MELO3C008970.jh1 (gene) Melon (Harukei-3) v1.41

Overview
NameMELO3C008970.jh1
Typegene
OrganismCucumis melo var. reticulatus cv. Harukei-3 (Melon (Harukei-3) v1.41)
Descriptionvacuolar protein sorting-associated protein 20 homolog 2-like
Locationchr08: 20866438 .. 20891170 (-)
RNA-Seq ExpressionMELO3C008970.jh1
SyntenyMELO3C008970.jh1
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.
CGAACCTACCCAATGTTTGTACTTAATTAAAAAAAGTTAGGAGAGACCAAGAATGGAGGATGGAAAGACCGAAACAAGAGCTAGAATCTGAGAATTTTCGTGGAAACGGTAATTTCAGTGTGCCAACTCAAGTAGAAGGCTAAATTTATTTGATTTTATTCCATAAGCCATTTTTACGAAAATCTCATCAGTAACCTCCTTCCTATTGTTTTCATCAAAAGACCAAAAATTCTCTCTTTTCTCTCAATTTCAGTTGCTACTACCGTGATTCTCCATCCGTCAAAGGAATCAAAGACGAAGAATGAGGGATTGACGGATCTGTGCTGTTCAATCCTCTGCTAAGACAATCAATCATATTCCCTAAGTTGAAGAAAAACGTTGTGATCGACAATCCAATTGGGAGAAGTAGATGGGGAATTTATTCGTCAAGAAGCCCAAAGTCACCGATGTTGATAAAGCCATTCTCTCTCTCAAGACGCAGAGACGCAAACTCGGTCAATACCAACAGCAGGTTTCAATTCATCCCCTACTCTTAATTTACTCCTGTGGTTGGATTTTTTCAATTGGGTATGAAAAAAACCGGATTGGAAAGAACTCAATATGTTTTCAGGAATTTTTCGCAATCGTGTAATGTATGTTTCTCTTATGGCAGTTAGAGCATAACTTTATGATTATTTGGTGCTTAGTCCCATTTCGTGTTTACTGATCCCCATAATTGTTCTTCTCTATTTCTCCGTTTGCTTGAAAATTTGTGTTTTGCTGTTCGAGTTTTCTCTGCTATTGACAATGCACTAACCTTTATATGATGTATATAGCTTATATCACTAGAGTAATTTTACAGTTATTATGTAATTCCTGGAAATTTATGGAGATCTAAGACCTATTACTAATGAATGATGATGTGTTATAAATGCAATATCTTCATTTCAATGTCAATAAGTTTAGAATCATTTATTGTTGGTTACTGTATGTACTTGCTGGATTAGTGCAGATGTCAGACCTAGGCTTGTGTTTGTGTTACCAAGAATTTTATTTTTTGTGATCGTCATCTCTTCCTCCTTTTGAGCGAGAACCTTATTTGTTGTAATTGTGCAGATTATTATATCTTTTTTAGATTTTTTCTTGCTCATTTCTTTTTGGATATTGATTTTTTGTATTCTCATTTTATCTGTGAAAGTTGGTTTCTTTATTAAAAGTAAGGGAAAATAGAAATGTACCATGAATTTGGATAACCTATATGATAGTGTGATTTGGGCTTGTAGGATACATCATACGTTGTGGATATTTTATAATAGCTTTTTTGGGTCATAGATTTAACATATATATATAAGACAATCTCTGAACCAACATTCCCAAATTGTCATGGGTTTTTCAAGATGATGATGAGGATGGGTTTTATTTTCTCTCTTTCGAGTCCCTGGTTTCACTCTTAAGCTTGCTTGCTTGATAGATGCCTTTTCAAGTGAAATGTTGGGCATGGAAAAGGCATAGTTCAGAAGTATAATAATAAATGACATAGAAAAGAGGTAACTTTCAAAATGAAAAAGAACCAGGGAGCACAGGATTTGCGTCTTGTAGGAATAAATCCCTTTTGAAGGAAGGGAAGTGATTCTACAATCCGGAGGATGGTGCCTCTTTCTCTAGTGTCAACACCCAGACTCCACTCACACGGGGGCGGGGGCGATGAAGATATCATTATGTTCCAACCAAAGATTCCAAAAGCAAACATGATCATTAGTTACTACTATGTGAAGGATGTATTTGTCCTTTTTGGAGGGATGGCCCAAAAGAATAGATGTAAAAGACATGACATTACCCGGTCTTGGGAAATGCCAACCGAACATGTCTTCTAAATAGTTCCAGCACTCTGTAGCAGCAAGGATCGAAGAAATTGTTATTGGTATAAATATTGGTAACCCAAATTTACGGATATATTGATGGATGTTTCGAGAAAAATCATAGATATTGCGAAAATATATAAAAATATTGTGAAATTCTTAGTGAAATTTCAGAACTAGTTTACTTAAGTAATAAACTATGACTTTAAGCATATAAATCATTAATTAGAAGGAAAATATGATTGATAATGGAATTATAGACAATAATGAAGACCGAAAAGAGGATTAAGAACTGAATACTTCATTAATAAAGTCTAGGTCAAACAAAATGAAGGTCAAATACAATATTCAATATTTTCTTTGTGGACATGGAGACAAGCCCTTTATTAATAATAATAAGACAGGTTGTACAGGAGAGTTATACAAAGAGAAAAAGGGTTAAAACAAATACAAACAATAACCAAATCCAACTCAGCAATAACAGTGAGCTAATCAAAATCCTCTGATCTGGAACAACAAATGAAATCTAGAGTGTAACTAGATACAGAGTAATTAAAATAGATTGTCAAAAGGAACTCAAAGTAAGCTGACAACTTGCCCACAAGAAGCTTTGGGATGAGTCAAGAGGGAACACAAAGAGAACGATAACCAACCTTATTAAATCTTCACTAAGATGAAACCACAAAACTACTAAAAAACAATAATTGTTCAACCAGTTGGAAATAGTTCTTGAGCCCTGAATGAAGTGTTTTAAGAGACTTGAATCCGAATCTCTTTATCTGCAACCTCCAAACCACATAAGTTTCGCTATACAAATGTCAATGTAGCCGATTATTGAACCAAAAAGGTGACTGAAATCAGATCTCAAACGAAAACTAGTTTGCATTCATCTACTAGCGACTTTAAATGGGTTGGAATTTTGCAATGCCGAGACTGAGAAGGGTTTCCAAAGGTTTATTTTCTAACATTCAATTCCTCTTCATTCTAAAACAAATCATTGAGATCAGTTTCAAAGGGGTTCTTCAAAGAATGATCCTCTACCTTTAAGGTACTTTAAATTCAGAACGTCTTCCCTAATTGAAGATGAAGAAGCTTGGCTTAGGTATCTTTTATCTTTATAAATTCAGAATTTTGAGGATTTTGGTTTGACAACATCTTTGTCTTTACTAGAGCCTTTTTCAAGATCTCCTTCGGTCTCCTTCTAACAAAATGCTTGGGGAATGTCTTGAAGGGTTTCTTTTTAATTTTTTATGCTTTTTGGATGTACATCTTAAACCAAATCTGGTCGAGGACGCATGAGATGAAGAAGATAATGATGTAGATGAAGAAGATAATGATGTAGATGAAGAGGAGAGGCTTGGGGCTTTTTTAGAAGGAGTTGCAATGGCTGATGGGCACTAACTTGGCCTTAGCGAATGATGTAAGAAGACTAAGGGTTAATTGGGTAATTAGGTAATATTCTAGGTTAATTTCCTTTTTACCTCCATTTGTAATACATCTCTATAAATAGGAGTCTTCTCCTCTTGTATGAAGCATATTATTCATTCTAATAAAAGATCCACAATCTTAGTTCTTGGAGGATTTCTCCTTGAGGTTACTTAGGCTACATCAATTTTGGTATTAGAGCAACTGTTTGGGCCAATGTTAACTATCACTGGTGGAAGACCGGGAAACTCTTGTTGACGCCGATCATGAGAGGGAGCTTTGAGTGTTGTGCTTGTTTTCGAACAACACATCTAATTAGGGGAACCCTTAAAATTCCAAGAAAGAAAGAAGACACCAAAGATTTATCAAGAGTTTACAAGAATGAACTACTATCGATCAAAGAAGATGTCTAAGAAAAAAACTCACAGTTGGTATAGACAAGAAAATCAATTTTACTTCCATAAACAATGCTGGATTTCTGATTCAAGTGATTTGGAAGAAGAATTTCAACATTCTAATTTTGACCATGCTCGATTTTCTCAAAGAACCTATCATTATCCAAATTGAAAATTTGATTCTAGTGATTCTAGTGACTCCGATGAAGTTTCTAAGGCAGTTTGGGACTAAATAAAAAGGCGACAATATTGAAAAATGGCCCAACAATCCAATCAAATTCATTTTTCGAGAAATCAACGTAAAGATTGGAAGTTGGATGAATTAAAGAATCGTCAAGAATGGATTTTTACCCTCCAAGAAGAACGTTAAAGACTCAAAATTACTCTTTTGGTTATGAAATAGGATCAAGAAAGATTGATTTAAGAAAATCAATGGATGAGTCTTATACCTGCTATGGGATTGCAACATATTCGAGAATCCAACAAAATGACTACTTCGATCCGGCAATATTGGAGGAAATAAAGAAAACAACAAAAGAAATTCAACGTTCATCGGGGGAAATGACTCAACTATAGATCAACTATCAATTCATTTGCAATAGTTCAAGAACGGATTGGTTTCATATGCAGAAGAAAAAACAAAGAAATCACGGTTGGAAAATTTTCAAATAGAAAATTTTGAAGATAAAATTGAAGAAAAAGAATTTGAAAATGTTATTTGGAGATGGTCATAAGTGAAGAAAAATCCAATGAAGAAGATGAAAAAGAAGTACCGAACACCGAGCAAAAATCAAACAAGAACAATACATTGTTTGTGGAGGAAATGAATCTTCAAACCGTTTATGAATAAAAGTTTTTCCTATTGCTCCAAATCTTGGTCCACCAGCTCTATCGCCAAGGTTAGAGTCTTGTGTGGCATTCGTGAATTGAGATTCTCCAGTGAATGGTCTAAGTTATTCGTTTTGTTTTGTGCTTGACTGACTCCATCTCCTCTGTCACTACCGTAACTACTATCACTATCATATTCATCGTCACCTTCATTTTGTTGATCTCGACTCTTTTTTTGAAATGTAAACGAGGCTCTTTATTAATGATAAAAAAGAGACTAATGTTCGAAGTATAATAGAGGTATACCAAGAACAAAAAGGACTAAGAGAACAAATATAACATAATCTAAGACAAGCAAGAGCATAAAGAAATTACAAAGGGCAGGGCAGGACCCTCTAAAACCCCAGCAAAACAAGAAATAAAAACAAGGCAAAATGAAAGAACTTTCAACAAGGAGCCCCAATACAACTGAAATCTAGATCACAAATTGATTTAAAAAAATTAATGGATGGATGGGAAGGAAGACACCAAGAATAGGCAACCAGCCATGCTGCTTCGAACTTGAATAAAAATGCAATCCTGTACCCTGGAAGACTTGCTGAAACCTTTCATATCATCAATAAAAACTGCACATGTACTGCTGAGAACCCCATCAAAGCTACGCTTAAAATTCTAAAATGAGGAAGAAGAGCCAGGAATATAGAGGAAAATGCCAAACAAGAAATCTCTCCCTTAACAAAGATCTTTAACTTGCTTCAACAGCCCTATGAATTTGCCCAGAGAATCACCATATTCCATGCAATTTTTAAGAATATATGCCTGAAAACCAGAAAGCTTGTCTACTTTCAGTGCTCAGCCCAAGACTATCCCACATTTCTCAACAAAGGACTTCAAGTGATCTGGAATACCACATTGTTGAGCTCGTGAGGGATTTCTTTAGGTCTGTTTTTCTAAAATTAAATCTTCCTCAGTCTGAAACAAAGAATCTAGATCAGTTTCTCAAAGGTCCTTTAACAAATGATCTTCCTTCCCATCTAATCTTTTCAAATGATCATCTTCCTCACTGCTCACACTAAATGGAGAGTCAAATTCTGAAGCAGGCTTCTTTATTGATGAGGGAATCAGAGATAAGCTAGGAGAGCCTCTCAAGAACTTTATCTTCGAATTAGGAAAAGAAATGACAGAGTATTTAAAATGTGGATGGAACTTGTTCTGAATAACTGATCTGTTTGAAATAGAGGGGGCTTGAAGGTGGGCATTTTTTGTCTCTCACAGATCAGGATTTTGATCTGCAATCAACTTTGCCCTTGTAAACCTCTTTTTAAGAGCCTCCTTCAACCTCTTTCTTCTAAGAAAGTGTTTTGGAAATGGTTTAAAAAGGGTCAGAAAAAGCTTTGATTTTGAATGTCTTTTAGCATTTGCTTTTGTCCCTGATCTGGCCGAAGAAGAAAAGGAAGAAGAAGAAAACGAATCTGCTGATGGGTTGAAACTTGGGACTTTACCGTAGGGAATTTCAAGGGGCAAAGAAGCTTTCTCCCGTTGAATAGTTTTCACAGCTGGATTGAAACAAATGGCTTGAGAGGGAGATCCAGACTTATTTGAATCAAGTTTGGCATTTGGGTTTTCCATGAACAAAAGGGGAGGCTCAGCCGAGTCTTTCTCTTTTGACCTTGACTTTGTTGATCACGAACCTGTTGACCATGACTTTGTTGACCTTGATCCAACTGCTGCTCTTCTAAAGTACTTGTGCAATAGTATATAACACGCATGTGTCGCCCGAAAGAGTCACCATCACTACTTGAACTACCACTTATCACCTCTTAACGCATGACACATTCAACATCAATGCTTAAATCTTCTGCAACACTAGCAACATGTGGAACTGGATTACCTTGAGCATCATTGAGATGCGCAGGCCTAACCCACATATATGGATCGTTCTTTCAAATTGTTTTTCTTTGAAATGAAATTTTGAATAGTATATTGATGTGAAAATTCATTATAAAAATTCATTATCAATGTTTTCTTCTTTTTCTTAGATGATGTGAAATAAAAGGTTTTAATTAGGTTTAAGGTTAATATAGGTTATTTTTTTAAAATTCAATTTAATGAAGGTAAATCTTAGATTAGAAATTGAGAGAAGAATTTGGAATATGTTGATTTTCAATTTTGGAAATTGAGGGTATGGTATATGTTGATTTTTGGATAGATTTATCTGGTAGTTTGAGATAGAAAAATGGAAAAGTTGCAGAATATCCATGAAATATCAGCGATATATCCACGAAATTCACCGAAATTTCTTCACATATCCACATTTATTGGAACTCGTCCGGATAATATCCATGAATAGATATATCAGTGATATATTGCTATACTTCTTGAATTTTTGAGAAAAAAAAAGTTACTCCCCAATATTTTGGTTTGAGAACACCAAATTCCAGCATCAGGAGTCATCTTGATTGTTGGAAGGACTTCTGACAAGAAAACCTAGGAAGGGATTTTTGCTTCCTTTTTCCCTTTCATTATTCATTGAATGGAAGTCTGGTGTCCTGAAAAAATGGTGGAATGAAAGCGTGATTCCAATGTAGACATTTTATTGGAGGCTGGGGCATTTGAATGGAGGCCTGCTCCTTTTCCTTCTCGCAAGAATTGGTTATACAACAAAGAATGTTGCCAATTAATCAAAATAACATCGAGCAAATTCCATTCTCAAGATTGGGTCGGATTTGTAATTTCTGCAAAGTTGAGGAAGCTAAAAACAGTGCTGAAAGAATGGCAAATTAATGACAAGTCAGAGAAGAAAAGAAAGGAAGGTTCCATTCTTGGGGTATGAGAAAAATGGAAATAGAGGAAGAAAATTGTGAAAATTCCAATGCAGTTTCAAATCTAAGGCCGTCTCTGAAAGGCTGATTTTCTGGAAATTCTCAGAACAGAGGAAAGGAATCTGTTGCAGAAAAGCAAACTGATCTGGCTAAAGCTGGGGGATGAAAATACCAGTTTTTCTCATCAGTTTTTAGCAGCAGAACAAGAGGAGAAACTTGATTTCTGAGCTCATAAATGATCATGGTAATCCAACCAAAAGCTTACGGGGTCCTTAGAATGTTGGATGGAGCAAAAGGTAGATCAGGAGGTTTCTTCTCCATGTGGTTGGAAGGGAAAACCATCATGTTGTACGTGATCAAAGAGTCTTGAACCTCAGAGGTTATTTGCAAGGCATTCTGCAGTAGTTCGTTCGAAAGAAGCTTCAATTTCTGGGGATGAGAAATAGTCCATCTGCTGGCTTCGTGAATCAGATCTTCTGTATTTAACCTGTTTTGAGTCTATTGTATTTGTTCTCTTATAGTGTCAGGTTTTGTACTATTTGCTTTGTTTTGGTCTTATGATGCAACCTTCTGAAGTAGTTCTTTAGTTTGAGATGTGCTTTAGTCATTGATCGTTTGGTTGGAAATGATGTGGGAGCTAAGGAGTTGTTAACCTAGTTGAGATGTCTGGATTAGCTTCTCGATCCTTTTTTTTCTCTTAGTATAGTTCTTCTATACTTTGAGCATTAGTCTCATTTCATTTTAATGAAGAAACTCATTTTTGTTTAAAAAAAAAAAAAAAAAGAAAGATTCCAATGTAGACAATCTTGAATGGAGTCTTTCATCATCTATCAAAATTATCTTGAGCACGAACCTTCTTTGTGGGTGTTAGTAGCCTATGGGCCACTTATGGAATTAGAAAATAATATTTTGGTAAGAATTAGATGGTCTATGAGCTTTATAGTTGTGGGAAGGACTTTAGCTTGGTAGGAGAGAAACATGTTATAAATGATTAGTTTTTTATTGAAATATTATTTCCAAATTTGAAACTTTGTGTTTTGAAAAGGGATTAAACAAATGTGGGTCTAATTAATATTAATATCAGACAAAGAGTGTGACTAGGGTGAAGGATTTTAGACGATCAGTTTAATTACTAGTGTGTACAAGATTCTTGCGGAAGTGTTGGCTAATTGCTTGAAGAGGGTGCTCCCGTCGACAAGCTCTAATTCACAAGGTCTTCTTATTGCCGGAGGCAATTTTTGGATCGAGCCCTTGTGGCTAATGAAGCTATCGAGGGTTACAGATTAAGAAAGGAAGAGGGAGTGGTCTCTTAAATCGGACTTTGAGAAAGCTTATTAATGTGTATTGGGATTTTTTGGATAAGTTGATGGAAGAGATGGGGTCTAATTATAAATGGAGAGTGTGGATGCTGGGTTATATGAGTGTTAGTTATTCTTTCCTTATAAATGGAAGCCTAGGTGAAGTGGCAACTACAAGAGGTCTTAGGAAGGTTATCCTTTGTCCCCTTTCTTGTTCCTTCCAGTGGTGGTTGTTATGAGTAGAGTTGTTAGGGTGGCTTTTTCTCACATTCAACTTGCTGAAGACATGTTTTGTCTCCAGTAATGAGGATTTTTTCTTACCCTATATCATATTCTAGCCGTTTTTTGAAGAAGTCTCTGGATTAAGGATAAACAGCAGGAAGTGTAGCGTCATGGGGATGGATTGTGGAGAAAAGAAGCTTAAAAGATGGTTGGAGTTGGTCGGTTGTGAGGTTGGGAGGCTCCCTTCTTCCTATCTTGGTTTCCCTCTTGAAAGCCACCCCAGAGTGGCCGCTCTGCCGCTCTTTGAGGTTAGCATTTTTGAAAAAGTGGTTCTTCTCTGAGGCAGGAAGGGTTACTTTAATGAAATACTTCTTGATTGGTATCCCAATTTATTTCTTTTCCCTCTTCAGAGCCCCTTTTAAGCTGTGTAAGAGCTTTTAAAGGTTGATGCATGATTTTCTTCGGGAGATCATTGAGAAGTCTATTGATCGGGACGGCCTTGAGATTGGGAATCTCAAATTACACAACAAGGCCTTTTTGGCCAAATGGTTGTGGTGCTTCTCTTTCGAACCCAATTCTCTTTGGCATAAGATTATTGTTAGCAAATATGGCCCCCATCCTTTTGAGTGGTTGGCTAGGGTTCTAAAGGCACCTTCCACAATTTATGGAATGATGTTTAAGAAGAACTCCCATCTTTTGATAACTTAGTCCATTGTGTGGTGGGGGAGGCAAGGGATGCTACTTTAATAGGATCATTGGGAGGGTGAGAAACCTCTCTGTGCTTTATTTCCTCGACTTTTTCATTTGTTGTCTCCTAAAAATCACTGTTATTGATTCCTGGTGTGGTTAGGGAGCTTTTATTCCTTCTCATTGGGTTTTGTCACCCTGTTTCTAATAGGTAGGCGACTGACATTGCTTCCTTTCTTTCTTTGTTTGAGGGTCATTCTTTTCGGTGAAGATGCGAGTTGAAGTATAAGGAACCTAGTTAGAGATGAATGGGGTTATTAGGAGAATATTAGTATGGTTATTAGAAGGGGCATATTAGTAATAAGTTAATAAGGTGGTTAGGGTTTTAGTTATAAATAGAGGGTTTGGGTTGAGAGCGATGTATGAAGAATTTTGGAGTGAAATTTCCTTGAGTGGGAATTTGGAAGAGTCTAGCTCTCGAGAGAGGCTGGGGATTACTTGTTCTTGTGATATTATAGCTTATATTGCTATATTTTCCATATTTGGTTATTTTTTAGTTTTTGTGGATTCTTGAGTATCTCTTAGATTGGGATTCTAAGACGGAGACCCAATCCTTTGCTAGGGTTCTTGTGCAAATCATTTTTTCGTAGTCTCTGGACTATTCTCTGTTAGGTGATTTCTTTTCAATCATTTGGAGGATTAAGGTTCCTAGGAAGGGGAGATTCTTTACATGGTCGTGCAAATATGATGGATTGTCTTACCAAGGAACTTCCCTCGCTTGTTGGGTCATTCTAATGTATGTTTGTCAAAAGATAGAGAAGATCCAAATCATTTTTTTTCAGTGTGAGTATGCTAGTTTAGTTTAGGTGTGTTTGCTCAAGATGTTTGGCTTTTCGTGTATTCGCCGGAGGGACTGTAGTGCTATGACCGAGGAGTTCATGCTCTATCCACCTCATGGGGAGAAGGGCCGCTTTTTGTGGTTAGTTGAGGTGTGTGTGATCTTGTGGGCTTTGTGGGAAGAATGGAATATTGGATTTTTAGAGGGGTTGATAAGGACCTTAGTGATGTTTGGTCCCTTGTCCCCTTTCATGTTTCTTGTGGGCTTCGGTTTTGAAAACCTTTTGTAACTATTCTATAAGTGTTATTTTGCATAGTTTGAGCATCTTTTTGTAGGGGTGATGTTTTTGTGGGCTAGGTTTTTGTTTGTATGCTGCGTATTTTTTTTTTCTTAATGAAATCCGTTGTTTTATCCCCTCCCCCGCCCCTAAAAAGAAAACACATTTTTTCTTATATTCTTTCTATAAAACCATGGAACTTTAGTGGCATCTCATAAAACTAATGTATTCTCTTTTCAATTAAAAAAAAAACATTGAATCTTGAAGATATTTCCTTTTATGACATTCCAACGTTGAGGATTCTCCTGATTTAAAATATTTATGATTTTCCATAGCTTTGAATGTTGTCATAAGCTCATGTTTAATTATCTGCGTTTAATTGATTCAAATGTACATATTGATGAATTATTAATATTAATTAAACAATATTTTAAATAATTTTTTGTCATTTATAAATCCTGGATAGAATTATGCATGACCACAAATCATCATAAAGTAAAGTTCCATTTTACCCTGATCATAGGACCAAAAACCTATTAATATCTCTAAATGAAGTTGGATATTACCCAAAATAACTTTTTGTCTGTGTTTCTTTCATAGGAATGCAACTGTTTTTTACTTTGGAAATTGAATACTTTTTTTGTTGTTTTTACGTGTCATTTTTCCTTAGCTTGATGCTGTCATTGAAGCAGAAAAGAATGCTGCAAGAGAGTTAGTTCGACAAAAGAAAAAAGACCGGGCCTTGTTAGCTTTGAAGAAGAAAAAGGCACAAGAAGAATTACTAAAGCATGTTGATGCCTGGCTGATTAATGTTGAGCAACAAGTGAGTTTTGTTAATTTTTCCTGTATCTATTCAAATTTCCTTTGTTTCTCCCTTCTAACTCAAAATTCATACTTGTTTCTTTTAAAAGTGATGAGTGTGTTGTATCTTAAAATCAAGATTTTAACCGTTGCAATAGTTAGGTTTGGTTTTCTCGTTTGAAATAACAGTTAAATCATCTCCACTATTTTATTAATGTTTAGAACTTTTTGTATTTTAGAAATTTGTGTTCGTGCTTTAATATAGCTGTTGGCTCAGTTGTCAGATATTGAATTGGCCAGCAAACAGAAAGCTGTTTTTGAAAGTTTGAAGGCTGGTAATAATGCGATCAAAGCTATACAAAGTGAAATTAACATTGATGATGTCCAAAAGCTGATGGATGATACTGCTGAAGCTAAAGCATATCAAGATGTAAGTTTGTGAGGTTTTTTAATTGATCGTTTATTAGGATTCATATTTGAATTTTTATTCTGTTACCTGGTTTATTAAGAGTCAGATTATGGTTGAATAAAATTTGCATGTATTTATTGGTTATGATGGAATTACATATTCATGTATTCCAAAAAGTAAGATTACAAGCATTAATCAACACACCTAATTCAAAAATCTCGGTTAATATAGCTCATGATATGTTAGTAAGAAAGTGCTGAGAATCTCATGTTGGAAAGATGAAGAGAGCTCACAATCTTTATAATATACATGCATTACTCTCATTGCCAATTAATTTTTAGATGAAACCCTTGTTTATCTAACAATTCTACTATGATATCAAAGCTTACTAATCAAAACACAATTGCATCCGGAAGATAGACAAACAAATACAAAAGTACATCATAGGCTTATTCTTTATTTTAAGTCCCCTTTTGGAAGCTTGTATCCTTGAACAATGTCCTTTTTATCTATAAATGAAAATATGTTTCTTAATTTTTTTTTTTTTTTTAAAAAAAGAGAGTTACACCAGGGCTTATTAATGTCCCAAAACTGCTTCCCAAAGTTTTGTCTAATTCCAAAATTTCCTTTGTTCCAAACTCTAACCAATTTATCAAGTAGTTACAAATATGTTGCTATTTGATATTCCATTTGTGCTTACTAGGATTCCTAATTGATCTTGTCCTGCCAATCTGATTAATTACTAGTTCTTTCCTACCTCAATAAGCACCTGCCCCACCATATATTCCTTTTGAATTATGTCTCAATTATTTGTCAAGTGATGGTCCACACAAGATGCATTGTGCCTTGAAAATCGTTCTGTTCTCGTTCTTTCTCAACCTCTTCTTTTCTTCTTCCCTAACTAGTATGAATTTCTGTGCTTCTTTGATGATAGTTCTCAAAATGCCTTTGGGTCTTTATGGTAAGAGTAACCCATACATTCTGGTTGCTCAATTGTTGATCTTCCTTTGATACTAGTGCTTCTATTGTTACAGTCGCATCATGCTGTTATTTGTTCATTTAGTACCCACAGTCGTCTTTCTAGGCTTTGCATGTTGCCATCCTTCTTCCTCCTACCTTTGGTTTCTTGTTGTACAAGGCATTCTGTCTGATTTTATTTATTTATTGAATTCAAACGTTCTTGTTGAGAAACCAAGCTTTTATCAAGAAAAATGAAATAATATAGGACATAGAAACTTTAAAAATAAAAGAAGCCCAACAATCTCTCATTTGACTTGAGTGTGACAATCTCAATGTTCTCGGGACCTAACCTTGATCACAATTTGAGAGTCTTCTCCCTAGGCCGTTGCTTTTGGTGAGAACTCATAATTCTGTGGATCTTTTCTATTCTATTAAGCATATTGATGTAGAAGGAGAGTAAATTAGGGTATTTTGGTCAAATCCTTAATTTACTAAAAGATGATCTCAATGGTGAACTTTCAATAAAATATATGAACATAATTAAAGTCGATCTATCTAAGGTGTTTCAAGAGTTATTTTAACAATAGCATCTTAAATCGTAGGACAAATGAGAGTTATGTGGCTTTAAACCTAAAGAAGAAGGGAAATATGAAAATTAGCAAATTTATACCGATTAGTTTGGTTACTTGAACAAAATCATTGCAAAAGTCTTGGCTGAAAGGTTAAAAAAGGGAATAGGGGTTCGTGATAAAAATAGATTTTAAGAAAGCCTATGATTAGATTTCTTGATCATATTTTGGAGCTTAAAGGCGTGGGGTAAAGATGGCAGTCCTGGATCAGGGATTCAGGAAAAAGAGCTGATGGAAGGCTTCAAAGCAAGAGCGGATAAGATCCATATTCCATATCCAATATTCTTATATATCTTTTTTTTTTTTTTTTTTTTTCTGTTTTACAAAGGAAAAGAACTTTTGTAGAAAATTGGATGCTGTTTTGTCACCTTTTCAAAGAATCCTTAACAGCCTTTCCATTGATATGCAAAAACAGCTGTTGGTGTAAAATTTGGAGGATGCTTCAGTGTGGGAAATGGATTGCATGTTGGGTTGTAAGAAGGAAAGCTTTCCCAATAGTTACGTTGGAGTAACTCTCAGGCCTAAGCCTAATTAAACAGCTTTTTATGATCTCGTTTATGATACAATAAGAAGAAAATTGGCGGTTTGTAGAAGTTTCCACATCCCAAGGAGGGAAGGACTTTGATCAATGTTGTCTTATCAACCATTCCTTCCTACTTTTTTATCAGTGTTTATAATTCCTTTGGCTGTTTGCAAGGAAAATTGAAAGAGAAAAAAAATCTTTAGGAACTTTTCGTACCTGCCATTTCAGAAACCCAACACAAAATTCTTAGGGAAAATTGTCAAACCAATACATTCAAGAAGGAAATAAAGATCTAATGGCTCAACATAATTCAGGCTTCATCTATACGGTGAAACTCTTGTACCTTCTCCAACTAAGAACAGGGCTTCTACTCTTTTATTGATTCTACTATTCATTTACCTGTTTGTTGGTGTAAGTTGTCTCCAGTGTTTTGTAATTACAGCCTAACAGCTATTTAACCTTCATTCTACAAGTGAAATGAATGGTTTCTCTCTCTCCCCAAATAAAATAATAATAAATAATAAAGATATTTGCCAAGTAAGGTCTTTTTCATTTACCTGAAGAAAATCACTGCTAAAATTATCTTCCCTTCTCTGCAAGTCTTCTACGTAAGGTCTGACTTAGATTTTAGCTTTTCATCAATTCAAAGGATATTGTTAACATAGGAATTGATTACTTTATTAATATTGCATTGGCGAGAAAGGAGATTTGATCTTGTTACCAACTTTACGTTTTGTTGAGCTCTCTGACCTTTTATTCTTAATATGAAGTTTATTAGCACCGTGTTTTATAAAGAAATAGAATTATGATTATGGCATGACAGTTATGAAAAAATTAGGAGTAGAAACCTTTTGAATTTTTAGGGAATTTTTTATGTGTGGTGTTGTATGTCGGCTTTTCAAGTAATTATAAATTTGGATGCGAAGGCATATTCTGCATGGTAAGCGAATTGAATTTTCTGGGATCATAACATTCGTCTGCTTGACTGCTTCATTGATTTATCTGTGCTTCCATTTCATTATATTTCCCTTTTCTACTGCTTAACTTTTACTTATATGTTTGAAGGAAATTAATGCCATCTTGGGTGAGAAATTATCAGAAGAAGATGAGGAGCAAATCTTAGCAGAATTTGAGAGCTTGGAAGCTCAGGTATTGTGGTTGTCTTTATCATTTTTTATCCTCCATAATAGGGTTGTCCGGTTAGTCATTTAATTGGTGGTCAAAATAGATTTCTACATGCAGAATATCATTTATTTTCTTAGGAGTGAATTCTAAAATATTTTGACTTATAAATTATAAATTATTAATTTAATTTTAGATTTAGTTCCGCGTAATGTTCAATAAAGAGCCCCTCCGTGGCTATTGATGCAAATTGAATTTGATCATTTACTGCAGTATAAGACATTTACTTTTGATCTTCAAGCTTACACAAAAAGTTATTCTAGTCATTATCATTACTTTTTATTATGATTTATTTAGTAGAAACCTAAATTCATCTAGTTAGTTGTGACATAGGATTTAAAATGTCACACCCCTCCCAGACCCTCTTCTTTTAGCCCAAGAGAAGTGTGACACCAACAAATATGTTCTACTCTTGCGACATTTACTGATAAATTGCTAAACTGCTAACGCTTAACTTAGATGAAACTGAGAAAACATGCATAATACTTCGCATAAACATATCAAGAGTAACTAACACATACCATAATCATAACTGGAGTTTAGCAACTCAAAAGACATACACACAACTAACCCTTACTCACAAAACACAACTACATAGCTAAATGCACGGTCTATATACATATGCAACAAGAGAAACCTTAAGAAAAAAAAAACAGAAAGGAAGACTGGTAGCCGTAGTTCATGCTCGGGAATCACGATCTCTACCAAGAAAGTGAAAAATATAAAAATATTTTGAAAGAATGACCTAAAAGCCCCGTGACTACTTAAATAAAAACATGCATTTGAATTGAATACTTATGAAATTATAGCAAAACAGTAAATACTTTTAAAACTTTCTTGTTATGTTGATACCCATCTGGCTAGGTTGTGGTAGAATTTAATCAATACTCACAATTGGTAGAATTTAATCAATACTCACAACGGTAATTTCTCTATAACTAACTGGCTTGCGGTAGAATGTAATCGATAACAGCAACATTAATCTCTCTAAACCTAGACATGTAGTAGAATTTAATCAATACTTGCAATAATACTTGCAATAGTCCTCATTGAAGTGCAATTCTTCATCACAATAACAATTTCTCTATGTGCACATAATAACTATTACCCGTAGGACTTAAACTTATCTCTATATATCTTTGAATAATATTGTTAGAATTAGTAAGGCTTTGTTCTTAGAGTATTTTTGGAAAAAATAATATAGAAGATTTTATTTCCTAACTCTTTTCCTTTCTTACTCCTATTGTATTCTATTTATTCTTTCCCTTTGTACCTATTGTATTCATTCATAAGAAAAATAATAAAAACTAACGTATCGTGGTTTTTCTCCCGGTTCTTGGGTGTCCACGTAAGCCTCGTGTTGGTGTTAATTGCTTTCAATATGGTATCAGAGCAAAGCAATAACGAAATCCTAGAAACTAACCTAGGAGAAATCCAGATCGAAACTGAACCCGTCATTGCCACCGCCGTCGTCACCGTTGCTGCTTCCATGGAGAAACTGCTCCAAAACCTACAGAAACCGTCGATCTACCCAACGGGAGTAGTTTCGAAGCCATACGCTGTCTGACCAGAAAGTGACTCACGCGCCGCTCCTGTTTGATGAGTGGGCCCATGCGCCAACGTCATTTATCTCACCGCCAAGCCCATTCCCCTTTACACGTCGTCGGATGTCCAACCGTCGTACCATTCCGGCCATCCGCATTCTCACGCGCCGCTTATGCACTCCGGACAACAACCCTCAACTGTAAATCTGTCAAATTTGTACGGTAAGCATCCGCTGTATGTTGACTCTTTACAGCAATTGTTATTTTTTGGTAATGGGATTGATCAACCCCAGAACAGATCAGACATTGAAGCGGGCGAGTCTTCGATGCATTCCAAACCAACCGAGTTGCCTATGTATTCCAAGAACCCGATAACTTCGTTCCTTAATTTACCGTCAAATTATATAAATAACTCTTTGGATTCGTCTACAGGGAACTTTTCAGGTGAAAAATTAAATGAGCAAAATTATTTCTCTTGGTCCCAATCAATAATGATGTTCCTCGAAGGTCGCCACCAGTTCGGCTTCTTAACTAGAGAGACTGTATGTCCTCCACCAGGAGACGCCTTGTAACGACTCTGGAAAGGGGAGGACTCACTTATTCGGTCCATGTTGATTAATAGTATGGAACCTCAGATCGGCAAGCCTCTGCTATATACAGCCACAACAAAAGATTTGTGGGATACAACTCAGACCCTTTACTCGAAACGACAGAATGCCTCTCGGTTGTATACTCTGCGAAAACAGGTCTATAATTGCAAACAAGGGACCCTGGACGTGACTACCTATTTTAACAAGCTCTCTTTTTTGGCAAGAGATGGTTTTGTGCAGAGAGATACTTTGGGATACACCAAATGACGGTACACAATATGCTAAACTTGAAGAGGCTGACCATGTTTATGACTTTCTTGCAGGACTTAATCTCAAATTTGGTACTGTTTGTGGTCGTATACTCGGACAAAGACTTCTTCCCTCTCTAATGGAAGTGTGTTTTGAAGTTCGCCTGGAAGAGGATCGCACTAATGCCCTGGGTATATTGACTACCCCTACCATTGACTACGTTGCCTTTAGCGCTCGGTCCTCAAATCATGATATTGACAAGAATAATGAGAAGTCAATCCCTGTGTGTGAGTACTGCAAGAAACAATGGCTCACCAAAGAACAGTGTTGGAAACTCCATTATCGTCCCCTAGGAGGTAAGAAATGGTCCTCCAACAAGAAACAAAACTTAGGACGTGCCTACGTTAGTGAGACTACCCCTGCTAGCACTTCTCAATCAACTGGTCCTACTACAAGCCAGACCAAGACTCTGACTCTAGGTGCTATTGCTCAGTCAGGTATGTCTCAGTCCCTTGGGCTTATTAGTGTTGATGGGAAGAATGCCTGGATCTTAGACTTGGGGACTACAGATCACTTGACAGGTTCTTCGAAACATTTTATTTCGTATGCCCCGTGTGCCGGTAATGAAAAATCCGAATAGCCGACGACTCTCTAGCTCCAGTCGCTGGAAAAGGATAAATAGTTTCCTTTGACGGTTTTGCTCTCCAGAATGTTTTGCATGTCCCTAAAGTGTCTTACAATTTGTTATCTATAAGCAAGATCACTCGTGAGTTGCATTGTAAAGCTATCTTCTTACCTGAATCTGTTTATTTTCAAGACATGAGCTCGGGGAGGACGATTGGCACTGCCCGACATAACAGGGGACTTTACATCTTTGATGATGATACCTCTTATAGTAGTTTCTCTAGGGTTAGTTTATTGTCGTCCTACTTTAGCACTTCTGAACAAGATCGTATGTTGTGGCATTTTCGGCCGGATCACCCAAACTTTACAAATATGCGATCTTTATTTCCTGACCTTTTTTCTAAACTTGATGTCTCTTCTCTATCTTGTGATGTGTGTATCCGGGCTAAACAACTTCGAGTCTCTTTTCTCTCACAACCATATAAACCTACACAATCGTTTACCCTCATCCATAGTGACGTTTGGGGTCCTTCCAAGGTCACCACCTCATCGGGAAAGCGGTGGTTTGTAACTTTTATCAATGACCATACCCGTCTTACCTGGGTCTACCTTATCACAGATGAATTCGAGGTTTCATCTATTTTCCAAAACCTCTATCATACTATTGAAACACAATTCCATACAAAAATTGCAATTTTTCGGAGTAATAATGGTTGGGAATTCCAAAACCATAACCTTAGTGAATTTCTAGCCTCCAAGGGGATTGTTCACCAAACCTCGTGTGCCTACACTCTTCAACAAAATGGAGTGACCGAACGAAAAACCCGTCACCTTTTGGAAGTAGCCTGTTCCCTTATGCTCTCCACTTTCCTTCCATCATACTTGTGGGGAGATGCTATTCTTACAACCGCTCACTTAATCAATAAAATGTCTTCTCGTATCCTCCACCTTCAGACTCACTTAAATTGTCTTAAGGAGTCTTACCCCTCTACTCATCTTATTTATGAGGTTCCTCTTCGTGTGTTTGGGTGTACCGCTTATGTTCATAATTTTGGTCATAATCAGACTAAATTTACCCCTCGGGCTCAGGCTTGTGTGTCTGTTGGGTATCCTCTTCACCAGCACAGTTATGAATGTTTTCACCCGCCGTCCAGGAGAAATACTTTGTCACTATGGATGTTACTTTCTGTGAGAACCGATCCTATTTTCCCGTCAGTCATCTTCAGGGGAAGAGTGTAAGTGAAGAGTCTAACAGCACCTTTGAATTTATTTAACCTACTCCTAGTACCGTATCTGACGTTGATCCTCATCCCATAATCCTACCCACAAACCTAGTTCCCTGGAAAACATATTATAGGAGGAATCTTAGAAAGGAAGTTGGGTCCCCAACTAGTCAACCGCCGACTCCAGCCCAAGACTTCGAACCTCCTCGAGACCAAGGTATGGAAAACCCTACAGAACCTTGTACTAATAATACGATGAGTGAGAATGACAAGTCTGATGTTGCTGTTTTTGAAAATATGGAAGAAAAGAACCGTGGTGATGAGACTGAGGTTAGAACAGAAACTAGTAACAATGAAGCTGAACAGGGTCATACAAGGAAACTTGATGATTATGATCTCTCTCTTGACATTCCCATTGCTTTGAGAAAAGGTACCAGGTCCTTTACTAAACATCCCATTTGCAACTATGTTTCCTATGATAATCTCTCTCCGCAGTTTAGAGCTTTTACAGCAAGCCTTGACTCTACCATAATATTGAAAAATATCTACACTGCTCTAGAATGTTCTGAATGGAAAAATGTTGTTATGAAAGAGATGAAGGCTCTTGAAAAGAATAGAACTTGGAAGATTTGTGCTCTACCAAAGGGACATAAAACTGAGGATGCAAATGAGTGTTCTCTCTCACATACAAAGCAGATGGTACGCTTGATAGACACAAGGTAAGGTTAGTTCCAAAGGGATTTACTCAGACTTATGGTATTGACTATTCAGAAACTTTTTCTCCAGTTGCTAAGTTGAATACTATTAGAGTCCTGCTATCTGTTGCTGTGAACAAAGATTGACATCTATACCAACTGGATGTTAAGAATGCTTTTTTGAATGGAGACCTTGTGGAGGAAGTCTACATGAGCCCCGCCAGGATTTGAAGCCCAATTTGGTCAGCAGGTGTGTGAACTCCAGAAATCCCTATATGGTTGAAATAGTCTCCGAGAGCATGGTTTGACCGATCCACTACTTTTGTCAAGTCCCAAGGGTACAGTCAGGGGCACTCTGACCATACTTTATTTGCAAAAGTTTCCAAGGTAGGGAAGATTGCTGTTCTAATAATTTATGTGGATGACATTGTTTTCACTGGAGATGATCAAACAGAAATCAGTCAACTAAAGCAGAGAATGAGTGATGAATTTGAAATCAAGGATTTGGGAAATCTGAGATATTTCCTTGGGATGGAGGTGACCAGATCTAAAGAAGGTATCTCCATGTCTTAGAGAAAATACACCCTTGATTTGCTAACCGAGATAGGTATGTTGGGATGTCATCCTGCTGATACTCCTATTGAATTCAATTGTAAACTAGGAAACTCTGATGATCAAGTTCCAGTTGATAAAGAACAATATTAGTGCCTTGTAGGTAAATTAATCTACTTATCCCATACACGTCCTGATATTTCCTTTGCTGCGAGTGTTGTCAGCCAGTTTATGCAGGCTCCCTATGAGAAACATATGGTAAAACCATTGAAAAATACACCTGGTAAAGGGTTGATGTTTAGAAAAACAAATAGAAAAACCATTGAGGCATATACTGACTTGGATTAGGCAGGATCTGTTGTTGACAGAAAGTCTACCTCCGGTTATTGTATCTTTGTTTGGGTCGATCATGTAACTTGGAGAAGTAAGAAGCAAAGTGTTATGGCCAAGAGCAGTGGTGAGGCTGAATACAGAGCTATCAGTTTGGGAATATGTGAGGAAATTTGGCTCCAAAAAGACTTGTCAGATCTTCATCATGAATGTGAGACACCATTGAAGCTTTTTTGAGATAATAAAACCGCTATAGTATTGCTAACAACCCAGTTCAACATGATAGAACTAAACATGTTGAGATTGTTCGGCATTTCATCAAAGAAAGACTTGATAGTGGAAGCGTATGCATTCCGTACATTCCTTCGAGCCAACAGGTTACTGATGTTCTCACCAAGGGGCTTCTCAGACTACACTTCGACCTTTGTGTTAGCATGTTGGAACTCCTTAATATTTATGTCTCAACTTGAGGGGGAGTGTCAGAATTAGTAGGGCTTTGTCCTTAGAGTATTTTTGAAAAAAATAATATAGAAGATTTTATTTCCTAAATTTTTTCCTTTCTTACTCCTATTGTATTCTATTTATTCTCTCCCTTTGTACCTATTGTGTTCATTCATAAGAAAAATAATAAAAACTAAAGTATCGTGGTTTTTCTCTTGGTTCTCGAGTTTCCACGTAAGCCTCATGTTGGTGTTAATCGCTTTCGATAAATATAAAACAAGCTTATAAAACTTATAGAAATAATTTGCTCAAATAAATCATTCATGCTGGTGAAGAAATTCTCATAATACTCATTGTCTCCAAAACATTTCTTAAGTCATGCTTGTAAAGAAAGTCTCATAAACTCATACTTGCTTTAAATCTTGCTTTGCTTAAATGCTTGCTAAATCTCATGTGCAAATACTGAATTTCATATTTTAATACTTTTAAAATATGAATCTCATGCTTGAGTAACTCAATTGGAATAAATAAATCATGCTTAAATACACAAAGCTTACTTAAATACTTCTTATTTGAAATTTATGCTTTAAATAAGAATTTAAAACCATTTGTCACGGGTTTTAAGCTAGATCCCTTTGGTTTATGAGTTTGCCCTATCTTTTCGTTTTCTTGGCCTGAGATAATAGAATCAAATTCCAATTCATCCTTTTGACTCTTAAAAGTTCCAAACATAATTTAAAAATCTCAAAAATATAAAAAATGACTCATTTTGACACAATGGCACTGGTTAACGCTTGGTTGGGTGGAGGGCATGGCTGCACATGTGCCTTGGCCTTGTGAGGTTCTGCCAGCATGCGTGCTAACCTCCCTGACCACGCTGCACACCCATCATGGCCTCAAGCCCTTGTCACATGCCTATCCTTGTGCACCTAACCTTGCCACCTAGCCCTTGGCACACGCAGGCCTCAACGCTCACCCCCTTGATACACATGCAAGCTTGGACGAAGGGCCTTTGCGCTCATGCCTGACCACATGGCCTTGCACTGGGCTTGCTTTGTGCTGCACATGGCACTTACGCACACGAGCTACACCTCTAGCACGGCCTCCTTGTGTAGTGTCCTGATGTCTAGCCAAGGACGTGCCTGCTTGCTCAAATCTTTGAAGCTGTCTGTTCATGTTCAAGTTCTAGATTCTACTTCAAACATTCATAACTTAAACTCCATTCATCAAATCAAAAAACTTGCTTCTACAAACTTGTTCCTTAACCTCCTAACTATCTTACTTCAAAATTTCAGATCAAAATTCCGAGTTGAAGACTGTTCTGAGTTTTTTTGAAAACCGACCTTAATGGAGTTCCTTCAACCATTCATCATCCTCCTTAAATCTTTTCCTTCTGGCAGTCTTCTCCCTAAAACTAGATTCTGTAAGCTTTCTTTTAGGATTGAAAACACTCAAATCGCACGAGGGAATTGAGAGCTCTCCTCGATTGAAGTTGAGCTTAAACAGGCTTCTCGGCGTGAAAATATCTTGACACCTTTAGCTTGCTTAATGGTGATGTTAATCCTTAATGAGCCACCTGTAAGTCACTAAACTGACTTGCACATCTCTGACTTGCTCATCTCGCCTCAAGCCTTACCAACTCACTTTGAACACCTACACTTAACCAACCTTGCTCGCCTAAGCCTTACTTGAGTACGCCCCATTATTTTCCTCAACACAAGTCCTTGCCGCCTAGCACACTCCTTGATGCCTAACCTTTCCTTGATGCCACACTTGCTCTCAAGTTTTGGCCGCCTAGGACACTTCCTCGCCTACACTTATGCTTAACCAAATTTTCTCCCTTCTTTCCTTGGCCGCCTATGACACTCAAGTGGCATAACCTTGTCTCCTCACTCACACATCACCTCGACCACCTAGAGATTATTTTGGCTTACTCTAGCTTTCACTTGGTCACATAGCATCCTTAGCTCACCTTTACAATACTTGGCCAAATTTGCCTCTCTTTTCTTTTGGCCGCCTGACAATATACTTCATGGTCCTTATCAGCACAAAGCCTAGACCGCTTACCTCAAACCCTTGACACTTTGGCTGCATACTTAGCATGATAACTCAACAACATTTAAGCTATTTCCTTCACCTCTCGGCCATCACATTTGACAATTTTTCCTCTTTAAAGCTTAACTAATTCTTCCTATCAAGTAATATAACGCTAGCAAGCTTCAACAAAATTACTAAAATAAAGGGATAACAAATTTAGGGTCTACAGAAAAGCCTCAAAAGTGTTTATGGATAGTCAAATCATAACTCGTGAATGTGTGTATGCATATGTATAATGTATATTGATATTGTTGGTTTATGCCATAATATTTGATTTCATTTGGTTTTATTTGTTATTATTCTGTAGGATTATTTCCTTTTATGTCTATTTTCCTTATTTCATCAAGGCTGTATTCTATTTAATTTCGGGTTTTGTATCATTGTAATGATAATAAGAAAGCGAGAAATGTTCATAGATATCAATGATTGCATAACTCGGGAATATATTATAGAGTATGAATATAGAAACCAGAATAATATATAAACTAGATTAGTATGTTAGGTATGACTACTGCGGATTGTCTTTTACTATACTATCTGAATGACATTTCCCATCAACGTTTTTCTCAGCTCACTGTTGAAGATCTGCCTGAGGTCCCAACTTCCGAAGAAAAAGAGGAAAAGTTGGATCTTCCCGAGGTGCCATCCAAGAAACCTGTTGCAGCTGATGCCATTGAAGAAGATGCTGAAACTGTCTCATCTGATGCATCCACAAAGAGACGAGGTTCCTTTCTCTCTCATTCTCTATTCTCTCCCAAAATGGAGAAAAAAAGTTTCCCTTTTACATCCAGTGGATTCATAATACATTAAATTTGTTGAATGCAGTTATGGAAGGACCTTTGGCAGCATAAATGCGGGTACTTGATGGAGGTTGCTCATAATGTTCATGTAGTGACGAACTGGTTTGAGCTTATTAGCAACTGTTATTTGATTTTGTGAAATTCTTACAAGGAAGGCTCATAATGCCCCATTCACCAATCTGACGTTTGTACAGACACTTCCTCATGCACGTATATAAATTTGTTTTCTTTCTGCTTAGCTAGTGTGTGTATTTTATTAAGGTTTGTTTTTTTTTTTCCCTTTTTTTTTGTTGGATTAAGCTTCTGTTGAATTCTTATAATATTTATTCTAATCTTTCTTGGTAGATGTTTGGGTGTAATTACTTTCTCTTGTTTTAGCAAGAGGAGGCTTGATAATTGGTTAAATCTTTTAGTGTATATAAAAGATTGGATGACGGTGAAACTTCTTAGGTTA

