MELO3C014720 (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.GGATCATACTCAAGTGCCCGAAGGCTTCCTCTATGATCCACGTCCATTTCTCTTCCTCCTCAACATCTCTGTAGAATCATGGTCATGACCACCATCTGCTCTTTCACACTACCCTTTTCCAAACTCCCTCTGCCCTTCTCCTCCGCCAAGCTAACCACCGGGACAACACCATCTCCACTCACTTCCACCCATCCCTTTTCTCTCAGTCTCAGATCCCCTGCATTTTCTCCGATTAAGCCAAATGCCACCGTCTCATCTTCTCAATTCGGCGACCAAGGTCTGCAGATCTCGTCGGACAGTATCTGCTCCCAACTTCCAATTCGAAGTTGGTAGGTACCCATTTTTCGTTTCTCTTTCATCTAACCAGTCGATGATAAATACTAAAATATTAATTGAATGCCCACTTTTCCTGTCTTGCAGCATTTGGAAGTGGAGGGGTTACTCTATTCGCTACCAATGTTCGGGAGACGATGGCCCTGCATTGATACTCATTCATGGTTTTGGAGCAAACAGGTCTACACCATTCAATTTTTGCTTCTCATACCACTAACTATAGGTATTACCCATGCGAATTGCCGATATTCGAAAACGTTGTTTTATACGTATTCAGTTATTCCTTCCTCATTGCGCATGTTTTAACAGTCCTGGATGAGAGAAACCCAAACGTTCGCCTCAACAAGGAAAATTATTAAACCGTAGATAGACTTGCATAAGGTTCTTTATGAATATGATTCTATTATACTGATTGGAACACTGCTGACTTGCTCCACGTCCATCTGCCTGGCTTTTGCGAGGTGAAAAAGTGAATGATAATTGGGAAGAACTGAGAAATATGCATGTGAATATTTGAGAAACTACTATCGTCACCCTTTTGAGTGGGTTTCACGAAGTAGGCTCACAAGACCTTCTTTAACCACCCTTGGAAATTCTTAGTTTTCCTCGTTCCTTAAGGGTCTTTTTGATGCGCTGAGTTGAATTCTGAAGGAGCTCACATGTTTGAGGTGTGGAGTTTATATATATGTGGAGTTGCTTGGAGTGCAAAGTTATTTTGTCCAATAAGTCTGTGTTTTAGGTGCTGAGTTGAGTTATGAAGTCAGGGGTATTTGGTGTAGTTTTTTTACTTAAATAATTTGCTTTTCTAGTGATTATATTTTTAGGAATATTTTTATTCAATAATTCTCCTTTTTTAATATGGATTGCGTTTTATTTTTTTAGTACACGTATATTGTCGGGAGTTTTGAAAAACAAGGTTAGGGTTTACTTTTGGATCATGCATTTCAACTTTTTTTGTTCACTTAATTTGTTGTTTAACTCTTAATTTGCGCACGAATTTTCCCAAAATTTTAACACTCGACTAAGATGTCAACTTAAAACTTCCTTTTCACTATAGTTTACAATTATTTTATCTGTAACCATTGTATTTGAGATAGACAAGAGCTTCGTACAAACAACAAAGTCACAATATACTTTCACATTAGTGATTAGTGTAATGTATGAGGGTATCCACAGAAAAAAGTGGATCATGAAGGGACTCGGGGCTTTTCTTGACATCTTATGCCAAATTATATGTTAGGTTTTATTATGCATGCATGCTACGATCAAAGTTTGACATTAGCTAGATAAGGGGATGACCATGAGTATGTAAGAGAAAACAATTATCATCAATGATTCAATGGTATAAGCAATTATCATCAATGGTACGAGGCATTTTAGGTGAAACCAAGAGTAAAGCCACGAGGATTCACGTTCTACGTGAAAAATATCATACTATTGTAGAGATATTTGGAGGTTTGTTATCCTTAACAAGTGATATCAGTGGGGCATCATGACATGACTTAGCCATGCAAAATCATCATATATCGAACAAAAAAATGGAAAGCCTTAGAAGATGCAATCGTGGTGGTATTCCTTAGTGGTTGGCACCATAGGTGGTAGTACGTGAAGTTGGACATTGAAGGTGGTCGTTAGAGATGATTTTCAGAGGTGGTCATCAAAGCATTTCATTGGAGTGAGTCGGCAAGTCACTGATAGTGGTTAGTTGGAGTTGGGCGTTAGAGGTAGTTTTCAGTGACCCAAAAGTGGCTGTAGGAGCATGTCGTTGGTAATAATTGAAACCAGAGTTGGTCATTGACGGTGGACGATGGGTGAAGTTATTGGAAACATTCAAGAGAGAGAAAAAAAATTTGGTGAAGATGAATTTTCTTGATAAATGTGCAAACTTCAGTAGTGGACACCGCAAAAGTTAGTGTAGTTGAGTTATTTTACACCAACATCACAAGTTGGTGGGCCAAACATTGAGTTGAGTTTTTATCTCAACTCTTGTTCTTCTCTTAACTTTTCTTCAAGCTATCTCTTCTATCTCTTAGGTGCTGCCTTGGTCCTGTCACCCTTTGGTTAAGATCTTCAACAATATAAAGTTCTTTACCTGACAAATCTTACATGAGAAAATATAGAGTTTAAACCGCCTGCAGATACACCCTTTCTTTTCATTGGAGCATCAATGGTGCTTCTTTTAAAGGCATTGACGCCTTAGATTATATTCTTTACAATTGCCAATTTGCTTAATCAACTTGGTATTGGGTGTTTTTCGAGTCTCTGTGGTGTGGAGCATGGATTGCAAGGCTATGGTGGAGGAGGGTCTTGAATTCCCCTTTAAGGTGAAAGAGAACATCTTTTAGCAAACATGTTTTTTTTTTTTTTTTTTTTTGTCAATTTTTGGGAGATTTGACTGGTGAGGAATTGTAGTTTTTTTTTTTCCTAAAAATGTTTTTAGGAGGTGAGAGGCCTGGATGGGACTTTTTTCCTTCCTTTTTATGAAATGGAATAAAATATATCATTGATATAAAGAAAAAAGATTACTACAAAATACAAAATCACCAAATAGAAGACAAATATAGGAGACGAACATAACTAATGGAGAGTCATTGTAAGTAGTGAGGGAGTTGATCATTTTGAAAAGTCAGCTGATAATGAAAGGAAGAGATAAATTGAACCAGTAGTGGCTGACCTGAATACTTTGTTTTAGTGCGAGGAAGATAAGGTTACTGTTCATTTGTCCTCGGATAAATTATCTCAAGGTCATTCTTATGGTATCCCTATTCATCTGAAGTCACTGGTAGCTGACTGCAATCTGGTTTTGGGTTGATCCTTCCTCCCTATTCCTAATCCAGGTGCTCATTTTTCAAGAGTTTGAAGCTGTGTTTTTCCGATTGAGTTTGATATAGAATTTGCAAGATATCTGCTGCTTTCAACATTCCTTCCTTCTTTGCCCTGTCATACCCTCTTGAAAGAAGCACAAGAAACTTAGAGAGAGAGTCCCATAAGAAACAATTTAAACTAAGAAAAATTAGGCCAAACTTAAAGAAGCATCAAACCAAAAACCGACAAGAATGCACCTCAAAAGATAAAAAACTTCTGAAACGAGAGAGAAATGAGACTTCGGAGCAAATGGGACTTTACAAATCTCTAACACCATGAACAATCTATAAAAAGTCATATAGCTCTAAATGAACAAGGCGAACACCTTAAACTTTAACATATGGAGAACTAGAAGGAATTGTCCACAGCTGAAGATCGGGCAAACCTTAACCAAAGAAGTTAATTTGTCTGGAATCAAAGAAAACATGGAGAAGCTGCAAAAAAAAGACTTTGAATTAAGTGAACCAATGTCTTCTCTTGCAAAAATATGCTTATAGGCTTCTGCAAATATATCCTTTCATAGCAACTCTTGTTGCACTTGTTCTTCCATAGAAGGATCTACTTCTTTACTGCTCACACTTTTGGAGTTATGAGAGTTTATTAGGGTGACTTAGTATGAACTTTGGTGACAAACACATTTTGTAATTATCAACTAGGCTTTATTCTATCGAATTGGAGTCTGTTTTTGTACTTTGTTGGATTCCTTTTGTTGGCTAATGTCATTGTAAATGTTTTCATTTTTCATATAAAGAAAAAACTTGGCGTGTTTAGCTTGTTAGGAAAATTGATGCTGTGCTTAGGGACTCAATGTCATCTGTTGGGCATTAGTCACTGGTTTTATGTTTGCACAGTCGGATAGTGTTGATGTGAGGTAGGTTAGGTTGGACTGGTTTCAATCTTTAGCTGCGAACAAGTTATTGAATCTTGATCCACATTGGAAGTTCCACATTTTCTGAATACTACTATGCAATCAAGGGCTTTAAACAAGGACCCTTTAGAATTTGACCATAATGCTCTGTTTCAAACGTAGGAGGATTTAGCAAACCTCTTTATTTCCCTCACAAGCTCAGCACTGTGAAATTCCATATCACTTGAAGTCAATTGTTACGCAACTGATGGAGATGACTCTCTCCTCTCTCCTCCCTTCCTTCCTTTTGGAACCACACTCTGACCCCCTTTTTTCTCCTCCGACGTTTCTCATCCTTCTTCTCCGGTAAGTTCCCTAGAACCTGTTTCTTCTTGTCCATCCCTGTTCCAGTGGCAGACTGGTTTTGGTAGTTTTGGTGAAAATGAAAGTAGAAAGATGCAAAGTAGTGAACTCCCTTTATGGTATTTAGTTCGACAAAGAATACTTTCATATAGAAAACGTGGAAGCTTGGAAGATCTTGTCATTATCAGACACTCAATTCAGATGGTTCTTGAAGGAGATTTCTGTATTCTTGCGTGGCCCTGAGAATGGTTTTCTTCTTCGAAACGATTTTGATGGTTTTGGAAGTACAAGGCTCTTAAAATTTAGGTCAAACGTAGGTCGGGTTATGAGGTGTGTAGCTTGGAAGAGGAACAAAAATCTATCCTTCATCCATATTTGTTATGGTGTCTCTCGACAAGATTGGAAATCCTTTCACAAAATGTTGGAAAGATTCTCGATGAAGCACGATTATTCGATTTGGTACAGAAAAGAGCTCTATCCTTGTAGCCTCCTTTCAAGTCACTAATAGCAAGTTATGCTGAAAAGATGATGTTTAATGGATCCTCTGTTTAAGAATTGATAAAATAGAGCAATTCTTCCCCTATTATGACATCAGAATTTCAGAGTACAACTCAGCATTGAGTCACTAAAAAATACGGAAGTTTTAAAAGAAGACATCGATGATCTATGGGTTATTTCAAGATTATTTGTGTTTCATGATTGGAAGGAAATTAGAAAAACCTTGGAGGATCTTTTTCAGTAAAAAATAATCATTAATCCATTGGCTGCAGAGAATGCTTTAATTAAATTGGTTGAAGGATCTCTAGAAGATTTCGTTGGAAAAGAAGAGTTATGGTGAGTAATGGGTCCTTTTCATTTAAAGTTTGAGAAATGGAGCAAAAGAAAACATAGTAGACCATCTATTCTTGAAGGCTATGGAGGATGGATTAAAATAGAAAACCTCCCTCTTGATTATTGGAGCAATCAGACGTTCAAAGTTATACGAGATCATATTGGAGGTCTGGAAAATATTGCTTCTGAAACGCTTAACCTTCTAAATGTTTCCGAAGCAAAGATTCAAGTAAAAAGAAACCAATGTGGTTTTATACTAGCTACATTAGAAATAATAGATTTCAACCAAGGGCATTTTTTCTTACACTTTGGTGATTCTGAACATATTAAGCCTCCTCCGTTAACCAAGGGTCATTTATCATTTGAGGATTTTTCAAACCCATTTGACTTGCAGTAGCTTTAAAAGATGGAATTGTTGATGATTAATTCTTCCCAAAGAGGGTAGAATATCTAAGATCAATCCTAAAATTTCCTTTGTATACAATGAATCCTTTTGAAGCTTTGAAATAGGGAGCTCGCCAGAATTTAGCCTTGTCGGCACCGACGCCGATTACCTCCCCTGAAGTGATGATGTTTTTAAATTTGGACTCCAAGGAAAGCAGTGTGAACATGGTTTTGAAAGGAACAAGAAAGAGGAAGTTGAAGAGACACTTTTAATGAAGAAAGAGAAAATTCCGGTATGTCTTCTTTTACAGCTGGAAAGTCCCATCAACTAAACAACCCTCTTTTTGGTGATCCTCTTTCCTCCAATCCTACGAGCGAAAAGTTAAATTCTGAAATTATTTCAGCTGCTATTTTCCAAAAGAAAGACATTGTGGTTCCCATCTCAGTGGTTGCTACTCCTTTCAAGCCTTCATCTTCGGTTCCCATCTCCTCTTCTTCTCTTTATTCCTCAACAAAGTCAAGCTCTAGAGGAAATTTGAAAAGAAAGAATTATGCTAAGATCTTTCCACATTACCTCAAGCCATTTTCAAAGTATTTTATCCGGAAGAAAAAATCAAAGAAGATTATGGCAAGACATTCCTTAAAAGCCTAGATTTAGATGATCAAGTACCCGTCTTGCTTGAGGAAAATAGTGCCCATTCTCTTTCATCATCTTATTCCATCAGCTCTAAGCTGTTTGTAGAGGTTAATCCTGATTTAGTGGAAGTTAGTTGCACCCAGATTCAAGCCCCAACCCGTTCTTCTAAGTCAATTTCTCATCATCTTCACTCTACCCAGTTTAAGTACTCTGAGTTCTCTTTGCCTAACTCCAAGATAAAATTTTTGAAGGGCTCTCCAAGCAAAACTCCTCTCAATCAATCCAACTAGAAGGGTGAGCCTTTTTTCGACTCCCCTTTCAGCGTTAGTAGTAAGGAATTGAAGCATTTGGATAGGTCAATCGAACTTAAAAGTCAGAAATATTTTGAGCCTCTAGAAACATATCTCCATGAGCTGTTTCATTGTGAGGAAGAGCCTAAATATACAAATTTTCCTTCTGCTACTCGTTCTTGTCCTCGATCTTGCAAAATACCAGATCATTTAAAATCAATAGTTTTTTATTGTGAAATTATTCTATTTGATTCTTCAGCAGTTTAATGTATTTCTCCTCAATGTTAGACCGATTTAGTCTTTCTTGGATTTTCCTTCATATGGGTGGCAAGTAAATCCTTGACGCAAATGCTGAAATAGTGGAAGACTTTTTCGGGCTTCCTCTGGATTCTGGATTAATTTGGCTAGCCAATTTCGAGGCAGCCGGTTGCATCTTGCAAGTTTTTAGTTTCAAATTAGTTCTTTATGGGAGGATTTTGCATTATGATTTGTAGGTATATTTCTTCGGATATGGTTTTGTTCAACTTGATCTCTTCTATTTGAAATTTGTTTTTTAGCTTTTGTTGTAGTTGTAGACTAAATTTTCTCTCTTCTCTTGCTCTTAGTATAATACTCATGTATTCTTGTTCTTTGAGTTCTTATTAATAAAGAAGTTCTGTCTCCATTTCAAAAAAATAGTATAATACTCTTGTACTTTGAGCTTAAGACTCTTTTATTAATAATAATTTAAGAGGCTTGTCTCCGTTTCAAAGAAAACTTGAAGTCAACTGTTAAGAAATGTGGAATAGTTTTGGGTTGAGTTCCGAAAATAGACTGGATTTTGTTTTTCAGCCCTTCAAATTTTGAAGTCTGTTTTAGTGGAGCATGAGAGTGGAAAGTTCCGGAAAAGTGAACCCAGCAAAGTCTTGTGGTTTTATAGCTTTCTTGTGGGTTGAAAGTTTTCAGCAAAGACGAGGTCACAGGATTGTTTTTGTCTAACCAGTCTGAAGCAGCGTGGTTGTTTGCTTTCTCTTGGTGTTTCCTCCCCATCAATTTTGAAGCTTCCAATGTGCAATTTTCCAGTTAGGCTTCTTGTTGGAATTTTTTTTTTAGTCTACTTTGTCATTAATTTTCTCTTGAATTCTTGTGTTTTAGAAGCTTTTGATCAGCTGGTTTGTATTTTCGTTTATGTTCGTTCTTTTTGCTCTTAGTTTAATTCTCTTGTACCTTGAGCATTAGTCTTTTTTAATTTTATCTTTAATACATAGGTTCGTCTTTGTTTAAAAAAACATGGGAAGGTTAGTGCTTGATGATTTGTCTTCCTGTTCAGTGACCATTGGAGGAAAAATATACCTGTCCTTGCGCAATCACATAGAGTTTATGCCATTGATCTTATTGGTTATGGATACTCGGACAAGCCAAATCCAGAACTAGTTGGAGAAGGCTTTTATACGTTCGAGACATGGGCTTCCCAACTGAATGATTTTTGTGTTGACGTGGTTCAGGATGATGCATTTTTTATTTGCAATTCTATAGGAGGTGAAGATCTCCCTTTTGAAGTAAAATCATTCCTTTATCTTTGACACACATCACTATTTTGTTATGGTCTTAGTGTACATCTCATAAAATCAAGTTTAGGCTTTATAGATTATGTATATTCATGTAAATGTTATTCATCTAGCCAGTTTTTCGTGCATCATTAATTGCTCTACAACAAATTTGTTTTCATCCAGGCTAATGGTAACTTTAAGTGGATAGATTCTTCAATACTAAAACGGTTCCCTGTTTCACGTCTATATTCAATTGCCAAGACATGATTTTTTATTGAAAAGGAAACAAGCTTTTTCATTGATGAATGAATTCCAATACATGATAAAAGCAATCTCATGTCCACACAGGACAATCTCTGATGAATGAATTCCAATATATGATAAAAGCACTCTCATGTCCACACAGGACAACATTCATTAAAAAGAACTTATGTAATTAATCACAACTAGTGTAAAAAACTCTGAGCAATATTTGTGTACGTAATCCTTTTCTTCATCCAATATCCTTCTCTTTCTTTCTTACTGTGTGAGGGATATTTTTGTTCTATTACTTCATCAGTTACCAGCATCTATCTTAAAATTGTTGGATGTATGTTCTTGTAGGAGTAGTTGGTCTGCAGGCAGCAATTATGAAACCGCAGATCTGTAACGGCATTGTTCTTCTAAACATATCTTTACGTATGCTTCATATTAAGAAGCAGCCTTGGTATGGGAAGCCATTTATCAGATCCTTTCAGAATTTGCTGAGGTAAAGAACATCTCATAGATCATTTATTGAATTTAGTCTGAAGTTGTCATCCAAGGTCTCGACTGTTGCAGAAATACTGCTCTAGGAAAATATTTTTTTAGAGCTGTTGCAACCCCGGAGTCCGTGAAGAATATTCTATGCCAGGTATTCATTTTTTATTTGGTTGACAGAGACCGTGTTTGTCATATTTTCTTTTTATTTAAGGGATGTAAAATAATAAAAATAAAAAAATTACAATGGATTTTTGGAGGTTTAATAAATTCATTTGAAAAATTAACAAAGTAAAGTTATTAATTGCCTTGGCTCGTAGAATTTTTTTTGGAGTTGACATATGGTAGACCCTTGTTAGCATTTGATTCAACCTTGTTAGAATTTCGTTTGATGAGGGTTCTCTACATTTAAATAGGGCTTTGCTTTTTTAAGTTTTTCTTGACAATAAGCCGAGTGTCTGATGATGCATTATCTTGTGGTTCAAATATATTAACTGCCTTTTTCTTTTCACATTTCCTGCAGTGTTACCATGACACCTCCCAAGTTACAGATGAACTAGTGCAAATTATCCTGAACCCCGGATTACAGCCGGGTGCTGCTGATATCTTTCTGGAGTTTATTTGTTACTCAGGCGGGCCCCTTCCTGAAGAACTTTTGCCTAGGGTCAAGGTTGCCTTCCTCTAATGTTGGTATTCTTTGGACTACCATTTTCTGTGACCTATGTTGCTTTTCTCATATTTCTTGTCTTCAGTGTCCTGTATTGATAGCATGGGGTGACAAAGATCCATGGGAGCCAATCGAGCTTGGAAGAAATTATGGAAGTTTCGAATCTGTGGAAGAGTTTGTTGTCCTTCCCAATGTTGGGCACTGCCCTCAGGTCAGAAAAAAACCTGTTATATGGCCAAGTCAGTTTGATTTGATTACTGATCAATTAGTTTCTCGAAAAATTTGCTGACTTTTGTTTGGTGGCATTAATGAAGGATGAGGCACCTCATCTTGTGAACCCGCTGGTCGAGTCATTTGTGTCGGGCCATGCTACAAGAAATGCACACAAATAATCTTTTAGGACCCAGGATTGCAATTATAGGCTTCGGAAGTAGTTTCTTTATAATCATCTTGTAATTCCTACTGGACGCCATCTACGATTTAGGCCTCCTCAAAAGTGCAACTTGCCACGCATAGGATTGCTGCGGCCTGGATCTCGGATGTGAAGTCATTCTATCTAACCTACACCATTGCAAGAATCTTGCTTAATGCTTCTTCCTCCCCCACCCCACAAACAACAACGTCATGTACCTTCTAAAGTTTATGTAACAACGTTTTCCGTTGAATCAATTATATAGCAATCTCGTTGACCCAACGTAAGGTTACACAGTTCAATATCTCACATCACATTGAAGTACTGGAGTATGCTCATCCTTCAGGAATGGGTCACCTTTCATATGAGAATCTGCTTCAACTCACTACTGAGCTCTATCTTCCCATAATTTCTAGTACATTTTCCCCCTTAAACACATGGCTTTCTGTCACATTTCCCATTTGATTTTCCATTATGCTTTGCTGTTTTCTTTCTTTTCATTGTTGAGTAATACTCTCCTATATATATACAATTAAAATTATCAA GGATCATACTCAAGTGCCCGAAGGCTTCCTCTATGATCCACGTCCATTTCTCTTCCTCCTCAACATCTCTGTAGAATCATGGTCATGACCACCATCTGCTCTTTCACACTACCCTTTTCCAAACTCCCTCTGCCCTTCTCCTCCGCCAAGCTAACCACCGGGACAACACCATCTCCACTCACTTCCACCCATCCCTTTTCTCTCAGTCTCAGATCCCCTGCATTTTCTCCGATTAAGCCAAATGCCACCGTCTCATCTTCTCAATTCGGCGACCAAGGTCTGCAGATCTCGTCGGACAGTATCTGCTCCCAACTTCCAATTCGAAGTTGCATTTGGAAGTGGAGGGGTTACTCTATTCGCTACCAATGTTCGGGAGACGATGGCCCTGCATTGATACTCATTCATGGTTTTGGAGCAAACAGTGACCATTGGAGGAAAAATATACCTGTCCTTGCGCAATCACATAGAGTTTATGCCATTGATCTTATTGGTTATGGATACTCGGACAAGCCAAATCCAGAACTAGTTGGAGAAGGCTTTTATACGTTCGAGACATGGGCTTCCCAACTGAATGATTTTTGTGTTGACGTGGTTCAGGATGATGCATTTTTTATTTGCAATTCTATAGGAGGAGTAGTTGGTCTGCAGGCAGCAATTATGAAACCGCAGATCTGTAACGGCATTGTTCTTCTAAACATATCTTTACGTATGCTTCATATTAAGAAGCAGCCTTGGTATGGGAAGCCATTTATCAGATCCTTTCAGAATTTGCTGAGAAATACTGCTCTAGGAAAATATTTTTTTAGAGCTGTTGCAACCCCGGAGTCCGTGAAGAATATTCTATGCCAGTGTTACCATGACACCTCCCAAGTTACAGATGAACTAGTGCAAATTATCCTGAACCCCGGATTACAGCCGGGTGCTGCTGATATCTTTCTGGAGTTTATTTGTTACTCAGGCGGGCCCCTTCCTGAAGAACTTTTGCCTAGGGTCAAGTGTCCTGTATTGATAGCATGGGGTGACAAAGATCCATGGGAGCCAATCGAGCTTGGAAGAAATTATGGAAGTTTCGAATCTGTGGAAGAGTTTGTTGTCCTTCCCAATGTTGGGCACTGCCCTCAGGATGAGGCACCTCATCTTGTGAACCCGCTGGTCGAGTCATTTGTGTCGGGCCATGCTACAAGAAATGCACACAAATAATCTTTTAGGACCCAGGATTGCAATTATAGGCTTCGGAAGTAGTTTCTTTATAATCATCTTGTAATTCCTACTGGACGCCATCTACGATTTAGGCCTCCTCAAAAGTGCAACTTGCCACGCATAGGATTGCTGCGGCCTGGATCTCGGATGTGAAGTCATTCTATCTAACCTACACCATTGCAAGAATCTTGCTTAATGCTTCTTCCTCCCCCACCCCACAAACAACAACGTCATGTACCTTCTAAAGTTTATGTAACAACGTTTTCCGTTGAATCAATTATATAGCAATCTCGTTGACCCAACGTAAGGTTACACAGTTCAATATCTCACATCACATTGAAGTACTGGAGTATGCTCATCCTTCAGGAATGGGTCACCTTTCATATGAGAATCTGCTTCAACTCACTACTGAGCTCTATCTTCCCATAATTTCTAGTACATTTTCCCCCTTAAACACATGGCTTTCTGTCACATTTCCCATTTGATTTTCCATTATGCTTTGCTGTTTTCTTTCTTTTCATTGTTGAGTAATACTCTCCTATATATATACAATTAAAATTATCAA ATGGTCATGACCACCATCTGCTCTTTCACACTACCCTTTTCCAAACTCCCTCTGCCCTTCTCCTCCGCCAAGCTAACCACCGGGACAACACCATCTCCACTCACTTCCACCCATCCCTTTTCTCTCAGTCTCAGATCCCCTGCATTTTCTCCGATTAAGCCAAATGCCACCGTCTCATCTTCTCAATTCGGCGACCAAGGTCTGCAGATCTCGTCGGACAGTATCTGCTCCCAACTTCCAATTCGAAGTTGCATTTGGAAGTGGAGGGGTTACTCTATTCGCTACCAATGTTCGGGAGACGATGGCCCTGCATTGATACTCATTCATGGTTTTGGAGCAAACAGTGACCATTGGAGGAAAAATATACCTGTCCTTGCGCAATCACATAGAGTTTATGCCATTGATCTTATTGGTTATGGATACTCGGACAAGCCAAATCCAGAACTAGTTGGAGAAGGCTTTTATACGTTCGAGACATGGGCTTCCCAACTGAATGATTTTTGTGTTGACGTGGTTCAGGATGATGCATTTTTTATTTGCAATTCTATAGGAGGAGTAGTTGGTCTGCAGGCAGCAATTATGAAACCGCAGATCTGTAACGGCATTGTTCTTCTAAACATATCTTTACGTATGCTTCATATTAAGAAGCAGCCTTGGTATGGGAAGCCATTTATCAGATCCTTTCAGAATTTGCTGAGAAATACTGCTCTAGGAAAATATTTTTTTAGAGCTGTTGCAACCCCGGAGTCCGTGAAGAATATTCTATGCCAGTGTTACCATGACACCTCCCAAGTTACAGATGAACTAGTGCAAATTATCCTGAACCCCGGATTACAGCCGGGTGCTGCTGATATCTTTCTGGAGTTTATTTGTTACTCAGGCGGGCCCCTTCCTGAAGAACTTTTGCCTAGGGTCAAGTGTCCTGTATTGATAGCATGGGGTGACAAAGATCCATGGGAGCCAATCGAGCTTGGAAGAAATTATGGAAGTTTCGAATCTGTGGAAGAGTTTGTTGTCCTTCCCAATGTTGGGCACTGCCCTCAGGATGAGGCACCTCATCTTGTGAACCCGCTGGTCGAGTCATTTGTGTCGGGCCATGCTACAAGAAATGCACACAAATAA MVMTTICSFTLPFSKLPLPFSSAKLTTGTTPSPLTSTHPFSLSLRSPAFSPIKPNATVSSSQFGDQGLQISSDSICSQLPIRSCIWKWRGYSIRYQCSGDDGPALILIHGFGANSDHWRKNIPVLAQSHRVYAIDLIGYGYSDKPNPELVGEGFYTFETWASQLNDFCVDVVQDDAFFICNSIGGVVGLQAAIMKPQICNGIVLLNISLRMLHIKKQPWYGKPFIRSFQNLLRNTALGKYFFRAVATPESVKNILCQCYHDTSQVTDELVQIILNPGLQPGAADIFLEFICYSGGPLPEELLPRVKCPVLIAWGDKDPWEPIELGRNYGSFESVEEFVVLPNVGHCPQDEAPHLVNPLVESFVSGHATRNAHK*
BLAST of MELO3C014720 vs. Swiss-Prot
Match: PPH_ARATH (Pheophytinase, chloroplastic OS=Arabidopsis thaliana GN=PPH PE=1 SV=1) HSP 1 Score: 111.7 bits (278), Expect = 1.8e-23 Identity = 87/345 (25.22%), Postives = 139/345 (40.29%), Query Frame = 1
BLAST of MELO3C014720 vs. Swiss-Prot
