MELO.jh001535.1 (gene) Melon (Harukei-3) v1.41

Overview
NameMELO.jh001535.1
Typegene
OrganismCucumis melo var. reticulatus cv. Harukei-3 (Melon (Harukei-3) v1.41)
DescriptionUnknown protein
Locationchr01: 21322028 .. 21349785 (-)
RNA-Seq ExpressionMELO.jh001535.1
SyntenyMELO.jh001535.1
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonpolypeptideCDSstart_codonstop_codon
Hold the cursor over a type above to highlight its positions in the sequence below.
ACAACTTTTCTTCAGCTTAAAACTAGAAAGAGAGAGAGAGGTCCAGAGGATGACTTCTTCTTCTTCTTCTTTATCTCTCTGCCTCTTCTTCCCTTTTCCTTCTTCTTCTTCTTCCTCTTCTCTTAGATTCATCAACATTTCCAATCCCTTCTTCTCCCCAAGCCCTAATTTCCCACTTCTTGTTTCTTCCAGGCGCCGCTCTTCTCTCAATACATCTCTGGTAACTTCTCTCTTTCACTCTTCATTTCTCTTTTTGCTCCCTCGTTTTTTCTTGTTCTGGTGTTGGACGAATTGGGATTCGGAATGGTTAAATTTCCAAATCTCTTGTTGAAATAAATTGCTTTTCCTTTACAAGCCCTGTATTTTTCTGCTTCTTGATTTGTTGTTCTTTATTGACTGTATGGCACCCAATTTCTTGTGTGTTTATGTGTAGAGATTTGTTGAATATTTTGTATCCAAAATTTATAACCGAGAGAGACGTGATTCTTGAGATAAAGAGATGATTATATGGACGAGAGAACTGTTGTTAATTGTTGAGGTCAGTCAATCATGGACTGTTTATAAAAAATTTGGAGACATGAGCTTTTAGTGCTTGGCAGATAATCTGGAGTTCGATGATTTAAGGCATTGATTTTCTTTTGATAAAAAATAATTTTCTTCCTTTTGAACCATAAAGTCATTGTAAAGTTGGTTTACGATATTAATAGGCGCTCTTGGCAATGGTCAAGTGCCAATTACCAATAGAATGCAAGGAACTTTATTAATTTCCAGTTTTTTTTTATGAGATTTCACTTTAATTGAACCATCAGGGTAAAAAATGAGACAAAGTCTCAATATATGGTAAAAAGGTCATGGGTTCATTACGAGTTTCCTCGACATCCAAATGTTGTAGAATCATGCAGGTTGACTTGAAATTAGTCAAGGTTATGTAAGCTGGCCCAAGTACTCACAGATATATCAAAAACAACTTTCATTGAAAAAAATGAAAGAATACAAGGATATCCTAAATACGACTCCCAAAAAGGAGGAGCACCCCTAAAGAAAAGGACCCATCTATGCAAAACAATACCTATAGTACAGTTACAAAAAATCTTAGAATTCAAATTCCACGAAGAAACATGATAACGACAAAGGAGCCATATCTCGCTTGGGACCTTCTCCACACTTGTGTTTTCGAAGTGCAAGACTTAGGGCGACAGGTTCCTTGACCCCCTCAAGGCGAGAGGGGACAAAAAGGGGACGACTGAGCGAAGTGATGCGCAATTAATAAATAAATAAATAATATACGTATAAGCAGAACATAAGTTTATACACAAGTGTAAGCCTCAAAGATTATAGTAGTTATCTAATCAATAAAAATGAACATAAATTCAAAAGTAAAATTTAAAAGATGATCAAATGTCAAATTCATCATCCTCCCCATCTAAATCTAATGTTTCATCCATTGCTCCTCCTTGGCCATTGTTCTTGATGTCTAATTCCTCTTCATTGTCGTCTGCATTTTCATCACTAACCACTTGTATAGTTGGTGTTTCTTTTGAACTCTAGAAATGGAGGTAGAGGCAATTGAATTTCCTTTTGATCTAGTGTATGTGATCAGTTCTCTAACAGTAGCACGATCTACATCTCCCCATGTGAGGTTGATGTCATCAAAAACTCTCTTATTGTCAACTTCAGCTTCATTATTTTCTTCATCCAATGTACCTTCCATTTTTATTCTTGTCGATATTATCCAAGGAGATTGGATCAAGTTGATCCTTTAGATCAAAGTGCTCTTTAAGTGTTTGATTATACTTTACATAAACCAAATCATTTAAGCACTTTTGCTCCAATCTGTCTCTTTTTCATATGAATCTACAAATTATTACCAATATGGAGTTACAAGAATAATTTAAATCTTAAATTAATAATGTTAAAAAACAAAATAATCACTTACATGTTAGAAAACTCTCCAATTGTGTTCACACCCAGAAGTGCTGCATGTTAGATTAAGGACTCTCATTGCTGACTTTTGCAAAATTGGAGTACTACCACCATAAAGAGCCCACCACGATGCTGTTCACACATTTTGACATGACCTAGAAATAATATACTTATATACACTAGTAAGTATTAATGCAGTAGGGAATGTCCATACCTGATGCCTAGACTTTTCTTGTGTTAATTGCTAAGTCAATGCCAAATATACCTTTAGCTTCAGAATATAACTCTAATTCCACTGTGCATTGATTTTGATCACTAGTAGATGGTATTGATCTTTGCACAACTTTAAGAAGACCACTCATGACTTCAACATCTTGAGTAATTCTATTCTTGTGTTCATAGAAAAGTGATGGATTCAAATAATATCCAGCAGCTTGGATCAATTCTCTTCTCCTATCTTTTCCACTTGCCCTACACCACGTACAAGATTGCACCACTCCTGCAAGCCAAAGAAAGTGATGCTTCTCCTCATGAGGTAGGTAACATCATCAATTTCCTGCAAAGGGCCAGTTGAGAGAAGATGATCCTATGCTTTTTGATCTTTCTTTCAAAGAGTACATCATCCTGGAAAAATTATGCAAGAAGGGAGGGAGGCATTAGACGTTTGAGCAGAGAATACAAAGGAAAAAGTTGACCCTCTTCGTGCAGCCGTATTTCCACATCATATTGGAAGGGAGATATTTCTCACTTTTCCTCTTCCTCATCAAATCTATAAAAATCGTGCTCACTTTGAAGCTGCCATTTGGATGGGTAGGTAAAGAATAATATCTTAGGAAGTGAACTGCAAATTTGTAATTAGTTAGAGAGATTATTATGGTATTTGGTTATAAATTGATGGAGGAGGAAGGGATGAAGTTATTTTTGATGGTTTCGTGGGGCGTCTACTTTTTTGTGGGATATTTGAGGGAGAGGTTTGGATGGGGATCTGAGTGAGGTTTGGTCCTTGATGAGGTTTCATGTTTTGTTTTGGACTTTAGTTTTGAAGCTTTTCTTTCTTTGCAATTGTTCACTAGGTAACATCTTAGTTGGAAACCCTTTCTATAGAGTGATGCTTTTGTGGGCTTTTTTTTCTATGCATTTGTATTCTTTCATTTTTTTTCTTAATAAAGTGGTTGATTCTATCAGAAAAAAAAAAAGAAAAAAAAAGAAAAAAAAAAAGAAAGAAAGAAAAGATGGTTTAGGCCTGAGTTAGTATACTCTAGAGAGAGAAGGTTCCAAGTATATTGAATGCTGGAGTTATCTTATATCTCTTGTCAAATATTTCAATAAAAAAAATACCATTCCAGTTTTGTCTGGGATCTATCAAATTACTAACGGTGCAGTTTAGTTATGATCATGAATCCAATGCAAATTTGGTGAAGAGATACTGAGGTGTATGTGAAAGGTTGGATCAGTAGATAGATTGATGGCAGGTGACCTTTGAGAATTATTATTTATCAACAAGGATGCTGAACCGAGGAAGAATTATTGAACTTCCCCTCTCTCTAACAAGATACTAGCAAAGTCACACCCTCCCAATCCCATCCTTGTAGTATATATTCATCTCTCACTACAACCCAACACTCTAATCTTTTGGGCTTCTGGGCACCCATCCTTATTTTTCGGGGCACCATTTAGGTATCTATGTTGACATGATTAACTTGGTATCTTCTGAATTTATCTTCAATTACTTATGGTGATTAGTTAGCTTCATTTTCATGTTATGAATCTTTCTATATGCGATGACAATCGCTGATTCCGTTATCAAAAAAGTTGATGTTCTTATCTTGTTTCGTTAATTGACCAGATTTTGATTCCCAGTTGACTTGGTGCTCTTCAAACCTTCTAATTTATTTATTTATTTATTTTTATGTGTATTGAGACTATTTGGATGTTGGCTTGAAATTAGGGAGTTTTTGCATCACCACATTTGTGGGCAGTTGGTTTTCACTAATGATTTACTATCAGGGGATCTTTTTTATGTACTGGTTATAGTGGATTCGAGGGCATATAAGAGGAGATACAGATGGGGAAAGTAGTGTGCCTCAAAAGAAGAATACAACGCGGATGTTTGGATTTGGATCTAATGATGAGACAGGCACTCAAATTCCAACCCAAGCCCAATCGATTGTGGAAGGATCAGGTTCAGTTATGGTTTCTGAGTTCAAACCAGTTCCTGATGTTGATTATCTACAGGTGAGTGTTATGGGATCTAATCTTTTATTTTCTTTTAATGACTATGAAATTAGTAATAAGTGAAGTCCTACTCCAATCCTTACTCAAAAAGGAAAAAGTTTATAGTCCTATCCAGATTGGTTAATAGTTATAAAACTAAAAGAGGGCTTGAAAGAACCTAAGATGTACAGACATGGAAGTGCCACACGCCATATAATATGACAATGTCCCAATTTCTAGAAAAGTAGGATATGGTCATGCTGGAGCAAGTGCCGATTTACTAAGGGGCCATCTCAACTTGAAAACTTATTGTATTTTTATATATTTTTTCAAACTAATTAAATTTACACTTCAGCTTAATGACAAAAGGATTGTGGTTTGAATCTTTCCATCCCTAACTAGTTTATATTTTTTATTATAAAAAGTAGACTCTTATGTTTTCATTAAACTTTTTATCTTAATAAAAATGATTTTTATTCCCTCGATACATTTAAATTTAACTGTGGGATAAAGAAGGTTAAAATAAGATTTTGATCTTCATATTTTGGGACTCATTTTATTCAAGTTCACATACTTCCTAGAAATTCAAATTTAGTTCTTGTATTTTAACACATCTTTGGATTAGTTTCTCGTTATAATTTACAAATACTTTTTATTGAGTCTAAATTTATTTTGGTAAAGTTAACCTGATAGTGGTTAATTTTAAAATTAATAAAAGCACATGGTTTTATACTTGAACATTTAAATTATGTGGAGTAGTGTTATGTTGGCCATCTTCTGTAAAATATGACTGAAATATAAGAAAAAAGGGCTGTATTTTTCCTCTAATGCATTTTGAGTCTGTAATCCATCAAACCTCCACCCGTTAAAGATCTAATCAACCCATCTTCCTCTGCTTCACTCTCCTCCCCTTCTTCTCTCTCTTCTTCAGCAAGATCAGGGTCAAGAGCAAACTTCAAGAGACAGAAATCTCCCAAGCCGCATACACATTTTTTCAAGTTATTCCCTAAACATTTCGCTAGAAGGAGATTGAAGGGAGCTTCTGTTAAAAATTCCCCAAAGTCTAAGCTATTTGCAGACTAAAACCCGGACTTGTTAGAGTCAAATTGTGCCCACTCTCAAGCCCCTTCTCACTCCAACAGGTCAAACCCCCAGCCCCCCTCTCATCCCCAACTCTGTTTTCTCCTTTCCTAACTCTAAAGATCAAATTCTTGAGAGGCACTCCAATCCTCACCCTGGCTCCTCCCTAAAAAAGGGGAGTCTCAAGTTTGATTCGCCATTTAGCATGAGTAGCGAGGAACTCTCTTATAGGAAGGTCTACTGGGAAGGAACCTCAGCTTGAGAAATACTCTCTGCAACCAGTTCTCAAAGCTTGGTTCTATCTAGAGGAGGCCCCAACCCCTTGATAAACAAAATTCAGAAGCTGGATTAAATGATCTAATACAGAAACCTCCACTTCAAAACTTCGAAAAGAAAGAAACAGAATCTGTACTTCAAGACTCTCAGCACCAAATTCCACCTCATTTGAAGTCTTTTGCTGACAAATGTAAACTTATTTTGGCTTGATTTCGTTTAGTAGATCAATTTGAGGTTTTAATGAAAATTATCTTGTGGAACATGAGAGGCCTGAAGGATGCAAACAAGAGATTGGCACTCAAGAGATTCCTAAAAAAGCATAACCTGGATTTGGTACTTATTCAATAATCAAAGAAAGAAAATTTTGAATTGTGTTTTATAAAATCACTATAGAGCTCAAAGGACATTGGATGGGATTTTGTTGAATTATTTGGAACCACAGGAGGAATGTTGACAATGTGGGACACAAATAAGTTATCGCCATCGGTCACTGAAATGCTACAAGGTGGATACTCTTTATCTGTAAAATGCATCACATTATAGAGAAAAACTTGCTGTGTTACTAATGTGTATGGTCCTACTGATTATAAGGACAGGAAATTTGTATGGCCCGGACTACTAATTCTCTTGGATTATTGTATGGAAGCTTGGTGTTTTGGAGGTGACTTCAACATCACAAGATGGGTGCATGAAAGATTTCCACTAGGGAGAACAACTAGAGGCATGCGGCTGTTTAATAACTTCCTTGAAAAAGCTAAACTGTTGGAAATTCCCCTTGGAAATGACAGGTTTACTTGGTCACGGAAAGGGGCTTCAGTTGCAAGATTATTCTTGGACAGATTTGTCATTAACAAGGCTTGGGATGTTGAATTCGAAAACACAAGAGCTTCTAGGCAAGCTTGTTTATTCTCTGATCATTTTCCCTTATTGCTTGAGGCCGGATCAGTTACTTGGGGGCCCTCCCCCTTCAGATTTTGCAACAGCTGGTTGCTCGACAAAGACTGAGATTTGGCAGTTGAAAGAGCATGGGTTAACAGTGGTTCAGAACGCTGGGCAGCTTTTGTTCTTAATGCCAAGTTGAGAAGGGTTGAACTTGCAGTTAAAGCTTGGGTGGCTTAATTCTAGAAAAATCAAATAAGAAGAGAAGAAGAGCTGACTCAAGAAATTGAAAGTGGGATGCTTTGGCAGACTCGCTTCGTCTTTCAGAACTTGAACTAGAATCCAAATCTTCATTTAAGGCGGAGTTGATGTTTTGGTGATTAATCTAATTTAGAAAAGCAAGTTGAACTGGATCTGTTTAGGGGACGGAAACGCTAGATTCTTCCACAGATTTCTCACAACTCAAAAGGGGAAGAACCTGATTAGTGAGTATGTTAATGACTTTGGGGGAGCCAACCAGCCAACCAACTCCTTTACAGAAATTGAAAGCTTAATCTGGAGTTTTATACTAGGCTCTTCCCCAAAAGCCCGGGTCCGAGATGTTAACCCACAAACTTCGACTGGCTTTGTGTAATTCCCTTTTAGAATGTTATGCTCATAGCAAAGTTCTCCAAATTGGAGATTAAAGCAACTGTTAACTCCCTTGGAAAGTGGAAAACCCCAGGTCCAGACGGTTTCACGACTGAATTCCTAATAAGTATTGGAATTTAGTCAAGTTGAACTTCATTTGGTTTTTGACGATTTTCATAGAAATAAAAAACAAAATGCTTGTGTTCGGGAGAACTTCATTTTCTTAATCCAGAAAAAGGAAAATGCAGTGGTTATCAAAGACTTCAGGCCAATTAGTCTTACGACTATAACCTACAAGGTTATTGCCAAGGTGCTAGTCAAGAGACTTAGGTAATGTTGTGCATCATTGCCCCATCGCAAAGTGCTTTCATAGAAGGAAGGAAAATACTCGATCCGATCCTTGTTGCTAATTTAATTGTTGAGGAATACATGGCAAAGGAAAAAGAAAGGATGGCTTCTCAAGCTTGATCTAGAAAAAGCTTTTGACAGGGTTGATTGGGACTTCTTCAAACAAATCATGAGTAAGAAGTTTGACCATAAGTGGATTGAATGGATCTTGGGTTGTGTTAAGAACCCGAGATACTCAGTATTCATCAATAGAAGACCGAGAGGAAGAGCGTTGGCCGCAGAGGGAATCAGGCAAGGTGACCCCCTTTCACCCTTCCTCTTCATACTTGTAAGTGAAGTCCTTAGTGCTCTAATTGAAAATCTACATCAGAATGGCCTTTATGAAGGTTTTGTAGTGGGAAAGGACAAGATTCATGTTCCAATCCTTCAATTTGCAGATGACACCCTACTTTTTTGCAAATACGACTGCAACATGTTAGTAACTTTGAAACAGACAATAGAGGTTTTTGAATGGTGCTCCAGCCAAAAGGTGAACTGAGACAAGTCGGCCCTTTTTGGATAAATGTGGAAGAGATGGAATTGTTGTCCACCGTGGCCTCTTTAGGTTGCAAAGCAGAACACCTCCTTTGATCTACCTCGGTTTGCCATTGGGGGTACTTGAAACTATCCTTTTTTTGGCAACCAATGCTTGATAAAACCCAACTAAAGTTAGATAAATAGAAGAGGTTTAACCTCTCGACAGGGGGGCAAGCTACGCTTTGTAAGTCTGTTCTTTCCAACTTTCCCACTTATTACATGTCTATATTCCTAATGCCAGAAGAAGTCACTTCAATATTGGAAAGAATCCTGAGGAATTTCTTTTGGAAGGGCCATAAGGGCAGCAAATTAAACCACCTTGTTAATTGGAAAGTGGTCCACGAAGCCTTGATGGATGGTGGCCCTTGGCCTTGGTGGCTTCAAATCTAAAAACTTGGCTCTTCTAGCCAAATGGGGGTGGAGATACATGGAAGAAGACTCTTTGTGGTGCAAGGTTATCAGGAGTATCCATGACAAAGATTCCTTTAATTGGCATACCGCCGGAAAAGAAGGCAAATGCTTGAGAAGCTCTTGGGTTATTATTTCCAGAACTTGGTTGAAAATGGAAGCTTTAGCCAGCTTTAGCTTGGGAAATGGGAGAAGGATAGCTTTTTGGTTAGATCTCTGGGAGGGAGTGACCATTTCATCTAGCCTTTCCACAGTTGTTCAGAATAGCTTTAGTCACAAAATGTTCGGTTGCTGATCAGTGAGACTCTGCATTATCATCTTGGTCCCTAATCTTCTGCCGTTTGCTAAAAGATGAAGAGATTTCAGACTTCCAAGTACTGCTTTGAAAATTAGCATCCAGAAATATTTCTGAAGTTCAAGACAGACAAATATGGTCTCCTGGCGGCAGGAGAAAATTTACAGGGAAGTCCCTTACACTTCACCTGTCTGCTTCCTCCCATTTGGATAAATTCCTCTATAACGGCCCTTTGGAAGTCTAATAGCCCGAGAAGGGTTAATATCTTCATTTGGATCACCCTGATAGGTCAACTAAATGTGTCCTCAGCTTTGCAACATAAATTGCCTAATAGTTGCCTCTCTCCCTCCATTTGCCCGCTGTATCTACAACATGAAGAAGATTGCCAACACTTGTTCTTCCGCTGCAACTTTCCGGCCAATTGTTGGGAAAGGCTGCTCAACTCTTTAATATGACCTGGGCGTTTGGTGCAACTTTTTGTGATAATGTGATGCCTCTGTTAATCCAGCTCATGTCTAAATAGAGGAACTTCTTTACTTTGGGTTAACACGGTGAAAGCTATACCGGCAGAAATCTGGTTTGAGAGGAATCAAAGGGTGTTCATGATAAATCTCTTGATTGGAAGGGATCACTTTGAAAACGTGCATCAAAATACCTCCTCATGGTGTTAGGCCTCAAAGATCTTCAGCAGCTACAGCATCCAAGAGCTCAACTTAAATTGGAGTGCCTTCATTTCTCCAGCTTGATTATTCCCCAATGTGTCTGGGCTTCTGGTTTTTTCTTTTTTTGGTTGTACGCAATCTTTATAGCTTTCCTCCTTTTGTTTCGGAGTCTCTTTCTTCTCCTACTAGTTATCTTGTAAGCCCTTGTTTAACTCTCTTGTACATTGAATTTTTTGCCTCATCATGAATATTAATAAAGCTACTCGTTTCCATTTAAAAAAGGTGTAAAGTTTTATCTATATAACTTTTAGATTTGCAAATGGTACAAATTTTCAAGGAAACAATTTATTTATTTTCTTTTTTTTTGGGTGCCGGGGGGTAAGAATTCGTTGATAAAAGTTTATACAGGGACATACAAATAAAGGCCGTTCTCCAAAAGCTCTCAACTATCTACAAGAACGGGCTGCAGTCCCTCAAACTTACAAAAAATCCATTCTTACCCGAGGAAACAAATCTTTTGTTAACCTTTCCGTCACATCTCTTACTTAGCCAGTGCACAAATTTCTCAATTATAGTTCTTGGTGTGAAGCTCAGCTCCTTCCAAATTACAATTTTTTTATTAACTTTATTATTAACTATCATTATTTTTTTCATTTGCAGGAGTTACTGGCCATTCAACAACAAGGTCCTAGAGCCATTGGCTTCTTTGGAACGCGAAATATGGGTTTCTTGCATCAAGAACTTATTGAGATTCTTAGCTATGCAATGGTTATAACGGTAGAATATGTGATTTATCATCGCTGCATTATTGAAGCGCTATTTAGTCTTTGATGACTGCAAAAAATTCATATTGCTTAGTATCTTCTGTATGCAGAAGAACCACATCTATACTTCAGGAGCATCTGGAACCAATGCAGCAGTTATCAGAGGTGCATTGAGGGCTGAAAAACCAGAACTGCTTACTGTCATTTTGCCACAAAGTTTGAAAAAACAACCTCCTGAAAGCCAGGAATTGTTATCCAAAGTAAGTTTGATTGGTTATAAACATATTTACTCAAGAGTTAGATCTTGTATATGTGTGTTGTTTGATTGGTTAAGTCAAGTTTCCGTTTTGAGTTATTTAAAATGGCTTGGGGGAGGGGAGGGGGTTTTGTTGCACAAAGTTGAGTTAGTAATTAAATTGTTGTATGGTATTTAGAGTGTAGAGTTGAGTTATGGTATCTGGTGTAGTATTTCTGAAGGATTCTGATTTTTGTTTTTTTCTGTTAAACTTTTTTGTGCAAGTATTTAATTGCTCGCATATTTTTCTAAAACTTTCAGTATTCAAATTACCTTAAAATAATCTTTTCCATTCTTAAAAAGTTATTTTGAACACTCATTTACTTGACATATTTTTGTTGAATTCTTAAAAACTTGAGATATCCTAAACACTAATTTTGAACAATCAATTACTTAAAAACTTAGCACATCTTTTTTACATTCTTAAAAACTCAACATGTTCTTGAAAAATTTGCATATTCTAAACACAAATTTTCATCGCTCAATTACTTTAATACGTGGTATGTTATTATATTTCATTTTTAAAACAAAATTTAATGCAAAATTAAGTCACAATACACCAAAATTGATTCACACTCAAATACCTAAAAATATTCATACTCGAACAAGGAAAATTGTGGTACATTCTTTTTTCTATTTAGGGCTATTTAGGGTTTTTTTTTTGCCACGATACTGAAATTATGATTTTCAAAACTTTTTTTTTTACTTGAAAACAATTTAGCTGATTTTAAATAATTTTGTTTATTTTCAAAAAGTTTTTAGTTCAAAACAGTTTTGTTTACTTTTACGTCAAATTATTAGTTTTGATATAGTGCAAACATTTTCTTAAAATCCTTCCATTTCAAACAGCACGCCAGTTTTTGAATCGTTTACTTCTTCAAGTCAATCCCTCAAACGACACTTGCGGTTGAGTGCAGTTGGTTCTTCCCACCAAGCTCCAATAACATGGTCCACAGCCCCACTGTATCAACCAAACGTTTTGAAAAGGAATAAAAGCACAATGGGAAGGCACATAATTTATTAGTGAAGCGGCGAGGGGAATCTGGAAAAGACCAACATAAGGGAAAACAGGGGGAGGAGATGTACACAAAAATTAGGGAGATGCATACAAAATTTAATGGCAAAAAAGGAAAATTCACAGATAGAGAGAAGATGAGGGAGATGAGAGGTTGCAAATGGGAGAGAGATGATGAGACGTACCACGTGCACTGTAGAAGTTGGTGAGATATTCATGGGGAAGTGAAAAGGTGGGTTGGAAATTAGGGATATTAAAAAACAATTGGAACACATCCACCCGTTTCTGGTGGGTTTGAAATTAGGGATATTAAAACAGAATTGGAACACTTCCACCCGTTTCTGGTGGGTTGGAAATTAGGGATATTAAAACAGAATTGGAACACATCCACCACTTTTTAGAAACAGTGGGCCAAACGTTGAATGGTTTTTTTTCCCACTCAACCTAACTCAAACCAGGGGACAAAAGTGTTAGACCTCCAATATTGTTCCAGTACAGCAGGAGAAATAAGAGAAAGAATTAGTGGGGATGGCATTTTTGTAATAAAGGGTTATTCTTAGAAAGTTTGTTAGAAGTGGTTGAGAGAATAGGAAGTCGGTGAGAAATGTTATAAAAGGTTTTAGGCGGGAGATTGGTGGGGGCTTTTTGGAGTGAGTTAGATCTTGCATTTTTTGAGCGGAGAAGGCAAGAGAGATTGTGACAAATACTTGTAAATGAATTGAGATCTCCTCAATTCCATTTCCTACTGATTTTACTAGCATTAAACTGCTGAATATTCTTACTAGCGATCGATACCTATCATATTGGTATCAGAGCCGAAACGATCCTTAAGGGAAAGCAATAATGGTGCAAGCAAGAATCGAAGAAAGGATGGAGTCGTTTGAGCAGGAAGTTGCCGGAATTTAAAAAGAGTTAATGAAGATGCCGGTAATTGAATCGGCGTTGGTAGAATTATCGAAGAATATGGAAATGATGCGCTTGCAATCAGAGAAACAACAACAAGCCATTCTGTCGTATATGGAAGCCAATGCGAAAGAAAGATCCATTATCAGTGAACGAATGATCGAGTCGAATGTTCGGGACTCGCCAGCGATGAAATCGAAAGTGAGCGAAGCGACTTCCAGCCGCGACATTAGAGAAACCAGTGCAGAGAGGAAATCCGATATGGATGAGGTTTCGGCCGATAGAAGTAAGTTTAAGAAGGTGGAGATGCCAGTATTTACCGGCGCGATCCAGAATCCTAGTTGTTTCGGGCGGAAAGATATTTTCAGATCCACAAATTAACGAAATCGGAAAAAATGCTGGTATCAACAATATGTTTTGATGGACCGGCGCTTAACTGGTATCGTTCGCAGGAAGAAAGAGAGAAATTTGTGAGTTGGTCTAACCTGAAGGAGAGGTTGCTGGTACGATTTCGATCTACTAGGGAAGGAACTGTTTGGGGCCGTTTTTTGAGAATTCAATAGGAGACGACGGTAGAGGAGTATCGAAATCTGTTCGATAAGTTAGTTGTGCCTCTGTCCGATCTAGAAGACCGAGTTGTTGAAGAAACGTTTATGACTGGATTGTTTCCACGGATCCGAGCCGAAGTTATTCTTTGTAGACCAAAAGGATTGGCTGAAATGATGCTAACAGCTCAGCTAGTGGAGAATAGAGAAATTCTGAGAAACGAAGCGAATTTGAAGGGATATGCTGGCGGGAAATATTCATCACAATTAGCGACAGGCACGAAGTCTTACCATTATCAACAAAACAAAGAAAATAAAGTAAATACTACGTTTCCAATAAGAACAATTACATTGAAAAGTCCAAATGCTGAAGAAATACGGAAGGAAGGGACCTCTAGGAGGTTACCTGATGCAGAGTTCCAACTAAGAAGAGAAAAAGGGCTCTGTTTCAAGTGTAATGAGAAATATTCTGCTGATCACAAGTGCAAAATGAAAGAACAAAGAGAACTCAGGATGTTTGTAGTAAATAATAATAATGAAGAATTGGAAATTGTTGAAGAAGTGGAAGCTGAGGTCGCTGAGTTAAGAACTGCAGAGGTACAGTCTCACACTACAGCTTGTGTAGAATTGTTCGATTAATTCTGTGGTTGGATTGAATGATCCGAGAACAATGAAAGTTAGGGAATCATTGCAAGATAAGGAGGTAGTGATTTTAATTGACTGTGGCGCCACACATAACTTTGTGTTCGAAAAATTGGTAAATTCTTTACAATTACCAATTAAAGAGACTGCTCATTACGGGGTGATCCTTGAATCAGGGACGACAATATAGGGGAAGGGAGTTTGTGAATCGTTAGAAGTTAAAATGAATGAGTGGACAGTGAAGGAAGATTTTTTGCCATTAGAGCTTGGAGGAGTTGATTTGATCCTCGGTATGCAATGGCTGTATTCCTTAGGGGTGACTGTATGTGATTGGAAGAATTTGACATTGACATTCTATGATAATGAGAAACAAATTTGTATTAAGGGAGATCCGAGTCTTACTAAAGCAAGGGTAAGTCTGAAGAATTTGATGAAGACTTGGGAGAAGCAGGATCATGGTTATTTGATCGAGTGCAGATCAATCAAAATTGTTGAGTTGAATGAATTAATGGTTGATCAAAAAAAAGAGAGAGGAGAAACTGAAGAGAGGCTGATTCCAGTACTGAATCAGTTTAGTGATATTTTTGATTGGCCAGAGAAGCTACCACCACGGAGGAGTATAGAACATCATATACATCTTAAGGAGGGTACAAATCCGGTTAATGTCAGACCGTATCAATATGCTTATCATCAAAAAGAAGAGATGGAGAGATTAGTTAGTGAAATGTTAGCTTCGGGGATCATAAGGCCAAGTGTGAGCCCTTACTCAAGCCCGGTATTGTTAGTTAAAAAAAAAGATGGTAGCTGGAGATTTTGCGTTGATTATCGAGCTTTGAATAATGTTACTGTTCCGGATAAGTTTCTGATTCCGGTGGTAGAAGAATTATTTGATGAATTGGGAGGAGCTTCATTATTTACTAAGATTGATTTGAAGGCCGGGTATCATCAAATCCGAATGGTAGACGAAGACATAGAGAAGACTGCTTTCCGGACACATGAAGGCCACTACGAGTTTCTTGTGATGCCTTTTGGGCTTACTAATGCCCCGGCTACTTTCCAATCACTGATGAACTCGATTTTCAAGCTGTATTTGAGGAGGTTTGTTCTCGTCTTCTTTGATGATATATTGATCTATAGTCGATAGATATATGTTTCAAATAGAGATAGTTTTCTTGGTTTTGCGAAAGCATGAGTTGTTTGCAAATCAAAAGAAATGTAGTTTTGGTATGGCTAGAGTTGAGTATTTGGGACATCTCATATCAGACAAGGGCGTAGAAGTGGATCTGGAAAAAATCAAGGCCAAAGCTGATTGGCCTAAGCCAACAAACATACGCGAGACCCGTGGTTTCCTTGGATTGACGGGATACTACCGGAGATTTGTACATCAATATGGTGCTATGGCAGCCCCATTAACCCAATTACTCAAGAAAGGAGGGTTTAATTGGTCTTCCGAAGCAGAACAAGCGTTTGAAATGCTCAAAAAAGCGATGATGTCTTTACCGGTATTGACCTTACCTATGTTTGATAGACCCTTTGAGATTGAAACTGATGCTTCGGGGTATGGCGTGGGAGCTGTATTAATACAAGACAAGCGTCCTATTGCTTTTCACAATCATACATTAGCCATCAGAGACAGGGGCAGACCAGTGTATGAGCGGGAATTGATGGCTGTGGTATTAGCTGTGCAACGTTGGCGCCCTTATCTGTTGGGCAACCGATTTATTGTGCGAACTGATCAAAAATCATTGAAATTCTTATTAGAGTAGCGTGTGGTGCAACCGCAATATCAAAGATGGCTAGCTAAATTGTTGGGCTATACTTTCGATGTGGAATACAAACCAGGAATTGAGAATAAGGCAGTAGATGCGTTGTCAAGAATTCCTCCTACTGTACAACTGTGTAATATAACAGCTCCATTTTTTCTTGATTTGCATATTATTAAAGAGGAAGTGGAGAAGGATGAAAAGTTGAGAAAGGTTGTGGCTGATTTGAATGGCGATCTTGCACAACAAGATGGCAAGTTTAAGATATGCAATGGTATGTTGAGATACAAAGACAGACTAGTAGTATCGCAGTCGTCCAAATTGATACCACATATATTGCATAGCTATCATGATTCTGCTGTGGGGGGCCATTCTGGTTTTCTTCGTACCTATAAACGCATTGCAGGGGAGTTGTATTGGCAGGGCATGAAAGCTGTTATTAAGAAGTATTGTGCCGAATGCTTGATTTGTCAACGAAATAAGACTTTGTGCTTGTCCCCGGCTGGTTTACTACTTCCTTTGACTATCCCTACACAAGTTTGGAGTGATATATCTATGGACTTTGTGGAGAGCTTACCTAAGGCAGCTGGTTTTGAAGTTATTTTTGTGGTTGTAGATCGGTTGAGTAAGTATGGCCATTTATTACTACTAAAACATCCGTATTCTGCAAAGACAGTGGCAGAATTATTTGTTAGAGAGGTGGTTCGGCTGCATGGATTCCCTACATCCATTGTATCGGATAGAGATCGGGTGTTTCTTAGCAATTTTTGGAAGGAAATGTTTCATTTAGCGGGTACAAAACTGAATAGAAGTTCTGCGTATCACCCGCAATCCGACGGTCAAACCGAGGTAGTGAATAAAGGAGTTGAAGTATATTTGAGATGCTTTTGTAATGAAAAGCCTAAGGAATGGATTCATGGGCTGAGTATTGGTACAATACCACTTTCCAGAGGGCTTTGGGTATGACACCTTTTCAGGTCGTTTATGGGCGGAAACCTCCTCTGTTATCTTATGGTGCTCAAGTCACTTCTAATGTTACTTTAGATGAGCAGTTGAAGGAACGGGATGAGATGATATTATCCTTAAGGGAAAATTTGCGGTTAGCCCAAGACCAAATGAAGAAATATGCAGATAAAAAGCGACGCGATGTCGAATATAGTGTGGGTGATCTTGTTTTTTAAAGATACGGTCATATCGTCAGCTGTCCTTGAGGCGAAAGAGGAATGAAAAACTTTCGGCCAAATATTTTGGTCCTTATAAGATCCTTGAGAGGATTGGACCGGTGGCATATAAGCTTGAGTTACTCGAGGGGTCGCTGATTCATCCTGTTTTTCATGTTTCTCAATTGAAGAAACTGGTGGGTGAGCATACTGATGTGCAGACAACTTTACAGCAGTTGGATGAGAGTTTTGTGTGGAAAACATACCCTGTTGAAGCTCTTGATTACCGTCAAACCAAGGCAGGCGAGTGGGAGGTTAAGAGTTTTTACAGTGTGCTTTTTTTTAGAGTCAGAAAATAGTTTAAACACCATTTCTAAATCTTTCCCAACTTTGATCGTCTAAAATGTAAGTCGCCTGCTGGTTAATACAATAGAGAATGAATTGTAAGGGCCCTTCAGTCAACTGTTTCTTTTTTTTTAAAAAAAAGTTTGTCCCTTTAGTCAACTGCTTAGGTCATCTAATTTTATTGTTGATAACTTTATTTGGATAAGTCTTTTTATTAAATTCTTTTTCTGTTTTGTTTATCTTGGAATTTGTAGGTTAAGAATGTGATAGAGAAGCCCCACAATGATCATTTATCTTTAATAGAAGCTAGCAGGTATGCGTGTAGTTTTTTTCTTAGTTGACCGTAAAGTGAATTAGAATTTCGCATAGTGAGTATTTTTACAGATGTTGATTTTTAATAATAGTTTATTCGTAAAGAAAAAGAATTAGTCCATCAATGATTATACTTAATTAATAAAAATTGACTTTGACGTACCTATAGTTATTATGTTTTTTTGAAATGGAAACAAAGTAATAAAATGAAATGAGCCCCATCCTTTCCAAACAAACTAAACTCATAAGTCCAAGGCTTCTTACTCAGCCCGTACAAAGGTAGTAACAAAGATGCCAGGATAACAACAAACATGATAGCCCTCGATAACTTAAGTGTACACTCGAAGGAATGAGGGAGAGAAAGGGAGAGGAGAATGATGTAATACGTGTGAAATGGAAGTTGTTTTATGTGGGAGTGAGTTTGTATTGTTTGTGTGGGGTCCATGGGATATTTGTTTGGTTACAGAAAGCTAGAGAGCCTTTTCGAAGGCAGGGGGAAGGGCAGGTAAATTTCATCTTTCGGCATATTTGTCTTGCAGCTCTTTAGAGCATAGAGAAGGGGGAGATCTTGAACGTTGGTTTTTTGCCTAAATGGTAAATTCATCTGGCCATACACACACATTGTTGCACGTTGGTGTGGAAACTCAAATTCCCCAAAAGTTTGCTAAAATACAACAGTGTTTGGACCACAATTGCGATGGAGTTGACCTTCGTGAAGGATGAGTTATGGTAGACGATTGAACTAAAGATTATATAGGGTAAATATAACGAAACTGTTGAGGGAAGTGGAAGTTATGGATCCATAAGAGAACGATAATCGATGAAGTAAAACAACTGTGTGGTGGAAGAGGAGGAACATACCAAGAAAGCAATGGGAGTTGAGTTGTGGAGCGCCTTAAAAAGAAAGATGAAGATGCACCAACTCACTAAAGATAGTGAGATAACTCGACGGAAGAGGAAGCATAGATATTGGTCAAACTTTGAAAGCTACAAATGACACGATTCAGATGACCCAAATGGGTCAAAATGCCCTAACACACTACAGAATTTGGTCACCCTAAAAGATGCACAAGGAAAAGTAGTCACCACTGTTGTGTATAAGTATCTATCAGATAGTGAATTGAAGAACAAGTAGAGAACATTAAAATCGACCTAACCAAATCAAATGACAAAACCAAAGTGAACCAAACTGAAAATCCTATCTTCATTGAAGTTTTTTAGTTTTGGATTTGAAAGCAGAATTCATAATTGAACCAACTCGTATGTATTAAATATAAAATCAAAAAATCGAACTGAACCAAGTTGAATATTTTGCAGTTGGGTTTGGACCAAATAAATGGTTTGGTTCAAATTTGGTATATATCAGAACTAGCTTGCCAACAAGAGTTAAACTTAATTGGCATCTGTATGTGTTAAAGACCAAGCTGAATATGCTTCCATTGTAATAAAAATTAATGTCCAAATCATCGATGCTTGAAGAGAGAGCTGGACATTATGGTGCACCATGATGATGAATTGGTGAAACAGGAAATTTGGGTGGTGGATGAAGTGGCAACTTCGTTAGAAATGCTCGATATTGAACCCAAACTAGTTAAGGTTGTGAATTTGTTGTTAAATGCATTGGTGGGTCTTTGTGGTGGGTTGATGGTTTGCTCCATTAAGATGTGAAAGTGAGGAACAAGCAGCCACCTTATGCAAAATTAAGGATTGGTACAAGTCGGTCCTTTTCATCTGAAATTCGGTCAATGGGATCTGATCCTTCCATACAAAAATCAAGTTGCCCCTTTTTACGAGGGGTTGGATCAAAATCAGAAACCTGCCTCTCGACAGGTGGGACAATGATACTTTCAAATCTATAGGTAATCAGTATGACGAGACAACTATACAATGGAAAGATACTATCTTGTCTTGACCTAATGGACACTACCATAAAAATCAATGGATTTATTCTGGTTGAGGTATGGATACCATCCTCCTACTCCTCATCTTTCTCCATCCACATTTACCCTTTCTTCTCAATAGAGAACTATATTGGCTACTTGGTCCACGGAATCATACCGCCGACTAAATTGTACACTGTCAATCAAAGAGGATGTTCAGATTCAACCCAAACCGAACAAAGTCCAAGCACAAAATGACAAATGAATTTGAAGTTATCGTTGCTGCAACCATACCTTCGGCTCCACTAGACAATTTAGTCAGTGGTTTTGTGGACAATTTAGTTGGCCGTATGGTTTTGTGGACCCATACCTTTGGCTCTAGTCCCACTTCTCCACCTGAAATTTCTTTGCCACCACCTCCTCGTTCTTCACCCACCGCTCCACTTACTCGAGCTTGACCCACCTCCATGCTTACATCTCAACATGGCCTACCTCCATCCAACTCCACGCCTACAACCCCACAAGTTCCATCTCCTCAAGCCTCTCAATAAACCCACCATTAACCCAAATAACCAAAAGCCCAACCCAACAAAATACCCAACTGCCCTACTAGGAAACCAAACCATCAACCCACCACAAAGACCCAACCCAATATCGAACACTGACCTAGCCCCAATTTCAACCCAGCTCGACATAACTCTCCCCAAACTACCTACAGATACCACATCTTTAGGTTACAAAATCATTGTTGTCAATAATAAATGAACCTGTTTTCTGCTAGGCAACAAATATTCAACCAACATCTAGTGAGGAAATCAACTCCAACAATTATCTTTTGAGTCCCCTACCTCTCAACGTTGCTCCACCACCTCTCCTCCTCCCATACCCCTCATGTTACAGGACACTACCATTGGACAAGCTATGGTTGAAGGCGAAGCAACTACAACTCCTGACCCCATCAATATCTCAACTCCTCACCCAGAATCTGATTGCGAAGAGGGACTAGAAGACTGAGTTTTACTTAAAATTTATCCAACCATGGCTATCCAAGACCGAACGCTATATCATTTTGCTCATGCGGCAAATAAGAACCACAAGATTGCGAACAAACAACTTCTTATCAGGGAATTAACAGGTTTTCATTCACCCATTAATTATGACAAGCCACCATTTTCCTCCATCCATGGTGGACGATCCACTTCGTCATGATCGTCATCTCGTGGAATGTCAGAGGCCATAGAGGCTAGGAAGCGGGCCCTTATGAAATGAGAGATTTCCGTACACAGCCCAACCATTGTCATCCATCAAGAAACAAAAACTATTCATAGATTTCCGTACACAGCCCAACCATTGTCATCCATCAAGAAACAAAAACTATTCATATTGAACAACTCTTCATCAAATCTATCTGGAGCTCTTGTAACATTGGATGGACTTCATTAGAGGCAAATGGTTCATCGAGGTATTCATTTTATATGGAATAACCTTGCCTTTACCATATCAGACATTGCTAAAGGTCAATGCACTCTCATTATGCTCATTACTATAGTTGATGGCTTTAATTTTTGGTTATATGGTATTTACGACCTCTTCTGTTATAGAGAAATACTTGTCTTCTGGCAAGAGTTAGAAGACCTATCAGCTCTTTGCATGGAAACTGGATTTTGGGTGGCGATTTCAACATGATAAGATGGAAGCAAGAGAAATTTAAGGACTGATCACGAGAATTATAAGAAACTTCAACATATTCATAGATAAAAATGGGCTCAATACTTGGTCTTAGTGGATAGACTCCCCTTCTTTGACATGTATCGATTAATTCCTGGGCTCTATACTTGGTCTTAGTGGATAGATTCCCCTTCTTTGACTTGTATCGTTTGATTCCTCGTGACAGATTCCATCCTCAACAAGTGTAAGGAAGCTACCACAAGAAAGCTCAATAGGCCAACATCAGACCATTTTCTCATTATGCTAAAGCTTGGAAATATTAATTGGGGTCTTCTTCCTTTTTGCTTTGAGGACATCTAGCACCTTTGCCTCTACTTGATAAATGGTGGCACGTTAATCCCCTCATTGGTTGGCCGATCTATGGTACCATACAGAAGTTTAAGACTTTCAAACCTGTGGTCAAAGATCGGAACAAATCAACATTTTGCTGCCTTCTATTCCTGAAGTGATTGCTATTTGAGCTTGCTGGTATCGACACTCTTGAAGAGAATAACTCCCTGACTCTATCTGACATTGGAACGAAAAGGCAACTTAAAGCACAAATTCATTCCATAAATACAAAAGAAGAAATATCCTGGAGACAAAAATGTAAGAGGTGGCTTAAAGACGGAGATATGAATTCCTCCTATTTCGATCGTCTTATGAATGCTAAAAAGAGGAAATGTTTGATGACAAAAATTCTATCTAGAAAGGGGAACAACCTTCTTATAAAAAAAGAGATTGTGGCTGAACTTACCGCTTTCCATGAGAGTCTTTATATCAAGGATAATGGACATAGAAGTCTCCCACAGATTAACAACTGGGATCCTATAAGAAGTTTTCATGGGAAAGAACCCTTTGATTGGCACACGGTGGGTAAATCCGACGATAGTTTGAAGAGTCCCTAGGTTAGCTTTTCAAGGGCTTGGAGGGAGGTGGAAGCCCCGGCAATGTTCTTTGCAATAGCTGAAGAATTGCTTTTTGGACAGACTTATGGATAGGTGATATCCCCTTAATCTTCAATTCCCTAAGCTTTTCAGAATTGCATTACTACCTGGTGATGGGATAATTCCACTATGTCTTGGGCAATTGTTTTCCGAAGACTATTAGAAGAACATGAAATCTCAGATTTCTAAGCTTTGCTTTATCTACTATCCTCTGAAAGGGTGCTAAATTTGGATGATAGAAGTCATTGGTCACCCAACCCGGGCAACTTTTCAGTTAAGTCTCTTTCAGCCCACCTCGCTTCATCATCCCCTTTGGATAAAGGAATATTCAAAGCTCTGTTGAAATTCAGCAGTCCAAGGAGAGTAAATGTATTGATCTGGATTATGCTTTTTGGCCTTCGAAATTGCTCCTCGATTATGCAAAGAAAGATCCTCGGCAGTTTGCCCTCGGTTCCCTATTTATGAACTGTTCTTATTCAGCCAACTCTTGGGGGAATCTGTTCTCCCTTTACGAAGTGGCTTGGGTATTTGATGGATCTTTAAGCTTGAACATCTTTCAGCTGCTTAGGGACCCGTTTCTACCAAAGCGACATAGAATAATTTGGGAAAACATCCGAAGCATTGCTTGTGGAACTTTGGTTCAAACGTAATCGACGATCTTTCATGACAAGGTGAGGGGTTGGCTCAAAAGATTAGACAATGCAAAAAGAAATACAGCAGCTTAGTGCACTTCGAACAATGAATTTAGTGATTACTCCATTCAAGGTTTATGCTTAAATTGGTCGGCCTTCATCTCACAACCTAAATAGCTCGTGCTGAATTCTCGGCCATATCTCATGACGAAAAATCTTGTTGAAGTCTTTTGCTGAAGATCTCATATTTTTACTTACTAATGTTCGCCTTTGGTGTTTTATTTTAGTCTTATTTTGGACCTGTTTAATCCTTGTAATCCTTATGTTTCTTCCGTTTTTGCCTTATTTGGTTTTTACCTTGTTTTTGTAAGAGTTTCTATGGATTATTTGATGTATCATTAGATATGATGGTTGTGCTAAAGGGTTGTCAACCTAGTTGAGATGTTTGGGTGCGATTCCTAATCCTATTTTTTGGCTTCTTTATTTTTCTCATTGTATAATCCTCTTGTACTTTGAGTTCTATTTAATAAAGAAGTTTGTCTCCTTTTTTCCCAAAAAAAAAAAGAAAAAACAAGCGAATCAACTGTAGCTTCTGTTCCTTGAGAGGGAAATTTTGGATGCCACCAAAAACCTTGGATCTAATGGAACTCCTAGCCCAAATGGATACACCGTTGAATTCTTAAAAAAAACACTGGACCACTCTAAAGGAAGATATTTTAGGTGTATTCCAAGACTTTTTTTAGAAACGGTATCATCAATTCTTGCATGAATGAAATGTCATCTCAAAGAAGATTGATGCAAGATTGGTAGGAGACTAAAGGCCAATCAGTCTTTATTTCATCAATACAAAATCATTGCCAGAGTCCTTTCCGAAAGACAAGAAGGTTCTTCCTTATACCATATCCCTGCTTCCAAACTGCTTTTGTCGAAGGAATATAGATATTAGATGCCTCCTTGATTACAAATGAGATATTGAAGATTGTGCTAGGAAGAAGAGACAGGTAATCATAGTTAAGATTGATATTGAAAAAGCATTTGACTCAGTTGGTTGGGATTTCCTTGATCTTGTCCTTAGGGTAAAAGTTACATCAAATTGGTCTAAAGGGATTAGAGGTCGCATCTCCACAGCCAACTTCTCAAACTTAATCAATGGTCGCCCTTGAGGAAAGATTCATGCCTCAAGGGGTCTTAGACAGGGGGACCATTTATCACTTTTCCTATTCATCATTGTCATGGATTGCCTCTGCAGAATGTTTATTGAAGCTAGCTCCATTTCATCGAATGAAAGGTTTTCAAATGGGGTTCAATTCCATCTAGGTTCACCACCTCCTCTCTGCTGAGGATACCATTCTTTTCTTTGAACTAAAAGAGGATGCTATTGATAAACACTTCGCCATCATCGATTCGTTCGAAAAGGAAACAGGGTTCAGCATTAACCTCAACAAGTTGGAAATTCAGCATTTGCACACCTCCTTAGGACTTGTTTCGGCTTGGCACTAGATATAATTGCAAATTCAATCGATGGCCTTGTTCCTACCTCGGCCTCCCATTGTTTGGCAAACCAAAATCAGTTTCTTTTTGGGACCCCATCGTGGAAAAGATTGAGAAAAGATTATCATCATGGAACCATCAACATATCTTTAAAGGTGGCAGGCTAACTCTTCTTCAGGTGACTATCCAATTTTCCTAGATATTACATGTACTTATTTAAGCTTCTTATCATGGTGGCCAATAAAATTGAGAAGAATTTATAGAAATTTCCTATGAATAGGGGATACCACCCAAAATGGATCTCATCTGGTTTGCTGGGATAGGATCATTAAACCACTCTCCACTGGGGTCTTGGAATTCAAAATTTGAAAGATAAGAATATAGCTCCTTGCTAAATGGGTTTGTGGGACCCCAGACATTTGTGGTCTCTTAGCTTCAGAAGAAATTTGAGGGATGACAAGTTTGATGTCTAGCTTTCTATCACGAATTGCTTACAAGGTGTCCAGCTCAGACATGGGTGATCTCTCCGCTTTGATTTGCGGGAGGTTTGCATCTTGGAAACAATGCTTTTTTTCTCAAGCGGGAAGATTAACTTTGATCAAAGCTGTGCTTTCAGGTGTTCCAATGTACTATTTCTCTCTGTTTAGGATTCCCGGTTTGGTTTGTAAGAGTTTAGAAAAGTACATAAGAGACTTTATGTGGAATGGTATTTATGAAGGAACGAGTTCTCATCTTGTTAGCCGGGAGAAGTGAGGGGGTTTGTTGCATCAAGGGGGTTTGGAGATTGGTAACTTAAGGAATTGCAATAGAGTTTTGTTGGCAAAGTGGCTATGGCGCTTTTATCATGAACCAGAGGCTTTGTGGCACAAAATCATTGAGTAAATATGGTAACCATCCCTCTAAATGGATATCACAAAGGGTTGAAGGTAGTATAAAATCCCCTGGATTAGCAATGCTTTTGAATTACCTTCGTTCTCTTTATTTACTCGTATTGTGGAGTATGGTAAGGACACTTATTTTTTGGAGGATCAGTGGGTGGGAGATAATATTCTTTCTTTTTTTTTTCTGCATTTGTATCACTTATCTACCTTTAAAAATTGTCCTATTTCAGATTTTTTGGTGAGATTTGAAAGTTCTATCTTTTTCCTTTGGGTTTCATTGTAATTTGATTGATAAAGAAACGACTGAGGTTGTTTCTTTTTTGTCTCTCATTGAGAGTTATCTTTTAGAGTGGGGAGAGGATATCCGATTAGTCCTAATTTAGGCTTTTCTTGTAAATCTTTTTTCAAATCTTTGTTGGATACTTCTCGAGCATCTCGAGCATAGAGTCTATGTCTGAGGTTGTTTGGAAGCTCAAGATTCCTAAGAAAGTGAGATTTTTTTATGTGGCAAGTGTTACTTGGTCATGTTAATACTTTACATTGGGTAGTGAGGAAAAGAACTTCTCTTATGGGACCATTTTGCTATATTCTTTGTTAGAAGGCAGAGGAAGACCTTAATCACCTTTTTTGGGAGTTCCATTACACGACAATTGTGTGGAGCTTATTTCTACATGTTTTGGTATTAGTTATGCAGGACAGCATGACAATCAAGCAATGATTAGTGAACTTCTCAATCCACCTTTCAAAGAAAAAGGTTGCTTTTTGTGGTTAGCAGTGTGTGAGCGTTTTTGTGAGATATTTGGGGTGAGAGGAATGATAGAATTTTTAGAAGAAGAGAGTGAGATCTTAGTGATGTCTGCTCCTTGGTTAGATTTCAAGGTTCTCTTTAGACTTCAATTTTGAAGCAGTACTGTAACTTTACGATCCGAGCTTTTCCGTGGATCATTTGGAAGGAAAGAAACAAAAGTCTATTCACTGAGAAGAAAAGCTCCTATGACTGTTTCTTCAACCTTATTATTTATCATGCCATGAGCTGGTGTAAGGCAATTCCCTTTTTCACTCTTATGATCTTTCCTCCCTCTAAACCAACTGGAGAAATCTTATGCAACTCCATTGGTCTTGGGCACAGCCCTTCTCTATATTTCATATATCAATGAAATCATTTCTTTTATCCAAAAAAAAAAAAGAAAAAAAGATTCCATAAAAGCGCATGGGAAGTGCAACTCCAAAGGATTTTTTCTTTTCCATGAAAGCTTCTCCCATTTAGACTATCCATCATCTAGTCATCGACCTTCTTAGGAAGGCAGCTATTCAACCCAAGAGTATTAAAGTGAGCCCTCCCCCTTAAAAGGTTAATTTAATATCCGATATGTGGGCCATCTGCCTACATGATATTAAATTAACCTTTTAAGGAGTGCTCACCATCGTAGCTTGGTGCACCCCTCCTAAACAGTTACTCCACTCTCTAGCAGCGAAATCACAATGTAAAAACAGGTGATCAACTGTTTCCATCTCTCTAAAGCAAAGGCAGCCCATAGAAGGGATCAGAGACCAATTAGGAAATTTCCTTTGGAGCTTCTCTTGAGTATTGAGGCTTCTGTAAGCAATTCCCCATCATCCTTGCAATTTGATTAATCCTTCAACATTTGCTTTTGTGTTTGAGCCTCTAGATGGATTGCCACTGACTAGAAGTAAAAGATCATCCAATTGAATTAATTCTAAGGGCGGGACTGGTAGATGTTTGAGCATACTGATATCCACAATTTTAAAAGGATGAGAATGAACGTCTGATGAAAGAAATGTTGGCGGGGATACTCCGGCCAAACACAAGTCCTTTCTCAAGTATGGCGTTATTAATTATAAAGAAAGATGATAGTTTGAGGTTTTATGCTGGCTATCGCACTCTTATTCGTTTTTATTGTACACTGAGGAATGATTTGTTATTCTATAAAAAGAGATTGATGTTCCATCTGAATTTGGATTCTCTTATAATTATAATCTGATGAGGGGCCATAATGGATTTCTTGTCTGAGAGTTTGTAATAAGATCTAGCAGGTGAACGGTTCTTAACATAAACCATCACCAGATCACTGGGTTTAAAAGTTGATTTGCGGTGACAGATATCAGCTTGGGCACTGTTTAGAGTTTTCAGCCATCAAATGCCCAACGGCTTGAATTTTCAAAACCCGATCAACCACGGTCTACCTCCTCACCTCCTAACAATGAAGGAAAGCTATCTGGGACTTGGGTTAAATTGGGAAATTCATCTAAAAGTTAACAACCCTACTACACAGTGGAAAGTGAAGGGACCACAGAAGCAGTTTTAACCATTAAGGAGTAAACTTAGATAGATGCCTGCATGAGGGCCTGTTTAGTGTTTAATAGATAATATAGAAAACAATTGTCCTTGTTCTCCAGTGATATTTGAAGGCCGTCTCGAACTCACCTAGCTTTTTGTCTAAATAGTAAATACATAAGTTCGGCTGCTATGATTATGTCTAAATAGTATCAGATGTTCTATCCACTGCTTATTGTGATTTATCTACATGTATGTATATATATAATAAAATTATGGTTAAAATCCAATTGTCCAACAGGTGTTTGAATTTTAAATAGGTTGTTAAAGCTTCAATTTTGTGTCTAATAGTACTTGAACTTCAAAACTTCTCATAGATCCCTGTCCAATAAATCTTTTACCTATTTGACTTTTTGTGAAATTTACCACCGATCTTATTAAACGCAAGATTAAAAATTCAAAGTCGTGGATATAAAGTTGAATTTTGTGTTTAATTTATAGTTCACAAATTTTAAAATGAAATTATGTATCATTGCATTGTTCCATCTCATGGGTTTGTTGAAAGTTGCAGGTTGTGTAATATGGACATCATTTCGCACGTGCAGCAGGTCATTTGCTTTGCATTTCATGATAGTAGGTTGCTCATGGAAACATGTCAAGAGGCAAAAAATCTCCGGAAAATTGTCACGCTTTTTTATCTCGACTAAGAAGTAGGTGGAAAATCTGTAAATACATTATTTAACCGATATTACATATTTCGCCTAATTTTGCTTGTAAAGTTGCTATCGTTGATGCTGCCTGCTGGTGCTCAAAGTTTTCCAATCATTGTGACAGTGGAAAAGAGGCCAATTTGCCTTTCCAAAGAGATTTTTATTTTTTATGTTTGATA

