MELO3C019455 (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.ATGGGGACGAGCTGTTTTAGATCTGGGTGTCGACCTCTGATCGTTGTATTGTTGTTGGCAATCTATGGAGGTAGTGGGGTTTTTGCTGAGATTCGAAAACCCAAGAACGTGCAGGTAGCGGTTCAAGCCAAGTGGTCCGGCACTTCAGTTCTCCTAGAAGCTGGGTACTTCTGCTTGCATTTTCCCTTTCTTGTTTTGTAATCGTTGATTTGAAGATACTGTATTGGAATTAAATTCTTGTTGAAGAAGGCTGATTATATGAATGAAGTCAAGCTTCATTTGTTGTTATTGTTTTGGAAACATTGGGAGAGGTGGTTTATTATTTGGTAGCGGCAACTTTAGTTTTAACCATTTTTCGGATTTTTTTTAGTGAGATTCAATTTTCTCATTCAGGGTCGTGAAAATAATTGTCAGTGAGAGCAATACCTGTGTATGAGTATATACTTTTCATTTCGTTGGTGGCATTTGTTTGTTTTCAAAGAGAACATGTTAATAGTTTTATAGTGGTCTTATCTGAAATATGAACTGTTGTATCTTACGTAATATTTAAAGATTTGAAGAATAAATGCTCAAAAGTTGATAATTTGGAATCAGATAATTATTACATCACTAATCGTGATAACTATTACAATACTCATCGTTACTGTGAATGGAGTTTTTGGTTTTACACAATGTAGTGATTTCTATATTCTTGTTGACTACAGTGAATTACTTGCTAAAGAACAAAAAGACCTTTACTGGGAGTTCATTGAGGTCTGGCTTCGTGAGGAAGGAAACGATGCTGATGCTGATGCTCCTACGGCCAAAGCTTGTTTGAAGAAAATTTTAAAGCATGGACGTTCTCTTCTAAACGAACCTCTGGCCTCATTATATGAATTTTCTCTCGTTCTAAGATCAGCATCACCTAGATTGGTTCTTTACCAACAGTTAGCCGATGAATCACTTTCCTCCTTTCCTCTGCCTGAAGAAAATAACTCCAACATTGTTGGTGAAGGAAATGAAAGCATTGAAAGAAAAATTTCAGGTACTTCAGTTGTTGGACTCAAGCCAAAAACTCCTGGCGGAAAATGTTGTTGGGTGGATACGGGTGGATCTCTATTTTTTGATGTTCCAGAATTGCTAACTTGGCTTCAGAATCCTGCTGAAAGGTTAGTAATATTAACCAACCTAACCCTATAATGAACCCAATATTAAAATTCACAATAACTGTTTTCCTATAATGAATCCAATTTAGAATTCAACTGAAACAAACCATTTCAAGGACGAATTAGCCAATTCAACATGTCCCATAAACTAAGGTGGCGAGTTTGATTTGATGCAGATTTATGTGTAAGCAGTATATTTGTTTGTTTGATTGATTTGAATAAAACCGATAATACCATTTGAGAAAATAAATTGAATACATACGTCCAATGATCCAATACTCGCCGCATGTTTCTTGATTAGGAACATTGTATGACTAGTAATGAATTCTATGGTTGTGGCTCTGTGCTACATTATATGGAAAAGATCAAGTTGAAACAACCCATTTGTTATCTACTTAAAATAAGTCCACAAAGAAGTTTGGAAGTACATAGAAAATGTTTTCACCTAATCAAAGTCCCTAACTAGAAGGTGAGTTTCTCATTGTGATTTTCATAAAGGAATTAGTTTAATTGGACTATTGGTGGCTGGAACAGGTGAAATTGATTTTAGATTCGTAATCTGGATAATTGTTTCATTTTCATTTGTTACCTCCTTCTATATGGGAAACATATTTAAATTACTTTATTCTTTTCAATATTAGCTTTTTCTTAATATGTTTCTTTAAAATTCATTTTTTTTCTCAGTGTTGGGGATTCAATACAGCCACCTGATTTGTATGACTTTGACCACATTCACTTTGGTTCATCTTCTCGAAGTAGATTAGCCATCCTTTATGGAGCCCTTGGAACTTATTGCTTTAAGCAATTTCATGTCACCCTTGTCAATGCCGCCAAAGAGGTTCATCGCCTGTGTTCTGATCTTTTGTTTTATGCTCATCATTCTTTTTTCTTGTTCATTAATTTTTTTTATAAGAAACATGGATAATTTAATCATTTGTGCCAAAGGAATTACATGTATGAAATTACAAACAAGTCTTTATTTCATTGAAAGTAAAAGTATTATGCTCATTATTCTCATTTTGTGAGGGCCATGTAAATAATAATGGGCTTCGAGAAAAGCAACTTCAGCTTTCAGGCCATGGTGGCTACCTACTTAGGATTTAATAGTCCATGATTTACCTTGGCAACTAAATGTAGGAGGGCCACGAGATTATTTTGTGAGAACAGTTGGGGTGCATACAAACTAGTTCAGACACTTACATAGATTCATAAAAAAGATCTCATTGCATTTTTTTTTGAAACAGAAACAAGACTTTTTCATTGAAATAATGAAATTAGTCTAATGCTCAAATTACAAAATATAAGACAGAACAAAATGAATCTCATTGTATTGAGCAAAATTAGGGTTATATTTTGGTATTGAAACTATGAGGGTAGGTCTCATATGATTCTAGAACTACTGCGCGTTTATTTGCAAACCTAGTTTATTTGTGAAACGTTGTTTTAACTTTATTGATGATATAGCTAATTGTGACAGCACTACTTGTTTCAATTTGTTTTTGTCTAATATCTAACACTTCGTGCTGTTTGACTAAATTTCCAGGGAAAAGTTAGGTATGTTGTTCGACCTGTAATTCCTTCTGGCTGTGAAGTAAAAATTAATTCCTGTGGAGCTGTTGGTGCCAGAGGTTCCTTGAATTTGGGTGGTTATGGGGTAGAATTGGCTCTCAAGAACATGGAATATAAGGCTATGGATGATAGTGCCATAAAGAAAGGTCAGTTCAGTTTCGGAGTTTATTCTGAAGTTATTTAACATAATGAGGCAGCCATGTGCAGAAGTTTATTCCAGCTTCACTGAAGCTGGGAATAATATCTTTTTTTTCTTTTTAATGAAAAGTTCGACTTTCATTGAAAAAAAATGAGAGAATACTCAGGCATCTAATAAACCAAGCCCATAAAAGAACGAGAGACTCCCATTACACCGACAACTTTGAATTATGTTCTTTTGACATGGTTTGACTTATTATGAATGGGAACTCCTAACTAACTATGAATAAACTACAGCATGAAGGTTTGAAGTCTCAGTCTGTAGATACTTATTTTCTACATTACATTTCATGTCTTATCTATGAAGTATGGATATGTTATGGAAGGGATAGAATCCGTATAAGATACGTATCTGATATGGATTTGTCTAGATACGCCTTAGAAACATTTTTTTGAATTTCGGATGTTTATCTTGTGAAAAGCTAAATTGAGGGACACACTTGTTTTTTATTTTGAAATCTAGACAAGTCTTTTTATTAATAACAAACTCAAAGTACAATAAAATTATACAACGAGAGTAATAGAGAAGCCTAGAAAGAGAGAGAAAAGAAAGTGATGTAGGAGTTATAACTAATTGTTGAATACCAATTAGTTAGTTTAATCTTCTGTTTAAATTCTCAATTTCCAACCAACCTCTAGTTAGTTATGTGGCTATTCATTAGTTTTATTTTATGTTAAGGTTTGTTATAACCGTCCAACCTTCTCCTTTATATAAATAGGTCTTTTGACCTCCCTTTCAAATCAATAAAAAGATAAAGAAAACTTAGTATTCTTGAGTTTGTTTACATCATAAAGGATTAGTAGGGGCACTCATACACCACAACTAGGTTGACACCCTCTTAGCACCATCATTATATCCCAAGAAGAAAAACAAAGGTCATATAAAGACCGAAAATATCAGTACGAACCAGTCAAACTGGACAAATTCAAACTGAAGAAGAAACACATAAGAAAAGAAACAAAACAAAACCGAATACACTGGAAATCAAAAACCTGTATCCTCCCTTAAGCTGAATGGTGGATGAATGCAGTCCAGTTGAGACAAATATCCTAAATTAAATAATTTTGGATCTTAGCACTCAAGGAGCACCATGATGCTGCATTCCTTTTTGACATGTCCAAGATGTCAAACCAACCCCTTTCTTTATCGTGAAAAATGTGCTGGTTGTTCTCAAACCAAATCTCAGCCTGCAGTGCTTTAACCATATTAACTTGAATTAGAGAGTTTCTTTGATATCAAGGGCCCCTTCAACAGCTGAAACACATTGGAGCTTAGAGATCCATAAAAACCCATAATACTTTGAACAAAGTAAAAAAAAATGCTATATGAGCATTTAGTGGAGTAGGGGCATAAAATGAATGTGTATTAATTCCTCATTGTCCTTTAAACAAAGAGGGCACACCAATGGCATCGAGCACATATTGGGAAGTTTCCTTTCCATAATCTCGAAACAATTAAGAAGGCCGACCTCCATAATTCATCTAGGATATTTTTTCTCCTTAGGCTGCTGGTTTTCCAAAGAGCTTTATAGCAAGCTTTTTCCAAAGGGCAAGATGGAGAGAGATGAGTTGAAAGGGATTTGACAGAGTAATGACCCAAGGCATCTAAGGACCAAATCCTCCCATCTTCCAATTCTGCTATTCTCCTTGAGGATAGGAGTAATAAAGATTGGAAATCTTGGATTTCTTCATCTTTCAGCAATCTTCGAAACACTATAGCCCAAGAATTTGTGTCACTATCCCAATGGGCCGCAACTGAGCCGATAGGCAGCAAGGCTATTTTGAAAAGCTTCGAGTTTTGAGTTTTTAGAGGGATTTCTCTAGCCCATGAATCTGCCCAGAATGCCACTCTTCTTCCATTACCAAGCTTGAAGGGTGCCAATATTTCCACCTTTTTCCATTCTCTTGAGATGCTGACCCAAGGGCTTCTTAAACTATTTCCTGATTTGCTTTGAGTATGCCAATCAAATGTTTCACTGCCATGAATGCTTCTGATCACTTGCCTCCACATCGCAGTATCTTCCTTCATGTACCTCCACCCCCATTTAGCAAGGAGAGCCGTATATTTATTTTTGACACCTCCCAAGCTCAACCCCCCATCCAACAGGGAAGGTGTGACCTTCTTCCAAGACACCCAAGTGGTTTATTTTTGCTGCCAGAGTTCGCTTCCCAAAAAGGAAGTTTTCATTAACTTTTCGAGAGCAGAAGCTACATTTTTTGGAATGGCAAAGATAGACAAGTAGTCGATCAGAAGATTGGCCAAGATTGGGTTGCATAAGGTTTGTCTTCCACCTCTTGAAATATTGAACCTTTTCCATCTATCCAATTTTTGTGTACTCTATCAATCATGGGTTGCCAAAAAACTTTCTGCCTAGGATAGCCCCAATAGAAGACCTATGTACAGAAATGGGAGCTTTTCCACTTTACAACATAATTTTCCAGCCATATGAAGTAGCTCATCATCCCCCATATTAACTCCACTAAGCGTTGACTTGTCCCAATTCACTTTCTAACCCGAGCACCATTCAAACAGATCGATAGCCTCCTTTAACTTGAGCAGCATCACTTCATCATCTTTACAAAATAGGATAGTATCATTAGCGTACTGGAGAATGGGGATGTGTACTCTATCTTTACCAACCATGAAACCCTCCAAATGGCCATTATCATGCAGCTTGTTAGTGATGGTTCCTCGAACTTTGCTGATGAGTAGAAAAACGAAAGGAGAAAGTGGATGTCCCTTTCGAATGCCTCTAGAAGCCACTATTCTTCCTCTTGGCTTTCCGTTGATGAATATGGAAGATCTAGGATTTTTAAGGCAATCCAACATCTAGGAAGACCATTTAGGACTAAACTTTTTACAATGCAATGCCTTTTCGAGTAAACCCCAATCTACTCTATCGAAGGCCTTTTCAAGATCTAATTTTAATGTCCAACTTCTTTTCTTTTTAGTGCGGTAGTCTTCAACAGCCTCATTAGCTATTAAATTGGGTCTAAAATTTGCCTACCTTCGATGAAAGCACTTTGGAATGGGATGATGATTGAATCCATAACCAGTTTGAGCCGATCTGCTAGCACCTTAGCAACCACTTTGTAAGCAAGGGTTGTGAGGCTAATGGGTCTAAAGTCCTTTGCGTGAACTGCATCTTCTTTCTCTTGAATTAGACAAATGAAATTTTCTTGGACGCAGGCGTCAAGCTTTCCATTTCTATGAAAATCATGACACAGTTTTTTGAGCTTCCTTTTAGTTTTGGCCAATGCCTCACGAGAAACTCCATGGTGAAGTCGTCTAGACCAGGAGCTTTATTTCCACTGAGTGCCTTGATTGCCTTGAAGTTTTTCCCCTCAGAAAATCTGGTGACAAGTGATATGTTTTGAATGGTAGAAATGCAAGGCCAGTCTAATAAAAGGTATGCATCTGAACCCAGGAGTTCTTTTCACATACTTATTTAAATAAAAGAAAAAAAACCAGTAAACCATAAAACGAAAGAGAAACATAACAAAAACTAAGAAATTCAGTGCCTATCATATCCGATGTATTTGTCGGAAAAGAAGATCTGTGAAGGTCGGCCACAATGTGGTGATGGAAGTTCTCAGGGTGGCCTTTTGAAATGTGCTACTCGCTCTCTCCTTTGGTGCCTATGGAATGAAAGAAACAGTTGAATTTTTAGAAGATAAGTGTGCTTCCTGTAACTTCTTTTTCGGATGGCTATGCAACATACAACCTCTTGGTGGAGTACAACTTACACCAAATTCTTTTGTAATTATGGTCTTTCCATGAATTTTAACAGTTGGAAGGCTCTTATTCAGTAGTTTATTTTGGGGGGTCGTCTCAATCCATTACCTCTTGTCTGTTTACTCTTGTTTTTGGTTGGCATATGAATATGCATATCTGTTTCCTATAAAAAAATTCATTCAGAATTACCCCTGGGATTCTTTGGAAGAAAAGAAATTCTATAATTTTTTTCATATAAAAAGTTTCTCTTTTATGATTCTGTATAGCTTACTGCCTCTACTTGGTGTGCTGGACATAGGTTTTTTTCTTTGTAATTAATCCATAGATTCCATTACTTAAGAGTGGAAGGTCTTTTTGTAATCCTTCTCTTGGGGAAAGTGATGCCTCTTCCCTTGTCCCTTATGTTGTTTTGTCTGTCTCCAGTTTTTGAGTAAATAAACCAATTGCATTCTATCTTGTTAATGTGAGGTCTCGTACTAGTTGGTAAAAAGGGATATAGGTTGATCATGTAGGAACTGTGATTCAGTTGGGTGGGGTGAAACATTCTACTTCGTTCCTTTACTGGCTAATCTTTTAATTAGATTTTTCTGGGATAAGATGCCTTGAAATGGCCTTATGGATTGCAGGTGTCACTTTGGAAGATCCTAGGACGGAAGATCTCAGCCAAGAAGTTAGAGGCTTCATATTTTCCAAGATTTTGGTGTGTTTTCCATCTAGCTACTAGTATTTTGTTTAGAAAATTATATAAAGAAGTATTTTACTTCACTGGTCATTAAAATTTACTTCACTGGTCATTAAACATACATTTTCTTTCATTGTTTATTGTCTATGGATCACATTTTCTATAACTACTCGGCTCAGTTTTAAAATTGAAGTGGGGTTTTGCATTTCTTGTTCTTTTCTTTTTTTGACAAGAGTCAACATTTTTCATTGATGAAATGAAAAGAAACTAATGCTCGAGTGACATTAATCAAAGCTAAAGGCAACCCAATTTTAGTTTATATCTCAAAGAGAGTAGCCTTCATAAATCTTTTTCCTCTTAATCTAGTAGTGCTCATGGTTCATGTTAGCCAAGTAGACCTTATGGCTTATGCAACTAAGGTTGAAATGATTTATATGGTCAATGTAGGAACGGAAACCAGAGCTAACATCTGAGGTCATGGCTTTTAGGGATTATCTATTGTCATCGACTGTTTCAGACACACTTAATGTGTGGGAACTAAAGGGTAATTGGACTTTGAAGTTTATTGTTTGATATCCTTTTGGTGTTCGTGTTTCAAAGCCTAATTAATTGCTTTCTTTTCGGCAGATTTGGGACATCAAACTGCACAGAGAATAGTACAGGCCTCTGATCCTCTGCAGTCAATGCAGGAAATAAGCCAAAATTTTCCTAGTATTGTTTCTTCATTATCCCGCATGAAGGTAAAGGATCTAGTAAGGCACCCTACATGAAGTAACCTTATGGCGTCAAATATCTTTCCATAAACATTACTGGTTTTTTTATGTTGCTTGTCTTGCAGCTCAACGATTCAGTTAAAGATGAAATCACTGCTAATCAACGCATGATTCCACCTGGCAAGTCCTTAATGGCTCTCAATGGTGCTTTAATCAATATTGAAGATGTTGACCTCTATCTGTAATGTTTATACTCCCCTTGATATTTCTCTCTCTCACTTATAGACATTCTAGACTATGCAATCCCATTTTTGGTTTACATGGCAGTTCCAGATTCTTACAATTTGAATATCGCCCATTATTTTAAATTCAATAGGATTTACATTTTACACACAGATACCATTATCCTGTCCTGTTCTTATCATTAGTTAGGGTCCATCCTTTGTTCACCAATGTTTTTTTGTTCTTAGTTTATACTGTTGGGATCTCTTATAACTGCTGCCACTCTTTTATAGGTTGATTGACATGGTCCATCAGGACCTATTGTTGGCAGATCAATTTACAAAACTGAAGGTAAAGAATTTAGTTCTCTGTGGTTACAAGGAATCGAAAATTTTCACTTAAATGATGGAAAACTTAATGTTGTCTGTGTGTGTTTACATATATATTTGAAGAAAAGGTATGTAATTAGAAACAAAGTTGATTACAGAGCAAGTTCGAAGAATTTGACTTGTTCGGATAGACAGAACAGAAGGAAGAGTGAGATTGCCCCTATAGAAATTTTAAAGAGATTCTAGATTCGAAAGCTTTTGCTTTAATTTCTTCCTCTTAATCAGTTTTTAGGATTGAAAATTTATTTATAAATATAAAAGTTAGAAACTTAAATTATCCCTCATGAAAATTTCTGGCCCCACCACTATTGAAAGACACTTCTACATGATTCTCAGAAGTATCAATTGGCTGAGTTCTCTTATTGATCCTTGTCTCTTTTATGTGATATGCACTCTCCAACCCCTCTATTTTCCTCACTTGAAGGTTTAGAGATGGTTAATTTTTTTTGGGACAAGTATCATATACACCCCTAAACTTGAAGTTGTATCAATTTAAACTTTGAATTAATAATTGTATCAATTTAAACTTTGAACTTTTATAAGTGCATCAATTTACACTCTTCATTCATTCTATTTGGATAAACATTGTGTGAAGCTTGTAATTTTATCAATTAAATCCCTAAACTTTCATAAGCGAATGAATTTAGATTCTTAATTAAGTTTTCCTTTGAAAATTGCCAATCCATTGATTTGAATATTCACTTATTACTCCAACATTTGAAGAAATCTACACATATATAAGAATTGAATTTATGGAAAATTTTTAAATATAATCTTAATAAAGGATCTAAATCGATTCACTTATAGCAATTTAGAAGTTTAATTGAAGTAGTTATATATTTTACACAAAATTTTTTGAATGAAGTCTTGAGAAGGGTGCTAAATGTCATCGTTTATTGAGAAATGATAAGAGTTGGTTCACTATTCTTTTCTCAAATGAAAAGATCCTTTTCTAATCAATGATTCTTTTATTTTTTACATTTCCTGATTGAAGAGTGATGTATTTGTAAGTATGTTTCCATTAGTCTAGTTTTATGCACTGAAGTCTCATTTTGTTTTCTAATAAATTGGCGTTGCCAACAATCAGATTCCTCGTCCTACTATTCGAAAACTTCTGTCAAGTCTACCTCCAGCTGATTCTGACTTGCTCCGTGTGGACTTTCGTTCTTCTCATGTGCATTTCCTCAACAACTTGGAAGAAGATGCTATGTATAAGCGATGGAGGAGCAACATCAATGAGGTGATTTAA ATGGGGACGAGCTGTTTTAGATCTGGGTGTCGACCTCTGATCGTTGTATTGTTGTTGGCAATCTATGGAGGTAGTGGGGTTTTTGCTGAGATTCGAAAACCCAAGAACGTGCAGGTAGCGGTTCAAGCCAAGTGGTCCGGCACTTCAGTTCTCCTAGAAGCTGGTGAATTACTTGCTAAAGAACAAAAAGACCTTTACTGGGAGTTCATTGAGGTCTGGCTTCGTGAGGAAGGAAACGATGCTGATGCTGATGCTCCTACGGCCAAAGCTTGTTTGAAGAAAATTTTAAAGCATGGACGTTCTCTTCTAAACGAACCTCTGGCCTCATTATATGAATTTTCTCTCGTTCTAAGATCAGCATCACCTAGATTGGTTCTTTACCAACAGTTAGCCGATGAATCACTTTCCTCCTTTCCTCTGCCTGAAGAAAATAACTCCAACATTGTTGGTGAAGGAAATGAAAGCATTGAAAGAAAAATTTCAGGTACTTCAGTTGTTGGACTCAAGCCAAAAACTCCTGGCGGAAAATGTTGTTGGGTGGATACGGGTGGATCTCTATTTTTTGATGTTCCAGAATTGCTAACTTGGCTTCAGAATCCTGCTGAAAGTGTTGGGGATTCAATACAGCCACCTGATTTGTATGACTTTGACCACATTCACTTTGGTTCATCTTCTCGAAGTAGATTAGCCATCCTTTATGGAGCCCTTGGAACTTATTGCTTTAAGCAATTTCATGTCACCCTTGTCAATGCCGCCAAAGAGGGAAAAGTTAGGTATGTTGTTCGACCTGTAATTCCTTCTGGCTGTGAAGTAAAAATTAATTCCTGTGGAGCTGTTGGTGCCAGAGGTTCCTTGAATTTGGGTGGTTATGGGGTAGAATTGGCTCTCAAGAACATGGAATATAAGGCTATGGATGATAGTGCCATAAAGAAAGGTGTCACTTTGGAAGATCCTAGGACGGAAGATCTCAGCCAAGAAGTTAGAGGCTTCATATTTTCCAAGATTTTGGAACGGAAACCAGAGCTAACATCTGAGGTCATGGCTTTTAGGGATTATCTATTGTCATCGACTGTTTCAGACACACTTAATGTGTGGGAACTAAAGGATTTGGGACATCAAACTGCACAGAGAATAGTACAGGCCTCTGATCCTCTGCAGTCAATGCAGGAAATAAGCCAAAATTTTCCTAGTATTGTTTCTTCATTATCCCGCATGAAGCTCAACGATTCAGTTAAAGATGAAATCACTGCTAATCAACGCATGATTCCACCTGGCAAGTCCTTAATGGCTCTCAATGGTGCTTTAATCAATATTGAAGATGTTGACCTCTATCTGTTGATTGACATGGTCCATCAGGACCTATTGTTGGCAGATCAATTTACAAAACTGAAGATTCCTCGTCCTACTATTCGAAAACTTCTGTCAAGTCTACCTCCAGCTGATTCTGACTTGCTCCGTGTGGACTTTCGTTCTTCTCATGTGCATTTCCTCAACAACTTGGAAGAAGATGCTATGTATAAGCGATGGAGGAGCAACATCAATGAGGTGATTTAA