mRNA sequence

CGAACCTACCCAATGTTTGTACTTAATTAAAAAAAGTTAGGAGAGACCAAGAATGGAGGATGGAAAGACCGAAACAAGAGCTAGAATCTGAGAATTTTCGTGGAAACGTTGCTACTACCGTGATTCTCCATCCGTCAAAGGAATCAAAGACGAAGAATGAGGGATTGACGGATCTGTGCTGTTCAATCCTCTGCTAAGACAATCAATCATATTCCCTAAGTTGAAGAAAAACGTTGTGATCGACAATCCAATTGGGAGAAGTAGATGGGGAATTTATTCGTCAAGAAGCCCAAAGTCACCGATGTTGATAAAGCCATTCTCTCTCTCAAGACGCAGAGACGCAAACTCGGTCAATACCAACAGCAGCTTGATGCTGTCATTGAAGCAGAAAAGAATGCTGCAAGAGAGTTAGTTCGACAAAAGAAAAAAGACCGGGCCTTGTTAGCTTTGAAGAAGAAAAAGGCACAAGAAGAATTACTAAAGCATGTTGATGCCTGGCTGATTAATGTTGAGCAACAATTGTCAGATATTGAATTGGCCAGCAAACAGAAAGCTGTTTTTGAAAGTTTGAAGGCTGGTAATAATGCGATCAAAGCTATACAAAGTGAAATTAACATTGATGATGTCCAAAAGCTGATGGATGATACTGCTGAAGCTAAAGCATATCAAGATGAAATTAATGCCATCTTGGGTGAGAAATTATCAGAAGAAGATGAGGAGCAAATCTTAGCAGAATTTGAGAGCTTGGAAGCTCAGCTCACTGTTGAAGATCTGCCTGAGGTCCCAACTTCCGAAGAAAAAGAGGAAAAGTTGGATCTTCCCGAGGTGCCATCCAAGAAACCTGTTGCAGCTGATGCCATTGAAGAAGATGCTGAAACTGTCTCATCTGATGCATCCACAAAGAGACGAGTTATGGAAGGACCTTTGGCAGCATAAATGCGGGTACTTGATGGAGGTTGCTCATAATGTTCATGTAGTGACGAACTGGTTTGAGCTTATTAGCAACTGTTATTTGATTTTGTGAAATTCTTACAAGGAAGGCTCATAATGCCCCATTCACCAATCTGACGTTTGTACAGACACTTCCTCATGCACGTATATAAATTTGTTTTCTTTCTGCTTAGCTAGTGTGTGTATTTTATTAAGGTTTGTTTTTTTTTTTCCCTTTTTTTTTGTTGGATTAAGCTTCTGTTGAATTCTTATAATATTTATTCTAATCTTTCTTGGTAGATGTTTGGGTGTAATTACTTTCTCTTGTTTTAGCAAGAGGAGGCTTGATAATTGGTTAAATCTTTTAGTGTATATAAAAGATTGGATGACGGTGAAACTTCTTAGGTTA

Coding sequence (CDS)

ATGGGGAATTTATTCGTCAAGAAGCCCAAAGTCACCGATGTTGATAAAGCCATTCTCTCTCTCAAGACGCAGAGACGCAAACTCGGTCAATACCAACAGCAGCTTGATGCTGTCATTGAAGCAGAAAAGAATGCTGCAAGAGAGTTAGTTCGACAAAAGAAAAAAGACCGGGCCTTGTTAGCTTTGAAGAAGAAAAAGGCACAAGAAGAATTACTAAAGCATGTTGATGCCTGGCTGATTAATGTTGAGCAACAATTGTCAGATATTGAATTGGCCAGCAAACAGAAAGCTGTTTTTGAAAGTTTGAAGGCTGGTAATAATGCGATCAAAGCTATACAAAGTGAAATTAACATTGATGATGTCCAAAAGCTGATGGATGATACTGCTGAAGCTAAAGCATATCAAGATGAAATTAATGCCATCTTGGGTGAGAAATTATCAGAAGAAGATGAGGAGCAAATCTTAGCAGAATTTGAGAGCTTGGAAGCTCAGCTCACTGTTGAAGATCTGCCTGAGGTCCCAACTTCCGAAGAAAAAGAGGAAAAGTTGGATCTTCCCGAGGTGCCATCCAAGAAACCTGTTGCAGCTGATGCCATTGAAGAAGATGCTGAAACTGTCTCATCTGATGCATCCACAAAGAGACGAGTTATGGAAGGACCTTTGGCAGCATAA

Protein sequence

MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALLALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDDVQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKEEKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA
Homology
[Close]
BLAST of MELO3C008970.jh1 vs. NCBI nr
Match: XP_008442178.1 (PREDICTED: vacuolar protein sorting-associated protein 20 homolog 2-like [Cucumis melo])

HSP 1 Score: 395 bits (1014), Expect = 1.02e-137
Identity = 223/223 (100.00%), Postives = 223/223 (100.00%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL
Sbjct: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD
Sbjct: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE 180
           VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE
Sbjct: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE 180

Query: 181 EKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 223
           EKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA
Sbjct: 181 EKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 223

[Close]
BLAST of MELO3C008970.jh1 vs. NCBI nr
Match: XP_011653914.2 (vacuolar protein sorting-associated protein 20 homolog 2 isoform X2 [Cucumis sativus] >XP_031740173.1 vacuolar protein sorting-associated protein 20 homolog 2 isoform X2 [Cucumis sativus] >KGN55176.2 hypothetical protein Csa_012821 [Cucumis sativus])

HSP 1 Score: 384 bits (987), Expect = 1.33e-133
Identity = 217/223 (97.31%), Postives = 220/223 (98.65%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGN+FVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL
Sbjct: 1   MGNIFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           ALKKKKAQEELLK VDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD
Sbjct: 61  ALKKKKAQEELLKQVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE 180
           VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTV+DLPEVPTSEEKE
Sbjct: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVDDLPEVPTSEEKE 180

Query: 181 EKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 223
           EKLDLPEVPSKKPVAADAIEEDAET+SSDA TKRRVME PLAA
Sbjct: 181 EKLDLPEVPSKKPVAADAIEEDAETISSDAPTKRRVMEEPLAA 223

[Close]
BLAST of MELO3C008970.jh1 vs. NCBI nr
Match: XP_038883019.1 (vacuolar protein sorting-associated protein 20 homolog 2-like [Benincasa hispida])

HSP 1 Score: 372 bits (955), Expect = 9.97e-129
Identity = 213/223 (95.52%), Postives = 215/223 (96.41%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL
Sbjct: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           ALKKKKAQEELLK VDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD
Sbjct: 61  ALKKKKAQEELLKQVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE 180
           VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQL V+DLPEVPTSEE  
Sbjct: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLIVQDLPEVPTSEENA 180

Query: 181 EKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 223
           EKL LP+VPSKKPVAADAIEEDAE VSSDA TKRRVME PLAA
Sbjct: 181 EKLVLPDVPSKKPVAADAIEEDAEIVSSDAPTKRRVMEEPLAA 223

[Close]
BLAST of MELO3C008970.jh1 vs. NCBI nr
Match: XP_022928588.1 (vacuolar protein sorting-associated protein 20 homolog 2-like [Cucurbita moschata])

HSP 1 Score: 372 bits (954), Expect = 1.42e-128
Identity = 212/223 (95.07%), Postives = 214/223 (95.96%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL
Sbjct: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           ALKKKKAQEELLK VDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD
Sbjct: 61  ALKKKKAQEELLKQVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE 180
           VQKLMDDTAEAKAYQDE+NAILGEKLSEEDEEQILAEFE LEAQLTVEDLPEVPTSEE  
Sbjct: 121 VQKLMDDTAEAKAYQDEMNAILGEKLSEEDEEQILAEFEGLEAQLTVEDLPEVPTSEENA 180

Query: 181 EKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 223
           EKLDLP VP+KKPVAADAIEEDA  VSSDASTKRRVME PL A
Sbjct: 181 EKLDLPNVPTKKPVAADAIEEDAVIVSSDASTKRRVMEEPLPA 223

[Close]
BLAST of MELO3C008970.jh1 vs. NCBI nr
Match: KAG6603293.1 (Vacuolar protein sorting-associated protein 20-like 2, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 371 bits (953), Expect = 2.01e-128
Identity = 212/223 (95.07%), Postives = 213/223 (95.52%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL
Sbjct: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           ALKKKKAQEELLK VDAWLINVEQQLSDIELASKQKAVFESLK GNNAIKAIQSEINIDD
Sbjct: 61  ALKKKKAQEELLKQVDAWLINVEQQLSDIELASKQKAVFESLKTGNNAIKAIQSEINIDD 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE 180
           VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFE LEAQLTVEDLPEVPTSEE  
Sbjct: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFEGLEAQLTVEDLPEVPTSEENA 180

Query: 181 EKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 223
           EKLDLP VP+KKPVAADAIEEDA  VSSDASTKRRVME PL A
Sbjct: 181 EKLDLPNVPTKKPVAADAIEEDAVIVSSDASTKRRVMEEPLPA 223

[Close]
BLAST of MELO3C008970.jh1 vs. ExPASy Swiss-Prot
Match: Q9FY89 (Vacuolar protein sorting-associated protein 20 homolog 2 OS=Arabidopsis thaliana OX=3702 GN=VPS20.2 PE=1 SV=1)

HSP 1 Score: 300.4 bits (768), Expect = 1.6e-80
Identity = 168/226 (74.34%), Postives = 196/226 (86.73%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKPK+T+VD+AILSLKTQRRKLGQYQQQL+ VIEAEK AAR+L+R+K+KDRALL
Sbjct: 1   MGNLFVKKPKITEVDRAILSLKTQRRKLGQYQQQLEKVIEAEKQAARDLIREKRKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           ALKKK+ QEELLK VD WLINVEQQL+DIEL SKQKAVFESLK GNNAIKAIQSE+N+DD
Sbjct: 61  ALKKKRTQEELLKQVDQWLINVEQQLADIELTSKQKAVFESLKQGNNAIKAIQSEVNLDD 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSE--- 180
           VQKLMDDTAEAKAYQDE++AILGEKLS EDEE+ILAEF++LE+ L VED+PEVPT+E   
Sbjct: 121 VQKLMDDTAEAKAYQDELSAILGEKLSAEDEEEILAEFDNLESLLIVEDMPEVPTTELMP 180

Query: 181 EKEEKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 224
           E+ EK+DLP+VP+K PVA+          +   STKR+V+E PL A
Sbjct: 181 EEPEKMDLPDVPTKAPVAS----------NETTSTKRKVLEEPLEA 216

[Close]
BLAST of MELO3C008970.jh1 vs. ExPASy Swiss-Prot
Match: Q8GXN6 (Vacuolar protein sorting-associated protein 20 homolog 1 OS=Arabidopsis thaliana OX=3702 GN=VPS20.1 PE=1 SV=1)

HSP 1 Score: 294.7 bits (753), Expect = 9.0e-79
Identity = 162/224 (72.32%), Postives = 199/224 (88.84%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKP++T+VD+AILSLKTQRRKLGQYQQ+L+ VIEAEK AAR+L+R+K+KDRALL
Sbjct: 1   MGNLFVKKPQITEVDRAILSLKTQRRKLGQYQQKLEKVIEAEKQAARDLIREKRKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           AL+KK+ QEELLK VD W+INVEQQL+DIEL SKQKAVFESLK GN+AIKAIQSE+++DD
Sbjct: 61  ALRKKRTQEELLKQVDQWVINVEQQLTDIELTSKQKAVFESLKQGNSAIKAIQSELDLDD 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSE-EK 180
           VQKLMDDTA+AKAYQDE+NAILGEKLS EDEE ILAEF++LE+QL V+++PEVPT E E+
Sbjct: 121 VQKLMDDTADAKAYQDELNAILGEKLSAEDEEDILAEFDNLESQLIVDEMPEVPTKESEE 180

