Moc02g15510 (gene) Bitter gourd (OHB3-1) v2

Overview
NameMoc02g15510
Typegene
OrganismMomordica charantia cv. OHB3-1 (Bitter gourd (OHB3-1) v2)
DescriptionUnknown protein
Locationchr2: 11633531 .. 11673496 (+)
RNA-Seq ExpressionMoc02g15510
SyntenyMoc02g15510
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGAGAATGGTTTCGACGGGAGATCGTTGGCTGAGAAGTTCTCCGGATTGGCCGTCACAGCTGCTCCACCGGAGCAATTTAACTCCCACTCGTCCAACAATCACAGTAACAGCAACGACAGCAACTTGTTTCAGGTCTTGAAAGCTGTTGAAGCAGCGGAGGCTACCATCAAGCAACAGGTGGAGGAAAATAATCGTCTGAGGATCGAACTTCAGAAAAAGATCCAGGAACTGGAGAAATATAAGGTTGATGAATCTTTGGCTCGAAGGTTTCATTCCACAGACCAGTGGAATGAGAATGACCATGGATCAAATGGGGGTCATCAATCAGATAATTCAGTCGATAATGAAAGGCATAGGTTTAAGAATAACATTTCTGCAGTTGATTCACATGGAACACTAGTTGTCCATCGAGATGTTGAGCAAAAAGATGAAGTTTCCATGCGTATTGATAAAGAATCTCGTTATGCGGACGGCAAGTCTGACGAAATAGTGAATGCTCTTCCGGGTGTTCAGCCTTCAGTTGATAATGCTGGTTACTCGCAGTTCTCTTCACCATCTACAACATCCTTCTCTGCTAGCAGGTTTCCAGTGGATGGAGAATATGATCCACAGATTAAGTTGTCTGGACATGGCCTGATGTCAAAGGCTGAAGCAAACAATCCCAAGAGTCTCTGGAAGCAGGATCTTGTTGTTAAAGTCCAGGAACATGAAGATGAAATTGTGCAGTTACGCAAGCATCTTGCTGATTATTCTATCAAGGAAGCACAAATACGAAATGAAAAATATGTTCTGGAAAAACGTATTGCCTATATGCGTTTGGCCTTTGATCAACAACAACAAGACCTTGTTGATGCTGCTTCTAAAGCTCTCTCATACAGACAAGACATAATTGAGGAAAATATACGTCTTACATATGCATTGCAGGAAGCACAGCAAGAGAGAACTACATTTGTATCATCTTTGCTGCCTCTTCTTGCGGAATATTCTCTGCAGCCTCCTGTTCCTGATGCTCAGTCCATTATCAGCAATGTCAAGATTCTATTTAAGCACTTGCAGGAGAAACTCCTTCTCACTGAGACAAAATTGAAAGAGTCGCAGTATCAATTAACACCTTGGCGCTCTGATGCAAGCCACTCGAGTTTTGCACAACAGTCACCTTTCCACTCAGTTGGTGCAACCTTAACTGCTTCAACTAAAAATGGGCTTGAACTGGTTCCTCAACCTTCATACTGGAACGGGAAGATCCCAGTTTCTTCTTCTGATGCTCAGACAACAGCTGATTGGGATCTATCAAGTCATCATCAGATTGGTTTAGGTGTTGATGTTGCAAAAAACTTGGAACCAGATGATTTGGGGAGGTATTCACTTCATGCAAGCAGTGAAGCAACAAACAAACAGGTGACATTTCGTGAACCTGTAAGCAACAGTGAGATGGATGACCCGGATGTTGTACACCAAACAGATAGAGATCCTCTCACCAACTGGAGTTCTCGGGAATCTCCCCCTGTTGCCACTCTCGACGAGCCAAGCTCATCTCATTCTCCAATTCTGCCTCCAGTCCTTGAGGAACCTTCACCTTCATTTTCTGAAGATGATGATCCATTGCCTGCTATTGAAGCCCTCCAAATATCTGGTGAAGCTTTTCCAGGACAAGAGCTCCAAGCATGTGGATACTCAATTAATGGAACTACTAGCTGTAATTTTGAGTGGGTACGGCATTTGGAGGATGGATCTGTTAATTACATTGAAGGGGCAAAGCAACCAAACTATCGCGTTACTGCAGATGATGTTGACACCTATCTAGCTATTGAAGTACAACCTTTGGATAACAGAAGGCGCAAGGGAGAGCTTGTAAAGGTATTTGCCAATGAGCACCGAAAGATTACTTGTGAACCTGAAATGCAGAACCACATAGAGAAGACTCTTTATAGTGGTCATGCTTCATACAAAGTATCCATCTCGGCTGGATATCTTGATATATGGGAACCGGCTACACTATCTATCAAAAGGGAAGGATACAGTATAAAATGTAGCGGACCTAGTGGTGATGCCATCACTGAAAAGTTTTCAACAAATACAACTGTATCGATTCCATTTGGACATCCTTTTGAGTTCGTAATAACTGGTTCTAACAATGTTGAGCATCACTTGCGAGCAGAAAACAATTCTGCAGATATAAGCTGTTTCAGAGATACCATTGTGCTGATCTTGAGACTATTCATTATAAGGGCTGGTGAGAGAAGAAAAGGAAAAAGACGAGGTTTATTCTTTCACAAGTAA

Coding sequence (CDS)

