MELO3C003018 (gene) Melon (DHL92) v3.5.1

Overview
NameMELO3C003018
Typegene
OrganismCucumis melo (Melon (DHL92) v3.5.1)
DescriptionRegulator of Vps4 activity in the MVB pathway protein
Locationchr9 : 10007814 .. 10035962 (+)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

TGGTAAGGAAACGGAAGAACTTTTTCATAATCGATCGAATCAGCTCTGCAAATAACGCGGCTCGGGGAACCGAAGGCTCACACCATTCAAATAATTCTTCCAAGGAAGACTGTTCCGACCTTAATATTAAAAGGGCAAAAAGAAAAGAAAAAAAAAAAACAAGTACACACACATTCATCTTCTTCCTTTAATCTTCAATGTCACTCCTCAATCAACTCTTTAACAGAGGTGTCTTTGCCGGAAAATGGTGGAGCATGTAATACGGGAACAAAACATATGGGATGCATATGAAATTTTAGAGCTGTTTTGTGAGTTTGTTCTTGCACGTGTCCCAATCATCGAAAGCCAGAGAGAATGTCCCGTTGAACTGCGAGAGGCTATTGCAAGCATAATATTTGCTGCTCCTAGATGTTCCGACCTTCCAGATTTGCTTCAGCTGAAGAATTTGTTTGCAGTGAAATATGGGAAAGAATTTGTCTCTGCTATTTCAGAGCTTCGTCCTGATTCTGGAGTTAATCGATCAATTATTGAAAAGCTTTCAGTCAGTGCTCCTCCTGGGGAACTAAAGCTCAAGGTCATGAAGGAGATTGCTAAACAACACGGACTCAACTGGGATTCTTCGAGCACAGTATCTGAATTTAGTAAAACCCACGAAGATCTGCTGGGCGGACCCAAGGGAGTACAAGGAGCAGCAGTCTCTCAAACTCCTCAACACAGCTTCTTGAATCCTTCCATTTCTTATGGGTCGGCACTTCTTGCTGCATCTCCCATGGGAAAGAAAGAACCCGAACACCACCATGCAGTCGGCCCAATTAACTATAATACGAATGAAATCAAACCAGAACCTAAAAGTTTTGATGTCAAACCAGAAGTTGCTGCTAAATTAGATACAAGACCACCACCATCTGACGTATTAGAGAAAGCCAAAGCTGCCATTGCTTCAGCTGAGCGTGCCACTGCAGCAGCCCGAGTAGCTGCAGAGCTAGCAAATGTCAACCTTGGAACAATGAAGTTCGAAGGAGGACAAACTTCGGAGTGCTGAAGACAAAAAGAAATGTAATTTATACCTTTGTTTGATACCGGACTCGTGCATAAAGTCTGTTTGATGTTAGTTGAGTCTTAAAATCTTGAAGAGTGATGAGTCAGTCAACCAGTGGATCCAAATCTATGTAATTAATACAGTTTCAAGTAAACTTTATTTTCAAGTATTTGTTGTAAAATACTCAAGTTCTTATTTCACAAAGTCTCACCTTTGGTGATGTTGGTCTAGTTCTAATGGTTCAGCAGTTTGATATGAATGTCACATTAGATGAAAAGTAAGTTTGCTCTAAAATATGAGCAATGTTCTT

Coding sequence (CDS)

ATGGTGGAGCATGTAATACGGGAACAAAACATATGGGATGCATATGAAATTTTAGAGCTGTTTTGTGAGTTTGTTCTTGCACGTGTCCCAATCATCGAAAGCCAGAGAGAATGTCCCGTTGAACTGCGAGAGGCTATTGCAAGCATAATATTTGCTGCTCCTAGATGTTCCGACCTTCCAGATTTGCTTCAGCTGAAGAATTTGTTTGCAGTGAAATATGGGAAAGAATTTGTCTCTGCTATTTCAGAGCTTCGTCCTGATTCTGGAGTTAATCGATCAATTATTGAAAAGCTTTCAGTCAGTGCTCCTCCTGGGGAACTAAAGCTCAAGGTCATGAAGGAGATTGCTAAACAACACGGACTCAACTGGGATTCTTCGAGCACAGTATCTGAATTTAGTAAAACCCACGAAGATCTGCTGGGCGGACCCAAGGGAGTACAAGGAGCAGCAGTCTCTCAAACTCCTCAACACAGCTTCTTGAATCCTTCCATTTCTTATGGGTCGGCACTTCTTGCTGCATCTCCCATGGGAAAGAAAGAACCCGAACACCACCATGCAGTCGGCCCAATTAACTATAATACGAATGAAATCAAACCAGAACCTAAAAGTTTTGATGTCAAACCAGAAGTTGCTGCTAAATTAGATACAAGACCACCACCATCTGACGTATTAGAGAAAGCCAAAGCTGCCATTGCTTCAGCTGAGCGTGCCACTGCAGCAGCCCGAGTAGCTGCAGAGCTAGCAAATGTCAACCTTGGAACAATGAAGTTCGAAGGAGGACAAACTTCGGAGTGCTGA

Protein sequence

MVEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPDLLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGLNWDSSSTVSEFSKTHEDLLGGPKGVQGAAVSQTPQHSFLNPSISYGSALLAASPMGKKEPEHHHAVGPINYNTNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAERATAAARVAAELANVNLGTMKFEGGQTSEC*
Homology
[Close]
BLAST of MELO3C003018 vs. Swiss-Prot
Match: IST1_BOVIN (IST1 homolog OS=Bos taurus GN=IST1 PE=2 SV=1)

