MELO3C024667 (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.GTTCAAAATATCGCACGATCTTTCTTGCTGTCTGTATTGGACAGCGGACCCTTTTTCCTCGAAAGTCAGCTCCCTTCAAAGTCCCCCTCCGATCCATCAGCAACCCCATATCGGACGGCGGCGGCGGCGGCCGACCATGCTTATACACCCAACCTCCTCCTCTTCCACTTTCTTCCCGTTTTCTTTCCCCTTTCTTTATTTCAACAACGCCCACTAGACCCTCTTCTTTCGGTTCCATTCACAGTATCACACCCCCCAAATGGACCCTTCTCTTCTCGACGATATTATCAATCGTCTTCTCGAGGTTCGTGGCCGTGTCGGCAAGCAGGTTCAGTTGTCCGAGTCTGAGATCCGACAACTCTGTCAAGTTTCTAGAGAGATTTTCTTGCAGCAGCCTAATTTGTTGGAGCTTGAAGCACCTATCAAGATTTGTGGTATCTTTTTCCTACAATACTACTTGCTTTCCCTTGAGATTTACTATTTCGTTTTCTTTGTTAATATTGTAATAGACAAGTTTGAAGGTTTTGATTTGTTGCTATTGCGAGAGGGTTTGGAGCTTTCTTAATCGTACTTGTTGAATTCTTTTGGTTAATTGGTCTTCTGGTTGACATATTTGAAGTACTTGATTTGCGGGGTTTTATCTCTTTTCTTTGCTCTGTTGTTATATAGCAGTACTTTGTCAACTTCTTTTAGTTTTAACATCTTTTGACGACTACCATTTGATTAATTGGCACCTAGTTGATGAACCTGCAAAGCTTTTATTTATATATGATTTCGGCGAGACGCAAGTACTTAAGCTAAGCTTACTGTACAATGGTGTGACATGGTTGTATTATTGTATATTGTTAAACTGCTTTGCCCCATTCAGGCTTTCCATTGGTTAAGTGGTCCATAGTTGATGAACCTGAGGAGGTCTTTATGTGGACAGAAAATGCAAACGCAGATACATGTATGCGTAGATTATTGCAATATTCATACATTATGTTTTGCATGGAAGCTTTTATTCATGTTTTTCTTTTATTCATTTTTCATTAACTAGTTTGCCAAACGCTTATTTAAGTACTTTAAGCCCTGTGTTAAAGTGTGTTGAATAACAAATCACTTAGACGTTTGGTTTTGTACTATTATAAGAGTTTTTGAATTATTTTTTAGCTATGCACTTGGGCCAAACACATTTTAGAAATACTCCCTTACAAGTACTTTACGTGATGTGGTGAGTAGGTCCATCAAGATTTATGGTATGTATAAACCATGCCTTTTATTTTCTCCCTCCCTCCCTACTTTATGGATTTTTTTTTTAAAATTTTGGTAGAATGAATGATTTTCATTGAAAAAGGGAAAAATCATAAAGGACCATACTGTTGGATCAAATAGAGCCTTAAGAATAACGAAAGGTTGAAAAAACTAAAAAAAACAAAAATGGGCTTCAATTCGAAAGGCTGAGAGATAAAATGGCAATTGACTAATTAAAGGCATTAGTGAAGACTGAAGGAAGCCTAAAAGGAGGCATTGAACCTAATCAGAGCCCAAACCTTCTCCCAAGAACATTTTTTAAGACTCCTATTTCTCTCGAGCCAAACTCCATGAAAAAGCAAATAATGTTTTCCAGAAGAGCCTAAACCCTAAAACAATGAACAAACTAGGAGAACAAGGCTGGCAAGGAAAGTGCAATAAACTAGGAGAACAAACTCGATTAGCTTGTGCCATAAAAGGAAAGTGCAATAACCATTTAGCCAACAAGGCTGCTATACGCACTCTCATATGGAATATGACCCCTCACGAGAAATCATTCTCAGTTTTGGACCAGTATGACTTTTTGGAATTTAAGGAGTGAAGGAGCTTTAATTCAATCTCAATTAATCTCTTCATTACTTGTTTGTTCTCTTTTACTTTTTGGAACTTCATCTTCAAGTCCTTTTGTTGGTCGATTGCTCTACCCAACTACATTCTTTCTCTCTTGCATATGATTATTCTTGGTCATCCTTTCAAGAATGTGGCACAATGTCAATTAGGCTTTTCTTTGGTCATTTGGCTTGACAGGACTTAACTTATCTTTTCTATTGCCACTAAGGACCATGAATCTTTTATCTCTTTGGTTATGTATACAACTCTTGCTCGGTGTAAATTGCTTCCTCCTTTCTGTAATTATATTTTAACTCAACTTATAGCTTGTTAGTTATATATAATTGAATTCACCCTTATCTACTAGCTTAAGCTTTTGGGATTGATCAGTGATTTAAGATGGTATCTGAGTAGGTGATCTAGGGAGGTCTTGTGCTCCTGCAATGTTATATTTCCTTCCTAATTAATATTCATTTCCACTTGTTGGACCTTTCACATATTTCAAGCCCACAAGTGAAGTGGAGTGTTAGTGATGTGTAATTAAATTTACCCTTATTCACTAGTTTAAGCTTTTGGGTCATTTGGTGATTTAAGATAGCCCATTTTAAAAGATTTTTGTAATATTTTGAGTAGGTTTCCTATTTATATTAATAAAATTAATTTATTTGATATCAATATATATATTTGGGATCATTGTGAAGGCTCCTCCAACTGCTAGAAAAGTTCATAATGTTAGTGATATGTAATTAAATTTGCCTTTAACCACCAACTTAAACTTTTGGGTGAATTGGTGGTTTAATATGGTATCAGAGCAGGAGGTCCTGTATTCAAATCCTTGCATTGTCATTTCCTCCCCAATTAGAATTGATTTTCACTTGATGGACCTTTCAATTATTTCAAACTCACAAGTGAGGGGGAGTGTTAGTGATATATAATTAAATTTGCCTTCAACCACTAGCTTAAACTTTTGGGTCAATTGGTGGTTTAATACATGACATGTTATTTTTCTTTTTCTTGCTAGCTAATATACAGTGGACGAATTTGGTTTTGTCATCCCTTCCTAGAAGCCCTTTGTTCCTACATTTTTGTCACCAAGAATCTTCTTTTGCACTGAGTGGATATGAGTTGTTCCTTAATGTTGAGTCAGGTGGTTTTTTTAGAAAAACAATTAAAAATGGGCGACGTCACTTCCTCATGAGAGCTAATGTTGTGAGGATCACTGTGTAGCTAGATCTCAGAGGAGGTTAAACACCAAAAGTATACTTGTTCCACAATTTTAGCTCTTGTTTAATTTTCCTTAGTTTCATCACTAACCCTTGAGTCCTAGCCAGATCCTGAATTGGCAGTTTGGCACTCCCTTAAATCGGCTAACTTGTCCACTTGATCATTAGTGAACCTAAGGGTAGAATTTTTTACTATTGGAGTTTTAACAAGAAGATCCTTTCTTATCACTGTAGTTGTGGATGTTCTTAGCTGTGTAACGTCAATTGTGAATTAAGGGTTTAATGGAGGGTTTCATGTGGGTTGTTTATGATTTAGAAATGATACAATCATCTGTTTTGTTTGGTTAAGGATGGTTTATTTACTAGTCTTTACTCCATTCTGGCAGTGCTTGAGATCATTTAAGGGCTTAAGATTGATAAGGACTTGACAAGATGTAAGGTCTCCCTTACAATATTCTTGAATGAAGAAAGGCCTAAGGCGGTACACTCCTCTCTCTTTGTGAGAGTTCTCTTCCAAAAGCTGAAAATGAAATTCATCATCTACCCTAATATAATACCTTCCCTACAAAAGATGCTCTCCTCGCTCACAATGGTCCCCACAGCCCAACTTTCTTCCAATATCCCTTACTCCCCCCTCAATTCCCGCTTTACCGGCTCTTGCACTCATGGATGATTGGTGGTCTAACACAAGATTTCTCTATGTAACATAAGTTGTATGTCCTGAAGCTTGAGAATCAGAGAAAGGTAAGGTTGGTGCCATTTCTTATATCTATCTGGATCTTCCTTCGGGCAGTATAAGTTGTTGGTTTGGAGTATTTGGTTCTAGAGGAATAGGAGAAGTTTGAGGGTTTTGAAAAATCTCGAGAGTACTTGTGGTTAATTGCTAGATTTAGCTTCTACTTTGGCATTTGTTTTTGGAGACATTTTGTAATTATTCTTTAGGCTTGGTCCTTTGGAATTGGAGCCTTTTCTGTACACTTTCTCTTGCTTTTCAATGTTCTGGTGATGATATGTTCCTGTTTATAGGTGGATTGTCTGGTAAGGGAAGTCCCTTTGGCTTTTTCTCTGCTGTCTTTACCATTTAGCGCTCTTCAAATTTATTTATGTGGATTTTGTCCTCTTTTTTCTCTCGAGGCTCTCCTTGTAAAACTTATGACCATGTAGTCCATGTATTATTTCTTTATTTTTTAATGGGTATTTCATGGGAGGATCAACATTATTGGCTTGAGATCATTTTCTTTTCTTCTAGGACCCCGATGGACTAGTGTCAGTAAAAGTTCTTTGAACGATCCAAAGTTAATATTGATATATAAATAAATTTACCAAAGTCTACTAGCTTAAACTTTTTGAGTTCAATGGTGAGTTAACTTGGTATGATTGGAGAGGATCGTATATTTGAATTCCTATATTGTCATTTCCTTCCTTATTAATATTGATCTTCACATGTTGGCCTATTCTAAGCCTACAAGTGAGGGGAGTATTAAAGTGTTGACATAATACAAATATTGGTGAATAGCATGAAACATGTTATGTGGAGTGTAGGGGTGGAAACAATTTTGTTTGGTGGTCAAACCGAATCGAACTGGTTTTATTTTCCAAAACATATGTGAAACCGAACTGAACCGATTTATCAATTTGAACCGCACCAAACCGAACCACATATATGCAATTCAGTTCAGTTTGATTTTGGTTTTCAGAAACAGAGATGTGAGGGAGATATATTTAACAGAGAGATGAAGACGACATGTTAGTTGTTTTGTTTTCTTTCACGTTCTTGTGGGTTTTTTTACTTCATTGAGGGGGAGTCTTTTAGTGGGTAGTTTGAGGCAATCCTCTTTGATTCCTTTGTTTTGTGTTGTGGTTGCTGCTCTGGCAAATACACTATATGCAACTAACACTATATGCTCTGGCAAAGACACTGGCAAATACACTATATGCAACTAACACTATATGCTCTGGCAAAGACACTATATGCACCAAACCGAACCACATATATGGAATTCAGTTCAGTTTGATTTTTGTTTTCAGAAACAGAGATGTGAGGGAGATATATTTAACAGAGAGATGAAGATGACATGTCAGTTGTTTTGTTTTCTTTCACGATTTGTGGGTTTTTTTTCCTTCATTGAGGCGGAGTCTTTTAGTGGGTAGTTTGAGGCAATCCTCTTCCATTCCTTTATTTTGTGTTGTTGCTGCTCTGGCAAAGACACTATCTGATTTATTGTAGTATGGTTAGATGTCTTAGTTTCTTATGAGTTTGAGGAGAAGAAAGTGATGGATAGTTGTTTTTTTCCCTCATCATTTGCTTTTGGTTAAGTAGGGAAGATAGGTTTATGGAAGACAGATTGAATGTGATGGTGATGGAGATAAGGGAGATAGATTGAATGTAGAGAGATGAAGACGGCCGATCAAGGACGGAGATAAGGGAGAATTGAAGATGTAGATGAGGGAGAATCAAAGATGGAGGGTGAGGCTGTGAGGGAGAATCAGAGAGATTGAGAGATGCAGAAAATAGGTTGGGCGTGGGAGGTGGCAAGCAAGACAACAAGTTAACCCTTATATATATATTGAAGAAAACCCTAATATATATGTGTGTGAATAATTTAAGACTGTTTGATTTTGTTTTCGAAATTGAAACCGAGTCAAATGGAATAATTCAGTTTCCTTATTCCTTCAAATCGAACCAAACCGTATTTTTCGATTTTGGTGAGATTTTGATTTGGTTTGTTTTTGCAATTTTAATGACCACCCCAAATGTGAAGTTGTTGATTTGCTGGAGTGATTTGAGACAATTTTTTAGAGGCTTTTGGTGTGCAAAGGGCTTGTAACAGGTCTTAGTCCATGATTTAGGGGACATTCGGGCCCCAAGTTTTGTGTGGAGTTAGTCATTATATCTCATAGACCATAATAGCTAATCTAATTTAACGTCCCAAATAGTTTCTCAGGTGTTATTTTACCTCCATTTCAAATAAGGTGGCTTCTCTTTGGCAAGCGGCTTACCTTGCTGTCTCATAGAACCTAAAACTAGGGTTGTTAAAGCGTAAAACCAAGTGTGTTGAAATTGAATTTTAGTGTATCATGTGTCGTAAGTTTTGATTTGTTAGATAACATTTAAGCATGCATATAAACATAAAAGCTCAAAATAGAGAAATAAATAGTTATGCATTAATGGAATCAAAATATATGTAAAAACACTAAGGAGTTGTTTGGGGCGTTGAGTTGATTTAGCATGTATGGAATTCATGTGTCGGGAGAGTTTATATGTTTGGAGAGTTTATATGTCTATCTTAGGGGATGCAGAGTTGTTTTGTTTGAGTTCATAAGTTTGTATTTGGGGTGCTAGGTTGAGTTCATATGTCTAGAGGCATCTAGTTTTGTTTTTGTAACTCTTCATAATCTATTTTTATGGTTACCATTTTCTTTTAGAACTTTTTTCCTCAATAATTCAACCAATTTTTGTTTGATTAATATGGGTTGCCTTTTTTTAAAAAGTTTTTCTTTCTTTGAATTTTTTTGTTTTTCTTTTTGTTAATGAACAATAACAACAATTAACCAACTACATTTTTCTACATGAATATAGTTAAATAAAATGAAAAACCAAAGAGAAACCACAACTTTTACTTCCAAATTCTTCTCCATAAATTTCCTCATCATATCCTTTTCCTTTTCTTTTTCTTTTTCTTCCTGTATTTTTACTTTGTCGTTAGTTTTTGGAATGCAATCTCCCATCTTAGTAGCCGATGTGATATTACTACTTTTTTTCAACAATTACAGTTTCAATTCCTCCAAATTTGGAGTATTATCAAAGAACAAATCCCAAAATTTTCATCATTTCTTGCTATAAAATGTTCTACAAAACAAATCCTTATTTTTTTTATTTGTTATTTGTTATTTTTGTTTGTTTGTTTTTTAACTATTTGTTCCACCATTTAATTATATGATACTTTTCTAAATTCTTAACACTTTTGGTTCTTGAAGTTTAGGGTTAATGTCTATTTGGTTCCTGATGTTTCAAAATTAACACTTTAGTCCCCAAGGTTTGAGAAATAGTTCTAGATGGTCTTGAAGCTACTTTGACTGTTTGTTGACTAACGGTAAAATGATGTGGTGGGTTAACTGATATTAAGCTAGCTGATTTGACAATTTTTTTTGCTTATGTGGCCTCTCTCTTCAATCTCTCTTTTTCCATCCTCTCCTCCAACCTAGCGAGCCTCACTGTCGTTTCACTTGTCATCGTGCATCAACCAGTGAAGAACGCTGGTGACACATCTCTTCTTCAGCCTCTGTTTCTTCTTCATTTAGATTTGAAGGAGAGGCTTCTTCCTTTTTCTAGACGAAGGAGAGAGATGCTTCTTCTAGATAGATCTGAACAAGTAGGCGGTTTTCTACAACTTGCTCAAAAATTTGAAATTGATGGCTAAAAAAGAAGAGGTGGAGAAGTAGAAGAAGAAAAAAGTTATGCCTTTGATTCAGATTTGTACAAATACACACCAGAAATTTGTATTATAAAGCTTTTTCTCCTTGACTCATTTTTTTGTTGAACAACAACCAGTAATAATTACTTTTTTTTTTCCTTAAACATATATTGACATATCTTTGTTCTCTTATGAGTTGAATAATTATTTTTTTAACCATCAATTTCATGTTTGTGAACAAGTTAGAAGAAAACCTGTAATATCTTAAAGTGCCTCTATCATTTATCTGAAAAAATAAAGCTAAAAAAATTGAAGGAAGGAGCTTCTTCTTCTTCTTCACATCTGAACGATGAGAATGGAAGAGAGAGATGGGAGGCTTGTTGGCATTCTTCGTATCTGAACCAAGGAGGGAATGGAAACTAAAATGATGGTGTTAGGTTGCTGCCAGGGGTGTAAACGGGTTGGGTTGGGAGACATTCTCAACCCAACCCATATTTTCGAGTTGGTTGGGTTGGCAACCCGAATAACAGAATTAATTTTCCAACCCAATCCATAAAATATGGGTTGGTTTGGGTTGGATTGTTGAGTTTTATTGTTTTTTTTTTTTCATTCCTAATGTTTGTAAAGTTTAAAATTGTTGTACCTGTTCAACATTCATAAATTCAAAATATCAAACATATAAATTTAAATAACTACACGATCGTGTGGATATGATCTAAACGATTGTTTACCAAGGCAACACGATCATCTAGCATGGTCAACATGATCGTTTAGATTTGAAGCCATTTTCCTATGTTTAAAAAGAACTACATGATCGTGGATATGATTTAAATAATCGCTTACCTAGTCAATACAATCGTTTAGTTTTGAAGCCCCTTTCCACATTGTCGGAAAATTACAGTCAAGGTGTCCAAACTTGTTTTTTTACCTCTGCTTCTGTGCACTTTGAACATTGAGCAAGTAAGCATTCTTAGAATCATTAAAATGAGCCAAGAGTCAAGACCCTCTGTATTAATATGATAAAAGCATTCATTTGGGGTTATGGCTATGAAGGAACAGAAGATCGGGGATCTATCTTAAATTTGGCTAAATTTTATGCTTCTGCCTAGCATGGACTCCCTTTTTTTTTTTTTTGTGATTATGATCTCTTTGTAATTGATTAAATTGAGTATTTTTTTTTAAAAGTAAAATTAATAATTATTCATAATACATTTATTAGTTAGTTTGTATCCTCTGATGAGGTGAACATGTCTACCATGAATTTTGATGTATTATTTGATGGCTGGTTTCATTACACGCTTTGAGGGGCTTGCTTGGGGGAGTGTTCAAATCAGTTTTGCAAGTTCTATTTCTTCTTCGTTATATTTATCTTCAATAGTCGTTGGTCTTGCTAATGTTGTTCTATTTGTGATCTGTAGGTGATATACATGGGCAATATTCTGATCTATTAAGGCTTTTCGAATATGGTGGGTTACCTCCTCATGCTAACTATTTATTTTTGGGTGATTATGTTGATCGAGGCAAGCAAAGTCTAGAAACCATATGTCTTCTCCTGGCATATAAAATAAAATATCCTGAGAATTTTTTCATATTGAGAGGGAACCATGAATGTGCTTCTATAAATCGAATATATGGCTTCTATGACGAGTGTAAAAGAAGATTTAATGTTAGGTTATGGAAGACGTTTACAGAGTGCTTTAACTGCCTGCCTGTGGCAGCTCTGGTTGATGAAAAAATTTTGTGCATGCATGGAGGTTTGTCTCCTGACCTGAATAATTTGGATCAAATTAGAAATATGTCAAGACCAACAGATGTACCAGACGCTGGCTTGCTCTGTGATCTTCTGTGGTCTGATCCCAGTAAAGATGTTCAAGGTTGGGGAATGAACGACAGGGGTGTTTCATTTACTTTTGGTGCTGACAAGGTGACAGAGTTTCTTCAGAAACATGATTTGGATCTCATTTGTCGTGCGCATCAGGTTCTTATTGTTTTATTTCTGAGACTTCAATCTTTTTTTATATATAAAAAAATGATAAACAAAGGAAAAATATCAATTTTATACCTCTAAACTTTGAGAATTTTGTCAATTAAAATTAATAACTAATAATTAATTTAAAGCACATATTTTTACAAGCTTATCAATTTACACTCTTTCAGATTTGTCAAACAAATATCTTGTGAAACTTATAATTTGTATTAATTGAACTCCTAAACTTTTGTTAGCAAATCAATTTAGACTCTTCTTTATGATTGCCTTCGAAAATCATCCATCCATCAATTCTCAAACATGCATGAACTTTAAATGTTGACTTCACAGAATGGTTGATTATGTGTGGATGATTCTCAAAGTAAATTCTAATTGAGAGTAACGTTTAGGAGTTTAATTGATGCAATTTTAAGTCGACATGATGTTTTTCCAAATGAAACATAATGGAAAATGTAAATTGACATTACTTGTAAAAGTTAAAGGTTTAAATTGATACAATTATTAGTTTAGAGTTTTATGGTTTGTTTGGATTGACTTAATAAGAAAAGATTTTCTAAAGAATTCATTTTTATTTAAACACTTTTGATAAAAACTGTTTAAAATGTATTTCAAAAGTTAATTTGAGTGGTTGTCAAATGACTTTATTTTAAAAATTAAACATTGAGAATGTATTCCAAACACACCTTTAATGGATACAACCCCAATTTTAGGAACATAAATTGTATTTTCCAAAAAAGAGAAATTGAGGCTTTAAATTGCCCCGAACTATGCATAGAATGAGGGAAATCTCAGTTGGTGAAAGTACTGAGATCTCTTCTCATTTTAGTCTAGTTTACAGAAATAAAGTTTCTTGTAAATTCTCTACTGATTGTAGATTGCAATATTTACTACTAGATTCCTTCCAGAATGTTTCTTGTGCCAAGAATGATGGATGTGGGTTTCTGTCCCTTTTTGAGCTTTTAAGCTTTTAACTAGTCATTACTTTTATATATAGGTTGTGGAGGATGGATATGAGTTCTTCGCAAATCGTCAACTTGTAACTATTTTTTCAGCACCTAATTACTGTGGAGAGTTTGATAATGCTGGTGCCATGATGAGTGTGGATGAGACGCTTATGTGTTCATTTCAAATACTAAAGCCTGCGGATAAGAAGCCTAAGTTGAACTTTGGAAGCACCACCACCACAAAGCCTGGAAATCCTCCAGCAGGGGTTAAGGTAAACATAACATTTAAAGAAAAAGTACTCTTTCTTAAGGTTGGATTTCTAGTCGTTCACTTTGTTTAGTTTTTAATTTAAAATGTCTGTGACCACCCTTAGTTAGCTTTAGCCATTTTTGGACGGTTCAAAGTAGAGAGGATTTTGGGAGCAAGCGTTGGAATCTACCTAGTGACCAACCACCTACTTAAGATATTAAAATTTCATAGTTTCCTGATAACCAAATGTGGTAGGATTAACTATTATGTGAGTAAAAAGAATATATATCTTTTGGTATGAACAATGAAGGTTCATGTTATTATACCATCTTTTCCCTAGTAGTTAGGACGGTGAGAAGGTATTGCTATCCCGTATCCATCTAGTTTTGAGGTCAAGTCTTTCTATCACGTTTAGAAGAAATTGTATCACATGTTCCTTAGCTTTTTCGTATCCAATAAACATACTTGCTTGTTGCTCATGGCATTTTGACTTACTATTTTCTTATGATCGTTTTGTTTATGGCAGTCCTTCCTTGGTACAAAAGCATGACTTGGTGAGGCAAGGAGGACTCTTGCGGCCAGTTGAGTCTACAAAACTTGGAAGTCTTTAACTTTTGGAGGAAACTCTAGGATCGATCATTTGATTCTAAACTTGAATGTTGAAAATTGTAAAAAAACTAAAAAAAGGAAAAAAATTGTAAGGTGAACTTTAAAATGATTACAAAATATTGTTATCGTCGATACAAATTCGAGTTATTGAAGGTGGTAGGCTGAAATACTTGCCCATCTTCCTTGTACACTAATTGGCAGCGCCATCATTGCTATCGGTGGTACGGGTTTACTGTATGTGTTGGACATTTAATTATGCGTTTTCTCTCTTTTCTGGT GTTCAAAATATCGCACGATCTTTCTTGCTGTCTGTATTGGACAGCGGACCCTTTTTCCTCGAAAGTCAGCTCCCTTCAAAGTCCCCCTCCGATCCATCAGCAACCCCATATCGGACGGCGGCGGCGGCGGCCGACCATGCTTATACACCCAACCTCCTCCTCTTCCACTTTCTTCCCGTTTTCTTTCCCCTTTCTTTATTTCAACAACGCCCACTAGACCCTCTTCTTTCGGTTCCATTCACAGTATCACACCCCCCAAATGGACCCTTCTCTTCTCGACGATATTATCAATCGTCTTCTCGAGGTTCGTGGCCGTGTCGGCAAGCAGGTTCAGTTGTCCGAGTCTGAGATCCGACAACTCTGTCAAGTTTCTAGAGAGATTTTCTTGCAGCAGCCTAATTTGTTGGAGCTTGAAGCACCTATCAAGATTTGTGGTGATATACATGGGCAATATTCTGATCTATTAAGGCTTTTCGAATATGGTGGGTTACCTCCTCATGCTAACTATTTATTTTTGGGTGATTATGTTGATCGAGGCAAGCAAAGTCTAGAAACCATATGTCTTCTCCTGGCATATAAAATAAAATATCCTGAGAATTTTTTCATATTGAGAGGGAACCATGAATGTGCTTCTATAAATCGAATATATGGCTTCTATGACGAGTGTAAAAGAAGATTTAATGTTAGGTTATGGAAGACGTTTACAGAGTGCTTTAACTGCCTGCCTGTGGCAGCTCTGGTTGATGAAAAAATTTTGTGCATGCATGGAGGTTTGTCTCCTGACCTGAATAATTTGGATCAAATTAGAAATATGTCAAGACCAACAGATGTACCAGACGCTGGCTTGCTCTGTGATCTTCTGTGGTCTGATCCCAGTAAAGATGTTCAAGGTTGGGGAATGAACGACAGGGGTGTTTCATTTACTTTTGGTGCTGACAAGGTGACAGAGTTTCTTCAGAAACATGATTTGGATCTCATTTGTCGTGCGCATCAGGTTGTGGAGGATGGATATGAGTTCTTCGCAAATCGTCAACTTGTAACTATTTTTTCAGCACCTAATTACTGTGGAGAGTTTGATAATGCTGGTGCCATGATGAGTGTGGATGAGACGCTTATGTGTTCATTTCAAATACTAAAGCCTGCGGATAAGAAGCCTAAGTTGAACTTTGGAAGCACCACCACCACAAAGCCTGGAAATCCTCCAGCAGGGGTTAAGTCCTTCCTTGGTACAAAAGCATGACTTGGTGAGGCAAGGAGGACTCTTGCGGCCAGTTGAGTCTACAAAACTTGGAAGTCTTTAACTTTTGGAGGAAACTCTAGGATCGATCATTTGATTCTAAACTTGAATGTTGAAAATTGTAAAAAAACTAAAAAAAGGAAAAAAATTGTAAGGTGAACTTTAAAATGATTACAAAATATTGTTATCGTCGATACAAATTCGAGTTATTGAAGGTGGTAGGCTGAAATACTTGCCCATCTTCCTTGTACACTAATTGGCAGCGCCATCATTGCTATCGGTGGTACGGGTTTACTGTATGTGTTGGACATTTAATTATGCGTTTTCTCTCTTTTCTGGT ATGGACCCTTCTCTTCTCGACGATATTATCAATCGTCTTCTCGAGGTTCGTGGCCGTGTCGGCAAGCAGGTTCAGTTGTCCGAGTCTGAGATCCGACAACTCTGTCAAGTTTCTAGAGAGATTTTCTTGCAGCAGCCTAATTTGTTGGAGCTTGAAGCACCTATCAAGATTTGTGGTGATATACATGGGCAATATTCTGATCTATTAAGGCTTTTCGAATATGGTGGGTTACCTCCTCATGCTAACTATTTATTTTTGGGTGATTATGTTGATCGAGGCAAGCAAAGTCTAGAAACCATATGTCTTCTCCTGGCATATAAAATAAAATATCCTGAGAATTTTTTCATATTGAGAGGGAACCATGAATGTGCTTCTATAAATCGAATATATGGCTTCTATGACGAGTGTAAAAGAAGATTTAATGTTAGGTTATGGAAGACGTTTACAGAGTGCTTTAACTGCCTGCCTGTGGCAGCTCTGGTTGATGAAAAAATTTTGTGCATGCATGGAGGTTTGTCTCCTGACCTGAATAATTTGGATCAAATTAGAAATATGTCAAGACCAACAGATGTACCAGACGCTGGCTTGCTCTGTGATCTTCTGTGGTCTGATCCCAGTAAAGATGTTCAAGGTTGGGGAATGAACGACAGGGGTGTTTCATTTACTTTTGGTGCTGACAAGGTGACAGAGTTTCTTCAGAAACATGATTTGGATCTCATTTGTCGTGCGCATCAGGTTGTGGAGGATGGATATGAGTTCTTCGCAAATCGTCAACTTGTAACTATTTTTTCAGCACCTAATTACTGTGGAGAGTTTGATAATGCTGGTGCCATGATGAGTGTGGATGAGACGCTTATGTGTTCATTTCAAATACTAAAGCCTGCGGATAAGAAGCCTAAGTTGAACTTTGGAAGCACCACCACCACAAAGCCTGGAAATCCTCCAGCAGGGGTTAAGTCCTTCCTTGGTACAAAAGCATGA MDPSLLDDIINRLLEVRGRVGKQVQLSESEIRQLCQVSREIFLQQPNLLELEAPIKICGDIHGQYSDLLRLFEYGGLPPHANYLFLGDYVDRGKQSLETICLLLAYKIKYPENFFILRGNHECASINRIYGFYDECKRRFNVRLWKTFTECFNCLPVAALVDEKILCMHGGLSPDLNNLDQIRNMSRPTDVPDAGLLCDLLWSDPSKDVQGWGMNDRGVSFTFGADKVTEFLQKHDLDLICRAHQVVEDGYEFFANRQLVTIFSAPNYCGEFDNAGAMMSVDETLMCSFQILKPADKKPKLNFGSTTTTKPGNPPAGVKSFLGTKA*
BLAST of MELO3C024667 vs. Swiss-Prot
Match: PP1_ORYSJ (Serine/threonine-protein phosphatase PP1 OS=Oryza sativa subsp. japonica GN=Os03g0268000 PE=2 SV=2) HSP 1 Score: 566.2 bits (1458), Expect = 2.3e-160 Identity = 270/301 (89.70%), Postives = 283/301 (94.02%), Query Frame = 1
BLAST of MELO3C024667 vs. Swiss-Prot
