATGCCATAATCCAAACTAAAATGTTTGTTCTCCTTGGGTTGCTGGTTTTTTAAAGAGCTTTATTACAAGCTTTTTCCAACGGGGAATATGGAGAGAGATGCATTGAGAAGGATTTGACTGAGAAATGACCCAAGGCATCTAAGGACCATAGCCTCCTCCTCTTCCAATTCTGTCACTCTCTTTGAGAAGAGGAGTAACAAAGATTGGAATTCTTGGATTTCCTCATTCTTCAGTAATCAACAAAACACTATAGACCAAGAATTTGCATCACTGTCCCAATTGGCAGCAACTTAACCTGTTGGCAGCAAGGCTATTCTGAATTGCTTCATGTATTGATTTTTTAAAGGGATTTCTCCAGCCCATGAATCTGCCCAAAATTCCTGCCTTCTTCCATTACCAAGCTTGAACCATGCCAAAATTTCCACCTTTTTCCATGCTCTTGAGATGCTGACCCAAGAGCTTCTTAAACTATTCCCTGATTTGTTTAGAATATTCCGATCAAAGGTTTCACTGCCATGGATACTTCCAAGCACTTTCCTCCACAGTGTGGTGTCTTCTTTCATGTACCTCCACGCCCATTTAGCAAGGAGTGCATTATTTTGAATTCTAATACCTCCCAATCCCATCCCCCCATCCAGCTGGGAAGGTGTGACCTTTCTCCAAGACACTAAGTGATTTATTTTGCTGCCAGAATTCCCCTCCCAAAAGAAGTTTTGCATTAGCTTTTTGAGAGTAGAGGCTACATTTTCTGGAATGGCAAAGAGAGACAAGTAGTAGGTCGGAAGATTGGTCAATACTGAAGTGCATAAGGTTTGTCATCCACCCTCTGATATGTTGAACCTTGTGCATCTATCCAATTTTTTGTGTACTCTATCAATCATCGGCTGCCAAAGGACTTTCTGCCTAGGATAGCCTCCCAAGGGAAGACCTAAATACATAAATGGAGCTTTTCCTCTTTACAACTTAGATTTCCAGCCATTTGAAGTAGTTCTTTGTCCCCCACATTAACTCCACTAAGTGCAGACTTGTCCCAATTCACTTTCTGACCTGAGCACCATTCAAACAAGTTGATAGCCTCCTTTTAACTTGAGAAGCATAGCTTCATCATCTTTGCAGAATAGGATAGTATCATCGGCATATTGGAGGATGGGAATGTGCACTTTATCTTTAACAACCATGATATCCTCAAATTGACCATTTTCATGCAGCTTGTTAATGATAGCTCCTAGAACTTCGCTGACAAGTAGGAATAAGAAAGGGGAAAGTGGATCTCCTTGTCTAATACCTCTAGAAGCCGCTATCCTTCCTATTGGCTTTTCGTTAATGAAGATGGAAAATCTAGGATTTTTAAGGCAACCCAACATCCATGAAGACCATTTAGGACTGAGCTTCTTACAATGCAATACCTTTTCGAGGAAACCCCAATCGACTTTATCGAAGGCTTTTTCAAGATCTAGTTTCAATATCCAACCTCTTTTCTTTTTGGCACGGTAGCCTTCGACAGCCTCGTTTGCTATTAGAATCGAGTCTAAAATTTGCCTACCTTCAAAGAAAGCGCTTTGGAAAGGGCTGATGATTGAGTATATAACCAGTTTGAGACGGTCCGCTAAGACCTTAGCGACTTTGTAAGTAAGGGTTGTGAAGCTAATGGGCCTAAAATCTTTTGCGTGAACCACATCTTCTTTCTTTTGTATTAAGCAAATGCAAGTTCTCTTGGACACAAACATTAAGCTTTCCATTTCTATAAAACTTATCAAACAGATTTTTGAAGCTTCCTTTTATTCAGCCAATGCTTCACCAGAAACTTAGAAGTGAAGCCGTCCGGACTGGGTGCTTTATTTCCACCAAGTGCCTTGTTTGCCTTGAAGATTTCCTCTTCTGAAAATCTGGTGACAAGTGATATGTTTTGAGGAGTAACACAAGGCCAGTCAGTAATATAAGGTATGCATTTGATCCTAGGAATTCTTTTATAGTCTTTGTAAAATTCCAATAAAAGCCTCTCAATATCACGGAATGACTTAGTTACCGACCCTTGTTCATCCACCAACTGCTGTGATTAAGTTTCTCCTCTTTTTTCATTGAGAAATCTGTGAAACAAGCCCGTGTTCTCATCCCCTACTGTTAACCAGTTTATTTTGCTTTTCTGTATACAATTTCTTTCTTCAATTCTATAAACGCTTAGCAAATCTGCTTGGAGGGCTGATTTATGGGCCAATTCTTCATCATTTAGACCATACCTTTCTGCAAGCACGCCGCTGACTTCCAAATCCTTCAGCAGCCTATCTTCTTTCTGTTTAAGGGAAACCAGAAATGAGGAAACGTTTCTGAGGAAACCATCCTTTACTGCAGATTTAACTTTGCGTAGTTGCTCATGTAGAATGAAACCTGCTCATCTGTTTCCAAGGATGCTGTTCAGTGCTCCTTCAATGACGAGATTGCACTCTTTGACCATCAGCCAGCTATTGCAAAACCTGAATGGAGAAGGCCCCCACAAGACGGCTCCAGCCTTTAGCAATAAAGGAAAATGATCAGAAAAAATTCTTGCTTTACAGTACACTCTGGAATTTTCAAATTCGTCTTCCCATTTGTCATTTATAAAAAATCTATCCAGCAGGGATCTTGCTGCTGATCCTCCCTCTCTTGATCATGTGAATCTGCCATTCTGTAGAGGAATCTCCATGATATTAGCAAGATCGACGAAGTTATTAAAGAGCCTCAATCCTCTTGTGTTTCTGCCAATAGGAAGCCTCTTGCACGCCCAATTGGTAACATTGAAGTCTCCACCCATACACCATGCCTCTTCACTGCATTCTAAACTGGGTAGTAATTCTGGCCAAACATGTCTTCTTTCTATGTAACCACATGGGCCATATACATTGGTCATCCAACAACGTTTCTTGCACATTGTATCACCTTTTATTAAAAGAGAAAACTGCCCTTTGATGGTCTCAACCACCGTGATTTTTGCTCGTCCCAGTGTGAGAATACCCCCTGAGGTGCTAACTGATTCCACGAATTCCCAACCAATATCCTTGGAGCTCCAAATTGATCTAACGAAACTTGCACCAGAACTTTCCATTTTTGATTCTTGAATCATAACCACACCTGGGTGATGATTCTTGATGAATTTCTTGCAGGCTATATGCTTGGAAGGGTCTTTCAGAGCTCTTGTATTCCAAGAAATGATCTTCATGTGAAAGGGATCAAAGAAACATCGACAAAACGACTCACTCAACCCAGCACAGTTCTTCAATCATTGATAATGGGCACCAGCTTCTTTGGAACTTCTGATAGTTTGATAGGGGGACCAGGGAGCTTTGCTTGATTCAACGCAATCCACTTCAAAGAGAGAAATCAGATCTACTGTTTCTATTTCAATATTTGCATTGTCCTCATAAGTGTGCTTTAATCCCGCTGATTCTTCGCTGCTGACACTATATGGGGAGACAATTTCTGTAGATTTTTTCTGGGCAGAGTCAACTGATTGGTATGACCATCGGAATAAAGTGATTTTGGTGTTAGGATCCGTTGAAACTTGAATAATTGAAGAGCTTAGGAGCTGGGGGGATGAGACTGACCTGTTTAGAAGCGTATCTGATTGGGTTTTGGAGCTGCTGACCTCCAAGAGATCCAGGTTTTCCTTGGTCTCTTGCTAAATGGGTTCTTTTATGGGGCTTCTTTCGGAGCTTTGAATGAACAAACAGCAAGTGACTCAAAATTTAGCAATGCAGTCCAAGCATTGTCAAACAATGTTTGTTTTCTAATGAAATGCTTTAGAGGGATTTCTGGAGAACTGCCTTTTTTCTTTCCTTTGCTTAGTCTGTGTTTGATTGGGGTAGCGACCACTGTAGAAGATTGGGCGGCTCCATCTAGAAGGGCTGCCTTGTTAGATGGTTGTTTCGAATTTGTTGTGAACTGAAAAGTCTGACGACGGCACTATTGGATCCAGTTGAGGCAGTAAATGAAGCTGCCATTCTGTTTTCATTTCCTTTGCCTGACTTTTCAGATACCTGTTTTTTAGACAACGTGGGTCCTGCAACCTTAAAAGGACTGTTGTCTGTTACAGGTTTGGCAGACTTCGTTAAAAATGACTTTTCATTTTCGGGCAATTTTAATGCTGGATCGATCTGCCTAACCGTCTCCCTCCCTTTCTTTGGCGCCGGCAGCTGTTCGTGGTTGAGTTACCAACATTCACCTTAGTAACCAAGAACAACAAAGACCACCACTAATGTTGACATCTGGAAGGTGGCAGCCAACTCTGAGATCTTCTTGAGCAACTAACGCCAACCACTAACTTTGTTGTTTATCTCCAATAACTAACTTTATTGACCAACTCGACAATAATATACTATAAAAAAAATTCGTTGGGCAGAAGTGCTTTAAAAATTGAAATTATTAGTTTATAATGTTTAATAGTCGTCTTTTATAGTAATTCGATTTTGAGAAGTTGTCTAAGGATGATGATCAGGTCATCGATCATCCTTATAGTGTCACAAACATCCAGAAGACGAATTGCTTCTTAACCTCACCACAATCAAGGAAGATGTATTGTTTATGCTTACTTAACTAACTTAACCATTTTGAAGAACAATATCTTTTCTTTTGTATGCATGAAATGGGGTTTTTTTTTTTTTTAAGCCATGATTATATGTAGATCTATATATATATATATAGTNNNNNNNNNNNNNNNNNNNNAGGGTTTAGGGTTCACCAATTCAATTATTTTTATTTAATTGAGTTCACATTTCAGATGATTGATAAGAATTTGGAAAATTTTCAAAAAGTATGAATGTAGTTGAATGGTGGAACAAAATACAAAAACAACAAATAACAAAAAATATACCGATAAAATGGAAATTTGTATCTTTTATAACTACTTTCTAGCAAAATTAGTGAAAATAGAGATATGTTCTTTAATGACTCTAAAATTGGAGAAATTGAATGCAAAATTGTTAAAGAAATGCGGTGGTGTTCCGTTGGTGGCTAAGATAAGATGATGGGAGAGATGCCCTCCACCAATTCTCTTCATCTTCTCTCAATTTTCTTTGCCCCAATTTCACTTCATAAGATGATGGGGGATTAAAAGAAATCATGATAGTGGAAAAAATACAAAGCAACAATAAGAACAAAAAAGAAAAAGACAATGATGATAAAATTCATGGAGAAAAATAGGAATTCTTAAATCACCAATTCAACCCAAAAACTTAAGTTGATGGGTGAAGACAAATTTAATATAATATCTAACACTCCCCTTACTTGTGGGATTGAAATGTGAAGAAAGATCCAAAAAGTGGAAATTAATATTAATTGGGGAAAAACAACAATGCAGGAGTTTCTTGAACACAAGACCTCCCTGTATCACCTCTTTTGATACCATCTTAAATTACCAATTCAACCCAAAAGCTTAAGCTAATGGGTAAAGAAAAATTTAATATAATATCTAATAGGAATCAAAACATTTGATTTCTCATTTATTTTACGTTTTATTTATCTATGTTAGTGCAAAAAATGTAGTAAGTTAATAATGTTAACTTTCGCTAAAAAGAAAGAAAGAAAAACAGTAAAAAGAAAAAAACTGCAATCCATATTTTGTTCAAACAAAGAAAGGGAGAAATATTGAATAAAAAATTTGAAAACAAAAATAGTTATAAAAAAACAAATTATTTAGAATTCATAAATTTGCACTAGATACCCTTGATATATGAACTCAACTTTGCACCGAAAACACAAACATATGAACTCAGTCAAAACAATTGTGCACACCAAACACAAACACATAAACTCACCAGACATCCTATCTCAACTTAGTACCCCAAGCATCCCTTTGATGCTTTATTAGTTTATTTGATCTAGTTATGCACACTATAAGTGGGGAAGTTCTTATCTATGCTCCTATTTTAGATGTTCTTTAATTCTAATCTTGACTCATTCTCTGTAGGATCAGGGAAAAGGAGGGCGCTATGGAAAGGCAATAAACATTTTCTCCATTGCTTCCGGACACCTGTAAGTGTAACATTAATAGAGATATGATCAGTTTCTTTTGGTAGTGCAAGTTACATTTCTGTAGTGGTCTCTACCCAAGTACCCAGCATTGAACTTCTTATACAATGACCAGTATCCATAAATTATGTAGTAATAACATAGAACTGTAGTATAATTTTCTTCTTTTTGGTTTTAGGCATTTGTAACATTTGTTGATTTGACTCATGAGCTAACTGTGAATTTCACTTGAGGGAGTTATCTCAGAATTGTATAATTTGCTTCTTGATGTGCTTATTCTTGATTAGCAGCCAGTTAGGATAGAAGATGAAGGGGAAAAAAAAAAAGAAGAAAGAACCCTTGATGCATGAAAGATACCCACACTCGAGATATAGCTGTTAATCATGTGAATCTATACTTAAGTTAAACAAAAGATTATAAACAGACAATACAGATGGAAGGAGCTGAGCACAAAAGGAACTTAGACATATTCATTATCCCGTGCTCACTTCAAGGTTTCTTAAAGATTTGTTTGTAAGAAAGCAAGGAATGCTTAGAAATCTAGGAGTGAGTAGGTGCACTAAGATATCTCAACTAGGGTTTAGGAGTTGGGGTTTATAGTATCCCATGTAATAGTGAAGGGTTTTACAAATCTTATGAATATCTCCAACATGGATGAACCGCCATGATTTTCACGTGACCTGATCCAATCACCTAGTTTGTCTCCGTTCACTTTGAATTCTAACTAATAGTTTCTTTCCAGTGCTTTGTTTAATGATGTTCTGAAAAACTCAGCAGGACAATTCAACATGGAAATTTGTAATAATCAAGTAGTTATGGAATTTTAAAGCATAGATGCTTGTAATGGCATGAATATATGAGGTGGCTATTATGATTATTATCTTAGAAAGATATATCAGTTCGTAGGGGAGAGAAACTTTATCAATGGTTATTACTTTATGTTAGTCTATGAATTTGTAAAATGGTCCACTTTCTGATGATATTTTTTGGCAGATATGAACGCTTTCTCAAAATCATGATCTTGAGTGTTCTAAAGAATACACACCGGCCTGTGAAATTCTGGTTTATAAAGAATTATCTATCCCCTCAGTTTAAGGTTAACATAGCCACTCATTACTCTTTCTTTCCTCCTTTTTGTTTCTGATTTTTTTTTTCTTCTTTTGAACAATATTTTGTTTTGGTACCTAAGACCTGTGCTCTCTGGTGAATTAAGCAGGATGTAATTCCACTCATGGCGGAAGAATATGGTTTTGATTTTGAACTTATTACATACAAATGGCCAACTTGGTTGCATAAGCAGAAAGAAAAGCAGAGGATTATCTGGGCATATAAGATTCTATTTCTTGATGTTATCTTCCCTCTTTCGTTGGAGAAGGTACCATGTCTTTGATATGCTCCAAACTTTCACGATTTCTTTTAGCCTATTTTCGAAAAGAAACGAATGTCAAAATGTTAGTGTAAATTATTCATAACTTGATCATCTGTTGCATGCTTATTTACTTATCTAAGAAAAATATTGTTCATTTGTTACCTGCAGGTCATTTTTGTTGATGCTGATCAGATTGTCCGGACAGACATGGGGGAACTCTATGACATGGATATTAAGGGAAAACCACTAGCATATACGCCCTTTTGTGACAATAATAAGGATATGGATGGATATAGGTTTTGGAGACAAGTACATCTCAATCGCCTTTCCTATTATCAATAAATATTTTTCAATATCACCCTGTCCTCACTATTTCCATTTCATGGACAGGGCTTCTGGAAAGATCATCTACGTGGAAAACCATACCATATAAGGTAGAGAGCCTGCAGTAGTGTGTTCGTCGAACAATCTACTAAGATGCATGCTCATTCATTAATTCCACTGATATTTCAAATTACAACCACATAATGAATCCTAATGTTTCATTCTTCTGAGAAAAATGCCATCAAGAAATTTTCTATTGTGGCTCTTACATTTCACTGGTTCAGTAGAATCAAATAGAATTCCTTTCTTCCGTAAATTGACCATGTAAAAGGTCTGCTTGTTTCTTCAAAAAAGAGTACGTAAAAAGTATGTGGATGTAGTCTCTAACCATATTAAAAGTCAAATTTCCATCTGTTTCAACACTTCTCCTGGTAGAGGTTTTATTTAATAGTAAAGGGTTCCATTTGAAAACCAACTGGCAACGAGAGTAGTCCATATATCTTATAAAGACTTTGAATCCCCTTGGTTTATCCAATGTGGGATTCTCAACATGACCCCTCAAGATAGTGTCTCTTTTGGGTTCAATGTTCTTGATTCGATCCAATTTTCTTTTTATTGGATCAAATATCCATTTGGACTTTATAGGTTCTGATACTATATTTGATAGTACAAGGTTCCATCTAAATACCTCTTGACAATGAGAGGAGTAACCCGCTTATCTTATAAAAACTTTGAGTCCCCTTGATTTTTCCAATGTTCTCAATAGGTTTTACTTTTTAAATCTTGGAAATTGCCAAATAGCTTGCAGTAACTAATAATGTTATGCATTAATTTAATATTTTTCTTTCCGTTTCCTTCAGTGCATTATATGTTGTTGATTTAAAGAAATTCCGAGAAACAGCAGCTGGAGATAATCTAAGAGTTTTCTATGAATCTCTAAGCAAGGACCCAAATAGTTTATCCAATTTGGATCAAGTAAGTAAATTTTACATCATATAGTGCCTTGTTAGCAATAAAATATCAAGGGATACTTCATTAGCATTGAGATAATGTTTGTCAAGTAAAATTTACATATCCTGATATCTTATTTTGTTCCCATTGTATGGTGCACTGCACTTCCACATGGTAAATGGAGATAGTGTTCATGGTATTTATTTCTAGTTATATTTTGATTTCTTTTTCAGGATCTTCCTAACTACGCTCAGCACACTGTGCCCATTTTTTCTCTACCACAAGAATGGCTCTGGTGCGAGTCATGGTGTGGTAACGCCACAAAATCCAAGGCGAAAACCATTGATCTCTGTAACAACCCCATGACCAAAGAACCGAAGCTTCAGGTCTGACTGTTGTTTCTTCATTTCATTCTGGATCTTTAGAAGCATAATCCCACAATACATTTCTTTCTTTCTTTTTCCTTTTTTTTTCTGCCATTTTTTTTGTATGTTCTTTTATCTTCGCCATTAATTGAAATTAGTTGCATTTATCAGGGTGCTAGAAGAATTGTTCCCGAATGGCCAGATCTTGATTTGGAGGCCAGAACATTCACAGCTAAAATATTAGGTGATATAAACCCTCAAACACCTGTCTTATCAACAGAGCAAGATGACGGTTCTGCAAGTAAGAAGCCTGTCAATGAAGATGTAGAATCAAGGGCAGAGTTGTAATGACATCATCTAAGTTCTACTAAATTAGACTGAAGGGAGGATTCTGCATTTTCAATTCAACATCTCCTACTACTCCCATAAGTTAGCCTTCTTAGAATTTAACTTGAAAGCCAGATGGACACAAGCCTCTGTAGGCTGATAATGCCGTGAAGACATAACTCTCCCACCAATTTTCATGGAAGAGTTACTTAATCCATTTCCCCCCTCTTTAGTATTTTTAATCTTAACTTGCTGAAAAATGTTGCCAATTTTGATAAAGACATGTACAGTATCGGTTTTGTAATTTTAGTGATGAAGTTTGCAAAAATTTTCTTCCCATTATTCCCATTTGCATATTGCCTCCATATTTTCATATTACCAAATGTAATAGAAATTATGGAAATTTTCTATTTTCTGATCATTACATGAATCTAGAAGCTATTCCAAGT GGAACTCTAATTTTTTCAAATGGGCCACTGGTTTGATTGGAAGCAATGATAAATCAAAAAAGACTAAAAGCATGGCTGTGGATCAGGGAAAAGGAGGGCGCTATGGAAAGGCAATAAACATTTTCTCCATTGCTTCCGGACACCTATATGAACGCTTTCTCAAAATCATGATCTTGAGTGTTCTAAAGAATACACACCGGCCTGTGAAATTCTGGTTTATAAAGAATTATCTATCCCCTCAGTTTAAGGATGTAATTCCACTCATGGCGGAAGAATATGGTTTTGATTTTGAACTTATTACATACAAATGGCCAACTTGGTTGCATAAGCAGAAAGAAAAGCAGAGGATTATCTGGGCATATAAGATTCTATTTCTTGATGTTATCTTCCCTCTTTCGTTGGAGAAGGTCATTTTTGTTGATGCTGATCAGATTGTCCGGACAGACATGGGGGAACTCTATGACATGGATATTAAGGGAAAACCACTAGCATATACGCCCTTTTGTGACAATAATAAGGATATGGATGGATATAGGTTTTGGAGACAAGGCTTCTGGAAAGATCATCTACGTGGAAAACCATACCATATAAGTGCATTATATGTTGTTGATTTAAAGAAATTCCGAGAAACAGCAGCTGGAGATAATCTAAGAGTTTTCTATGAATCTCTAAGCAAGGACCCAAATAGTTTATCCAATTTGGATCAAGATCTTCCTAACTACGCTCAGCACACTGTGCCCATTTTTTCTCTACCACAAGAATGGCTCTGGTGCGAGTCATGGTGTGGTAACGCCACAAAATCCAAGGCGAAAACCATTGATCTCTGTAACAACCCCATGACCAAAGAACCGAAGCTTCAGGGTGCTAGAAGAATTGTTCCCGAATGGCCAGATCTTGATTTGGAGGCCAGAACATTCACAGCTAAAATATTAGGTGATATAAACCCTCAAACACCTGTCTTATCAACAGAGCAAGATGACGGTTCTGCAAGTAAGAAGCCTGTCAATGAAGATGTAGAATCAAGGGCAGAGTTGTAATGACATCATCTAAGTTCTACTAAATTAGACTGAAGGGAGGATTCTGCATTTTCAATTCAACATCTCCTACTACTCCCATAAGTTAGCCTTCTTAGAATTTAACTTGAAAGCCAGATGGACACAAGCCTCTGTAGGCTGATAATGCCGTGAAGACATAACTCTCCCACCAATTTTCATGGAAGAGTTACTTAATCCATTTCCCCCCTCTTTAGTATTTTTAATCTTAACTTGCTGAAAAATGTTGCCAATTTTGATAAAGACATGTACAGTATCGGTTTTGTAATTTTAGTGATGAAGTTTGCAAAAATTTTCTTCCCATTATTCCCATTTGCATATTGCCTCCATATTTTCATATTACCAAATGTAATAGAAATTATGGAAATTTTCTATTTTCTGATCATTACATGAATCTAGAAGCTATTCCAAGT ATGGCTGTGGATCAGGGAAAAGGAGGGCGCTATGGAAAGGCAATAAACATTTTCTCCATTGCTTCCGGACACCTATATGAACGCTTTCTCAAAATCATGATCTTGAGTGTTCTAAAGAATACACACCGGCCTGTGAAATTCTGGTTTATAAAGAATTATCTATCCCCTCAGTTTAAGGATGTAATTCCACTCATGGCGGAAGAATATGGTTTTGATTTTGAACTTATTACATACAAATGGCCAACTTGGTTGCATAAGCAGAAAGAAAAGCAGAGGATTATCTGGGCATATAAGATTCTATTTCTTGATGTTATCTTCCCTCTTTCGTTGGAGAAGGTCATTTTTGTTGATGCTGATCAGATTGTCCGGACAGACATGGGGGAACTCTATGACATGGATATTAAGGGAAAACCACTAGCATATACGCCCTTTTGTGACAATAATAAGGATATGGATGGATATAGGTTTTGGAGACAAGGCTTCTGGAAAGATCATCTACGTGGAAAACCATACCATATAAGTGCATTATATGTTGTTGATTTAAAGAAATTCCGAGAAACAGCAGCTGGAGATAATCTAAGAGTTTTCTATGAATCTCTAAGCAAGGACCCAAATAGTTTATCCAATTTGGATCAAGATCTTCCTAACTACGCTCAGCACACTGTGCCCATTTTTTCTCTACCACAAGAATGGCTCTGGTGCGAGTCATGGTGTGGTAACGCCACAAAATCCAAGGCGAAAACCATTGATCTCTGTAACAACCCCATGACCAAAGAACCGAAGCTTCAGGGTGCTAGAAGAATTGTTCCCGAATGGCCAGATCTTGATTTGGAGGCCAGAACATTCACAGCTAAAATATTAGGTGATATAAACCCTCAAACACCTGTCTTATCAACAGAGCAAGATGACGGTTCTGCAAGTAAGAAGCCTGTCAATGAAGATGTAGAATCAAGGGCAGAGTTGTAA MAVDQGKGGRYGKAINIFSIASGHLYERFLKIMILSVLKNTHRPVKFWFIKNYLSPQFKDVIPLMAEEYGFDFELITYKWPTWLHKQKEKQRIIWAYKILFLDVIFPLSLEKVIFVDADQIVRTDMGELYDMDIKGKPLAYTPFCDNNKDMDGYRFWRQGFWKDHLRGKPYHISALYVVDLKKFRETAAGDNLRVFYESLSKDPNSLSNLDQDLPNYAQHTVPIFSLPQEWLWCESWCGNATKSKAKTIDLCNNPMTKEPKLQGARRIVPEWPDLDLEARTFTAKILGDINPQTPVLSTEQDDGSASKKPVNEDVESRAEL*
BLAST of MELO3C019457 vs. Swiss-Prot
Match: UGGG_ARATH (UDP-glucose:glycoprotein glucosyltransferase OS=Arabidopsis thaliana GN=UGGT PE=1 SV=1) HSP 1 Score: 565.5 bits (1456), Expect = 3.8e-160 Identity = 269/321 (83.80%), Postives = 291/321 (90.65%), Query Frame = 1
BLAST of MELO3C019457 vs. Swiss-Prot