HSP 1 Score: 83.6 bits (205), Expect = 3.6e-15
Identity = 48/129 (37.21%), Postives = 76/129 (58.91%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRC-SDLP 61
           VEH+IRE  + +A EILEL+C+ +LAR  +I+S +E    L E+++++I+AAPR  S++ 
Sbjct: 56  VEHIIREDYLVEAMEILELYCDLLLARFGLIQSMKELDSGLAESVSTLIWAAPRLQSEVA 115

Query: 62  DLLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHG 121
           +L  + +    KY KE+   +        VN  ++ KLSV APP  L  + + EIAK + 
Sbjct: 116 ELKIVADQLCAKYSKEY-GKLCRTNQIGTVNDRLMHKLSVEAPPKILVERYLIEIAKNYN 175

Query: 122 LNWDSSSTV 130
           + ++  S V
Sbjct: 176 VPYEPDSVV 183

[Close]
BLAST of MELO3C003018 vs. Swiss-Prot
Match: IST1_HUMAN (IST1 homolog OS=Homo sapiens GN=IST1 PE=1 SV=1)

HSP 1 Score: 83.6 bits (205), Expect = 3.6e-15
Identity = 48/129 (37.21%), Postives = 76/129 (58.91%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRC-SDLP 61
           VEH+IRE  + +A EILEL+C+ +LAR  +I+S +E    L E+++++I+AAPR  S++ 
Sbjct: 56  VEHIIREDYLVEAMEILELYCDLLLARFGLIQSMKELDSGLAESVSTLIWAAPRLQSEVA 115

Query: 62  DLLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHG 121
           +L  + +    KY KE+   +        VN  ++ KLSV APP  L  + + EIAK + 
Sbjct: 116 ELKIVADQLCAKYSKEY-GKLCRTNQIGTVNDRLMHKLSVEAPPKILVERYLIEIAKNYN 175

Query: 122 LNWDSSSTV 130
           + ++  S V
Sbjct: 176 VPYEPDSVV 183

[Close]
BLAST of MELO3C003018 vs. Swiss-Prot
Match: IST1_MOUSE (IST1 homolog OS=Mus musculus GN=Ist1 PE=1 SV=1)

HSP 1 Score: 83.6 bits (205), Expect = 3.6e-15
Identity = 48/129 (37.21%), Postives = 76/129 (58.91%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRC-SDLP 61
           VEH+IRE  + +A EILEL+C+ +LAR  +I+S +E    L E+++++I+AAPR  S++ 
Sbjct: 56  VEHIIREDYLVEAMEILELYCDLLLARFGLIQSMKELDSGLAESVSTLIWAAPRLQSEVA 115

Query: 62  DLLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHG 121
           +L  + +    KY KE+   +        VN  ++ KLSV APP  L  + + EIAK + 
Sbjct: 116 ELKIVADQLCAKYSKEY-GKLCRTNQIGTVNDRLMHKLSVEAPPKILVERYLIEIAKNYN 175

Query: 122 LNWDSSSTV 130
           + ++  S V
Sbjct: 176 VPYEPDSVV 183

[Close]
BLAST of MELO3C003018 vs. Swiss-Prot
Match: IST1_RAT (IST1 homolog OS=Rattus norvegicus GN=Ist1 PE=2 SV=1)

HSP 1 Score: 83.6 bits (205), Expect = 3.6e-15
Identity = 48/129 (37.21%), Postives = 76/129 (58.91%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRC-SDLP 61
           VEH+IRE  + +A EILEL+C+ +LAR  +I+S +E    L E+++++I+AAPR  S++ 
Sbjct: 56  VEHIIREDYLVEAMEILELYCDLLLARFGLIQSMKELDSGLAESVSTLIWAAPRLQSEVA 115

Query: 62  DLLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHG 121
           +L  + +    KY KE+   +        VN  ++ KLSV APP  L  + + EIAK + 
Sbjct: 116 ELKIVADQLCAKYSKEY-GKLCRTNQIGTVNDRLMHKLSVEAPPKILVERYLIEIAKNYN 175

Query: 122 LNWDSSSTV 130
           + ++  S V
Sbjct: 176 VPYEPDSVV 183

[Close]
BLAST of MELO3C003018 vs. Swiss-Prot
Match: IST1_PONAB (IST1 homolog OS=Pongo abelii GN=IST1 PE=2 SV=1)

HSP 1 Score: 80.9 bits (198), Expect = 2.4e-14
Identity = 47/129 (36.43%), Postives = 75/129 (58.14%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRC-SDLP 61
           VEH+IRE  + +A EILEL+C+ +LAR  +I+S +E    L E+++++I+AAPR  S++ 
Sbjct: 56  VEHIIREDYLVEAMEILELYCDLLLARFGLIQSMKELDSGLAESVSTLIWAAPRLQSEVA 115

Query: 62  DLLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHG 121
           +L  + +    KY K +   +        VN  ++ KLSV APP  L  + + EIAK + 
Sbjct: 116 ELKIVADQLCAKYSKGY-GKLCRTNQIGTVNDRLMHKLSVEAPPKILVERYLIEIAKNYN 175