ATGGAGAATGGTTTCGACGGGAGATCGTTGGCTGAGAAGTTCTCCGGATTGGCCGTCACAGCTGCTCCACCGGAGCAATTTAACTCCCACTCGTCCAACAATCACAGTAACAGCAACGACAGCAACTTGTTTCAGGTCTTGAAAGCTGTTGAAGCAGCGGAGGCTACCATCAAGCAACAGGTGGAGGAAAATAATCGTCTGAGGATCGAACTTCAGAAAAAGATCCAGGAACTGGAGAAATATAAGGTTGATGAATCTTTGGCTCGAAGGTTTCATTCCACAGACCAGTGGAATGAGAATGACCATGGATCAAATGGGGGTCATCAATCAGATAATTCAGTCGATAATGAAAGGCATAGGTTTAAGAATAACATTTCTGCAGTTGATTCACATGGAACACTAGTTGTCCATCGAGATGTTGAGCAAAAAGATGAAGTTTCCATGCGTATTGATAAAGAATCTCGTTATGCGGACGGCAAGTCTGACGAAATAGTGAATGCTCTTCCGGGTGTTCAGCCTTCAGTTGATAATGCTGGTTACTCGCAGTTCTCTTCACCATCTACAACATCCTTCTCTGCTAGCAGGTTTCCAGTGGATGGAGAATATGATCCACAGATTAAGTTGTCTGGACATGGCCTGATGTCAAAGGCTGAAGCAAACAATCCCAAGAGTCTCTGGAAGCAGGATCTTGTTGTTAAAGTCCAGGAACATGAAGATGAAATTGTGCAGTTACGCAAGCATCTTGCTGATTATTCTATCAAGGAAGCACAAATACGAAATGAAAAATATGTTCTGGAAAAACGTATTGCCTATATGCGTTTGGCCTTTGATCAACAACAACAAGACCTTGTTGATGCTGCTTCTAAAGCTCTCTCATACAGACAAGACATAATTGAGGAAAATATACGTCTTACATATGCATTGCAGGAAGCACAGCAAGAGAGAACTACATTTGTATCATCTTTGCTGCCTCTTCTTGCGGAATATTCTCTGCAGCCTCCTGTTCCTGATGCTCAGTCCATTATCAGCAATGTCAAGATTCTATTTAAGCACTTGCAGGAGAAACTCCTTCTCACTGAGACAAAATTGAAAGAGTCGCAGTATCAATTAACACCTTGGCGCTCTGATGCAAGCCACTCGAGTTTTGCACAACAGTCACCTTTCCACTCAGTTGGTGCAACCTTAACTGCTTCAACTAAAAATGGGCTTGAACTGGTTCCTCAACCTTCATACTGGAACGGGAAGATCCCAGTTTCTTCTTCTGATGCTCAGACAACAGCTGATTGGGATCTATCAAGTCATCATCAGATTGGTTTAGGTGTTGATGTTGCAAAAAACTTGGAACCAGATGATTTGGGGAGGTATTCACTTCATGCAAGCAGTGAAGCAACAAACAAACAGGTGACATTTCGTGAACCTGTAAGCAACAGTGAGATGGATGACCCGGATGTTGTACACCAAACAGATAGAGATCCTCTCACCAACTGGAGTTCTCGGGAATCTCCCCCTGTTGCCACTCTCGACGAGCCAAGCTCATCTCATTCTCCAATTCTGCCTCCAGTCCTTGAGGAACCTTCACCTTCATTTTCTGAAGATGATGATCCATTGCCTGCTATTGAAGCCCTCCAAATATCTGGTGAAGCTTTTCCAGGACAAGAGCTCCAAGCATGTGGATACTCAATTAATGGAACTACTAGCTGTAATTTTGAGTGGGTACGGCATTTGGAGGATGGATCTGTTAATTACATTGAAGGGGCAAAGCAACCAAACTATCGCGTTACTGCAGATGATGTTGACACCTATCTAGCTATTGAAGTACAACCTTTGGATAACAGAAGGCGCAAGGGAGAGCTTGTAAAGGTATTTGCCAATGAGCACCGAAAGATTACTTGTGAACCTGAAATGCAGAACCACATAGAGAAGACTCTTTATAGTGGTCATGCTTCATACAAAGTATCCATCTCGGCTGGATATCTTGATATATGGGAACCGGCTACACTATCTATCAAAAGGGAAGGATACAGTATAAAATGTAGCGGACCTAGTGGTGATGCCATCACTGAAAAGTTTTCAACAAATACAACTGTATCGATTCCATTTGGACATCCTTTTGAGTTCGTAATAACTGGTTCTAACAATGTTGAGCATCACTTGCGAGCAGAAAACAATTCTGCAGATATAAGCTGTTTCAGAGATACCATTGTGCTGATCTTGAGACTATTCATTATAAGGGCTGGTGAGAGAAGAAAAGGAAAAAGACGAGGTTTATTCTTTCACAAGTAA

Protein sequence

MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQVEENNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERHRFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAGYSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHEDEIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVSSSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEMDDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIEALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDTYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYLDIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLRAENNSADISCFRDTIVLILRLFIIRAGERRKGKRRGLFFHK
Homology
[Close]
BLAST of Moc02g15510 vs. NCBI nr
Match: XP_022158446.1 (uncharacterized protein LOC111024932 isoform X2 [Momordica charantia])

HSP 1 Score: 1488.4 bits (3852), Expect = 0.0e+00
Identity = 759/760 (99.87%), Postives = 759/760 (99.87%), Query Frame = 0 

Query: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60
           MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ
Sbjct: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60

Query: 61  VEENNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERHR 120
           VEENNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERHR
Sbjct: 61  VEENNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERHR 120

Query: 121 FKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAGY 180
           FKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAGY
Sbjct: 121 FKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAGY 180

Query: 181 SQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHEDE 240
           SQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHEDE
Sbjct: 181 SQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHEDE 240

Query: 241 IVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEE 300
           IVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEE
Sbjct: 241 IVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEE 300

Query: 301 NIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTE 360
           NIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTE
Sbjct: 301 NIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTE 360

Query: 361 TKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVSS 420
           TKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVSS
Sbjct: 361 TKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVSS 420

Query: 421 SDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEMD 480
           SDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEMD
Sbjct: 421 SDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEMD 480

Query: 481 DPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIE 540
           DPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIE
Sbjct: 481 DPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIE 540

Query: 541 ALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDT 600
           ALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDT
Sbjct: 541 ALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDT 600

Query: 601 YLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYLD 660
           YLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYLD
Sbjct: 601 YLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYLD 660

Query: 661 IWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLRA 720
           IWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLRA
Sbjct: 661 IWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLRA 720

Query: 721 ENNSADISCFRDTIVLILRLFIIRAGERRKGKRRGLFFHK 761
           ENNSADISCFRDTIVL LRLFIIRAGERRKGKRRGLFFHK
Sbjct: 721 ENNSADISCFRDTIVLXLRLFIIRAGERRKGKRRGLFFHK 760

[Close]
BLAST of Moc02g15510 vs. NCBI nr
Match: XP_022158445.1 (uncharacterized protein LOC111024932 isoform X1 [Momordica charantia])

HSP 1 Score: 1483.8 bits (3840), Expect = 0.0e+00
Identity = 759/761 (99.74%), Postives = 759/761 (99.74%), Query Frame = 0 

Query: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60
           MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ
Sbjct: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60

Query: 61  VEENNRLRIELQKKIQELEKY-KVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERH 120
           VEENNRLRIELQKKIQELEKY KVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERH
Sbjct: 61  VEENNRLRIELQKKIQELEKYQKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERH 120

Query: 121 RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG 180
           RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG
Sbjct: 121 RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG 180

Query: 181 YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED 240
           YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED
Sbjct: 181 YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED 240

Query: 241 EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE 300
           EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE
Sbjct: 241 EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE 300

Query: 301 ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT 360
           ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT
Sbjct: 301 ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT 360

Query: 361 ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS 420
           ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS
Sbjct: 361 ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS 420

Query: 421 SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM 480
           SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM
Sbjct: 421 SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM 480

Query: 481 DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI 540
           DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI
Sbjct: 481 DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI 540

Query: 541 EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD 600
           EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD
Sbjct: 541 EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD 600

Query: 601 TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL 660
           TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL
Sbjct: 601 TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL 660

Query: 661 DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR 720
           DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR
Sbjct: 661 DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR 720

Query: 721 AENNSADISCFRDTIVLILRLFIIRAGERRKGKRRGLFFHK 761
           AENNSADISCFRDTIVL LRLFIIRAGERRKGKRRGLFFHK
Sbjct: 721 AENNSADISCFRDTIVLXLRLFIIRAGERRKGKRRGLFFHK 761

[Close]
BLAST of Moc02g15510 vs. NCBI nr
Match: XP_022158447.1 (uncharacterized protein LOC111024932 isoform X3 [Momordica charantia])

HSP 1 Score: 1451.0 bits (3755), Expect = 0.0e+00
Identity = 743/745 (99.73%), Postives = 743/745 (99.73%), Query Frame = 0 

Query: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60
           MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ
Sbjct: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60

Query: 61  VEENNRLRIELQKKIQELEKY-KVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERH 120
           VEENNRLRIELQKKIQELEKY KVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERH
Sbjct: 61  VEENNRLRIELQKKIQELEKYQKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERH 120

Query: 121 RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG 180
           RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG
Sbjct: 121 RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG 180

Query: 181 YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED 240
           YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED
Sbjct: 181 YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED 240

Query: 241 EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE 300
           EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE
Sbjct: 241 EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE 300

Query: 301 ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT 360
           ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT
Sbjct: 301 ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT 360

Query: 361 ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS 420
           ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS
Sbjct: 361 ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS 420

Query: 421 SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM 480
           SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM
Sbjct: 421 SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM 480

Query: 481 DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI 540
           DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI
Sbjct: 481 DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI 540