Match: UGGG_DICDI (Probable UDP-glucose:glycoprotein glucosyltransferase A OS=Dictyostelium discoideum GN=ggtA PE=1 SV=2) HSP 1 Score: 426.8 bits (1096), Expect = 2.1e-118 Identity = 192/272 (70.59%), Postives = 225/272 (82.72%), Query Frame = 1
BLAST of MELO3C019457 vs. Swiss-Prot
Match: UGGG1_HUMAN (UDP-glucose:glycoprotein glucosyltransferase 1 OS=Homo sapiens GN=UGGT1 PE=1 SV=3) HSP 1 Score: 423.7 bits (1088), Expect = 1.8e-117 Identity = 200/307 (65.15%), Postives = 235/307 (76.55%), Query Frame = 1
BLAST of MELO3C019457 vs. Swiss-Prot
Match: UGGG1_RAT (UDP-glucose:glycoprotein glucosyltransferase 1 OS=Rattus norvegicus GN=Uggt1 PE=1 SV=2) HSP 1 Score: 419.5 bits (1077), Expect = 3.4e-116 Identity = 190/266 (71.43%), Postives = 220/266 (82.71%), Query Frame = 1
BLAST of MELO3C019457 vs. Swiss-Prot
Match: UGGG1_MOUSE (UDP-glucose:glycoprotein glucosyltransferase 1 OS=Mus musculus GN=Uggt1 PE=1 SV=4) HSP 1 Score: 419.5 bits (1077), Expect = 3.4e-116 Identity = 190/266 (71.43%), Postives = 220/266 (82.71%), Query Frame = 1
BLAST of MELO3C019457 vs. TrEMBL
Match: A0A0A0L9E1_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G219730 PE=4 SV=1) HSP 1 Score: 658.3 bits (1697), Expect = 4.8e-186 Identity = 311/320 (97.19%), Postives = 318/320 (99.38%), Query Frame = 1
BLAST of MELO3C019457 vs. TrEMBL
Match: M5XR69_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa000323mg PE=4 SV=1) HSP 1 Score: 586.6 bits (1511), Expect = 1.8e-164 Identity = 283/321 (88.16%), Postives = 297/321 (92.52%), Query Frame = 1
BLAST of MELO3C019457 vs. TrEMBL
Match: F6H932_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_12s0034g02230 PE=4 SV=1) HSP 1 Score: 586.6 bits (1511), Expect = 1.8e-164 Identity = 278/321 (86.60%), Postives = 295/321 (91.90%), Query Frame = 1
BLAST of MELO3C019457 vs. TrEMBL
Match: G7IPG7_MEDTR (UDP-glucose:glycoprotein glucosyltransferase OS=Medicago truncatula GN=MTR_2g006960 PE=4 SV=2) HSP 1 Score: 584.3 bits (1505), Expect = 8.9e-164 Identity = 274/318 (86.16%), Postives = 297/318 (93.40%), Query Frame = 1
BLAST of MELO3C019457 vs. TrEMBL
Match: K7L7I8_SOYBN (Uncharacterized protein OS=Glycine max PE=4 SV=1) HSP 1 Score: 580.5 bits (1495), Expect = 1.3e-162 Identity = 276/318 (86.79%), Postives = 294/318 (92.45%), Query Frame = 1