Query: 122 LNWDSSSTV 130
           + ++  S V
Sbjct: 176 VPYEPDSVV 183

[Close]
BLAST of MELO3C003018 vs. TrEMBL
Match: A0A0A0KMU2_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G367190 PE=4 SV=1)

HSP 1 Score: 491.5 bits (1264), Expect = 6.5e-136
Identity = 254/264 (96.21%), Postives = 258/264 (97.73%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEHVIREQNIW AYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD
Sbjct: 62  VEHVIREQNIWAAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 121

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAK+HGL
Sbjct: 122 LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKEHGL 181

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGVQGAAVSQTPQHSFLNPSISYGSALLAASPMGKKEP 181
           NWDSSST SEFSKTHEDLLGGPKGVQG+AVSQTPQHS LNPSIS+ SA LAASPMGKKEP
Sbjct: 182 NWDSSSTASEFSKTHEDLLGGPKGVQGSAVSQTPQHS-LNPSISHVSAHLAASPMGKKEP 241

Query: 182 EHHHAVGPINYNTNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAERATAAA 241
           EHHHAVGPI+YNTNEIKPEPKSFDVKPEVAAKLDTR PPSDVLEKAKAAIASAERATAAA
Sbjct: 242 EHHHAVGPISYNTNEIKPEPKSFDVKPEVAAKLDTR-PPSDVLEKAKAAIASAERATAAA 301

Query: 242 RVAAELANVNLGTMKFEGGQTSEC 266
           RVAAELANVNLGTMKFEGGQTSEC
Sbjct: 302 RVAAELANVNLGTMKFEGGQTSEC 323

[Close]
BLAST of MELO3C003018 vs. TrEMBL
Match: A0A061ED43_THECC (Regulator of Vps4 activity in the MVB pathway protein OS=Theobroma cacao GN=TCM_009773 PE=4 SV=1)

HSP 1 Score: 304.7 bits (779), Expect = 1.1e-79
Identity = 166/264 (62.88%), Postives = 201/264 (76.14%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEH+IREQNIW AYEILELFCEFVLARVPI+ESQ+ECP ELREA+ASIIFAAPRCSD+PD
Sbjct: 62  VEHIIREQNIWAAYEILELFCEFVLARVPILESQKECPSELREAVASIIFAAPRCSDVPD 121

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           LLQ+KNLF+ KYGKEFV+A SELRPDS VNR+IIEKLSVSAP GE++LKV+KEIA++H +
Sbjct: 122 LLQIKNLFSTKYGKEFVTAASELRPDSSVNRAIIEKLSVSAPSGEIRLKVLKEIAQEHSV 181

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGV-QGAAVSQT-PQHSFLNPSISYGSALLAASPMGKK 181
            WDSSST +EFSK HEDLL G K V   AAVSQ+  + + + PS S G+  +  +   K+
Sbjct: 182 EWDSSSTEAEFSKKHEDLLAGSKQVCAEAAVSQSIIRQASIKPSPSNGAKPVLLT-NAKQ 241

Query: 182 EPEHHHAVGPIN----YNTNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAE 241
             +H  A GP++      ++EI+P  K+         K +T   PSDVLE+A+AAIASAE
Sbjct: 242 ASQHQQAPGPVSKAALLTSSEIEPSAKNCTAGSVSDIKTETTSRPSDVLERARAAIASAE 301

Query: 242 RATAAARVAAELANVNLGTMKFEG 260
            A AAAR AAEL NV  G+MK EG
Sbjct: 302 CAIAAARAAAELVNVKFGSMKLEG 324

[Close]
BLAST of MELO3C003018 vs. TrEMBL
Match: I1NFJ6_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_20G116300 PE=4 SV=1)

HSP 1 Score: 302.8 bits (774), Expect = 4.3e-79
Identity = 167/263 (63.50%), Postives = 195/263 (74.14%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEH+IREQN W AYEILELFCEFVLARVPIIE+QRECP ELREAIASIIFAAPRCSD+PD
Sbjct: 26  VEHIIREQNTWAAYEILELFCEFVLARVPIIENQRECPTELREAIASIIFAAPRCSDVPD 85

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           LL +KNLF  KYGKEFVSA+SELRPDSGVNR+IIEKLSVSAP GE+KLKV++EIA+++ +
Sbjct: 86  LLHIKNLFTTKYGKEFVSAVSELRPDSGVNRTIIEKLSVSAPSGEVKLKVLREIAEEYNI 145

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGVQ-GAAVSQTPQHSFLNPSISYGSALLAASPMGKKE 181
            WDSS T +EF K HEDLLGG K V  GA +S TP  +  N      +         K+E
Sbjct: 146 AWDSSKTEAEFRKNHEDLLGGAKQVSAGATLSHTPSRNGSNNPSPCITEPSIKPVQDKQE 205

Query: 182 PEHHHAVGPINYN----TNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAER 241
            +H  A  P N N    TNEI+   K+ +V P   AK +TR   SDVLEKA+AAIASA+R
Sbjct: 206 YKHLEAPSPSNNNSSLDTNEIEQSHKNNNV-PAGDAKSETRFQSSDVLEKARAAIASADR 265

Query: 242 ATAAARVAAELANVNLGTMKFEG 260
           A+AAAR AA L   N G++K EG
Sbjct: 266 ASAAARAAAALVQSNFGSLKLEG 287

[Close]
BLAST of MELO3C003018 vs. TrEMBL
Match: A0A0B2PUJ2_GLYSO (IST1 like OS=Glycine soja GN=glysoja_015308 PE=4 SV=1)