Query: 181 EEKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 224
            EKLDLP+VP+K PVA+     +AE   ++++TK +V+E PL A
Sbjct: 181 SEKLDLPDVPTKTPVAS-----NAEITPAESATKTKVLEEPLPA 219

[Close]
BLAST of MELO3C008970.jh1 vs. ExPASy Swiss-Prot
Match: Q503V0 (Charged multivesicular body protein 6 OS=Danio rerio OX=7955 GN=chmp6 PE=2 SV=3)

HSP 1 Score: 137.5 bits (345), Expect = 1.8e-31
Identity = 83/196 (42.35%), Postives = 130/196 (66.33%), Query Frame = 0 

Query: 1   MGNLFVKK--PKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRA 60
           MGNLF KK   +VT+ D+A+L LK QR KL QYQ+++   ++ E+  A++L++  KKD+A
Sbjct: 1   MGNLFGKKKATRVTEQDRAVLQLKQQRDKLKQYQKRITLQMDKERQLAKQLLKDGKKDKA 60

Query: 61  LLALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINI 120
           LL LKKK+ Q++LL+  +  + N+E+ + DIE A  +  V E LK GN+ +K +   ++I
Sbjct: 61  LLLLKKKRYQDQLLEKTENQISNLERMVQDIEFAQIEMKVIEGLKVGNDCLKKMHEVLSI 120

Query: 121 DDVQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEE 180
           ++V+K+MD+T +A  YQ +I+ +L   L++EDEE +LAE E++       +LPEVP  E 
Sbjct: 121 EEVEKIMDETHDAIEYQKQIDEMLAGSLTQEDEEAVLAELEAITQGEADLELPEVPGEE- 180

Query: 181 KEEKLDLPEVPSKKPV 195
                 LPEVP ++PV
Sbjct: 181 ------LPEVPEQEPV 189

[Close]
BLAST of MELO3C008970.jh1 vs. ExPASy Swiss-Prot
Match: Q5ZL55 (Charged multivesicular body protein 6 OS=Gallus gallus OX=9031 GN=CHMP6 PE=2 SV=3)

HSP 1 Score: 125.2 bits (313), Expect = 9.5e-28
Identity = 79/199 (39.70%), Postives = 125/199 (62.81%), Query Frame = 0 

Query: 1   MGNLFVKK--PKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRA 60
           MGNLF +K   +VT+ DKA+L LK QR KL QYQ+++   +E E+  AR+L+++ KK++A
Sbjct: 1   MGNLFGRKRRSRVTEQDKAVLQLKQQRDKLRQYQKRISLGLERERELARQLLKEGKKEKA 60

Query: 61  LLALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINI 120
           +L LKKK+ QE+LL   D  + N+E+ + DIE    +  V E LK GN  +  +   ++I
Sbjct: 61  MLLLKKKRYQEQLLDKTDNQISNLERMVQDIEFTQIEMKVIEGLKIGNECLNKMHQVMSI 120

Query: 121 DDVQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESL-EAQLTVEDLPEVPTSE 180
           ++V++++ +T +A  YQ +I+ IL   L+EEDE+ IL E  ++ + QL + D+P  P  E
Sbjct: 121 EEVERIIGETQDAVEYQRQIDEILAGSLTEEDEDAILEELNAITQEQLELPDVPSEPLPE 180

Query: 181 EKEEKLDLPEVPSKKPVAA 197
           E  E   +   P  + VAA
Sbjct: 181 EPPEATPVKNRPKPELVAA 199

[Close]
BLAST of MELO3C008970.jh1 vs. ExPASy Swiss-Prot
Match: Q6NU11 (Charged multivesicular body protein 6-B OS=Xenopus laevis OX=8355 GN=chmp6-b PE=2 SV=3)

HSP 1 Score: 122.5 bits (306), Expect = 6.1e-27
Identity = 79/199 (39.70%), Postives = 124/199 (62.31%), Query Frame = 0 

Query: 1   MGNLFVKK--PKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRA 60
           MGNLF +K   +VT+ DKA+L LK QR KL QYQ+++   ++ E+  A++L+   KK++A
Sbjct: 1   MGNLFARKRRSRVTEQDKAVLQLKQQRDKLKQYQKKITLQLQRERELAKQLLHDGKKEKA 60

Query: 61  LLALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINI 120
            L LKKK+ QE+LL+  D  + N+E+ + DIE A  +  V E LK GN  +K +   ++I
Sbjct: 61  KLLLKKKRYQEQLLEKTDNQISNLEKMVDDIEFAQIEMKVIEGLKVGNEWLKKMHEVMSI 120

Query: 121 DDVQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESL-EAQLTVEDLPEVPTSE 180
           ++V+K+M++T E   YQ +I+ +L   L+ EDEE IL E E++ +  L + + P  P S+
Sbjct: 121 EEVEKIMEETQEGIEYQRQIDEMLSGSLTAEDEEAILEELEAITQEDLELPEAPSEPLSD 180

Query: 181 EKEEKLDLPEVPSKKPVAA 197
              EK  +   P  + VAA
Sbjct: 181 TVPEKQAVKNRPKPQLVAA 199

[Close]
BLAST of MELO3C008970.jh1 vs. ExPASy TrEMBL
Match: A0A1S3B5R7 (vacuolar protein sorting-associated protein 20 homolog 2-like OS=Cucumis melo OX=3656 GN=LOC103486109 PE=4 SV=1)

HSP 1 Score: 395 bits (1014), Expect = 4.93e-138
Identity = 223/223 (100.00%), Postives = 223/223 (100.00%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL
Sbjct: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD
Sbjct: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE 180
           VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE
Sbjct: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE 180

Query: 181 EKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 223
           EKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA
Sbjct: 181 EKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 223

[Close]
BLAST of MELO3C008970.jh1 vs. ExPASy TrEMBL
Match: A0A6J1EPH4 (vacuolar protein sorting-associated protein 20 homolog 2-like OS=Cucurbita moschata OX=3662 GN=LOC111435445 PE=4 SV=1)

HSP 1 Score: 372 bits (954), Expect = 6.86e-129
Identity = 212/223 (95.07%), Postives = 214/223 (95.96%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL
Sbjct: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           ALKKKKAQEELLK VDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD
Sbjct: 61  ALKKKKAQEELLKQVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE 180
           VQKLMDDTAEAKAYQDE+NAILGEKLSEEDEEQILAEFE LEAQLTVEDLPEVPTSEE  
Sbjct: 121 VQKLMDDTAEAKAYQDEMNAILGEKLSEEDEEQILAEFEGLEAQLTVEDLPEVPTSEENA 180

Query: 181 EKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 223
           EKLDLP VP+KKPVAADAIEEDA  VSSDASTKRRVME PL A
Sbjct: 181 EKLDLPNVPTKKPVAADAIEEDAVIVSSDASTKRRVMEEPLPA 223

[Close]
BLAST of MELO3C008970.jh1 vs. ExPASy TrEMBL
Match: A0A6J1D5M8 (vacuolar protein sorting-associated protein 20 homolog 2-like isoform X1 OS=Momordica charantia OX=3673 GN=LOC111017847 PE=4 SV=1)

HSP 1 Score: 366 bits (940), Expect = 9.31e-127
Identity = 208/223 (93.27%), Postives = 214/223 (95.96%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAA+ELVRQKKKDRALL
Sbjct: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAAKELVRQKKKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           ALKKKKAQEELLK VDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEIN+DD
Sbjct: 61  ALKKKKAQEELLKQVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINLDD 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE 180
           VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQ+TV+DLPEVPTS E  
Sbjct: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQITVQDLPEVPTSNENV 180

Query: 181 EKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 223
           EKLDLP+VP+KKPVAAD IEEDAE VSS A TKRRVME PLAA
Sbjct: 181 EKLDLPDVPTKKPVAADPIEEDAEIVSSVAPTKRRVMEEPLAA 223

[Close]
BLAST of MELO3C008970.jh1 vs. ExPASy TrEMBL
Match: A0A6J1EBQ2 (vacuolar protein sorting-associated protein 20 homolog 2-like OS=Cucurbita moschata OX=3662 GN=LOC111432566 PE=4 SV=1)

HSP 1 Score: 360 bits (923), Expect = 3.75e-124
Identity = 207/224 (92.41%), Postives = 213/224 (95.09%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL
Sbjct: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           ALKKKKAQEELLK VDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINI+D
Sbjct: 61  ALKKKKAQEELLKQVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIED 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE 180
           VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPE+PTS+E  
Sbjct: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEIPTSKENG 180

Query: 181 EKLDLPEVPSKKPVA-ADAIEEDAETVSSDASTKRRVMEGPLAA 223
           E LDLP+VP+KKPVA A A+EEDAE V SDA TKRR ME PLAA
Sbjct: 181 EGLDLPDVPTKKPVASAAAVEEDAEIVPSDAPTKRRAMEEPLAA 224

[Close]
BLAST of MELO3C008970.jh1 vs. ExPASy TrEMBL
Match: A0A6J1HS74 (vacuolar protein sorting-associated protein 20 homolog 2-like OS=Cucurbita maxima OX=3661 GN=LOC111466101 PE=4 SV=1)

HSP 1 Score: 356 bits (914), Expect = 8.81e-123
Identity = 204/224 (91.07%), Postives = 212/224 (94.64%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL
Sbjct: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           ALKKKKAQEELLK VD WLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINI+D
Sbjct: 61  ALKKKKAQEELLKQVDVWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIED 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSEEKE 180
           VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPE+P ++E  
Sbjct: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEIPMAKENG 180

Query: 181 EKLDLPEVPSKKPVAADA-IEEDAETVSSDASTKRRVMEGPLAA 223
           E+LDLP+VP+KKPVAA A +EEDAE V SDA TKRR ME PLAA
Sbjct: 181 ERLDLPDVPTKKPVAAAAAVEEDAEIVPSDAPTKRRAMEEPLAA 224

[Close]
BLAST of MELO3C008970.jh1 vs. TAIR 10
Match: AT5G09260.1 (vacuolar protein sorting-associated protein 20.2 )