Query: 541 EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD 600
           EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD
Sbjct: 541 EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD 600

Query: 601 TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL 660
           TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL
Sbjct: 601 TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL 660

Query: 661 DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR 720
           DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR
Sbjct: 661 DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR 720

Query: 721 AENNSADISCFRDTIVLILRLFIIR 745
           AENNSADISCFRDTIVL LRLFIIR
Sbjct: 721 AENNSADISCFRDTIVLXLRLFIIR 745

[Close]
BLAST of Moc02g15510 vs. NCBI nr
Match: XP_011649437.1 (uncharacterized protein LOC101216431 isoform X1 [Cucumis sativus] >KGN62280.2 hypothetical protein Csa_016950 [Cucumis sativus])

HSP 1 Score: 1328.5 bits (3437), Expect = 0.0e+00
Identity = 680/761 (89.36%), Postives = 712/761 (93.56%), Query Frame = 0 

Query: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60
           MENGFDGRSLAEKFS L V+A   EQ NSH   NH N+NDSNLFQVLKAVEAAEATIKQQ
Sbjct: 1   MENGFDGRSLAEKFSELGVSATSAEQSNSH---NHGNNNDSNLFQVLKAVEAAEATIKQQ 60

Query: 61  VEENNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNEND-HGSNGGHQSDNSVDNERH 120
           VEENNRLRIELQKKIQELEKYKV E LA+RFHST+QWNEND HGSNGGHQSDNSVDNER 
Sbjct: 61  VEENNRLRIELQKKIQELEKYKVGEPLAQRFHSTNQWNENDHHGSNGGHQSDNSVDNERQ 120

Query: 121 RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG 180
           RFKNNIS VDSHGTLV+H+DVEQKDEVSMR+D ESR+ D KSD +VNALPGVQP VDNAG
Sbjct: 121 RFKNNISVVDSHGTLVLHQDVEQKDEVSMRVDTESRFEDSKSDRMVNALPGVQPQVDNAG 180

Query: 181 YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED 240
            SQFSSPSTTSFSASRF +D EYDP+IKLSGHG+M KAE NNP SLWKQDLVVKVQEHED
Sbjct: 181 CSQFSSPSTTSFSASRFTMDVEYDPRIKLSGHGIMPKAEGNNPNSLWKQDLVVKVQEHED 240

Query: 241 EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE 300
           EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE
Sbjct: 241 EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE 300

Query: 301 ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT 360
           ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT
Sbjct: 301 ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT 360

Query: 361 ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS 420
           ETKLKESQYQLTPWRSDASHSSFA QSPFHS+GATLTASTKNGLELVPQPSYWNGK+PVS
Sbjct: 361 ETKLKESQYQLTPWRSDASHSSFAPQSPFHSIGATLTASTKNGLELVPQPSYWNGKMPVS 420

Query: 421 SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM 480
           SSDAQTTADWDLS+HHQIGLGV V KNLEPDDLGRYS HASSE TNKQVTFREPVSNSE+
Sbjct: 421 SSDAQTTADWDLSTHHQIGLGVGVGKNLEPDDLGRYSHHASSEGTNKQVTFREPVSNSEI 480

Query: 481 DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI 540
           DD DVVHQT+R+P+TNWSS +SPP AT DEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI
Sbjct: 481 DDQDVVHQTEREPITNWSSGQSPPPATFDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI 540

Query: 541 EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD 600
           EALQISGEAFPGQ+LQACGYSINGTTSCNFEWVRHLEDGSV YIEGAKQPNYRVTADDVD
Sbjct: 541 EALQISGEAFPGQDLQACGYSINGTTSCNFEWVRHLEDGSVTYIEGAKQPNYRVTADDVD 600

Query: 601 TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL 660
           TYLAIEVQPLDNRRRKGELVKVFAN+HRKITC+PEMQN IE+TL SGHASYKVS+SAGYL
Sbjct: 601 TYLAIEVQPLDNRRRKGELVKVFANDHRKITCDPEMQNQIERTLSSGHASYKVSMSAGYL 660

Query: 661 DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR 720
           DIWE ATLSIKREGYSIKCSG SGD ITEKFS NTTVSI FGHP EF ITGSNNV+HH+R
Sbjct: 661 DIWEAATLSIKREGYSIKCSGSSGDVITEKFSPNTTVSILFGHPTEFTITGSNNVDHHMR 720

Query: 721 AENNSADISCFRDTIVLILRLFIIRAGERRKGKRRGLFFHK 761
           A+NNSAD+SC RDTIVL LRLFI+RA ERRKG++R LFFHK
Sbjct: 721 ADNNSADVSCCRDTIVLTLRLFILRASERRKGRKRVLFFHK 758

[Close]
BLAST of Moc02g15510 vs. NCBI nr
Match: XP_038900808.1 (uncharacterized protein LOC120087880 isoform X1 [Benincasa hispida])

HSP 1 Score: 1327.8 bits (3435), Expect = 0.0e+00
Identity = 681/761 (89.49%), Postives = 712/761 (93.56%), Query Frame = 0 

Query: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60
           MENGFDGRSLAEKFS L V+A P EQ NSHSSNNH N+NDSNLFQVLKAVEAAEATIKQQ
Sbjct: 1   MENGFDGRSLAEKFSELGVSATPAEQSNSHSSNNHGNNNDSNLFQVLKAVEAAEATIKQQ 60

Query: 61  VEENNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNEND-HGSNGGHQSDNSVDNERH 120
           VEENNRLR ELQKKIQELEKYKVDE LA+RFHST+QW+END HGSNGGHQSDNSVDNER 
Sbjct: 61  VEENNRLRTELQKKIQELEKYKVDEPLAQRFHSTNQWSENDHHGSNGGHQSDNSVDNERQ 120

Query: 121 RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG 180
           RFKNNIS VDS G LV+H+ VEQKDEVSMR+D ESR+ D KSD +VNALPGVQ SVDNAG
Sbjct: 121 RFKNNISIVDSRGPLVLHQVVEQKDEVSMRVDAESRFEDRKSDRMVNALPGVQASVDNAG 180

Query: 181 YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED 240
            SQFSSPSTTSFSASRF +D EYDP+IKLSGHG+M KAEANNP SLWKQDLVVKVQEHED
Sbjct: 181 CSQFSSPSTTSFSASRFTMDVEYDPRIKLSGHGIMPKAEANNPNSLWKQDLVVKVQEHED 240

Query: 241 EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE 300
           EIVQLRKHLA+YSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE
Sbjct: 241 EIVQLRKHLAEYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE 300

Query: 301 ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT 360
           ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT
Sbjct: 301 ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT 360

Query: 361 ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS 420
           ETKLKESQYQLTPWRSDASHSSFA QSPFHS+GATLT STKNGLELVPQPSYWNGK+PVS
Sbjct: 361 ETKLKESQYQLTPWRSDASHSSFAPQSPFHSIGATLTTSTKNGLELVPQPSYWNGKMPVS 420

Query: 421 SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM 480
           SSDAQTTADWDLS+HHQIGLGV VAK LEPDDLGRYS HASSE TNKQVTFREPVSNSE+
Sbjct: 421 SSDAQTTADWDLSTHHQIGLGVGVAKKLEPDDLGRYSHHASSEGTNKQVTFREPVSNSEI 480

Query: 481 DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI 540
           DD DVVHQT+R+ +TNWSS +SPP A  DEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI
Sbjct: 481 DDQDVVHQTERETITNWSSGQSPPPAAFDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI 540

Query: 541 EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD 600
           EALQISGEAFPGQ+LQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD
Sbjct: 541 EALQISGEAFPGQDLQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD 600