BLAST of MELO3C019457 vs. TAIR10
Match: AT1G71220.2 (AT1G71220.2 UDP-glucose:glycoprotein glucosyltransferases;transferases, transferring hexosyl groups;transferases, transferring glycosyl groups) HSP 1 Score: 565.5 bits (1456), Expect = 2.2e-161 Identity = 269/321 (83.80%), Postives = 291/321 (90.65%), Query Frame = 1
BLAST of MELO3C019457 vs. TAIR10
Match: AT3G06260.1 (AT3G06260.1 galacturonosyltransferase-like 4) HSP 1 Score: 50.1 bits (118), Expect = 3.0e-06 Identity = 46/176 (26.14%), Postives = 85/176 (48.30%), Query Frame = 1
BLAST of MELO3C019457 vs. NCBI nr
Match: gi|922385606|ref|XP_003593026.2| (UDP-glucose:glycoprotein glucosyltransferase [Medicago truncatula]) HSP 1 Score: 584.3 bits (1505), Expect = 1.3e-163 Identity = 274/318 (86.16%), Postives = 297/318 (93.40%), Query Frame = 1
BLAST of MELO3C019457 vs. NCBI nr
Match: gi|1000945954|ref|XP_015581098.1| (PREDICTED: UDP-glucose:glycoprotein glucosyltransferase isoform X2 [Ricinus communis]) HSP 1 Score: 575.9 bits (1483), Expect = 4.5e-161 Identity = 271/319 (84.95%), Postives = 290/319 (90.91%), Query Frame = 1
BLAST of MELO3C019457 vs. NCBI nr
Match: gi|1012351990|gb|KYP63179.1| (UDP-glucose:glycoprotein glucosyltransferase 1 [Cajanus cajan]) HSP 1 Score: 575.5 bits (1482), Expect = 5.9e-161 Identity = 274/318 (86.16%), Postives = 293/318 (92.14%), Query Frame = 1
BLAST of MELO3C019457 vs. NCBI nr
Match: gi|747080930|ref|XP_011087732.1| (PREDICTED: LOW QUALITY PROTEIN: UDP-glucose:glycoprotein glucosyltransferase [Sesamum indicum]) HSP 1 Score: 561.2 bits (1445), Expect = 1.2e-156 Identity = 269/326 (82.52%), Postives = 290/326 (88.96%), Query Frame = 1
BLAST of MELO3C019457 vs. NCBI nr
Match: gi|901815872|gb|KMZ70181.1| (UDP-glucose:glycoprotein glucosyltransferase, family GT24 [Zostera marina]) HSP 1 Score: 537.7 bits (1384), Expect = 1.4e-149 Identity = 257/310 (82.90%), Postives = 275/310 (88.71%), 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: None The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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