HSP 1 Score: 300.4 bits (768), Expect = 1.2e-81
Identity = 168/226 (74.34%), Postives = 196/226 (86.73%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKPK+T+VD+AILSLKTQRRKLGQYQQQL+ VIEAEK AAR+L+R+K+KDRALL
Sbjct: 1   MGNLFVKKPKITEVDRAILSLKTQRRKLGQYQQQLEKVIEAEKQAARDLIREKRKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           ALKKK+ QEELLK VD WLINVEQQL+DIEL SKQKAVFESLK GNNAIKAIQSE+N+DD
Sbjct: 61  ALKKKRTQEELLKQVDQWLINVEQQLADIELTSKQKAVFESLKQGNNAIKAIQSEVNLDD 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSE--- 180
           VQKLMDDTAEAKAYQDE++AILGEKLS EDEE+ILAEF++LE+ L VED+PEVPT+E   
Sbjct: 121 VQKLMDDTAEAKAYQDELSAILGEKLSAEDEEEILAEFDNLESLLIVEDMPEVPTTELMP 180

Query: 181 EKEEKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 224
           E+ EK+DLP+VP+K PVA+          +   STKR+V+E PL A
Sbjct: 181 EEPEKMDLPDVPTKAPVAS----------NETTSTKRKVLEEPLEA 216

[Close]
BLAST of MELO3C008970.jh1 vs. TAIR 10
Match: AT5G63880.1 (SNF7 family protein )

HSP 1 Score: 294.7 bits (753), Expect = 6.4e-80
Identity = 162/224 (72.32%), Postives = 199/224 (88.84%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKP++T+VD+AILSLKTQRRKLGQYQQ+L+ VIEAEK AAR+L+R+K+KDRALL
Sbjct: 1   MGNLFVKKPQITEVDRAILSLKTQRRKLGQYQQKLEKVIEAEKQAARDLIREKRKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           AL+KK+ QEELLK VD W+INVEQQL+DIEL SKQKAVFESLK GN+AIKAIQSE+++DD
Sbjct: 61  ALRKKRTQEELLKQVDQWVINVEQQLTDIELTSKQKAVFESLKQGNSAIKAIQSELDLDD 120

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKLSEEDEEQILAEFESLEAQLTVEDLPEVPTSE-EK 180
           VQKLMDDTA+AKAYQDE+NAILGEKLS EDEE ILAEF++LE+QL V+++PEVPT E E+
Sbjct: 121 VQKLMDDTADAKAYQDELNAILGEKLSAEDEEDILAEFDNLESQLIVDEMPEVPTKESEE 180

Query: 181 EEKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRRVMEGPLAA 224
            EKLDLP+VP+K PVA+     +AE   ++++TK +V+E PL A
Sbjct: 181 SEKLDLPDVPTKTPVAS-----NAEITPAESATKTKVLEEPLPA 219

[Close]
BLAST of MELO3C008970.jh1 vs. TAIR 10
Match: AT5G63880.2 (SNF7 family protein )

HSP 1 Score: 281.2 bits (718), Expect = 7.3e-76
Identity = 162/248 (65.32%), Postives = 199/248 (80.24%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           MGNLFVKKP++T+VD+AILSLKTQRRKLGQYQQ+L+ VIEAEK AAR+L+R+K+KDRALL
Sbjct: 1   MGNLFVKKPQITEVDRAILSLKTQRRKLGQYQQKLEKVIEAEKQAARDLIREKRKDRALL 60

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
           AL+KK+ QEELLK VD W+INVEQQL+DIEL SKQKAVFESLK GN+AIKAIQSE+++DD
Sbjct: 61  ALRKKRTQEELLKQVDQWVINVEQQLTDIELTSKQKAVFESLKQGNSAIKAIQSELDLDD 120

Query: 121 VQKLMDDTAEAKAYQD------------------------EINAILGEKLSEEDEEQILA 180
           VQKLMDDTA+AKAYQD                        E+NAILGEKLS EDEE ILA
Sbjct: 121 VQKLMDDTADAKAYQDCENLYNLFCRAFVFDDSIYISECQELNAILGEKLSAEDEEDILA 180

Query: 181 EFESLEAQLTVEDLPEVPTSE-EKEEKLDLPEVPSKKPVAADAIEEDAETVSSDASTKRR 224
           EF++LE+QL V+++PEVPT E E+ EKLDLP+VP+K PVA+     +AE   ++++TK +
Sbjct: 181 EFDNLESQLIVDEMPEVPTKESEESEKLDLPDVPTKTPVAS-----NAEITPAESATKTK 240

[Close]
BLAST of MELO3C008970.jh1 vs. TAIR 10
Match: AT4G29160.1 (SNF7 family protein )

HSP 1 Score: 51.2 bits (121), Expect = 1.2e-06
Identity = 51/200 (25.50%), Postives = 92/200 (46.00%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           M  LF K  +  +  + +  L      L + ++ L     AE   A+E  R K K  A+ 
Sbjct: 2   MNRLFGKPKQEANALQTLDKLNETLEMLEKKEKVLLKKAGAEVEKAKEYSRAKNKRAAIQ 61

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
            LK+K+  E  ++ +  + + +  Q+  +E A       ++L++G +A+KA+Q   NIDD
Sbjct: 62  CLKRKRLYEGQVEQLGNFQLRIHDQMIMLEGAKATTETVDALRSGASAMKAMQKATNIDD 121

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKL---SEEDEEQILAEFESLEAQ----------LTV 180
           V K MD+  E      +I   L   +   ++ DE+++ AE + LE++           T 
Sbjct: 122 VDKTMDEINEQTENMKQIQEALATPMGAAADFDEDELAAELDELESEELESQLLQPATTA 181

Query: 181 EDLPEVPTSEEKEEKLDLPE 188
             LP VP    ++    +P+
Sbjct: 182 PPLPSVPVPAGRQPARPVPQ 201

[Close]
BLAST of MELO3C008970.jh1 vs. TAIR 10
Match: AT4G29160.3 (SNF7 family protein )

HSP 1 Score: 51.2 bits (121), Expect = 1.2e-06
Identity = 51/200 (25.50%), Postives = 92/200 (46.00%), Query Frame = 0 

Query: 1   MGNLFVKKPKVTDVDKAILSLKTQRRKLGQYQQQLDAVIEAEKNAARELVRQKKKDRALL 60
           M  LF K  +  +  + +  L      L + ++ L     AE   A+E  R K K  A+ 
Sbjct: 2   MNRLFGKPKQEANALQTLDKLNETLEMLEKKEKVLLKKAGAEVEKAKEYSRAKNKRAAIQ 61

Query: 61  ALKKKKAQEELLKHVDAWLINVEQQLSDIELASKQKAVFESLKAGNNAIKAIQSEINIDD 120
            LK+K+  E  ++ +  + + +  Q+  +E A       ++L++G +A+KA+Q   NIDD
Sbjct: 62  CLKRKRLYEGQVEQLGNFQLRIHDQMIMLEGAKATTETVDALRSGASAMKAMQKATNIDD 121

Query: 121 VQKLMDDTAEAKAYQDEINAILGEKL---SEEDEEQILAEFESLEAQ----------LTV 180
           V K MD+  E      +I   L   +   ++ DE+++ AE + LE++           T 
Sbjct: 122 VDKTMDEINEQTENMKQIQEALATPMGAAADFDEDELAAELDELESEELESQLLQPATTA 181

Query: 181 EDLPEVPTSEEKEEKLDLPE 188
             LP VP    ++    +P+
Sbjct: 182 PPLPSVPVPAGRQPARPVPQ 201

The following BLAST results are available for this feature:
BLAST of MELO3C008970.jh1 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008442178.11.02e-137100.00PREDICTED: vacuolar protein sorting-associated protein 20 homolog 2-like [Cucumi... [more]
XP_011653914.21.33e-13397.31vacuolar protein sorting-associated protein 20 homolog 2 isoform X2 [Cucumis sat... [more]
XP_038883019.19.97e-12995.52vacuolar protein sorting-associated protein 20 homolog 2-like [Benincasa hispida... [more]
XP_022928588.11.42e-12895.07vacuolar protein sorting-associated protein 20 homolog 2-like [Cucurbita moschat... [more]
KAG6603293.12.01e-12895.07Vacuolar protein sorting-associated protein 20-like 2, partial [Cucurbita argyro... [more]
BLAST of MELO3C008970.jh1 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9FY891.6e-8074.34Vacuolar protein sorting-associated protein 20 homolog 2 OS=Arabidopsis thaliana... [more]
Q8GXN69.0e-7972.32Vacuolar protein sorting-associated protein 20 homolog 1 OS=Arabidopsis thaliana... [more]
Q503V01.8e-3142.35Charged multivesicular body protein 6 OS=Danio rerio OX=7955 GN=chmp6 PE=2 SV=3[more]
Q5ZL559.5e-2839.70Charged multivesicular body protein 6 OS=Gallus gallus OX=9031 GN=CHMP6 PE=2 SV=... [more]
Q6NU116.1e-2739.70Charged multivesicular body protein 6-B OS=Xenopus laevis OX=8355 GN=chmp6-b PE=... [more]
BLAST of MELO3C008970.jh1 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3B5R74.93e-138100.00vacuolar protein sorting-associated protein 20 homolog 2-like OS=Cucumis melo OX... [more]
A0A6J1EPH46.86e-12995.07vacuolar protein sorting-associated protein 20 homolog 2-like OS=Cucurbita mosch... [more]
A0A6J1D5M89.31e-12793.27vacuolar protein sorting-associated protein 20 homolog 2-like isoform X1 OS=Momo... [more]
A0A6J1EBQ23.75e-12492.41vacuolar protein sorting-associated protein 20 homolog 2-like OS=Cucurbita mosch... [more]
A0A6J1HS748.81e-12391.07vacuolar protein sorting-associated protein 20 homolog 2-like OS=Cucurbita maxim... [more]
BLAST of MELO3C008970.jh1 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G09260.11.2e-8174.34vacuolar protein sorting-associated protein 20.2 [more]
AT5G63880.16.4e-8072.32SNF7 family protein [more]
AT5G63880.27.3e-7665.32SNF7 family protein [more]
AT4G29160.11.2e-0625.50SNF7 family protein [more]
AT4G29160.31.2e-0625.50SNF7 family protein [more]
InterPro
Analysis Name: InterPro Annotations of Melon (Harukei-3) v1.41
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 50..70
NoneNo IPR availableCOILSCoilCoilcoord: 21..41
NoneNo IPR availableGENE3D6.10.250.1710coord: 116..168
e-value: 4.7E-5
score: 25.2
NoneNo IPR availableGENE3D1.10.287.1060coord: 14..90
e-value: 6.2E-10
score: 41.1
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 172..199
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 167..223
NoneNo IPR availablePANTHERPTHR22761CHARGED MULTIVESICULAR BODY PROTEINcoord: 2..223
NoneNo IPR availablePANTHERPTHR22761:SF50VACUOLAR PROTEIN SORTING-ASSOCIATED PROTEIN 20 HOMOLOG 1coord: 2..223
IPR005024Snf7 familyPFAMPF03357Snf7coord: 16..192
e-value: 1.9E-41
score: 141.5

Relationships

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

Feature NameUnique NameType
MELO3C008970.jh1.t1MELO3C008970.jh1.t1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0007034 vacuolar transport