mRNA sequence

ACAACTTTTCTTCAGCTTAAAACTAGAAAGAGAGAGAGAGGTCCAGAGGATGACTTCTTCTTCTTCTTCTTTATCTCTCTGCCTCTTCTTCCCTTTTCCTTCTTCTTCTTCTTCCTCTTCTCTTAGATTCATCAACATTTCCAATCCCTTCTTCTCCCCAAGCCCTAATTTCCCACTTCTTGTTTCTTCCAGGCGCCGCTCTTCTCTCAATACATCTCTGTGGATTCGAGGGCATATAAGAGGAGATACAGATGGGGAAAGTAGTGTGCCTCAAAAGAAGAATACAACGCGGATGTTTGGATTTGGATCTAATGATGAGACAGGCACTCAAATTCCAACCCAAGCCCAATCGATTGTGGAAGGATCAGGTTCAGTTATGGTTTCTGAGTTCAAACCAGTTCCTGATGTTGATTATCTACAGGAGTTACTGGCCATTCAACAACAAGGTCCTAGAGCCATTGGCTTCTTTGGAACGCGAAATATGGGTTTCTTGCATCAAGAACTTATTGAGATTCTTAGCTATGCAATGGTTATAACGAAGAACCACATCTATACTTCAGGAGCATCTGGAACCAATGCAGCAGTTATCAGAGGTGCATTGAGGGCTGAAAAACCAGAACTGCTTACTGTCATTTTGCCACAAAGTTTGAAAAAACAACCTCCTGAAAGCCAGGAATTGTTATCCAAAGTTAAGAATGTGATAGAGAAGCCCCACAATGATCATTTATCTTTAATAGAAGCTAGCAGGTTGTGTAATATGGACATCATTTCGCACGTGCAGCAGGTCATTTGCTTTGCATTTCATGATAGTAGGTTGCTCATGGAAACATGTCAAGAGGCAAAAAATCTCCGGAAAATTGTCACGCTTTTTTATCTCGACTAAGAAGTAGGTGGAAAATCTGTAAATACATTATTTAACCGATATTACATATTTCGCCTAATTTTGCTTGTAAAGTTGCTATCGTTGATGCTGCCTGCTGGTGCTCAAAGTTTTCCAATCATTGTGACAGTGGAAAAGAGGCCAATTTGCCTTTCCAAAGAGATTTTTATTTTTTATGTTTGATA

Coding sequence (CDS)

ATGACTTCTTCTTCTTCTTCTTTATCTCTCTGCCTCTTCTTCCCTTTTCCTTCTTCTTCTTCTTCCTCTTCTCTTAGATTCATCAACATTTCCAATCCCTTCTTCTCCCCAAGCCCTAATTTCCCACTTCTTGTTTCTTCCAGGCGCCGCTCTTCTCTCAATACATCTCTGTGGATTCGAGGGCATATAAGAGGAGATACAGATGGGGAAAGTAGTGTGCCTCAAAAGAAGAATACAACGCGGATGTTTGGATTTGGATCTAATGATGAGACAGGCACTCAAATTCCAACCCAAGCCCAATCGATTGTGGAAGGATCAGGTTCAGTTATGGTTTCTGAGTTCAAACCAGTTCCTGATGTTGATTATCTACAGGAGTTACTGGCCATTCAACAACAAGGTCCTAGAGCCATTGGCTTCTTTGGAACGCGAAATATGGGTTTCTTGCATCAAGAACTTATTGAGATTCTTAGCTATGCAATGGTTATAACGAAGAACCACATCTATACTTCAGGAGCATCTGGAACCAATGCAGCAGTTATCAGAGGTGCATTGAGGGCTGAAAAACCAGAACTGCTTACTGTCATTTTGCCACAAAGTTTGAAAAAACAACCTCCTGAAAGCCAGGAATTGTTATCCAAAGTTAAGAATGTGATAGAGAAGCCCCACAATGATCATTTATCTTTAATAGAAGCTAGCAGGTTGTGTAATATGGACATCATTTCGCACGTGCAGCAGGTCATTTGCTTTGCATTTCATGATAGTAGGTTGCTCATGGAAACATGTCAAGAGGCAAAAAATCTCCGGAAAATTGTCACGCTTTTTTATCTCGACTAA

Protein sequence

MTSSSSSLSLCLFFPFPSSSSSSSLRFINISNPFFSPSPNFPLLVSSRRRSSLNTSLWIRGHIRGDTDGESSVPQKKNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDIISHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD
Homology
[Close]
BLAST of MELO.jh001535.1 vs. NCBI nr
Match: XP_008447166.1 (PREDICTED: uncharacterized protein LOC103489683 isoform X1 [Cucumis melo])

HSP 1 Score: 537 bits (1384), Expect = 2.57e-192
Identity = 277/277 (100.00%), Postives = 277/277 (100.00%), Query Frame = 0 

Query: 1   MTSSSSSLSLCLFFPFPSSSSSSSLRFINISNPFFSPSPNFPLLVSSRRRSSLNTSLWIR 60
           MTSSSSSLSLCLFFPFPSSSSSSSLRFINISNPFFSPSPNFPLLVSSRRRSSLNTSLWIR
Sbjct: 1   MTSSSSSLSLCLFFPFPSSSSSSSLRFINISNPFFSPSPNFPLLVSSRRRSSLNTSLWIR 60

Query: 61  GHIRGDTDGESSVPQKKNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDV 120
           GHIRGDTDGESSVPQKKNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDV
Sbjct: 61  GHIRGDTDGESSVPQKKNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDV 120

Query: 121 DYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVI 180
           DYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVI
Sbjct: 121 DYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVI 180

Query: 181 RGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDII 240
           RGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDII
Sbjct: 181 RGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDII 240

Query: 241 SHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 277
           SHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD
Sbjct: 241 SHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 277

[Close]
BLAST of MELO.jh001535.1 vs. NCBI nr
Match: XP_004139811.1 (uncharacterized protein LOC101209189 isoform X1 [Cucumis sativus] >KAE8646086.1 hypothetical protein Csa_016304 [Cucumis sativus])

HSP 1 Score: 519 bits (1336), Expect = 4.95e-185
Identity = 268/274 (97.81%), Postives = 270/274 (98.54%), Query Frame = 0 