HSP 1 Score: 302.8 bits (774), Expect = 4.3e-79
Identity = 167/263 (63.50%), Postives = 195/263 (74.14%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEH+IREQN W AYEILELFCEFVLARVPIIE+QRECP ELREAIASIIFAAPRCSD+PD
Sbjct: 62  VEHIIREQNTWAAYEILELFCEFVLARVPIIENQRECPTELREAIASIIFAAPRCSDVPD 121

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           LL +KNLF  KYGKEFVSA+SELRPDSGVNR+IIEKLSVSAP GE+KLKV++EIA+++ +
Sbjct: 122 LLHIKNLFTTKYGKEFVSAVSELRPDSGVNRTIIEKLSVSAPSGEVKLKVLREIAEEYNI 181

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGVQ-GAAVSQTPQHSFLNPSISYGSALLAASPMGKKE 181
            WDSS T +EF K HEDLLGG K V  GA +S TP  +  N      +         K+E
Sbjct: 182 AWDSSKTEAEFRKNHEDLLGGAKQVSAGATLSHTPSRNGSNNPSPCITEPSIKPVQDKQE 241

Query: 182 PEHHHAVGPINYN----TNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAER 241
            +H  A  P N N    TNEI+   K+ +V P   AK +TR   SDVLEKA+AAIASA+R
Sbjct: 242 YKHLEAPSPSNNNSSLDTNEIEQSHKNNNV-PAGDAKSETRFQSSDVLEKARAAIASADR 301

Query: 242 ATAAARVAAELANVNLGTMKFEG 260
           A+AAAR AA L   N G++K EG
Sbjct: 302 ASAAARAAAALVQSNFGSLKLEG 323

[Close]
BLAST of MELO3C003018 vs. TrEMBL
Match: I1NFJ5_SOYBN (Uncharacterized protein OS=Glycine max GN=GLYMA_20G116300 PE=4 SV=1)

HSP 1 Score: 302.8 bits (774), Expect = 4.3e-79
Identity = 167/263 (63.50%), Postives = 195/263 (74.14%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEH+IREQN W AYEILELFCEFVLARVPIIE+QRECP ELREAIASIIFAAPRCSD+PD
Sbjct: 62  VEHIIREQNTWAAYEILELFCEFVLARVPIIENQRECPTELREAIASIIFAAPRCSDVPD 121

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           LL +KNLF  KYGKEFVSA+SELRPDSGVNR+IIEKLSVSAP GE+KLKV++EIA+++ +
Sbjct: 122 LLHIKNLFTTKYGKEFVSAVSELRPDSGVNRTIIEKLSVSAPSGEVKLKVLREIAEEYNI 181

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGVQ-GAAVSQTPQHSFLNPSISYGSALLAASPMGKKE 181
            WDSS T +EF K HEDLLGG K V  GA +S TP  +  N      +         K+E
Sbjct: 182 AWDSSKTEAEFRKNHEDLLGGAKQVSAGATLSHTPSRNGSNNPSPCITEPSIKPVQDKQE 241

Query: 182 PEHHHAVGPINYN----TNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAER 241
            +H  A  P N N    TNEI+   K+ +V P   AK +TR   SDVLEKA+AAIASA+R
Sbjct: 242 YKHLEAPSPSNNNSSLDTNEIEQSHKNNNV-PAGDAKSETRFQSSDVLEKARAAIASADR 301

Query: 242 ATAAARVAAELANVNLGTMKFEG 260
           A+AAAR AA L   N G++K EG
Sbjct: 302 ASAAARAAAALVQSNFGSLKLEG 323

[Close]
BLAST of MELO3C003018 vs. TAIR10
Match: AT1G25420.1 (AT1G25420.1 Regulator of Vps4 activity in the MVB pathway protein)

HSP 1 Score: 262.3 bits (669), Expect = 3.2e-70
Identity = 144/255 (56.47%), Postives = 180/255 (70.59%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEHVIRE N+W AYEILELFCEF+LARVPI+ES++ECP ELREAIASIIFAAPRCS++PD
Sbjct: 62  VEHVIREMNLWAAYEILELFCEFILARVPILESEKECPRELREAIASIIFAAPRCSEVPD 121

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           LLQ+KNLF  KYGKEF+   SELRPDSGVNR+IIEKLS ++P G  +LK++KEIA+++ L
Sbjct: 122 LLQIKNLFGTKYGKEFIMVASELRPDSGVNRTIIEKLSPTSPSGAARLKMLKEIAQEYSL 181

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGV---QGAAVSQTPQHSFLNPSISYGSALLAASPMGK 181
           NWDSS+T +EF K+HEDLLGG K +    G + S+  Q  +   S+S     L A     
Sbjct: 182 NWDSSATEAEFMKSHEDLLGGAKQIHRQDGISESRPSQQGYGQSSVSREVESLPAE--AT 241

Query: 182 KEPEHHHAVGPINYNTNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAERAT 241
           +  +   A  P++      K  P S  +     A  DTR   +DV+E A+AA+ASA+RAT
Sbjct: 242 QRFQKLQAQNPVS------KSMPSS-KLTSAFQAPPDTRRNQTDVMEIARAALASADRAT 301