ATGGGGACGAGCTGTTTTAGATCTGGGTGTCGACCTCTGATCGTTGTATTGTTGTTGGCAATCTATGGAGGTAGTGGGGTTTTTGCTGAGATTCGAAAACCCAAGAACGTGCAGGTAGCGGTTCAAGCCAAGTGGTCCGGCACTTCAGTTCTCCTAGAAGCTGGTGAATTACTTGCTAAAGAACAAAAAGACCTTTACTGGGAGTTCATTGAGGTCTGGCTTCGTGAGGAAGGAAACGATGCTGATGCTGATGCTCCTACGGCCAAAGCTTGTTTGAAGAAAATTTTAAAGCATGGACGTTCTCTTCTAAACGAACCTCTGGCCTCATTATATGAATTTTCTCTCGTTCTAAGATCAGCATCACCTAGATTGGTTCTTTACCAACAGTTAGCCGATGAATCACTTTCCTCCTTTCCTCTGCCTGAAGAAAATAACTCCAACATTGTTGGTGAAGGAAATGAAAGCATTGAAAGAAAAATTTCAGGTACTTCAGTTGTTGGACTCAAGCCAAAAACTCCTGGCGGAAAATGTTGTTGGGTGGATACGGGTGGATCTCTATTTTTTGATGTTCCAGAATTGCTAACTTGGCTTCAGAATCCTGCTGAAAGTGTTGGGGATTCAATACAGCCACCTGATTTGTATGACTTTGACCACATTCACTTTGGTTCATCTTCTCGAAGTAGATTAGCCATCCTTTATGGAGCCCTTGGAACTTATTGCTTTAAGCAATTTCATGTCACCCTTGTCAATGCCGCCAAAGAGGGAAAAGTTAGGTATGTTGTTCGACCTGTAATTCCTTCTGGCTGTGAAGTAAAAATTAATTCCTGTGGAGCTGTTGGTGCCAGAGGTTCCTTGAATTTGGGTGGTTATGGGGTAGAATTGGCTCTCAAGAACATGGAATATAAGGCTATGGATGATAGTGCCATAAAGAAAGGTGTCACTTTGGAAGATCCTAGGACGGAAGATCTCAGCCAAGAAGTTAGAGGCTTCATATTTTCCAAGATTTTGGAACGGAAACCAGAGCTAACATCTGAGGTCATGGCTTTTAGGGATTATCTATTGTCATCGACTGTTTCAGACACACTTAATGTGTGGGAACTAAAGGATTTGGGACATCAAACTGCACAGAGAATAGTACAGGCCTCTGATCCTCTGCAGTCAATGCAGGAAATAAGCCAAAATTTTCCTAGTATTGTTTCTTCATTATCCCGCATGAAGCTCAACGATTCAGTTAAAGATGAAATCACTGCTAATCAACGCATGATTCCACCTGGCAAGTCCTTAATGGCTCTCAATGGTGCTTTAATCAATATTGAAGATGTTGACCTCTATCTGTTGATTGACATGGTCCATCAGGACCTATTGTTGGCAGATCAATTTACAAAACTGAAGATTCCTCGTCCTACTATTCGAAAACTTCTGTCAAGTCTACCTCCAGCTGATTCTGACTTGCTCCGTGTGGACTTTCGTTCTTCTCATGTGCATTTCCTCAACAACTTGGAAGAAGATGCTATGTATAAGCGATGGAGGAGCAACATCAATGAGGTGATTTAA MGTSCFRSGCRPLIVVLLLAIYGGSGVFAEIRKPKNVQVAVQAKWSGTSVLLEAGELLAKEQKDLYWEFIEVWLREEGNDADADAPTAKACLKKILKHGRSLLNEPLASLYEFSLVLRSASPRLVLYQQLADESLSSFPLPEENNSNIVGEGNESIERKISGTSVVGLKPKTPGGKCCWVDTGGSLFFDVPELLTWLQNPAESVGDSIQPPDLYDFDHIHFGSSSRSRLAILYGALGTYCFKQFHVTLVNAAKEGKVRYVVRPVIPSGCEVKINSCGAVGARGSLNLGGYGVELALKNMEYKAMDDSAIKKGVTLEDPRTEDLSQEVRGFIFSKILERKPELTSEVMAFRDYLLSSTVSDTLNVWELKDLGHQTAQRIVQASDPLQSMQEISQNFPSIVSSLSRMKLNDSVKDEITANQRMIPPGKSLMALNGALINIEDVDLYLLIDMVHQDLLLADQFTKLKIPRPTIRKLLSSLPPADSDLLRVDFRSSHVHFLNNLEEDAMYKRWRSNINEVI*
