Sed0012956 (gene) Chayote v1

Overview
NameSed0012956
Typegene
OrganismSechium edule (Chayote v1)
DescriptionSAM domain-containing protein
LocationLG11: 16966862 .. 17004681 (+)
RNA-Seq ExpressionSed0012956
SyntenySed0012956
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

TTTCAACCGGATAGGTCAATCACGCAATGATTTCGTTGTTTGGTTGAGAACTAGTTCAACACAAGCATCACAGACGGCCTGACGTACGGAACAGGAAAAAAAGAAGCAATTTTCACCCATCTTTTACAAAAATAATTTGGAAGCAGGAGCAGCTTTCTACGCAAGACCGACCAAGAAAATAAGGCGGAAAATTATTTATTGAAATAAACAGAAATTCTATTCCCTCGTTTTATTGAAGCATTCCATTTGGATCGAAAGCAACTGTGCGCGTCCATTTCCATGTCTTTCTGTTAGGGTCAAGCTTTCCTCTCTACAAATCAGCGAGCTTTCGAACGAGCATGTCAGCTGATTCAAGGAGTCGAGTTACCATTACACTCGGCCGTAGCGGAGGACAGGTAGTCAAAAAGGCTGGACCAGGAACCGATGCTTCCGTTTCTGATTCTTGGCCTGTTTCTGGAACTAAGAGGTCTGTAAGAGATAGATTGGGAAATACCCCTGATACTGATCTCTTTTATGGAACCCAACTCAATAACAAACGATTACGAGGAGATGGTGGCATGTCAAATAGGAGTTCTAATGGGTTGGACGTGTCACACATTGGTAAAGATGACCTTCGGTTTAAACTCTTGCAAAAAGATGCATCTAGGCGTGCTCAAAGTGACAATAAAAGGTGCTTAGATCTTCGGGAGAAGCTACCTAAGGCAGATCAATCCCCTATTCGTCATCTCGATTCACGACATCGAGATCCACCATTGCATAATACAAATATCTTACGCCAAAGCCCCTTGACTAGAAAGACAGATGGGTTTTCTCAAAAGGAATCATTAGGAAGTTCTTATTCCACATGGACCATGGATAATTTGAGACAAGGATCACCTGCTAAAATGGTAGAATCTTCAAGGCGGTACTCTCTACAAAGAGATGATGAGAAACTACAGAGAAGACCAACAAACCTTTCATTTGAGAACCCGAGATCAATGAGCTATGTAGCCAAAGATGTTCACAATGCTTCTGGTTCTGTTAGTAATGCAACTTTTTCAACTAATTCTCTATTGCCTCCTACGTCAGCAAAGCGTGTGGCACCTATCGCTTCTCTACATCCTCCGCTGAGTGGCATTACACACAAAGCTCTTTATCCAGGTGACGAACTTCAAAGCATTGATGGCATGTTGCAGTCTCTAGGATTGGGAAAATATTCCATTCTTTTTAAGGCCGAGGAAGTTGATATGACTGCCTTGAAGCAAATGGGGGAGAATGATCTCAAAGAGCTTGGAATACCTATGGTATGGCATGGGATTCTAATAAAATCATGCATCATTTTATCCCAACTTTCTATCTTCAATATGGTATCAGAAGATCAACCTCCAAATATGCAGCCTCGACGATCAACTCGTCCAAGCCGACAACCCAAATACCTACAAGCATATCATTGTAGCTTGAAGAAAATACTTCTTGCAATCGCTCCACGTTTCAAGCGACAACCGTGA

Coding sequence (CDS)