Match: PP12_TOBAC (Serine/threonine-protein phosphatase PP1 isozyme 2 OS=Nicotiana tabacum GN=NPP2 PE=2 SV=1) HSP 1 Score: 549.3 bits (1414), Expect = 2.9e-155 Identity = 255/301 (84.72%), Postives = 279/301 (92.69%), Query Frame = 1
BLAST of MELO3C024667 vs. Swiss-Prot
Match: PP14_ARATH (Serine/threonine-protein phosphatase PP1 isozyme 4 OS=Arabidopsis thaliana GN=TOPP4 PE=1 SV=1) HSP 1 Score: 548.1 bits (1411), Expect = 6.4e-155 Identity = 257/301 (85.38%), Postives = 279/301 (92.69%), Query Frame = 1
BLAST of MELO3C024667 vs. Swiss-Prot
Match: PP11_TOBAC (Serine/threonine-protein phosphatase PP1 isozyme 1 OS=Nicotiana tabacum GN=NPP1 PE=2 SV=1) HSP 1 Score: 546.6 bits (1407), Expect = 1.9e-154 Identity = 256/301 (85.05%), Postives = 276/301 (91.69%), Query Frame = 1
BLAST of MELO3C024667 vs. Swiss-Prot
Match: PP12_ARATH (Serine/threonine-protein phosphatase PP1 isozyme 2 OS=Arabidopsis thaliana GN=TOPP2 PE=1 SV=1) HSP 1 Score: 545.8 bits (1405), Expect = 3.2e-154 Identity = 260/302 (86.09%), Postives = 281/302 (93.05%), Query Frame = 1
BLAST of MELO3C024667 vs. TrEMBL
Match: C6TNW7_SOYBN (Serine/threonine-protein phosphatase OS=Glycine max GN=GLYMA_20G222500 PE=2 SV=1) HSP 1 Score: 640.6 bits (1651), Expect = 1.1e-180 Identity = 306/325 (94.15%), Postives = 315/325 (96.92%), Query Frame = 1
BLAST of MELO3C024667 vs. TrEMBL
Match: A0A0B2Q4U1_GLYSO (Serine/threonine-protein phosphatase OS=Glycine soja GN=glysoja_020985 PE=3 SV=1) HSP 1 Score: 636.7 bits (1641), Expect = 1.5e-179 Identity = 303/325 (93.23%), Postives = 313/325 (96.31%), Query Frame = 1
BLAST of MELO3C024667 vs. TrEMBL
Match: I1LBR4_SOYBN (Serine/threonine-protein phosphatase OS=Glycine max GN=GLYMA_10G166700 PE=3 SV=1) HSP 1 Score: 636.7 bits (1641), Expect = 1.5e-179 Identity = 303/325 (93.23%), Postives = 313/325 (96.31%), Query Frame = 1
BLAST of MELO3C024667 vs. TrEMBL
Match: G7I691_MEDTR (Serine/threonine-protein phosphatase OS=Medicago truncatula GN=MTR_1g079950 PE=3 SV=2) HSP 1 Score: 633.3 bits (1632), Expect = 1.7e-178 Identity = 300/325 (92.31%), Postives = 314/325 (96.62%), Query Frame = 1
BLAST of MELO3C024667 vs. TrEMBL
Match: A0A072VNJ8_MEDTR (Serine/threonine-protein phosphatase OS=Medicago truncatula GN=MTR_1g079950 PE=3 SV=1) HSP 1 Score: 633.3 bits (1632), Expect = 1.7e-178 Identity = 300/325 (92.31%), Postives = 314/325 (96.62%), Query Frame = 1
BLAST of MELO3C024667 vs. TAIR10
Match: AT2G39840.1 (AT2G39840.1 type one serine/threonine protein phosphatase 4) HSP 1 Score: 548.1 bits (1411), Expect = 3.6e-156 Identity = 257/301 (85.38%), Postives = 279/301 (92.69%), Query Frame = 1