Query: 242 AAARVAAELANVNLG 254
           AAAR AA+L NV+ G
Sbjct: 302 AAARAAAQLVNVSYG 307

[Close]
BLAST of MELO3C003018 vs. TAIR10
Match: AT1G34220.1 (AT1G34220.1 Regulator of Vps4 activity in the MVB pathway protein)

HSP 1 Score: 177.6 bits (449), Expect = 1.0e-44
Identity = 104/242 (42.98%), Postives = 140/242 (57.85%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEH+IRE+ +  A EILELFCE +  R+PIIE+QRECP++L+EAI+S+ FAAPRCSDL +
Sbjct: 62  VEHIIREEKMMAAQEILELFCELIAVRLPIIEAQRECPLDLKEAISSVCFAAPRCSDLTE 121

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNR----------------------------- 121
           L Q++ LF  KYGKEFV+A SEL+PDSGVNR                             
Sbjct: 122 LQQVQILFVSKYGKEFVAAASELKPDSGVNRKTESLIFIAWFSLVETRDLFMFLYFSNSI 181

Query: 122 -SIIEKLSVSAPPGELKLKVMKEIAKQHGLNWDSSSTVSEFSKTHEDLLGGPKGVQGAAV 181
             ++E LSV AP  E KLK++KEIA++H L+WD +ST ++  K+HEDLL GPK   G + 
Sbjct: 182 LQLVELLSVRAPSPETKLKLLKEIAEEHELDWDPASTETDLFKSHEDLLDGPKQFGGGSK 241

Query: 182 SQTPQHSFLNPSISYGSALLAASPMGKKEPEHHHAVGPINYNTNEIKPEPKSFDVKPEVA 214
              P+      ++   ++L AA      + E+     P   N   ++P P +  V    A
Sbjct: 242 LPLPEEQNEKTNL---TSLSAAKEKSDSDSEYDILDFPEVPNV-LLRPTPGATSVNAPDA 299


HSP 2 Score: 33.5 bits (75), Expect = 2.4e-01
Identity = 18/34 (52.94%), Postives = 21/34 (61.76%), Query Frame = 1 

Query: 222 DVLEKAKAAIASAERATAAARVAAELANVNLGTM 256
           DVL  A+AA  SAERA +AAR AA LA + +  +
Sbjct: 389 DVLMAAQAAADSAERAASAARSAASLAQLRINEL 422

[Close]
BLAST of MELO3C003018 vs. TAIR10
Match: AT4G35730.1 (AT4G35730.1 Regulator of Vps4 activity in the MVB pathway protein)

HSP 1 Score: 176.8 bits (447), Expect = 1.8e-44
Identity = 83/143 (58.04%), Postives = 111/143 (77.62%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEHVIREQNI  A EI+ELFCE +++R+ II  Q++CPV+L+E IAS+IFAAPRCS++P+
Sbjct: 76  VEHVIREQNIQAANEIIELFCELIVSRLTIITKQKQCPVDLKEGIASLIFAAPRCSEIPE 135

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           L  L+++FA KYGK+FVSA ++LRP  GVNR +I+KLSV  P GE KLK+MKEIAK+  +
Sbjct: 136 LGDLRDIFAKKYGKDFVSAATDLRPSCGVNRMLIDKLSVRNPGGEYKLKIMKEIAKEFQV 195

Query: 122 NWDSSSTVSEFSKTHEDLLGGPK 145
           +WD++ T  E  K  E+ + GP+
Sbjct: 196 DWDTTETEQELLKPQEESIDGPR 218

[Close]
BLAST of MELO3C003018 vs. TAIR10
Match: AT2G19710.1 (AT2G19710.1 Regulator of Vps4 activity in the MVB pathway protein)

HSP 1 Score: 150.2 bits (378), Expect = 1.8e-36
Identity = 97/281 (34.52%), Postives = 147/281 (52.31%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEHV+RE+    AYE++ ++CE ++ R+ +IESQ+ CP++L+EA+ S++FA+ R SD+P+
Sbjct: 59  VEHVVREEKTVAAYELIGIYCELLVVRLGVIESQKNCPIDLKEAVTSVLFASQRLSDVPE 118

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           L ++   F  KYGK+F ++  ELRPDSGV+R ++EKLS  AP G  K+K++  IA++H +
Sbjct: 119 LSEIFKQFTTKYGKDFSTSAVELRPDSGVSRLLVEKLSAKAPDGPTKVKILMAIAEEHNV 178

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGVQGAAVSQTPQHSFLN------PSISYGSALLA--A 181
            W++ S V    K  E LL G    Q A  S     S +N      P+I   + + A   
Sbjct: 179 VWEAQSFVESDPKDTE-LLNGANSFQPA--SSMNMDSSINSNKEQPPNIHAPATVNAHHG 238

Query: 182 SPMGKKEPEHHHAVGPINYNTNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLE-------- 241
           S      PE+ +A G  + + +      K+ D     A    +RP   +           
Sbjct: 239 SSERHHSPENSYANGGRSSSRSNNVTSGKADDYYHSKARPSRSRPDEGECRNPNHGYENS 298

Query: 242 -----------------KAKAAIASAERATAAARVAAELAN 250
                             A+AA  +AERA+ AAR AAEL+N
Sbjct: 299 SSRNKQKWEPEFVDSTDAARAAAEAAERASFAARAAAELSN 336

[Close]
BLAST of MELO3C003018 vs. TAIR10
Match: AT4G29440.1 (AT4G29440.1 Regulator of Vps4 activity in the MVB pathway protein)

HSP 1 Score: 147.5 bits (371), Expect = 1.2e-35
Identity = 90/266 (33.83%), Postives = 138/266 (51.88%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEHV+RE+    AYE++ ++CE ++AR+ +I+SQ+ CP +L+EA+AS+++A+ R +D+ +
Sbjct: 59  VEHVVREEKTVAAYELVGIYCELLVARLGVIDSQKTCPNDLKEAVASVLYASQRLTDVGE 118

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           L  +   F+ KYGK+FVSA   L+PDSGV+R ++EKLSV AP G  K+K++ EIA QH +
Sbjct: 119 LSDIVKHFSAKYGKDFVSAAIGLQPDSGVSRLLVEKLSVKAPDGPTKIKILTEIATQHNV 178

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGVQGAAVSQTPQHSFL---NPSISYGSALLAASPM-- 181
            W++ S V    K      G    V   A     + S +    P +   +A +  S    
Sbjct: 179 TWEAESLVESDPKETMSASGASSSVSQPATGIKSESSRIQNNQPPVFQAAATVNVSQNSY 238

Query: 182 ---GKKEPEHHHAVGPINYNTNEIKPEPKSFDVKPEVAAKLDTRPPPS----------DV 241
              G+           +    +    +PK    + +     D  P             D 
Sbjct: 239 ATDGRSSSRMTSTDFNVGKTPDHYHQDPKPSGDRVDGREHRDHNPGHGDTSPFETKFVDA 298

Query: 242 LEKAKAAIASAERATAAARVAAELAN 250
              A+AA  SAERA+ AAR AAEL++
Sbjct: 299 TSAARAAAESAERASFAARRAAELSS 324

[Close]
BLAST of MELO3C003018 vs. NCBI nr
Match: gi|659131631|ref|XP_008465781.1| (PREDICTED: IST1 homolog [Cucumis melo])

HSP 1 Score: 522.7 bits (1345), Expect = 3.8e-145
Identity = 264/264 (100.00%), Postives = 264/264 (100.00%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD
Sbjct: 62  VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 121

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL
Sbjct: 122 LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 181

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGVQGAAVSQTPQHSFLNPSISYGSALLAASPMGKKEP 181
           NWDSSSTVSEFSKTHEDLLGGPKGVQGAAVSQTPQHSFLNPSISYGSALLAASPMGKKEP
Sbjct: 182 NWDSSSTVSEFSKTHEDLLGGPKGVQGAAVSQTPQHSFLNPSISYGSALLAASPMGKKEP 241

Query: 182 EHHHAVGPINYNTNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAERATAAA 241
           EHHHAVGPINYNTNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAERATAAA
Sbjct: 242 EHHHAVGPINYNTNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAERATAAA 301

Query: 242 RVAAELANVNLGTMKFEGGQTSEC 266
           RVAAELANVNLGTMKFEGGQTSEC
Sbjct: 302 RVAAELANVNLGTMKFEGGQTSEC 325

[Close]
BLAST of MELO3C003018 vs. NCBI nr
Match: gi|449445148|ref|XP_004140335.1| (PREDICTED: IST1 homolog [Cucumis sativus])

HSP 1 Score: 491.5 bits (1264), Expect = 9.3e-136
Identity = 254/264 (96.21%), Postives = 258/264 (97.73%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEHVIREQNIW AYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD
Sbjct: 62  VEHVIREQNIWAAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 121

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAK+HGL
Sbjct: 122 LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKEHGL 181

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGVQGAAVSQTPQHSFLNPSISYGSALLAASPMGKKEP 181
           NWDSSST SEFSKTHEDLLGGPKGVQG+AVSQTPQHS LNPSIS+ SA LAASPMGKKEP
Sbjct: 182 NWDSSSTASEFSKTHEDLLGGPKGVQGSAVSQTPQHS-LNPSISHVSAHLAASPMGKKEP 241

Query: 182 EHHHAVGPINYNTNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAERATAAA 241
           EHHHAVGPI+YNTNEIKPEPKSFDVKPEVAAKLDTR PPSDVLEKAKAAIASAERATAAA
Sbjct: 242 EHHHAVGPISYNTNEIKPEPKSFDVKPEVAAKLDTR-PPSDVLEKAKAAIASAERATAAA 301

Query: 242 RVAAELANVNLGTMKFEGGQTSEC 266
           RVAAELANVNLGTMKFEGGQTSEC
Sbjct: 302 RVAAELANVNLGTMKFEGGQTSEC 323

[Close]
BLAST of MELO3C003018 vs. NCBI nr
Match: gi|1021571101|ref|XP_016176710.1| (PREDICTED: IST1 homolog [Arachis ipaensis])

HSP 1 Score: 311.2 bits (796), Expect = 1.7e-81
Identity = 167/263 (63.50%), Postives = 199/263 (75.67%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEH+IREQNIW+AYEILELFCEFVLARVPIIESQ+ECP ELREAIAS+IFAAPRCSD+PD
Sbjct: 62  VEHIIREQNIWEAYEILELFCEFVLARVPIIESQKECPPELREAIASLIFAAPRCSDVPD 121

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           LL +KNLF  KYGKEFVSA+SELRPDSGVNR IIEKLSVSAPPGE+KLKV+++IAK++ +
Sbjct: 122 LLHIKNLFTSKYGKEFVSAVSELRPDSGVNRMIIEKLSVSAPPGEVKLKVLRDIAKEYNI 181