ATGTCAGCTGATTCAAGGAGTCGAGTTACCATTACACTCGGCCGTAGCGGAGGACAGGTAGTCAAAAAGGCTGGACCAGGAACCGATGCTTCCGTTTCTGATTCTTGGCCTGTTTCTGGAACTAAGAGGTCTGTAAGAGATAGATTGGGAAATACCCCTGATACTGATCTCTTTTATGGAACCCAACTCAATAACAAACGATTACGAGGAGATGGTGGCATGTCAAATAGGAGTTCTAATGGGTTGGACGTGTCACACATTGGTAAAGATGACCTTCGGTTTAAACTCTTGCAAAAAGATGCATCTAGGCGTGCTCAAAGTGACAATAAAAGGTGCTTAGATCTTCGGGAGAAGCTACCTAAGGCAGATCAATCCCCTATTCGTCATCTCGATTCACGACATCGAGATCCACCATTGCATAATACAAATATCTTACGCCAAAGCCCCTTGACTAGAAAGACAGATGGGTTTTCTCAAAAGGAATCATTAGGAAGTTCTTATTCCACATGGACCATGGATAATTTGAGACAAGGATCACCTGCTAAAATGGTAGAATCTTCAAGGCGGTACTCTCTACAAAGAGATGATGAGAAACTACAGAGAAGACCAACAAACCTTTCATTTGAGAACCCGAGATCAATGAGCTATGTAGCCAAAGATGTTCACAATGCTTCTGGTTCTGTTAGTAATGCAACTTTTTCAACTAATTCTCTATTGCCTCCTACGTCAGCAAAGCGTGTGGCACCTATCGCTTCTCTACATCCTCCGCTGAGTGGCATTACACACAAAGCTCTTTATCCAGGTGACGAACTTCAAAGCATTGATGGCATGTTGCAGTCTCTAGGATTGGGAAAATATTCCATTCTTTTTAAGGCCGAGGAAGTTGATATGACTGCCTTGAAGCAAATGGGGGAGAATGATCTCAAAGAGCTTGGAATACCTATGGTATGGCATGGGATTCTAATAAAATCATGCATCATTTTATCCCAACTTTCTATCTTCAATATGGTATCAGAAGATCAACCTCCAAATATGCAGCCTCGACGATCAACTCGTCCAAGCCGACAACCCAAATACCTACAAGCATATCATTGTAGCTTGAAGAAAATACTTCTTGCAATCGCTCCACGTTTCAAGCGACAACCGTGA

Protein sequence

MSADSRSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYGTQLNNKRLRGDGGMSNRSSNGLDVSHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREKLPKADQSPIRHLDSRHRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQGSPAKMVESSRRYSLQRDDEKLQRRPTNLSFENPRSMSYVAKDVHNASGSVSNATFSTNSLLPPTSAKRVAPIASLHPPLSGITHKALYPGDELQSIDGMLQSLGLGKYSILFKAEEVDMTALKQMGENDLKELGIPMVWHGILIKSCIILSQLSIFNMVSEDQPPNMQPRRSTRPSRQPKYLQAYHCSLKKILLAIAPRFKRQP
Homology
[Close]
BLAST of Sed0012956 vs. NCBI nr
Match: XP_038890159.1 (uncharacterized protein LOC120079818 [Benincasa hispida])

HSP 1 Score: 506.9 bits (1304), Expect = 1.5e-139
Identity = 260/315 (82.54%), Postives = 284/315 (90.16%), Query Frame = 0 

Query: 1   MSADSRSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYG 60
           MSA SR RVTITLGRS GQVVKK+GPGTD SVSDSWPVSGTKRSVRDRLG++PD+DL YG
Sbjct: 1   MSAASRGRVTITLGRS-GQVVKKSGPGTDVSVSDSWPVSGTKRSVRDRLGSSPDSDLSYG 60

Query: 61  TQLNNKRLRGDGGMSNRSSNGLDVSHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREKLP 120
           +QLN+KRLRGD GMS+ SSNGLDVSHIGKDDLR+KLLQKDA RRAQSD+K+CLDLREKLP
Sbjct: 61  SQLNSKRLRGDDGMSDWSSNGLDVSHIGKDDLRYKLLQKDAFRRAQSDSKKCLDLREKLP 120

Query: 121 KADQSPIRHLDSRHRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQGSP 180
           KADQ+PIRHLDSRH DPPLHNT+ILR++P TR  D   QK+SLGSSYS WTMDNLRQ SP
Sbjct: 121 KADQAPIRHLDSRHHDPPLHNTHILRRTPSTRSADDLPQKDSLGSSYSPWTMDNLRQRSP 180