Query: 601 TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL 660
           TYLAIEVQPLDNRRRKGELVKVFAN+HRKITC+PEMQN IEKTLYSGHASYKVS+SAGYL
Sbjct: 601 TYLAIEVQPLDNRRRKGELVKVFANDHRKITCDPEMQNQIEKTLYSGHASYKVSMSAGYL 660

Query: 661 DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR 720
           DIWE ATLSIKREGYSIKCSG SGD ITEKFS NT VSIPFG+P EF ITGSNNVEHHLR
Sbjct: 661 DIWEGATLSIKREGYSIKCSGSSGDVITEKFSPNTIVSIPFGNPSEFTITGSNNVEHHLR 720

Query: 721 AENNSADISCFRDTIVLILRLFIIRAGERRKGKRRGLFFHK 761
            +NNSADISC RDTIVL LRLFI+RA ERRKG++R LFFHK
Sbjct: 721 VDNNSADISCCRDTIVLTLRLFILRASERRKGRKRVLFFHK 761

[Close]
BLAST of Moc02g15510 vs. ExPASy TrEMBL
Match: A0A6J1E0X2 (uncharacterized protein LOC111024932 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111024932 PE=4 SV=1)

HSP 1 Score: 1488.4 bits (3852), Expect = 0.0e+00
Identity = 759/760 (99.87%), Postives = 759/760 (99.87%), Query Frame = 0 

Query: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60
           MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ
Sbjct: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60

Query: 61  VEENNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERHR 120
           VEENNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERHR
Sbjct: 61  VEENNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERHR 120

Query: 121 FKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAGY 180
           FKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAGY
Sbjct: 121 FKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAGY 180

Query: 181 SQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHEDE 240
           SQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHEDE
Sbjct: 181 SQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHEDE 240

Query: 241 IVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEE 300
           IVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEE
Sbjct: 241 IVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEE 300

Query: 301 NIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTE 360
           NIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTE
Sbjct: 301 NIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTE 360

Query: 361 TKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVSS 420
           TKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVSS
Sbjct: 361 TKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVSS 420

Query: 421 SDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEMD 480
           SDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEMD
Sbjct: 421 SDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEMD 480

Query: 481 DPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIE 540
           DPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIE
Sbjct: 481 DPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIE 540

Query: 541 ALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDT 600
           ALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDT
Sbjct: 541 ALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDT 600

Query: 601 YLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYLD 660
           YLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYLD
Sbjct: 601 YLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYLD 660

Query: 661 IWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLRA 720
           IWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLRA
Sbjct: 661 IWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLRA 720

Query: 721 ENNSADISCFRDTIVLILRLFIIRAGERRKGKRRGLFFHK 761
           ENNSADISCFRDTIVL LRLFIIRAGERRKGKRRGLFFHK
Sbjct: 721 ENNSADISCFRDTIVLXLRLFIIRAGERRKGKRRGLFFHK 760

[Close]
BLAST of Moc02g15510 vs. ExPASy TrEMBL
Match: A0A6J1DVU9 (uncharacterized protein LOC111024932 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111024932 PE=4 SV=1)

HSP 1 Score: 1483.8 bits (3840), Expect = 0.0e+00
Identity = 759/761 (99.74%), Postives = 759/761 (99.74%), Query Frame = 0 

Query: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60
           MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ
Sbjct: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60

Query: 61  VEENNRLRIELQKKIQELEKY-KVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERH 120
           VEENNRLRIELQKKIQELEKY KVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERH
Sbjct: 61  VEENNRLRIELQKKIQELEKYQKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERH 120

Query: 121 RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG 180
           RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG
Sbjct: 121 RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG 180

Query: 181 YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED 240
           YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED
Sbjct: 181 YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED 240

Query: 241 EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE 300
           EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE
Sbjct: 241 EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE 300

Query: 301 ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT 360
           ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT
Sbjct: 301 ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT 360

Query: 361 ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS 420
           ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS
Sbjct: 361 ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS 420

Query: 421 SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM 480
           SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM
Sbjct: 421 SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM 480

Query: 481 DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI 540
           DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI
Sbjct: 481 DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI 540

Query: 541 EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD 600
           EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD
Sbjct: 541 EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD 600

Query: 601 TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL 660
           TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL
Sbjct: 601 TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL 660

Query: 661 DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR 720
           DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR
Sbjct: 661 DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR 720

Query: 721 AENNSADISCFRDTIVLILRLFIIRAGERRKGKRRGLFFHK 761
           AENNSADISCFRDTIVL LRLFIIRAGERRKGKRRGLFFHK
Sbjct: 721 AENNSADISCFRDTIVLXLRLFIIRAGERRKGKRRGLFFHK 761

[Close]
BLAST of Moc02g15510 vs. ExPASy TrEMBL
Match: A0A6J1DX87 (uncharacterized protein LOC111024932 isoform X3 OS=Momordica charantia OX=3673 GN=LOC111024932 PE=4 SV=1)

HSP 1 Score: 1451.0 bits (3755), Expect = 0.0e+00
Identity = 743/745 (99.73%), Postives = 743/745 (99.73%), Query Frame = 0 

Query: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60
           MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ
Sbjct: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60

Query: 61  VEENNRLRIELQKKIQELEKY-KVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERH 120
           VEENNRLRIELQKKIQELEKY KVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERH
Sbjct: 61  VEENNRLRIELQKKIQELEKYQKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERH 120

Query: 121 RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG 180
           RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG
Sbjct: 121 RFKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAG 180

Query: 181 YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED 240
           YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED
Sbjct: 181 YSQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHED 240

Query: 241 EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE 300
           EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE
Sbjct: 241 EIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIE 300

Query: 301 ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT 360
           ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT
Sbjct: 301 ENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLT 360

Query: 361 ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS 420
           ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS
Sbjct: 361 ETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVS 420

Query: 421 SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM 480
           SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM
Sbjct: 421 SSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEM 480

Query: 481 DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI 540
           DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI
Sbjct: 481 DDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAI 540

Query: 541 EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD 600
           EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD
Sbjct: 541 EALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVD 600

Query: 601 TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL 660
           TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL
Sbjct: 601 TYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYL 660

Query: 661 DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR 720
           DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR
Sbjct: 661 DIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLR 720

Query: 721 AENNSADISCFRDTIVLILRLFIIR 745
           AENNSADISCFRDTIVL LRLFIIR
Sbjct: 721 AENNSADISCFRDTIVLXLRLFIIR 745

[Close]
BLAST of Moc02g15510 vs. ExPASy TrEMBL
Match: A0A1S3CDV6 (uncharacterized protein LOC103499606 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103499606 PE=4 SV=1)

HSP 1 Score: 1319.7 bits (3414), Expect = 0.0e+00
Identity = 676/758 (89.18%), Postives = 710/758 (93.67%), Query Frame = 0 

Query: 4   GFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQVEE 63
           GFDGRSLAEKFS L V+A P EQ NSH   NH N++DSNLFQVLKAVEAAEATIKQQVEE
Sbjct: 2   GFDGRSLAEKFSELGVSATPAEQSNSH---NHGNNSDSNLFQVLKAVEAAEATIKQQVEE 61

Query: 64  NNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNEND-HGSNGGHQSDNSVDNERHRFK 123
           NNRLRIELQKKIQELEKYKV E LA+RFHST+QWNE+D HGSNGGHQSDNSVDNER RFK
Sbjct: 62  NNRLRIELQKKIQELEKYKVGEPLAQRFHSTNQWNESDHHGSNGGHQSDNSVDNERQRFK 121

Query: 124 NNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAGYSQ 183
           N+IS VDSHGTLV+H+DVEQKDEVSMR+D ESR+ D KSD +VNALPGVQP VDNAG SQ
Sbjct: 122 NSISVVDSHGTLVLHQDVEQKDEVSMRVDTESRFEDSKSDRMVNALPGVQPQVDNAGCSQ 181