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGVQ-GAAVSQTPQHSFLNPSISYGSALLAASPMGKKE 181
            WDSS T +EF K HEDLLGG K V  G+AVS TP+    + S S  +     S   K+E
Sbjct: 182 TWDSSKTEAEFRKNHEDLLGGAKHVDIGSAVSHTPRKKGTSNSSSSSTEYSIKSMRNKQE 241

Query: 182 PEHHHAVGPIN----YNTNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAER 241
            +H     P       NTNEI+ +  ++   P   AK +TRP  SDVLEKA+AAIA AER
Sbjct: 242 QKHLETPRPSTNDYWMNTNEIE-QSLNYAKVPTTDAKRETRPQSSDVLEKAQAAIAYAER 301

Query: 242 ATAAARVAAELANVNLGTMKFEG 260
           A+AAAR AA L N + G++K +G
Sbjct: 302 ASAAARAAAALVNNDFGSLKLDG 323

[Close]
BLAST of MELO3C003018 vs. NCBI nr
Match: gi|1009155255|ref|XP_015895613.1| (PREDICTED: IST1 homolog [Ziziphus jujuba])

HSP 1 Score: 310.5 bits (794), Expect = 2.9e-81
Identity = 164/255 (64.31%), Postives = 195/255 (76.47%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEHVIREQNIW AYEILELFCEF+LARVPIIESQRECP ELREAIASIIFAAPRCSD+PD
Sbjct: 62  VEHVIREQNIWAAYEILELFCEFILARVPIIESQRECPTELREAIASIIFAAPRCSDVPD 121

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           LLQLKNLF  KYGKEFVSAISELRPDSGVNR+IIEKLSV AP G+++LKV+KEIA++  +
Sbjct: 122 LLQLKNLFNAKYGKEFVSAISELRPDSGVNRTIIEKLSVHAPSGDVRLKVLKEIAREFNV 181

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGVQGAAVSQ--TPQHSFLNPSISYGSALLAASPMGKK 181
           +WDSS+T +EFSK+HEDLLGG K +  A        +H     + S  ++       GK+
Sbjct: 182 DWDSSNTEAEFSKSHEDLLGGSKQISAATGDSIVPAKHGSFKSTTSIEASQSITPTHGKQ 241

Query: 182 EPEHHHAVGPI----NYNTNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAE 241
           EP+H      +    ++ TNEI+P  +  D  P +  K +TRP  SDVLE+A+AAIASAE
Sbjct: 242 EPQHLQVPKSLSKMPSFGTNEIQPSIRDDDAPPAIDFKHETRPRSSDVLERARAAIASAE 301

Query: 242 RATAAARVAAELANV 251
           RA+AAAR AAELANV
Sbjct: 302 RASAAARAAAELANV 316

[Close]
BLAST of MELO3C003018 vs. NCBI nr
Match: gi|1012245633|ref|XP_015942132.1| (PREDICTED: IST1 homolog [Arachis duranensis])

HSP 1 Score: 309.3 bits (791), Expect = 6.5e-81
Identity = 166/263 (63.12%), Postives = 199/263 (75.67%), Query Frame = 1 

Query: 2   VEHVIREQNIWDAYEILELFCEFVLARVPIIESQRECPVELREAIASIIFAAPRCSDLPD 61
           VEH+IREQN+W+AYEILELFCEFVLARVPIIESQ+ECP ELREAIAS+IFAAPRCSD+PD
Sbjct: 62  VEHIIREQNVWEAYEILELFCEFVLARVPIIESQKECPPELREAIASLIFAAPRCSDVPD 121

Query: 62  LLQLKNLFAVKYGKEFVSAISELRPDSGVNRSIIEKLSVSAPPGELKLKVMKEIAKQHGL 121
           LL +KNLF  KYGKEFVSA+SELRPDSGVNR IIEKLSVSAPPGE+KLKV+++IAK++ +
Sbjct: 122 LLHVKNLFTSKYGKEFVSAVSELRPDSGVNRMIIEKLSVSAPPGEVKLKVLRDIAKEYNI 181

Query: 122 NWDSSSTVSEFSKTHEDLLGGPKGVQ-GAAVSQTPQHSFLNPSISYGSALLAASPMGKKE 181
            WDSS T +EF K HEDLLGG K V  G+AVS TP+    + S S  +     S   K+E
Sbjct: 182 TWDSSKTEAEFRKNHEDLLGGAKHVDIGSAVSHTPRKKGTSNSSSSNTEYSIKSMRNKQE 241

Query: 182 PEHHHAVGPIN----YNTNEIKPEPKSFDVKPEVAAKLDTRPPPSDVLEKAKAAIASAER 241
            +H  A  P       NTNEI+ +  ++   P   AK +TRP  SDVLEKA+AAIA AER
Sbjct: 242 QKHLEAPRPSTNDYWMNTNEIE-QSLNYTKVPTTDAKRETRPQSSDVLEKAQAAIAYAER 301