Query: 181 AKMVESSRRYSLQRDDEKLQRRPTNLSFENPRSMSYVAKDVHNASGSVSNATFSTNSLLP 240
           A++VESSR YSLQRDDEKLQRRPTNLSFEN RS+ Y AKDVHNAS SVS ATF TNSL+P
Sbjct: 181 ARIVESSRHYSLQRDDEKLQRRPTNLSFENARSVGYAAKDVHNASSSVSTATFMTNSLMP 240

Query: 241 PTSAKRVAPIASLHPPLSGITHKALYPGDELQSIDGMLQSLGLGKYSILFKAEEVDMTAL 300
           PT++K VAP+  LH P SGI HK LYPGDELQSIDG+LQSLGLGKYSILFKAEEVDMTAL
Sbjct: 241 PTTSKPVAPVVPLHTPPSGIAHKTLYPGDELQSIDGLLQSLGLGKYSILFKAEEVDMTAL 300

Query: 301 KQMGENDLKELGIPM 316
           KQMGENDL+ELGIPM
Sbjct: 301 KQMGENDLRELGIPM 314

[Close]
BLAST of Sed0012956 vs. NCBI nr
Match: XP_008465721.1 (PREDICTED: uncharacterized protein LOC103503334 isoform X2 [Cucumis melo])

HSP 1 Score: 498.0 bits (1281), Expect = 7.0e-137
Identity = 278/383 (72.58%), Postives = 295/383 (77.02%), Query Frame = 0 

Query: 1   MSADSRSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYG 60
           MSA SR RVTITLGRS GQVVKKAGPGTD SVSDSWPVSGTKRSVRDRLG++ D DLFYG
Sbjct: 1   MSAASRGRVTITLGRS-GQVVKKAGPGTDVSVSDSWPVSGTKRSVRDRLGSSSDCDLFYG 60

Query: 61  TQLNNKRLRGDGGMSNRSSN-GLDVSHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREKL 120
           +QLNNKRLRGD GMSN SSN GLDV HIGKDDLR+KLLQK A RRAQSDNK+CLDLREKL
Sbjct: 61  SQLNNKRLRGDDGMSNWSSNGGLDVPHIGKDDLRYKLLQKGAFRRAQSDNKKCLDLREKL 120

Query: 121 PKADQSPIRHLDSRHRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQGS 180
           PKADQ+PI     RHR+PPLHNTNILR++P TR  D   QK+SLGSSYS WTMDNLRQ S
Sbjct: 121 PKADQAPI-----RHRNPPLHNTNILRRTPTTRSADDLPQKDSLGSSYSPWTMDNLRQRS 180

Query: 181 PAKMVESSRRYSLQRDDEKLQRRPTNLSFENPRSMSYVAKDVHNASGSVSNATFSTNSLL 240
           PA++VESSR YSLQRDDEKLQRRP NLSFEN RS+ YVAKDVHNASGSVS AT+ TNSLL
Sbjct: 181 PARIVESSRHYSLQRDDEKLQRRPANLSFENARSVGYVAKDVHNASGSVSTATYVTNSLL 240

Query: 241 PPTSAKRVAPIASLHPPLSGITHKALYPGDELQSIDGMLQSLGLGKYSILFKAEEVDMTA 300
           PPTSAK VAP+  LHPP SGI HK LYPGDELQ+IDG+LQSLGLGKYSILFKAEEVDMTA
Sbjct: 241 PPTSAKPVAPVVPLHPPPSGIAHKTLYPGDELQTIDGLLQSLGLGKYSILFKAEEVDMTA 300

Query: 301 LKQMGENDLKELGIPMVWHGILIKSCIILSQLSIFNMVSEDQPPNMQPRRSTRPSRQPKY 360
           LKQMGENDLKELGIP                              M PR           
Sbjct: 301 LKQMGENDLKELGIP------------------------------MGPR----------- 328