Query: 4   SSSSLSLCLFFPFPSSSSSSSLRFINISNPFFSPSPNFPLLVSSRRRSSLNTSLWIRGHI 63
           SSSSLSLCLFFPFPSSSSSS LRFINISNPFFSPSPNFPL VSSRRRSSLNTSLWIRGHI
Sbjct: 3   SSSSLSLCLFFPFPSSSSSS-LRFINISNPFFSPSPNFPLFVSSRRRSSLNTSLWIRGHI 62

Query: 64  RGDTDGESSVPQKKNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYL 123
           RGDTDG+SSVPQK NT RMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYL
Sbjct: 63  RGDTDGDSSVPQKNNTMRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYL 122

Query: 124 QELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGA 183
           QELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGA
Sbjct: 123 QELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGA 182

Query: 184 LRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDIISHV 243
           LRAEKPELLTVILPQSLKKQPPESQELLSKV+NVIEKPHNDHLSLIEASRLCNMDIISHV
Sbjct: 183 LRAEKPELLTVILPQSLKKQPPESQELLSKVRNVIEKPHNDHLSLIEASRLCNMDIISHV 242

Query: 244 QQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 277
           QQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD
Sbjct: 243 QQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 275

[Close]
BLAST of MELO.jh001535.1 vs. NCBI nr
Match: XP_038888204.1 (uncharacterized protein LOC120078074 isoform X1 [Benincasa hispida])

HSP 1 Score: 494 bits (1271), Expect = 4.29e-175
Identity = 256/277 (92.42%), Postives = 266/277 (96.03%), Query Frame = 0 

Query: 2   TSSSSSLSLCLFFPFPSSSSSSSLRFINISNPFFSPSPNFPLLVSS-RRRSSLNTSLWIR 61
           +SSSSSLSLCLFFP PSS S   LR+INISN FFSP+PNFPL  SS RRR SLNTSLWI+
Sbjct: 4   SSSSSSLSLCLFFPLPSSPS---LRYINISNSFFSPNPNFPLFTSSSRRRPSLNTSLWIQ 63

Query: 62  GHIRGDTDGESSVPQKKNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDV 121
           GHIRGD DG+SS+P+KK+TT+MFGFGSNDETGTQ+PTQAQSIVEGSGSVMVSEFKPVPDV
Sbjct: 64  GHIRGDKDGDSSMPRKKHTTQMFGFGSNDETGTQLPTQAQSIVEGSGSVMVSEFKPVPDV 123

Query: 122 DYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVI 181
           DYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVI
Sbjct: 124 DYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVI 183

Query: 182 RGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDII 241
           RGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDII
Sbjct: 184 RGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDII 243

Query: 242 SHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 277
           SHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD
Sbjct: 244 SHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 277

[Close]
BLAST of MELO.jh001535.1 vs. NCBI nr
Match: XP_022971993.1 (uncharacterized protein LOC111470645 [Cucurbita maxima])

HSP 1 Score: 457 bits (1177), Expect = 6.27e-161
Identity = 235/261 (90.04%), Postives = 247/261 (94.64%), Query Frame = 0 

Query: 18  SSSSSSSLRFINISNPFFSPSPNFPLLVS-SRRRSSLNTSLWIRGHIRGDTDGESSVPQK 77
           SSSSS SLRFIN  NPFFSP+PNFPL    S RR SLN++L I+GH RGD DG+ SVP+K
Sbjct: 7   SSSSSLSLRFINTPNPFFSPTPNFPLFTHFSTRRPSLNSTLLIQGHRRGDKDGDGSVPRK 66

Query: 78  KNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRA 137
           KNTT+M+GFGSNDE+GTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRA
Sbjct: 67  KNTTQMYGFGSNDESGTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRA 126

Query: 138 IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVIL 197
           IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVIL
Sbjct: 127 IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVIL 186

Query: 198 PQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDIISHVQQVICFAFHDSRL 257
           PQSLKKQPPESQELLSKVKNVIEKP+NDHL L+EASRLCNMDIISHVQQVICFAFHDSRL
Sbjct: 187 PQSLKKQPPESQELLSKVKNVIEKPYNDHLPLMEASRLCNMDIISHVQQVICFAFHDSRL 246

Query: 258 LMETCQEAKNLRKIVTLFYLD 277
           LM+TCQEAKNLRKIVTLFYLD
Sbjct: 247 LMDTCQEAKNLRKIVTLFYLD 267

[Close]
BLAST of MELO.jh001535.1 vs. NCBI nr
Match: XP_022952960.1 (uncharacterized protein LOC111455482 isoform X1 [Cucurbita moschata])

HSP 1 Score: 457 bits (1176), Expect = 8.91e-161
Identity = 235/261 (90.04%), Postives = 246/261 (94.25%), Query Frame = 0 

Query: 18  SSSSSSSLRFINISNPFFSPSPNFPLLVS-SRRRSSLNTSLWIRGHIRGDTDGESSVPQK 77
           SSSSS SLRFIN  NPFFSP+PNFPL    S RR SLN++L I+GH RGD DG+ SVP+K
Sbjct: 7   SSSSSLSLRFINTPNPFFSPTPNFPLFTHFSTRRPSLNSTLLIQGHRRGDKDGDGSVPRK 66

Query: 78  KNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRA 137
           KNTT+M+GFGSNDE+GTQIPTQ QSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRA
Sbjct: 67  KNTTQMYGFGSNDESGTQIPTQVQSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRA 126

Query: 138 IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVIL 197
           IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVIL
Sbjct: 127 IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVIL 186

Query: 198 PQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDIISHVQQVICFAFHDSRL 257
           PQSLKKQPPESQELLSKVKNVIEKP+NDHL LIEASRLCNMDIISHVQQVICFAFHDSRL
Sbjct: 187 PQSLKKQPPESQELLSKVKNVIEKPYNDHLPLIEASRLCNMDIISHVQQVICFAFHDSRL 246

Query: 258 LMETCQEAKNLRKIVTLFYLD 277
           LM+TCQEAKNLRKIVTLFYLD
Sbjct: 247 LMDTCQEAKNLRKIVTLFYLD 267

[Close]
BLAST of MELO.jh001535.1 vs. ExPASy TrEMBL
Match: A0A1S3BHE5 (uncharacterized protein LOC103489683 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103489683 PE=4 SV=1)

HSP 1 Score: 537 bits (1384), Expect = 1.24e-192
Identity = 277/277 (100.00%), Postives = 277/277 (100.00%), Query Frame = 0 

Query: 1   MTSSSSSLSLCLFFPFPSSSSSSSLRFINISNPFFSPSPNFPLLVSSRRRSSLNTSLWIR 60
           MTSSSSSLSLCLFFPFPSSSSSSSLRFINISNPFFSPSPNFPLLVSSRRRSSLNTSLWIR
Sbjct: 1   MTSSSSSLSLCLFFPFPSSSSSSSLRFINISNPFFSPSPNFPLLVSSRRRSSLNTSLWIR 60

Query: 61  GHIRGDTDGESSVPQKKNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDV 120
           GHIRGDTDGESSVPQKKNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDV
Sbjct: 61  GHIRGDTDGESSVPQKKNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDV 120

Query: 121 DYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVI 180
           DYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVI
Sbjct: 121 DYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVI 180

Query: 181 RGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDII 240
           RGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDII
Sbjct: 181 RGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDII 240

Query: 241 SHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 277
           SHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD
Sbjct: 241 SHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 277

[Close]
BLAST of MELO.jh001535.1 vs. ExPASy TrEMBL
Match: A0A6J1I8K9 (uncharacterized protein LOC111470645 OS=Cucurbita maxima OX=3661 GN=LOC111470645 PE=4 SV=1)

HSP 1 Score: 457 bits (1177), Expect = 3.04e-161
Identity = 235/261 (90.04%), Postives = 247/261 (94.64%), Query Frame = 0 

Query: 18  SSSSSSSLRFINISNPFFSPSPNFPLLVS-SRRRSSLNTSLWIRGHIRGDTDGESSVPQK 77
           SSSSS SLRFIN  NPFFSP+PNFPL    S RR SLN++L I+GH RGD DG+ SVP+K
Sbjct: 7   SSSSSLSLRFINTPNPFFSPTPNFPLFTHFSTRRPSLNSTLLIQGHRRGDKDGDGSVPRK 66

Query: 78  KNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRA 137
           KNTT+M+GFGSNDE+GTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRA
Sbjct: 67  KNTTQMYGFGSNDESGTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRA 126

Query: 138 IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVIL 197
           IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVIL
Sbjct: 127 IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVIL 186

Query: 198 PQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDIISHVQQVICFAFHDSRL 257
           PQSLKKQPPESQELLSKVKNVIEKP+NDHL L+EASRLCNMDIISHVQQVICFAFHDSRL
Sbjct: 187 PQSLKKQPPESQELLSKVKNVIEKPYNDHLPLMEASRLCNMDIISHVQQVICFAFHDSRL 246

Query: 258 LMETCQEAKNLRKIVTLFYLD 277
           LM+TCQEAKNLRKIVTLFYLD
Sbjct: 247 LMDTCQEAKNLRKIVTLFYLD 267

[Close]
BLAST of MELO.jh001535.1 vs. ExPASy TrEMBL
Match: A0A6J1GNC5 (uncharacterized protein LOC111455482 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111455482 PE=4 SV=1)

HSP 1 Score: 457 bits (1176), Expect = 4.31e-161
Identity = 235/261 (90.04%), Postives = 246/261 (94.25%), Query Frame = 0 

Query: 18  SSSSSSSLRFINISNPFFSPSPNFPLLVS-SRRRSSLNTSLWIRGHIRGDTDGESSVPQK 77
           SSSSS SLRFIN  NPFFSP+PNFPL    S RR SLN++L I+GH RGD DG+ SVP+K
Sbjct: 7   SSSSSLSLRFINTPNPFFSPTPNFPLFTHFSTRRPSLNSTLLIQGHRRGDKDGDGSVPRK 66

Query: 78  KNTTRMFGFGSNDETGTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRA 137
           KNTT+M+GFGSNDE+GTQIPTQ QSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRA
Sbjct: 67  KNTTQMYGFGSNDESGTQIPTQVQSIVEGSGSVMVSEFKPVPDVDYLQELLAIQQQGPRA 126

Query: 138 IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVIL 197
           IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVIL
Sbjct: 127 IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPELLTVIL 186

Query: 198 PQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDIISHVQQVICFAFHDSRL 257
           PQSLKKQPPESQELLSKVKNVIEKP+NDHL LIEASRLCNMDIISHVQQVICFAFHDSRL
Sbjct: 187 PQSLKKQPPESQELLSKVKNVIEKPYNDHLPLIEASRLCNMDIISHVQQVICFAFHDSRL 246

Query: 258 LMETCQEAKNLRKIVTLFYLD 277
           LM+TCQEAKNLRKIVTLFYLD
Sbjct: 247 LMDTCQEAKNLRKIVTLFYLD 267

[Close]
BLAST of MELO.jh001535.1 vs. ExPASy TrEMBL
Match: A0A6J1I3X4 (uncharacterized protein LOC111468939 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111468939 PE=4 SV=1)