Query: 184 FSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHEDEIV 243
           FSSPSTTSFSASRF +D EYDP+IKLSGHG+M KAE NNP SLWKQDLVVKVQEHEDEIV
Sbjct: 182 FSSPSTTSFSASRFTMDVEYDPRIKLSGHGIMPKAEGNNPNSLWKQDLVVKVQEHEDEIV 241

Query: 244 QLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEENI 303
           QLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEENI
Sbjct: 242 QLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEENI 301

Query: 304 RLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTETK 363
           RLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTETK
Sbjct: 302 RLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTETK 361

Query: 364 LKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVSSSD 423
           LKESQYQLTPWRSDASHSSFA QSPFHS+GATLTASTKNGLELVPQPSYWNGK+PVSSSD
Sbjct: 362 LKESQYQLTPWRSDASHSSFAPQSPFHSIGATLTASTKNGLELVPQPSYWNGKMPVSSSD 421

Query: 424 AQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEMDDP 483
           AQTTADWDLS+HHQIGLGV V KNLEPDDLGRYS HASSE TNKQVTFREPVSNSE+DD 
Sbjct: 422 AQTTADWDLSTHHQIGLGVGVGKNLEPDDLGRYSHHASSEGTNKQVTFREPVSNSEIDDQ 481

Query: 484 DVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIEAL 543
           DVVHQT+R+P+TNWSS +SPP AT DEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIEAL
Sbjct: 482 DVVHQTEREPITNWSSGQSPPPATFDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIEAL 541

Query: 544 QISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDTYL 603
           QISGEAFPGQ+LQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDTYL
Sbjct: 542 QISGEAFPGQDLQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDTYL 601

Query: 604 AIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYLDIW 663
           AIEVQPLDNRRRKGELVKVFAN+HRKITC+PEMQN IEKTLYSGHASYKVS+SAGYL IW
Sbjct: 602 AIEVQPLDNRRRKGELVKVFANDHRKITCDPEMQNQIEKTLYSGHASYKVSMSAGYLGIW 661

Query: 664 EPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLRAEN 723
           E ATLSIKREGYSIKCSG SGD ITEKFS+NT VSIPFG+P +F ITGSNNVEH LR +N
Sbjct: 662 EAATLSIKREGYSIKCSGSSGDVITEKFSSNTIVSIPFGNPSDFTITGSNNVEHQLRVDN 721

Query: 724 NSADISCFRDTIVLILRLFIIRAGERRKGKRRGLFFHK 761
           NSADISC RDTIVL LRLFI+RA ERRKG++R LFFHK
Sbjct: 722 NSADISCSRDTIVLTLRLFILRASERRKGRKRVLFFHK 756

[Close]
BLAST of Moc02g15510 vs. ExPASy TrEMBL
Match: A0A1S4E315 (uncharacterized protein LOC103499606 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103499606 PE=4 SV=1)

HSP 1 Score: 1313.5 bits (3398), Expect = 0.0e+00
Identity = 675/758 (89.05%), Postives = 709/758 (93.54%), Query Frame = 0 

Query: 4   GFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQVEE 63
           GFDGRSLAEKFS L V+A P EQ NSH   NH N++DSNLFQVLKAVEAAEATIKQQVEE
Sbjct: 2   GFDGRSLAEKFSELGVSATPAEQSNSH---NHGNNSDSNLFQVLKAVEAAEATIKQQVEE 61

Query: 64  NNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNEND-HGSNGGHQSDNSVDNERHRFK 123
           NNRLRIELQKKIQELEKY V E LA+RFHST+QWNE+D HGSNGGHQSDNSVDNER RFK
Sbjct: 62  NNRLRIELQKKIQELEKY-VGEPLAQRFHSTNQWNESDHHGSNGGHQSDNSVDNERQRFK 121

Query: 124 NNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAGYSQ 183
           N+IS VDSHGTLV+H+DVEQKDEVSMR+D ESR+ D KSD +VNALPGVQP VDNAG SQ
Sbjct: 122 NSISVVDSHGTLVLHQDVEQKDEVSMRVDTESRFEDSKSDRMVNALPGVQPQVDNAGCSQ 181

Query: 184 FSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHEDEIV 243
           FSSPSTTSFSASRF +D EYDP+IKLSGHG+M KAE NNP SLWKQDLVVKVQEHEDEIV
Sbjct: 182 FSSPSTTSFSASRFTMDVEYDPRIKLSGHGIMPKAEGNNPNSLWKQDLVVKVQEHEDEIV 241

Query: 244 QLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEENI 303
           QLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEENI
Sbjct: 242 QLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEENI 301

Query: 304 RLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTETK 363
           RLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTETK
Sbjct: 302 RLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTETK 361

Query: 364 LKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVSSSD 423
           LKESQYQLTPWRSDASHSSFA QSPFHS+GATLTASTKNGLELVPQPSYWNGK+PVSSSD
Sbjct: 362 LKESQYQLTPWRSDASHSSFAPQSPFHSIGATLTASTKNGLELVPQPSYWNGKMPVSSSD 421

Query: 424 AQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQVTFREPVSNSEMDDP 483
           AQTTADWDLS+HHQIGLGV V KNLEPDDLGRYS HASSE TNKQVTFREPVSNSE+DD 
Sbjct: 422 AQTTADWDLSTHHQIGLGVGVGKNLEPDDLGRYSHHASSEGTNKQVTFREPVSNSEIDDQ 481

Query: 484 DVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIEAL 543
           DVVHQT+R+P+TNWSS +SPP AT DEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIEAL
Sbjct: 482 DVVHQTEREPITNWSSGQSPPPATFDEPSSSHSPILPPVLEEPSPSFSEDDDPLPAIEAL 541

Query: 544 QISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDTYL 603
           QISGEAFPGQ+LQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDTYL
Sbjct: 542 QISGEAFPGQDLQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDTYL 601

Query: 604 AIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYLDIW 663
           AIEVQPLDNRRRKGELVKVFAN+HRKITC+PEMQN IEKTLYSGHASYKVS+SAGYL IW
Sbjct: 602 AIEVQPLDNRRRKGELVKVFANDHRKITCDPEMQNQIEKTLYSGHASYKVSMSAGYLGIW 661

Query: 664 EPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLRAEN 723
           E ATLSIKREGYSIKCSG SGD ITEKFS+NT VSIPFG+P +F ITGSNNVEH LR +N
Sbjct: 662 EAATLSIKREGYSIKCSGSSGDVITEKFSSNTIVSIPFGNPSDFTITGSNNVEHQLRVDN 721

Query: 724 NSADISCFRDTIVLILRLFIIRAGERRKGKRRGLFFHK 761
           NSADISC RDTIVL LRLFI+RA ERRKG++R LFFHK
Sbjct: 722 NSADISCSRDTIVLTLRLFILRASERRKGRKRVLFFHK 755

[Close]
BLAST of Moc02g15510 vs. TAIR 10
Match: AT5G23490.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G08440.1); Has 202 Blast hits to 197 proteins in 48 species: Archae - 0; Bacteria - 13; Metazoa - 25; Fungi - 9; Plants - 109; Viruses - 0; Other Eukaryotes - 46 (source: NCBI BLink). )

HSP 1 Score: 704.9 bits (1818), Expect = 7.0e-203
Identity = 428/771 (55.51%), Postives = 514/771 (66.67%), Query Frame = 0 