BLAST of MELO3C024667 vs. TAIR10
Match: AT5G59160.1 (AT5G59160.1 type one serine/threonine protein phosphatase 2) HSP 1 Score: 545.8 bits (1405), Expect = 1.8e-155 Identity = 260/302 (86.09%), Postives = 281/302 (93.05%), Query Frame = 1
BLAST of MELO3C024667 vs. TAIR10
Match: AT2G29400.1 (AT2G29400.1 type one protein phosphatase 1) HSP 1 Score: 538.1 bits (1385), Expect = 3.7e-153 Identity = 253/301 (84.05%), Postives = 278/301 (92.36%), Query Frame = 1
BLAST of MELO3C024667 vs. TAIR10
Match: AT3G46820.1 (AT3G46820.1 type one serine/threonine protein phosphatase 5) HSP 1 Score: 533.9 bits (1374), Expect = 7.1e-152 Identity = 252/302 (83.44%), Postives = 279/302 (92.38%), Query Frame = 1
BLAST of MELO3C024667 vs. TAIR10
Match: AT4G11240.1 (AT4G11240.1 Calcineurin-like metallo-phosphoesterase superfamily protein) HSP 1 Score: 526.2 bits (1354), Expect = 1.5e-149 Identity = 244/316 (77.22%), Postives = 275/316 (87.03%), Query Frame = 1
BLAST of MELO3C024667 vs. NCBI nr
Match: gi|778664373|ref|XP_011660282.1| (PREDICTED: serine/threonine-protein phosphatase PP1 isozyme 2 isoform X1 [Cucumis sativus]) HSP 1 Score: 674.9 bits (1740), Expect = 7.3e-191 Identity = 325/326 (99.69%), Postives = 325/326 (99.69%), Query Frame = 1
BLAST of MELO3C024667 vs. NCBI nr
Match: gi|359806818|ref|NP_001241565.1| (uncharacterized protein LOC100799218 [Glycine max]) HSP 1 Score: 640.6 bits (1651), Expect = 1.5e-180 Identity = 306/325 (94.15%), Postives = 315/325 (96.92%), Query Frame = 1
BLAST of MELO3C024667 vs. NCBI nr
Match: gi|502116728|ref|XP_004495569.1| (PREDICTED: serine/threonine-protein phosphatase PP1-like [Cicer arietinum]) HSP 1 Score: 638.6 bits (1646), Expect = 5.8e-180 Identity = 304/325 (93.54%), Postives = 315/325 (96.92%), Query Frame = 1
BLAST of MELO3C024667 vs. NCBI nr
Match: gi|356535218|ref|XP_003536145.1| (PREDICTED: serine/threonine-protein phosphatase PP1 [Glycine max]) HSP 1 Score: 636.7 bits (1641), Expect = 2.2e-179 Identity = 303/325 (93.23%), Postives = 313/325 (96.31%), Query Frame = 1
BLAST of MELO3C024667 vs. NCBI nr
Match: gi|1012237304|ref|XP_015939998.1| (PREDICTED: serine/threonine-protein phosphatase PP1-like [Arachis duranensis]) HSP 1 Score: 636.0 bits (1639), Expect = 3.7e-179 Identity = 301/325 (92.62%), Postives = 315/325 (96.92%), 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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