HSP 1 Score: 452 bits (1164), Expect = 3.74e-159
Identity = 245/277 (88.45%), Postives = 255/277 (92.06%), Query Frame = 0 

Query: 5   SSSLSLC-LFFPFPSSSSSSSLRFINISNPFFSPSPNFPLLVSSRRR--SSLNTSLWIRG 64
           SSSLSLC +FFPFPSSSS S LRFINISNPFF PSPN       RRR  +SL+T L I+G
Sbjct: 4   SSSLSLCCVFFPFPSSSSPS-LRFINISNPFFFPSPN-----GRRRRPPASLHTPLCIQG 63

Query: 65  HIRGDTDGESSVPQKKNTTRMFGFGSNDE-TGTQIPTQAQSIVEGSGSVMVSEFKPVPDV 124
           HI+GD DG+S V Q KNTT+MFGFG NDE TGTQIPTQAQSIVEGSGSVMV+EFKPVPDV
Sbjct: 64  HIKGDKDGDSYVHQTKNTTQMFGFGFNDEKTGTQIPTQAQSIVEGSGSVMVTEFKPVPDV 123

Query: 125 DYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVI 184
           DYLQELLAIQQQGPR+IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVI
Sbjct: 124 DYLQELLAIQQQGPRSIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVI 183

Query: 185 RGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDII 244
           RGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKP+NDHL LIEASRLCNMDII
Sbjct: 184 RGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPYNDHLPLIEASRLCNMDII 243

Query: 245 SHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 277
           SHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD
Sbjct: 244 SHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 274

[Close]
BLAST of MELO.jh001535.1 vs. ExPASy TrEMBL
Match: A0A6J1EWK1 (uncharacterized protein LOC111438980 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111438980 PE=4 SV=1)

HSP 1 Score: 447 bits (1150), Expect = 5.07e-157
Identity = 242/278 (87.05%), Postives = 253/278 (91.01%), Query Frame = 0 

Query: 5   SSSLSLC-LFFPFPSSSSSSSLRFINISNPFFSPSPNFPLLVSSRRR---SSLNTSLWIR 64
           SSSLSLC +FFPFPS S S  LRFINISNPFF PSPN       RRR   +SL++ L I+
Sbjct: 4   SSSLSLCCVFFPFPSPSPS--LRFINISNPFFFPSPN-----GRRRRPPPTSLHSPLCIQ 63

Query: 65  GHIRGDTDGESSVPQKKNTTRMFGFGSNDE-TGTQIPTQAQSIVEGSGSVMVSEFKPVPD 124
           GHI+GD DG+S V Q KNTT+MFGFG NDE TGTQIPTQAQSIVEGSGSVMV+EFKPVPD
Sbjct: 64  GHIKGDKDGDSYVHQTKNTTQMFGFGFNDEKTGTQIPTQAQSIVEGSGSVMVTEFKPVPD 123

Query: 125 VDYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAV 184
           VDYLQELLAIQQQGPR+IGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAV
Sbjct: 124 VDYLQELLAIQQQGPRSIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAV 183

Query: 185 IRGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDI 244
           IRGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKP+NDHL LIEASRLCNMDI
Sbjct: 184 IRGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPYNDHLPLIEASRLCNMDI 243

Query: 245 ISHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 277
           ISHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD
Sbjct: 244 ISHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 274

[Close]
BLAST of MELO.jh001535.1 vs. TAIR 10
Match: AT3G59870.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 23 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G43945.1); Has 292 Blast hits to 292 proteins in 84 species: Archae - 0; Bacteria - 122; Metazoa - 0; Fungi - 0; Plants - 46; Viruses - 0; Other Eukaryotes - 124 (source: NCBI BLink). )

HSP 1 Score: 335.9 bits (860), Expect = 3.1e-92
Identity = 186/267 (69.66%), Postives = 210/267 (78.65%), Query Frame = 0 

Query: 15  PFPSSSSSSSLRFINISNPFFSPSPNFPLLVSSRRR---SSLNTSLWIRGHIRGDTDGES 74
           PF S + +   R  + S    S S +F L    RRR   SS +  +      R   D +S
Sbjct: 22  PFRSDNPNFYRRRSSSSTSCSSQSQSFQLFSVRRRRSRSSSPSIPMCFPEQTRDQDDVDS 81

Query: 75  SVPQKKNTTRMFGFGSN-DETGTQIPTQAQSIVEGSGSVMVSEFKPVPDVDYLQELLAIQ 134
            V ++ N T  F    +   TG +IPTQAQ+IVEG GS+ VSE + VPDVDY+QELLAIQ
Sbjct: 82  WVNKEDNVTCRFDSDEDTTTTGLRIPTQAQAIVEGPGSLAVSELQRVPDVDYIQELLAIQ 141

Query: 135 QQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHIYTSGASGTNAAVIRGALRAEKPE 194
           QQGPR IGFFGTRNMGF+HQELI+ILSYAMVITKNHIYTSGA+GTNAAVIRGALRAE+PE
Sbjct: 142 QQGPRTIGFFGTRNMGFMHQELIQILSYAMVITKNHIYTSGAAGTNAAVIRGALRAERPE 201

Query: 195 LLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLSLIEASRLCNMDIISHVQQVICFA 254
           LLTVILPQSLKKQPPESQELLSKV+NVIEKPHNDHL L+EASRLCNMDIIS VQQ+ICFA
Sbjct: 202 LLTVILPQSLKKQPPESQELLSKVQNVIEKPHNDHLPLLEASRLCNMDIISQVQQIICFA 261

Query: 255 FHDSRLLMETCQEAKNLRKIVTLFYLD 278
           FHDS+LLMETCQEA+NLRKIVTLFYLD
Sbjct: 262 FHDSKLLMETCQEARNLRKIVTLFYLD 288

[Close]
BLAST of MELO.jh001535.1 vs. TAIR 10
Match: AT2G43945.1 (unknown protein; LOCATED IN: chloroplast; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G59870.1); Has 292 Blast hits to 292 proteins in 84 species: Archae - 0; Bacteria - 122; Metazoa - 0; Fungi - 0; Plants - 46; Viruses - 0; Other Eukaryotes - 124 (source: NCBI BLink). )

HSP 1 Score: 334.0 bits (855), Expect = 1.2e-91
Identity = 192/290 (66.21%), Postives = 218/290 (75.17%), Query Frame = 0 

Query: 5   SSSLSLCLFFPFPSSSSS---SSLRFINISNPFFSPSPNFPLLVSSRRRSSLNTSLW--- 64
           SSSL L L  P  +S  S         +  + F S +PNF   +SS    S  + L+   
Sbjct: 2   SSSLPLRLLLPLTTSLISPPPPPPDSFHAPSSFRSKNPNFKRRLSSSSCCSSQSQLFSGR 61

Query: 65  -----------IRGHIRGDTDGESSVPQKKNTTRMFGFGSNDETGTQIPTQAQSIVEGSG 124
                      +  H+R   + E  +   K+        S++++G +IPTQAQ+IVEGSG
Sbjct: 62  CRSYSRCVTMCLPEHMRNQENTE--ILTDKDDHIECVLESDEDSGLRIPTQAQAIVEGSG 121

Query: 125 SVMVSEFKPVPDVDYLQELLAIQQQGPRAIGFFGTRNMGFLHQELIEILSYAMVITKNHI 184
           SV VSE KP  DVDY+QELLAIQQQGPR+IGFFGTRNMGF+HQELIEILSYAMVITKNHI
Sbjct: 122 SVAVSELKPAADVDYIQELLAIQQQGPRSIGFFGTRNMGFMHQELIEILSYAMVITKNHI 181

Query: 185 YTSGASGTNAAVIRGALRAEKPELLTVILPQSLKKQPPESQELLSKVKNVIEKPHNDHLS 244
           YTSGASGTNAAVIRGALRAE+PELLTVILPQSLKKQPPESQELLSKV+NV+EKPHNDHL 
Sbjct: 182 YTSGASGTNAAVIRGALRAERPELLTVILPQSLKKQPPESQELLSKVQNVVEKPHNDHLP 241

Query: 245 LIEASRLCNMDIISHVQQVICFAFHDSRLLMETCQEAKNLRKIVTLFYLD 278
           L+EASRLCNMDIIS VQQVICFAFHDS+LLMETCQEAKNLRKIVTLFYLD
Sbjct: 242 LLEASRLCNMDIISQVQQVICFAFHDSKLLMETCQEAKNLRKIVTLFYLD 289

The following BLAST results are available for this feature:
BLAST of MELO.jh001535.1 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008447166.12.57e-192100.00PREDICTED: uncharacterized protein LOC103489683 isoform X1 [Cucumis melo][more]
XP_004139811.14.95e-18597.81uncharacterized protein LOC101209189 isoform X1 [Cucumis sativus] >KAE8646086.1 ... [more]
XP_038888204.14.29e-17592.42uncharacterized protein LOC120078074 isoform X1 [Benincasa hispida][more]
XP_022971993.16.27e-16190.04uncharacterized protein LOC111470645 [Cucurbita maxima][more]
XP_022952960.18.91e-16190.04uncharacterized protein LOC111455482 isoform X1 [Cucurbita moschata][more]
BLAST of MELO.jh001535.1 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of MELO.jh001535.1 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3BHE51.24e-192100.00uncharacterized protein LOC103489683 isoform X1 OS=Cucumis melo OX=3656 GN=LOC10... [more]
A0A6J1I8K93.04e-16190.04uncharacterized protein LOC111470645 OS=Cucurbita maxima OX=3661 GN=LOC111470645... [more]
A0A6J1GNC54.31e-16190.04uncharacterized protein LOC111455482 isoform X1 OS=Cucurbita moschata OX=3662 GN... [more]
A0A6J1I3X43.74e-15988.45uncharacterized protein LOC111468939 isoform X1 OS=Cucurbita maxima OX=3661 GN=L... [more]
A0A6J1EWK15.07e-15787.05uncharacterized protein LOC111438980 isoform X1 OS=Cucurbita moschata OX=3662 GN... [more]
BLAST of MELO.jh001535.1 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G59870.13.1e-9269.66unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT2G43945.11.2e-9166.21unknown protein; LOCATED IN: chloroplast; BEST Arabidopsis thaliana protein matc... [more]
InterPro
Analysis Name: InterPro Annotations of Melon (Harukei-3) v1.41
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availablePANTHERPTHR32183:SF6CYANOBACTERIA-SPECIFIC PROTEIN-LIKEcoord: 49..277
NoneNo IPR availableSUPERFAMILY102405MCP/YpsA-likecoord: 128..205
IPR044995Thiocyanate methyltransferase/thiol methyltransferasePANTHERPTHR32183FAMILY NOT NAMEDcoord: 49..277

Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
MELO.jh001535.1.t1MELO.jh001535.1.t1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
molecular_function GO:0008757 S-adenosylmethionine-dependent methyltransferase activity