Query: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSNSNDSNLFQVLKAVEAAEATIKQQ 60
           MENG + R LAE+FSGL         F   S    +   + NLFQV+KAVEAAE TIK+Q
Sbjct: 1   MENGHEER-LAERFSGLG--------FEDSSLLPENEFKNDNLFQVIKAVEAAETTIKEQ 60

Query: 61  VEENNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVDNERHR 120
           VEEN+RL+ ELQ+   EL KYK DESL +  +  D  N     S   HQ    VD +   
Sbjct: 61  VEENSRLKAELQRSALELAKYKSDESLPQTSNIGDHTNSTT-VSRLVHQ---PVDWKPVV 120

Query: 121 FKNNISAVDSHGTLVVHRDVEQKDEVSMRIDKESRYADGKSDEIVNALPGVQPSVDNAGY 180
            K   S  DS G LVVH  V    E        +R+     + I N    V+ ++D  G 
Sbjct: 121 IK--ASDADSSGLLVVHPHVNANGE---EATVSNRFESHSEETISNGT--VKRAIDGTGP 180

Query: 181 SQFSSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQEHEDE 240
           SQF S    S S  R  ++GE+D     S HG M   E N+  + WKQDL+ KVQE E E
Sbjct: 181 SQFDS----SISPMRMRLEGEHDAHFSSSTHGSMPVGEVNHSGNAWKQDLIHKVQEQEQE 240

Query: 241 IVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQDIIEE 300
           I QLR++L D S+KEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDA+SKALSYRQ+IIEE
Sbjct: 241 ISQLRRYLTDCSVKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDASSKALSYRQEIIEE 300

Query: 301 NIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEKLLLTE 360
           NIRLTYALQ  QQER+TFVS LLPLL+EYSLQP V DAQSI+SNVK+LFKHLQEKLLLTE
Sbjct: 301 NIRLTYALQATQQERSTFVSYLLPLLSEYSLQPQVSDAQSIVSNVKVLFKHLQEKLLLTE 360

Query: 361 TKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVSS 420
           TKLKES+YQL PW+SD +HS+ +  +P  S G  LT STK+ +                 
Sbjct: 361 TKLKESEYQLAPWQSDVNHSNDSPLAPSRSAGVALTHSTKDSM----------------Y 420

Query: 421 SDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYSLHASSEATNKQV------TFREPV 480
           S   T  DW+L    Q   G    +N   DD   +S   +S++   ++      +  E  
Sbjct: 421 SHDHTAIDWNLERQQQDEPGSSAVRNYHLDDSSTFSPLENSQSAAFEMHVQPGTSVDESP 480

Query: 481 SNSEMDDPDVVHQTDRDPL--TNWSSRESPPV-ATLDEPSSSHSPILPPVLEEPSPSFSE 540
           ++ ++D+    H    +P+  T     ++P   +  D+PSSS+SP+L PV EEPS SFSE
Sbjct: 481 AHKKVDETPPKHVQFLEPISKTVVDDAQNPSYGSAFDDPSSSNSPLLSPVFEEPSSSFSE 540

Query: 541 --DDDPLPAIEALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQP 600
             DDDPLP IE LQISGE +PG ELQACGYSINGTTSCNFEWV HLEDGSVNYI+GAKQP
Sbjct: 541 GGDDDPLPGIEDLQISGEPYPGHELQACGYSINGTTSCNFEWVCHLEDGSVNYIDGAKQP 600

Query: 601 NYRVTADDVDTYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHAS 660
           NY VTADDVD YLAIEVQPLD+R RKGELVKVFAN++RKI C P+MQ++IEKTL++GHAS
Sbjct: 601 NYLVTADDVDLYLAIEVQPLDDRNRKGELVKVFANDNRKIACHPDMQSNIEKTLHTGHAS 660

Query: 661 YKVSISAGYLDIWEPATLSIKREGYSIKCSGPSGDAITEKFSTNTTVSIPFGHPFEFVIT 720
           YKVS++ G++DIWE ATLSIKREGYSIKC   S   I EKFS +TTV+IPFG P E VI 
Sbjct: 661 YKVSLAVGFVDIWEAATLSIKREGYSIKCI--SDLTIAEKFSASTTVTIPFGQPAELVII 720

Query: 721 GSNNVEHHLRAENNSADISCFRDTIVLILRLFIIRAGERRKGKRRGLFFHK 761
           GS+  EH LRA+N S D+   RD IVL LRLFI RA +R+KGK+R   F+K
Sbjct: 721 GSDGSEHSLRADNGSPDLIGSRDEIVLTLRLFIKRALQRKKGKKRVFLFNK 729

[Close]
BLAST of Moc02g15510 vs. TAIR 10
Match: AT5G08440.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: plasma membrane; EXPRESSED IN: 21 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G23490.1); Has 141 Blast hits to 139 proteins in 35 species: Archae - 0; Bacteria - 9; Metazoa - 21; Fungi - 6; Plants - 94; Viruses - 0; Other Eukaryotes - 11 (source: NCBI BLink). )

HSP 1 Score: 683.3 bits (1762), Expect = 2.2e-196
Identity = 418/780 (53.59%), Postives = 517/780 (66.28%), Query Frame = 0 

Query: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSN--SNDSNLFQVLKAVEAAEATIK 60
           M+NG + R LAE+FSG+ +           SS +H N   NDS LFQV+KAVEAAEATIK
Sbjct: 1   MDNGHEER-LAERFSGVGL---------GESSGSHENDVKNDS-LFQVIKAVEAAEATIK 60

Query: 61  QQVEENNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVD-NE 120
           QQVEENN L+ ELQ++  EL KYK  ESL +     +  N    GS+  HQS   +   +
Sbjct: 61  QQVEENNLLKAELQRRYLELAKYKSGESLPQTSDLGNHSNTTTGGSSPLHQSAAGISLVD 120

Query: 121 RHRFKNNISAVDSHGTLVVHRDVEQK-DEVSMRIDKESRYADGKSDEIVNALPGVQPSVD 180
           R + K N SA    G LVVH+ V    +E ++    E  +++G    + N +  V+ +V 
Sbjct: 121 RRKGKINASAAHPSGMLVVHQHVHPNGEEATVSNRSEDHHSEG---IMTNGI--VRGTVG 180

Query: 181 NAGYSQF-SSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQ 240
             G SQ  SSPST S S  R  ++G++D  I  S H LM   E NN  + WKQ+L+ KVQ
Sbjct: 181 GGGTSQLSSSPSTISLSPMRPLLEGDHDLHINSSSHELMPVGEVNNSGTAWKQELIHKVQ 240

Query: 241 EHEDEIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQ 300
           E + EI++LRK+LADYS KE QIRNEKYVLEKRIA+MR AFDQQQQDLVDAASKALSYRQ
Sbjct: 241 EQDQEILRLRKYLADYSTKEVQIRNEKYVLEKRIAHMRSAFDQQQQDLVDAASKALSYRQ 300

Query: 301 DIIEENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEK 360
           +IIEENIRLTYALQ A+QER+ FVS LLPLL+EYSL P + D+QSI+S+VK+LF+HLQEK
Sbjct: 301 EIIEENIRLTYALQAAEQERSLFVSILLPLLSEYSLHPQISDSQSIVSSVKVLFRHLQEK 360

Query: 361 LLLTETKLKESQYQLTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGK 420
           L +TETKLKE++YQL PW+SD +HS+ +  SP+  VG  L  ST                
Sbjct: 361 LNVTETKLKETEYQLAPWQSDVNHSNASPLSPYQPVGVGLRYST---------------- 420

Query: 421 IPVSSSDAQTTADWDLSSHHQIGLGVDVAKNLEPDDLGRYS-----------LHASSEAT 480
                         D   HHQ   G   A N   D     S               S   
Sbjct: 421 --------------DSEHHHQDRRGGSAASNYHLDGPESRSPAFQMPVQPALNQDESHGP 480