Query: 361 LQAYHCSLKKILLAIAPRFKRQP 383
                   KKILLAIAPR KRQP
Sbjct: 361 --------KKILLAIAPRSKRQP 328

[Close]
BLAST of Sed0012956 vs. NCBI nr
Match: XP_023545921.1 (protein bicaudal C homolog 1-A-like isoform X1 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 493.8 bits (1270), Expect = 1.3e-135
Identity = 274/384 (71.35%), Postives = 295/384 (76.82%), Query Frame = 0 

Query: 1   MSADSRSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYG 60
           MSA SR RVTITLGRS GQVVKKA PGTD SVSDSWPVSGTKRSVRDRLG++ D+D  YG
Sbjct: 1   MSAASRGRVTITLGRS-GQVVKKASPGTDVSVSDSWPVSGTKRSVRDRLGSSSDSDGLYG 60

Query: 61  TQLNNKRLRGDGGMSNRSSNGLDV--SHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREK 120
           +QL NKRLRGD GMSN SSNGLDV  SHIGKDDLR+KLLQKDA RRAQSDNK+CLDLRE+
Sbjct: 61  SQLANKRLRGDDGMSNWSSNGLDVSHSHIGKDDLRYKLLQKDAFRRAQSDNKKCLDLRER 120

Query: 121 LPKADQSPIRHLDSRHRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQG 180
           LPKA+Q+PIRHLDSR+ DPPLHNTNILR++P  R  D   QK++LGSSYS+WTMDNLRQ 
Sbjct: 121 LPKANQAPIRHLDSRYHDPPLHNTNILRRTPSMRSADDLPQKDTLGSSYSSWTMDNLRQR 180

Query: 181 SPAKMVESSRRYSLQRDDEKLQRRPTNLSFENPRSMSYVAKDVHNASGSVSNATFSTNSL 240
           SPA++VE  RRYSLQRDDEKLQRR TN S EN RS+ YVAKD+HNASGSVS ATF TNSL
Sbjct: 181 SPARIVEPLRRYSLQRDDEKLQRRTTNSSVENARSVGYVAKDIHNASGSVSTATFMTNSL 240

Query: 241 LPPTSAKRVAPIASLHPPLSGITHKALYPGDELQSIDGMLQSLGLGKYSILFKAEEVDMT 300
           LPPTSAK VAP+  LHPP SGI HK LYPGDELQSIDG+LQSLGLGKYSILFKAEEVDMT
Sbjct: 241 LPPTSAKPVAPVVPLHPPPSGIAHKTLYPGDELQSIDGLLQSLGLGKYSILFKAEEVDMT 300

Query: 301 ALKQMGENDLKELGIPMVWHGILIKSCIILSQLSIFNMVSEDQPPNMQPRRSTRPSRQPK 360
           ALKQMGENDLKELGIP                              M PR          
Sbjct: 301 ALKQMGENDLKELGIP------------------------------MGPR---------- 334

Query: 361 YLQAYHCSLKKILLAIAPRFKRQP 383
                    KKILLAIAPR KRQP
Sbjct: 361 ---------KKILLAIAPRSKRQP 334

[Close]
BLAST of Sed0012956 vs. NCBI nr
Match: XP_022946530.1 (protein bicaudal C homolog 1-B-like isoform X1 [Cucurbita moschata])

HSP 1 Score: 493.8 bits (1270), Expect = 1.3e-135
Identity = 274/384 (71.35%), Postives = 295/384 (76.82%), Query Frame = 0 

Query: 1   MSADSRSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYG 60
           MSA SR RVTITLGRS GQVVKKA PGTD SVSDSWPVSGTKRSVRDRLG++ D+D  YG
Sbjct: 1   MSAASRGRVTITLGRS-GQVVKKASPGTDVSVSDSWPVSGTKRSVRDRLGSSSDSDGLYG 60

Query: 61  TQLNNKRLRGDGGMSNRSSNGLDV--SHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREK 120
           +QL NKRLRGD GMSN SSNGLDV  SHIGKDDLR+KLLQKDA RRAQSDNK+CLDLRE+
Sbjct: 61  SQLANKRLRGDDGMSNWSSNGLDVSHSHIGKDDLRYKLLQKDAFRRAQSDNKKCLDLRER 120