Query: 242 ATAAARVAAELANVNLGTMKFEG 260
           A+AAAR AA L   + G++K +G
Sbjct: 302 ASAAARAAAALVYNDFGSLKLDG 323

The following BLAST results are available for this feature:
BLAST of MELO3C003018 vs. Swiss-Prot
Match NameE-valueIdentityDescription
IST1_BOVIN3.6e-1537.21IST1 homolog OS=Bos taurus GN=IST1 PE=2 SV=1[more]
IST1_HUMAN3.6e-1537.21IST1 homolog OS=Homo sapiens GN=IST1 PE=1 SV=1[more]
IST1_MOUSE3.6e-1537.21IST1 homolog OS=Mus musculus GN=Ist1 PE=1 SV=1[more]
IST1_RAT3.6e-1537.21IST1 homolog OS=Rattus norvegicus GN=Ist1 PE=2 SV=1[more]
IST1_PONAB2.4e-1436.43IST1 homolog OS=Pongo abelii GN=IST1 PE=2 SV=1[more]
BLAST of MELO3C003018 vs. TrEMBL
Match NameE-valueIdentityDescription
A0A0A0KMU2_CUCSA6.5e-13696.21Uncharacterized protein OS=Cucumis sativus GN=Csa_5G367190 PE=4 SV=1[more]
A0A061ED43_THECC1.1e-7962.88Regulator of Vps4 activity in the MVB pathway protein OS=Theobroma cacao GN=TCM_... [more]
I1NFJ6_SOYBN4.3e-7963.50Uncharacterized protein OS=Glycine max GN=GLYMA_20G116300 PE=4 SV=1[more]
A0A0B2PUJ2_GLYSO4.3e-7963.50IST1 like OS=Glycine soja GN=glysoja_015308 PE=4 SV=1[more]
I1NFJ5_SOYBN4.3e-7963.50Uncharacterized protein OS=Glycine max GN=GLYMA_20G116300 PE=4 SV=1[more]
BLAST of MELO3C003018 vs. TAIR10
Match NameE-valueIdentityDescription
AT1G25420.13.2e-7056.47 Regulator of Vps4 activity in the MVB pathway protein[more]
AT1G34220.11.0e-4442.98 Regulator of Vps4 activity in the MVB pathway protein[more]
AT4G35730.11.8e-4458.04 Regulator of Vps4 activity in the MVB pathway protein[more]
AT2G19710.11.8e-3634.52 Regulator of Vps4 activity in the MVB pathway protein[more]
AT4G29440.11.2e-3533.83 Regulator of Vps4 activity in the MVB pathway protein[more]
BLAST of MELO3C003018 vs. NCBI nr
Match NameE-valueIdentityDescription
gi|659131631|ref|XP_008465781.1|3.8e-145100.00PREDICTED: IST1 homolog [Cucumis melo][more]
gi|449445148|ref|XP_004140335.1|9.3e-13696.21PREDICTED: IST1 homolog [Cucumis sativus][more]
gi|1021571101|ref|XP_016176710.1|1.7e-8163.50PREDICTED: IST1 homolog [Arachis ipaensis][more]
gi|1009155255|ref|XP_015895613.1|2.9e-8164.31PREDICTED: IST1 homolog [Ziziphus jujuba][more]
gi|1012245633|ref|XP_015942132.1|6.5e-8163.12PREDICTED: IST1 homolog [Arachis duranensis][more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: INTERPRO
TermDefinition
IPR005061Ist1
IPR005061Ist1
Vocabulary: Biological Process
TermDefinition
GO:0015031protein transport
GO:0015031protein transport
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0015031 protein transport
biological_process GO:0048573 photoperiodism, flowering
cellular_component GO:0005575 cellular_component
molecular_function GO:0003674 molecular_function
Unigene
This gene is associated with the following unigenes:
Unigene NameAnalysis NameSequence type in Unigene
MU46727melon EST collection version 4.0transcribed_cluster
MU64389melon EST collection version 4.0transcribed_cluster
Relationships

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

Feature NameUnique NameType
MELO3C003018T1MELO3C003018T1mRNA
MELO3C003018T2MELO3C003018T2mRNA


The following transcribed_cluster feature(s) are associated with this gene:

Feature NameUnique NameType
MU46727MU46727transcribed_cluster
MU64389MU64389transcribed_cluster


InterPro
Analysis Name: InterPro Annotations of melon
Date Performed: 2016-09-28
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR005061Vacuolar protein sorting-associated protein Ist1PANTHERPTHR12161UNCHARACTERIZED DUF292coord: 1..318
score: 1.1E
IPR005061Vacuolar protein sorting-associated protein Ist1PFAMPF03398Ist1coord: 18..181
score: 1.8
NoneNo IPR availablePANTHERPTHR12161:SF5PROTEIN ISTR-1, ISOFORM Acoord: 1..318
score: 1.1E

Synteny
The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
MELO3C003018Csa5G367190Cucumber (Chinese Long) v2cumeB350
MELO3C003018ClCG03G009610Watermelon (Charleston Gray)mewcgB023
MELO3C003018Cla97C03G060700Watermelon (97103) v2mewmbB020
MELO3C003018CSPI05G13990Wild cucumber (PI 183967)cpimeB343
MELO3C003018CmaCh04G020370Cucurbita maxima (Rimu)cmameB632
MELO3C003018Lsi09G010320Bottle gourd (USVL1VR-Ls)lsimeB007
MELO3C003018Cp4.1LG01g17770Cucurbita pepo (Zucchini)cpemeB352
MELO3C003018CsGy5G014020Cucumber (Gy14) v2cgybmeB294
MELO3C003018CsaV3_5G023080Cucumber (Chinese Long) v3cucmeB351
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
MELO3C003018Cucurbita moschata (Rifu)cmomeB251
MELO3C003018Cucumber (Gy14) v1cgymeB419