Query: 481 NKQVTFREPVSNSEMDDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEE 540
           N +V FREP+SN+ MDD     Q D +     ++ E+     +D+PS S+ PIL PVLEE
Sbjct: 481 NNRVQFREPLSNTFMDDAYADVQADSN-----TTLENSTYVAVDDPSPSNYPILAPVLEE 540

Query: 541 PSPSFSE--DDDPLPAIEALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNY 600
           PS SFSE  DDDPLP I  LQISGE FPG+ELQ  G+SINGTT CNFEWVRHLEDGSVNY
Sbjct: 541 PSSSFSEAADDDPLPGIADLQISGEPFPGRELQVSGHSINGTTKCNFEWVRHLEDGSVNY 600

Query: 601 IEGAKQPNYRVTADDVDTYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKT 660
           I+GAK+P+Y VTADDVD YLAIEV PLD++ RKGELV+VFANE+ KITC PEMQ+HIEK+
Sbjct: 601 IDGAKRPDYLVTADDVDLYLAIEVHPLDDKNRKGELVRVFANENCKITCHPEMQSHIEKS 660

Query: 661 LYSGHASYKVSISAGYLDIWEPATLSIKREGYSIKCSGPSGD-AITEKFSTNTTVSIPFG 720
           LY+GHA +KVS S GYLDIWE ATLSIK+EGYSIK   P+ D  ITEKFS++T + IPF 
Sbjct: 661 LYNGHALFKVSYSIGYLDIWEAATLSIKKEGYSIK---PTNDPVITEKFSSSTNIVIPFD 720

Query: 721 HPFEFVITGSNNVEHHLR-AENNSADISCFRDTIVLILRLFIIRAGERRKGKRRGLFFHK 761
            P +FVI G++  EH  R  +N++ D+SC RDTIVL LRLF+ +  +R+KGK++G  F+K
Sbjct: 721 QPADFVIIGTDGEEHLCRVVDNDATDLSCSRDTIVLTLRLFLKKTLQRKKGKKKGFLFNK 726

[Close]
BLAST of Moc02g15510 vs. TAIR 10
Match: AT5G08440.2 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; EXPRESSED IN: 21 plant structures; EXPRESSED DURING: 13 growth stages; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G23490.1). )

HSP 1 Score: 641.7 bits (1654), Expect = 7.3e-184
Identity = 411/826 (49.76%), Postives = 507/826 (61.38%), Query Frame = 0 

Query: 1   MENGFDGRSLAEKFSGLAVTAAPPEQFNSHSSNNHSN--SNDSNLFQVLKAVEAAEATIK 60
           M+NG + R LAE+FSG+ +           SS +H N   NDS LFQV+KAVEAAEATIK
Sbjct: 1   MDNGHEER-LAERFSGVGL---------GESSGSHENDVKNDS-LFQVIKAVEAAEATIK 60

Query: 61  QQVEENNRLRIELQKKIQELEKYKVDESLARRFHSTDQWNENDHGSNGGHQSDNSVD-NE 120
           QQVEENN L+ ELQ++  EL KYK  ESL +     +  N    GS+  HQS   +   +
Sbjct: 61  QQVEENNLLKAELQRRYLELAKYKSGESLPQTSDLGNHSNTTTGGSSPLHQSAAGISLVD 120

Query: 121 RHRFKNNISAVDSHGTLVVHRDVEQK-DEVSMRIDKESRYADGKSDEIVNALPGVQPSVD 180
           R + K N SA    G LVVH+ V    +E ++    E  +++G    + N +  V+ +V 
Sbjct: 121 RRKGKINASAAHPSGMLVVHQHVHPNGEEATVSNRSEDHHSEG---IMTNGI--VRGTVG 180

Query: 181 NAGYSQF-SSPSTTSFSASRFPVDGEYDPQIKLSGHGLMSKAEANNPKSLWKQDLVVKVQ 240
             G SQ  SSPST S S  R  ++G++D  I  S H LM   E NN  + WKQ+L+ KVQ
Sbjct: 181 GGGTSQLSSSPSTISLSPMRPLLEGDHDLHINSSSHELMPVGEVNNSGTAWKQELIHKVQ 240

Query: 241 EHEDEIVQLRKHLADYSIKEAQIRNEKYVLEKRIAYMRLAFDQQQQDLVDAASKALSYRQ 300
           E + EI++LRK+LADYS KE QIRNEKYVLEKRIA+MR AFDQQQQDLVDAASKALSYRQ
Sbjct: 241 EQDQEILRLRKYLADYSTKEVQIRNEKYVLEKRIAHMRSAFDQQQQDLVDAASKALSYRQ 300

Query: 301 DIIEENIRLTYALQEAQQERTTFVSSLLPLLAEYSLQPPVPDAQSIISNVKILFKHLQEK 360
           +IIEENIRLTYALQ A+QER+ FVS LLPLL+EYSL P + D+QSI+S+VKI       K
Sbjct: 301 EIIEENIRLTYALQAAEQERSLFVSILLPLLSEYSLHPQISDSQSIVSSVKISLAVYLRK 360

Query: 361 LLLT----------------------------------------------ETKLKESQYQ 420
           L                                                  TKLKE++YQ
Sbjct: 361 LFTVAPWFLDVGVKFLCSSFPSQHVIDVYIIFRFYLGICRRSSMLLRYDMRTKLKETEYQ 420

Query: 421 LTPWRSDASHSSFAQQSPFHSVGATLTASTKNGLELVPQPSYWNGKIPVSSSDAQTTADW 480
           L PW+SD +HS+ +  SP+  VG  L  ST                              
Sbjct: 421 LAPWQSDVNHSNASPLSPYQPVGVGLRYST------------------------------ 480

Query: 481 DLSSHHQIGLGVDVAKNLEPDDLGRYS-----------LHASSEATNKQVTFREPVSNSE 540
           D   HHQ   G   A N   D     S               S   N +V FREP+SN+ 
Sbjct: 481 DSEHHHQDRRGGSAASNYHLDGPESRSPAFQMPVQPALNQDESHGPNNRVQFREPLSNTF 540

Query: 541 MDDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSSHSPILPPVLEEPSPSFSE--DDDPL 600
           MDD     Q D +     ++ E+     +D+PS S+ PIL PVLEEPS SFSE  DDDPL
Sbjct: 541 MDDAYADVQADSN-----TTLENSTYVAVDDPSPSNYPILAPVLEEPSSSFSEAADDDPL 600

Query: 601 PAIEALQISGEAFPGQELQACGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTAD 660
           P I  LQISGE FPG+ELQ  G+SINGTT CNFEWVRHLEDGSVNYI+GAK+P+Y VTAD
Sbjct: 601 PGIADLQISGEPFPGRELQVSGHSINGTTKCNFEWVRHLEDGSVNYIDGAKRPDYLVTAD 660

Query: 661 DVDTYLAIEVQPLDNRRRKGELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISA 720
           DVD YLAIEV PLD++ RKGELV+VFANE+ KITC PEMQ+HIEK+LY+GHA +KVS S 
Sbjct: 661 DVDLYLAIEVHPLDDKNRKGELVRVFANENCKITCHPEMQSHIEKSLYNGHALFKVSYSI 720

Query: 721 GYLDIWEPATLSIKREGYSIKCSGPSGD-AITEKFSTNTTVSIPFGHPFEFVITGSNNVE 761
           GYLDIWE ATLSIK+EGYSIK   P+ D  ITEKFS++T + IPF  P +FVI G++  E
Sbjct: 721 GYLDIWEAATLSIKKEGYSIK---PTNDPVITEKFSSSTNIVIPFDQPADFVIIGTDGEE 772