BLAST of MELO3C019455 vs. Swiss-Prot
Match: UGGG_ARATH (UDP-glucose:glycoprotein glucosyltransferase OS=Arabidopsis thaliana GN=UGGT PE=1 SV=1) HSP 1 Score: 651.4 bits (1679), Expect = 8.5e-186 Identity = 332/517 (64.22%), Postives = 404/517 (78.14%), Query Frame = 1
BLAST of MELO3C019455 vs. Swiss-Prot
Match: UGGG_DICDI (Probable UDP-glucose:glycoprotein glucosyltransferase A OS=Dictyostelium discoideum GN=ggtA PE=1 SV=2) HSP 1 Score: 217.6 bits (553), Expect = 3.1e-55 Identity = 170/533 (31.89%), Postives = 273/533 (51.22%), Query Frame = 1
BLAST of MELO3C019455 vs. Swiss-Prot
Match: UGGG1_MOUSE (UDP-glucose:glycoprotein glucosyltransferase 1 OS=Mus musculus GN=Uggt1 PE=1 SV=4) HSP 1 Score: 180.3 bits (456), Expect = 5.6e-44 Identity = 145/497 (29.18%), Postives = 235/497 (47.28%), Query Frame = 1
BLAST of MELO3C019455 vs. Swiss-Prot
Match: UGGG1_RAT (UDP-glucose:glycoprotein glucosyltransferase 1 OS=Rattus norvegicus GN=Uggt1 PE=1 SV=2) HSP 1 Score: 179.1 bits (453), Expect = 1.2e-43 Identity = 146/524 (27.86%), Postives = 242/524 (46.18%), Query Frame = 1
BLAST of MELO3C019455 vs. Swiss-Prot
Match: UGGG1_HUMAN (UDP-glucose:glycoprotein glucosyltransferase 1 OS=Homo sapiens GN=UGGT1 PE=1 SV=3) HSP 1 Score: 171.4 bits (433), Expect = 2.6e-41 Identity = 141/524 (26.91%), Postives = 240/524 (45.80%), Query Frame = 1
BLAST of MELO3C019455 vs. TrEMBL
Match: A0A0A0L9E1_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_3G219730 PE=4 SV=1) HSP 1 Score: 950.7 bits (2456), Expect = 7.6e-274 Identity = 479/496 (96.57%), Postives = 488/496 (98.39%), Query Frame = 1
BLAST of MELO3C019455 vs. TrEMBL
Match: A0A067KV48_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_05000 PE=4 SV=1) HSP 1 Score: 770.0 bits (1987), Expect = 1.8e-219 Identity = 380/516 (73.64%), Postives = 447/516 (86.63%), Query Frame = 1
BLAST of MELO3C019455 vs. TrEMBL
Match: A0A067E8B6_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g000334mg PE=4 SV=1) HSP 1 Score: 760.8 bits (1963), Expect = 1.1e-216 Identity = 379/516 (73.45%), Postives = 447/516 (86.63%), Query Frame = 1