Match: YUGF_BACSU (Uncharacterized hydrolase YugF OS=Bacillus subtilis (strain 168) GN=yugF PE=3 SV=1) HSP 1 Score: 87.8 bits (216), Expect = 2.7e-16 Identity = 68/277 (24.55%), Postives = 122/277 (44.04%), Query Frame = 1
BLAST of MELO3C014720 vs. Swiss-Prot
Match: ACOC_PSEPU (Dihydrolipoyllysine-residue acetyltransferase component of acetoin cleaving system OS=Pseudomonas putida GN=acoC PE=3 SV=1) HSP 1 Score: 71.6 bits (174), Expect = 2.0e-11 Identity = 74/277 (26.71%), Postives = 115/277 (41.52%), Query Frame = 1
BLAST of MELO3C014720 vs. Swiss-Prot
Match: EPHX4_HUMAN (Epoxide hydrolase 4 OS=Homo sapiens GN=EPHX4 PE=2 SV=2) HSP 1 Score: 68.2 bits (165), Expect = 2.2e-10 Identity = 62/289 (21.45%), Postives = 119/289 (41.18%), Query Frame = 1
BLAST of MELO3C014720 vs. Swiss-Prot
Match: EPHX4_MOUSE (Epoxide hydrolase 4 OS=Mus musculus GN=Ephx4 PE=2 SV=2) HSP 1 Score: 67.4 bits (163), Expect = 3.8e-10 Identity = 69/303 (22.77%), Postives = 120/303 (39.60%), Query Frame = 1
BLAST of MELO3C014720 vs. TrEMBL
Match: A0A0A0KX02_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_4G269110 PE=4 SV=1) HSP 1 Score: 753.8 bits (1945), Expect = 9.8e-215 Identity = 360/370 (97.30%), Postives = 365/370 (98.65%), Query Frame = 1
BLAST of MELO3C014720 vs. TrEMBL
Match: D7SLJ6_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_06s0004g00580 PE=4 SV=1) HSP 1 Score: 549.3 bits (1414), Expect = 3.7e-153 Identity = 266/376 (70.74%), Postives = 308/376 (81.91%), Query Frame = 1
BLAST of MELO3C014720 vs. TrEMBL
Match: A0A0D2U6B1_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_013G244300 PE=4 SV=1) HSP 1 Score: 533.1 bits (1372), Expect = 2.7e-148 Identity = 259/373 (69.44%), Postives = 296/373 (79.36%), Query Frame = 1
BLAST of MELO3C014720 vs. TrEMBL
Match: A0A061GSB2_THECC (Alpha/beta-Hydrolases superfamily protein isoform 2 OS=Theobroma cacao GN=TCM_040028 PE=4 SV=1) HSP 1 Score: 530.8 bits (1366), Expect = 1.3e-147 Identity = 258/366 (70.49%), Postives = 293/366 (80.05%), Query Frame = 1
BLAST of MELO3C014720 vs. TrEMBL
Match: M5WIC0_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa007170mg PE=4 SV=1) HSP 1 Score: 525.8 bits (1353), Expect = 4.3e-146 Identity = 254/369 (68.83%), Postives = 297/369 (80.49%), Query Frame = 1
BLAST of MELO3C014720 vs. TAIR10
Match: AT5G19850.1 (AT5G19850.1 alpha/beta-Hydrolases superfamily protein) HSP 1 Score: 494.6 bits (1272), Expect = 5.4e-140 Identity = 218/298 (73.15%), Postives = 263/298 (88.26%), Query Frame = 1
BLAST of MELO3C014720 vs. TAIR10
Match: AT4G36530.2 (AT4G36530.2 alpha/beta-Hydrolases superfamily protein) HSP 1 Score: 169.9 bits (429), Expect = 3.1e-42 Identity = 97/289 (33.56%), Postives = 145/289 (50.17%), Query Frame = 1
BLAST of MELO3C014720 vs. TAIR10
Match: AT5G38520.2 (AT5G38520.2 alpha/beta-Hydrolases superfamily protein) HSP 1 Score: 169.1 bits (427), Expect = 5.2e-42 Identity = 122/364 (33.52%), Postives = 181/364 (49.73%), Query Frame = 1
BLAST of MELO3C014720 vs. TAIR10
Match: AT4G25290.1 (AT4G25290.1 DNA photolyases;DNA photolyases) HSP 1 Score: 114.0 bits (284), Expect = 2.0e-25 Identity = 89/283 (31.45%), Postives = 135/283 (47.70%), Query Frame = 1
BLAST of MELO3C014720 vs. TAIR10
Match: AT5G13800.2 (AT5G13800.2 pheophytinase) HSP 1 Score: 111.7 bits (278), Expect = 9.9e-25 Identity = 87/345 (25.22%), Postives = 139/345 (40.29%), Query Frame = 1
BLAST of MELO3C014720 vs. NCBI nr
Match: gi|659097915|ref|XP_008449879.1| (PREDICTED: pheophytinase, chloroplastic isoform X1 [Cucumis melo]) HSP 1 Score: 777.7 bits (2007), Expect = 9.1e-222 Identity = 373/373 (100.00%), Postives = 373/373 (100.00%), Query Frame = 1
BLAST of MELO3C014720 vs. NCBI nr
Match: gi|449463857|ref|XP_004149647.1| (PREDICTED: pheophytinase, chloroplastic isoform X1 [Cucumis sativus]) HSP 1 Score: 757.3 bits (1954), Expect = 1.3e-215 Identity = 362/372 (97.31%), Postives = 367/372 (98.66%), Query Frame = 1
BLAST of MELO3C014720 vs. NCBI nr
Match: gi|700198870|gb|KGN54028.1| (hypothetical protein Csa_4G269110 [Cucumis sativus]) HSP 1 Score: 753.8 bits (1945), Expect = 1.4e-214 Identity = 360/370 (97.30%), Postives = 365/370 (98.65%), Query Frame = 1
BLAST of MELO3C014720 vs. NCBI nr
Match: gi|659097919|ref|XP_008449881.1| (PREDICTED: pheophytinase, chloroplastic isoform X3 [Cucumis melo]) HSP 1 Score: 633.6 bits (1633), Expect = 2.1e-178 Identity = 307/310 (99.03%), Postives = 307/310 (99.03%), Query Frame = 1
BLAST of MELO3C014720 vs. NCBI nr
Match: gi|778692789|ref|XP_011653523.1| (PREDICTED: pheophytinase, chloroplastic isoform X3 [Cucumis sativus]) HSP 1 Score: 620.5 bits (1599), Expect = 1.9e-174 Identity = 300/310 (96.77%), Postives = 303/310 (97.74%), 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:
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