Query: 121 LPKADQSPIRHLDSRHRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQG 180
           LPKADQ+PIRHLDSR+ DPPLHNTNILR++P  R  D   QK+SLGSSYS+WTMDNLRQ 
Sbjct: 121 LPKADQAPIRHLDSRYHDPPLHNTNILRRTPSMRSADDLPQKDSLGSSYSSWTMDNLRQR 180

Query: 181 SPAKMVESSRRYSLQRDDEKLQRRPTNLSFENPRSMSYVAKDVHNASGSVSNATFSTNSL 240
           SPA++VE SRRYSLQRDDEKLQRR T+ S EN RS+ YVAKD+H ASGSVS ATF TNSL
Sbjct: 181 SPARIVEPSRRYSLQRDDEKLQRRTTDSSVENARSVGYVAKDIHKASGSVSTATFMTNSL 240

Query: 241 LPPTSAKRVAPIASLHPPLSGITHKALYPGDELQSIDGMLQSLGLGKYSILFKAEEVDMT 300
           LPPTSAK VAP+  LHPP SGI HK LYPGDELQS+DG+LQSLGLGKYSILFKAEEVDMT
Sbjct: 241 LPPTSAKPVAPVVPLHPPPSGIAHKTLYPGDELQSMDGLLQSLGLGKYSILFKAEEVDMT 300

Query: 301 ALKQMGENDLKELGIPMVWHGILIKSCIILSQLSIFNMVSEDQPPNMQPRRSTRPSRQPK 360
           ALKQMGENDLKELGIP                              M PR          
Sbjct: 301 ALKQMGENDLKELGIP------------------------------MGPR---------- 334

Query: 361 YLQAYHCSLKKILLAIAPRFKRQP 383
                    KKILLAIAPR KRQP
Sbjct: 361 ---------KKILLAIAPRSKRQP 334

[Close]
BLAST of Sed0012956 vs. NCBI nr
Match: KAG7029996.1 (hypothetical protein SDJN02_08340 [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 493.8 bits (1270), Expect = 1.3e-135
Identity = 274/384 (71.35%), Postives = 294/384 (76.56%), Query Frame = 0 

Query: 1   MSADSRSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYG 60
           MSA SR RVTITLGRS GQVVKKA PGTD SVSDSWPVSGTKRSVRDRLG++ D+D  YG
Sbjct: 1   MSAASRGRVTITLGRS-GQVVKKASPGTDVSVSDSWPVSGTKRSVRDRLGSSSDSDGLYG 60

Query: 61  TQLNNKRLRGDGGMSNRSSNGLDV--SHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREK 120
           +QL NKRLRGD GMSN SSNGLDV  SHIGKDDLR+KLLQKDA RRAQSDNK+CLDLRE+
Sbjct: 61  SQLANKRLRGDDGMSNWSSNGLDVSHSHIGKDDLRYKLLQKDAFRRAQSDNKKCLDLRER 120

Query: 121 LPKADQSPIRHLDSRHRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQG 180
           LPKADQ+PIRHLDSR+ DPPLHNTNILR++P  R  D   QK+SLGSSYS+WTMDNLRQ 
Sbjct: 121 LPKADQAPIRHLDSRYHDPPLHNTNILRRTPSMRSADDLPQKDSLGSSYSSWTMDNLRQR 180

Query: 181 SPAKMVESSRRYSLQRDDEKLQRRPTNLSFENPRSMSYVAKDVHNASGSVSNATFSTNSL 240
           SPA++VE SRRYSLQRDDEKLQRR  N S EN RS+ YVAKD+H ASGSVS ATF TNSL
Sbjct: 181 SPARIVEPSRRYSLQRDDEKLQRRTANSSVENARSVGYVAKDIHKASGSVSTATFMTNSL 240