[Close]
BLAST of Moc02g15510 vs. TAIR 10
Match: AT5G23510.2 (unknown protein; LOCATED IN: cellular_component unknown; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G23490.1); Has 30201 Blast hits to 17322 proteins in 780 species: Archae - 12; Bacteria - 1396; Metazoa - 17338; Fungi - 3422; Plants - 5037; Viruses - 0; Other Eukaryotes - 2996 (source: NCBI BLink). )

HSP 1 Score: 296.2 bits (757), Expect = 7.5e-80
Identity = 167/300 (55.67%), Postives = 203/300 (67.67%), Query Frame = 0 

Query: 454 RYSLHASSEATNKQVTFREPVSNSEMDDPDVVHQTDRDPLTNWSSRESPPVATLDEPSSS 513
           ++S   S+   N  +T  +  +  ++D   + H    +     S  ESP +   DE    
Sbjct: 2   KHSQEKSTHFCNHSLTSVKRTTGDKIDGEAINHSAAFEMQPGTSVYESPALNQADET--- 61

Query: 514 HSPILPPVLEEPSPSF---SEDDDPLPAIEALQISGEAFPGQELQACGYSINGTTSCNFE 573
             PI   V+ +    F     DD PLPA+E LQISGE +PG ELQACGYSINGTTSCNFE
Sbjct: 62  -PPISKTVVNDTKNIFYFDDGDDAPLPALENLQISGEPYPGHELQACGYSINGTTSCNFE 121

Query: 574 WVRHLEDGSVNYIEGAKQPNYRVTADDVDTYLAIEVQPLDNRRRKGELVKVFANEHRKIT 633
           WV HLEDGSVNYI+GAK+PNY VTADDV   LAIEVQPLD+R RKGELVKVFAN++RKI 
Sbjct: 122 WVCHLEDGSVNYIDGAKKPNYLVTADDVGLCLAIEVQPLDDRNRKGELVKVFANDNRKIA 181

Query: 634 CEPEMQNHIEKTLYSGHASYKVSISAGYLDIWEPATLSIKREGYSIKCSGPSGDAITEKF 693
           C PEMQ++I+KTL++GHASYKVS++ G++ IWE ATLSI+REGY+IKC+      ITEKF
Sbjct: 182 CHPEMQSNIDKTLHTGHASYKVSLAIGFVHIWEAATLSIEREGYTIKCNNDL--TITEKF 241

Query: 694 STNTTVSIPFGHPFEFVITGSNNVEHHLRAENNSADISCFRDTIVLILRLFIIRAGERRK 751
           S +T V IPF  P E VI GS+  EH LR +N   DIS  RD IVL LR FI  A +R K
Sbjct: 242 SASTAVKIPFEKPAELVIIGSDGSEHCLRVDNEWPDISS-RDEIVLTLRSFIKTALQRGK 294

[Close]
BLAST of Moc02g15510 vs. TAIR 10
Match: AT5G23510.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G23490.1); Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). )

HSP 1 Score: 290.8 bits (743), Expect = 3.2e-78
Identity = 157/246 (63.82%), Postives = 182/246 (73.98%), Query Frame = 0 

Query: 500 ESPPVATLDEPSSSHSPILPPVLEEPSPSF---SEDDDPLPAIEALQISGEAFPGQELQA 559
           ESP +   DE      PI   V+ +    F     DD PLPA+E LQISGE +PG ELQA
Sbjct: 9   ESPALNQADET----PPISKTVVNDTKNIFYFDDGDDAPLPALENLQISGEPYPGHELQA 68

Query: 560 CGYSINGTTSCNFEWVRHLEDGSVNYIEGAKQPNYRVTADDVDTYLAIEVQPLDNRRRKG 619
           CGYSINGTTSCNFEWV HLEDGSVNYI+GAK+PNY VTADDV   LAIEVQPLD+R RKG
Sbjct: 69  CGYSINGTTSCNFEWVCHLEDGSVNYIDGAKKPNYLVTADDVGLCLAIEVQPLDDRNRKG 128

Query: 620 ELVKVFANEHRKITCEPEMQNHIEKTLYSGHASYKVSISAGYLDIWEPATLSIKREGYSI 679
           ELVKVFAN++RKI C PEMQ++I+KTL++GHASYKVS++ G++ IWE ATLSI+REGY+I
Sbjct: 129 ELVKVFANDNRKIACHPEMQSNIDKTLHTGHASYKVSLAIGFVHIWEAATLSIEREGYTI 188

Query: 680 KCSGPSGDAITEKFSTNTTVSIPFGHPFEFVITGSNNVEHHLRAENNSADISCFRDTIVL 739
           KC+      ITEKFS +T V IPF  P E VI GS+  EH LR +N   DIS  RD IVL
Sbjct: 189 KCNNDL--TITEKFSASTAVKIPFEKPAELVIIGSDGSEHCLRVDNEWPDISS-RDEIVL 247

Query: 740 ILRLFI 743
            LR FI
Sbjct: 249 TLRSFI 247

The following BLAST results are available for this feature:
BLAST of Moc02g15510 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022158446.10.0e+0099.87uncharacterized protein LOC111024932 isoform X2 [Momordica charantia][more]
XP_022158445.10.0e+0099.74uncharacterized protein LOC111024932 isoform X1 [Momordica charantia][more]
XP_022158447.10.0e+0099.73uncharacterized protein LOC111024932 isoform X3 [Momordica charantia][more]
XP_011649437.10.0e+0089.36uncharacterized protein LOC101216431 isoform X1 [Cucumis sativus] >KGN62280.2 hy... [more]
XP_038900808.10.0e+0089.49uncharacterized protein LOC120087880 isoform X1 [Benincasa hispida][more]
BLAST of Moc02g15510 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Moc02g15510 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1E0X20.0e+0099.87uncharacterized protein LOC111024932 isoform X2 OS=Momordica charantia OX=3673 G... [more]
A0A6J1DVU90.0e+0099.74uncharacterized protein LOC111024932 isoform X1 OS=Momordica charantia OX=3673 G... [more]
A0A6J1DX870.0e+0099.73uncharacterized protein LOC111024932 isoform X3 OS=Momordica charantia OX=3673 G... [more]
A0A1S3CDV60.0e+0089.18uncharacterized protein LOC103499606 isoform X1 OS=Cucumis melo OX=3656 GN=LOC10... [more]
A0A1S4E3150.0e+0089.05uncharacterized protein LOC103499606 isoform X2 OS=Cucumis melo OX=3656 GN=LOC10... [more]
BLAST of Moc02g15510 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G23490.17.0e-20355.51unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... [more]
AT5G08440.12.2e-19653.59unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT5G08440.27.3e-18449.76unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT5G23510.27.5e-8055.67unknown protein; LOCATED IN: cellular_component unknown; BEST Arabidopsis thalia... [more]
AT5G23510.13.2e-7863.82unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... [more]
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (OHB3-1) v2
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 294..314
NoneNo IPR availableCOILSCoilCoilcoord: 50..84
NoneNo IPR availableCOILSCoilCoilcoord: 227..254
NoneNo IPR availableGENE3D2.60.40.2700coord: 537..617
e-value: 1.8E-9
score: 39.3
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 95..115
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 490..513
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 458..535
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 458..474
NoneNo IPR availablePANTHERPTHR31149:SF10OS05G0100900 PROTEINcoord: 10..756
NoneNo IPR availablePANTHERPTHR31149EXPRESSED PROTEINcoord: 10..756

Relationships

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

Feature NameUnique NameType
Moc02g15510.1Moc02g15510.1mRNA