BLAST of MELO3C019455 vs. TrEMBL
Match: A0A067EFY0_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g000334mg PE=4 SV=1) HSP 1 Score: 760.8 bits (1963), Expect = 1.1e-216 Identity = 379/516 (73.45%), Postives = 447/516 (86.63%), Query Frame = 1
BLAST of MELO3C019455 vs. TrEMBL
Match: A0A067EFX5_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g000334mg PE=4 SV=1) HSP 1 Score: 760.8 bits (1963), Expect = 1.1e-216 Identity = 379/516 (73.45%), Postives = 447/516 (86.63%), Query Frame = 1
BLAST of MELO3C019455 vs. TAIR10
Match: AT1G71220.2 (AT1G71220.2 UDP-glucose:glycoprotein glucosyltransferases;transferases, transferring hexosyl groups;transferases, transferring glycosyl groups) HSP 1 Score: 651.4 bits (1679), Expect = 4.8e-187 Identity = 332/517 (64.22%), Postives = 404/517 (78.14%), Query Frame = 1
BLAST of MELO3C019455 vs. NCBI nr
Match: gi|659112116|ref|XP_008456069.1| (PREDICTED: UDP-glucose:glycoprotein glucosyltransferase isoform X1 [Cucumis melo]) HSP 1 Score: 1023.8 bits (2646), Expect = 1.0e-295 Identity = 515/517 (99.61%), Postives = 517/517 (100.00%), Query Frame = 1
BLAST of MELO3C019455 vs. NCBI nr
Match: gi|659112118|ref|XP_008456070.1| (PREDICTED: UDP-glucose:glycoprotein glucosyltransferase isoform X2 [Cucumis melo]) HSP 1 Score: 1023.8 bits (2646), Expect = 1.0e-295 Identity = 515/517 (99.61%), Postives = 517/517 (100.00%), Query Frame = 1
BLAST of MELO3C019455 vs. NCBI nr
Match: gi|778680257|ref|XP_011651279.1| (PREDICTED: UDP-glucose:glycoprotein glucosyltransferase [Cucumis sativus]) HSP 1 Score: 996.9 bits (2576), Expect = 1.3e-287 Identity = 502/519 (96.72%), Postives = 511/519 (98.46%), Query Frame = 1
BLAST of MELO3C019455 vs. NCBI nr
Match: gi|700202456|gb|KGN57589.1| (hypothetical protein Csa_3G219730 [Cucumis sativus]) HSP 1 Score: 950.7 bits (2456), Expect = 1.1e-273 Identity = 479/496 (96.57%), Postives = 488/496 (98.39%), Query Frame = 1
BLAST of MELO3C019455 vs. NCBI nr
Match: gi|802591954|ref|XP_012071315.1| (PREDICTED: UDP-glucose:glycoprotein glucosyltransferase [Jatropha curcas]) HSP 1 Score: 770.0 bits (1987), Expect = 2.6e-219 Identity = 380/516 (73.64%), Postives = 447/516 (86.63%), 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: None |