Query: 241 LPPTSAKRVAPIASLHPPLSGITHKALYPGDELQSIDGMLQSLGLGKYSILFKAEEVDMT 300
           LPPTSAK VAP+  LHPP SGI HK LYPGDELQS+DG+LQSLGLGKYSILFKAEEVDMT
Sbjct: 241 LPPTSAKPVAPVVPLHPPPSGIAHKTLYPGDELQSMDGLLQSLGLGKYSILFKAEEVDMT 300

Query: 301 ALKQMGENDLKELGIPMVWHGILIKSCIILSQLSIFNMVSEDQPPNMQPRRSTRPSRQPK 360
           ALKQMGENDLKELGIP                              M PR          
Sbjct: 301 ALKQMGENDLKELGIP------------------------------MGPR---------- 334

Query: 361 YLQAYHCSLKKILLAIAPRFKRQP 383
                    KKILLAIAPR KRQP
Sbjct: 361 ---------KKILLAIAPRSKRQP 334

[Close]
BLAST of Sed0012956 vs. ExPASy TrEMBL
Match: A0A1S3CPI7 (uncharacterized protein LOC103503334 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103503334 PE=4 SV=1)

HSP 1 Score: 498.0 bits (1281), Expect = 3.4e-137
Identity = 278/383 (72.58%), Postives = 295/383 (77.02%), Query Frame = 0 

Query: 1   MSADSRSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYG 60
           MSA SR RVTITLGRS GQVVKKAGPGTD SVSDSWPVSGTKRSVRDRLG++ D DLFYG
Sbjct: 1   MSAASRGRVTITLGRS-GQVVKKAGPGTDVSVSDSWPVSGTKRSVRDRLGSSSDCDLFYG 60

Query: 61  TQLNNKRLRGDGGMSNRSSN-GLDVSHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREKL 120
           +QLNNKRLRGD GMSN SSN GLDV HIGKDDLR+KLLQK A RRAQSDNK+CLDLREKL
Sbjct: 61  SQLNNKRLRGDDGMSNWSSNGGLDVPHIGKDDLRYKLLQKGAFRRAQSDNKKCLDLREKL 120

Query: 121 PKADQSPIRHLDSRHRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQGS 180
           PKADQ+PI     RHR+PPLHNTNILR++P TR  D   QK+SLGSSYS WTMDNLRQ S
Sbjct: 121 PKADQAPI-----RHRNPPLHNTNILRRTPTTRSADDLPQKDSLGSSYSPWTMDNLRQRS 180

Query: 181 PAKMVESSRRYSLQRDDEKLQRRPTNLSFENPRSMSYVAKDVHNASGSVSNATFSTNSLL 240
           PA++VESSR YSLQRDDEKLQRRP NLSFEN RS+ YVAKDVHNASGSVS AT+ TNSLL
Sbjct: 181 PARIVESSRHYSLQRDDEKLQRRPANLSFENARSVGYVAKDVHNASGSVSTATYVTNSLL 240

Query: 241 PPTSAKRVAPIASLHPPLSGITHKALYPGDELQSIDGMLQSLGLGKYSILFKAEEVDMTA 300
           PPTSAK VAP+  LHPP SGI HK LYPGDELQ+IDG+LQSLGLGKYSILFKAEEVDMTA
Sbjct: 241 PPTSAKPVAPVVPLHPPPSGIAHKTLYPGDELQTIDGLLQSLGLGKYSILFKAEEVDMTA 300

Query: 301 LKQMGENDLKELGIPMVWHGILIKSCIILSQLSIFNMVSEDQPPNMQPRRSTRPSRQPKY 360
           LKQMGENDLKELGIP                              M PR           
Sbjct: 301 LKQMGENDLKELGIP------------------------------MGPR----------- 328

Query: 361 LQAYHCSLKKILLAIAPRFKRQP 383
                   KKILLAIAPR KRQP
Sbjct: 361 --------KKILLAIAPRSKRQP 328

[Close]
BLAST of Sed0012956 vs. ExPASy TrEMBL
Match: A0A6J1G443 (protein bicaudal C homolog 1-B-like isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111450567 PE=4 SV=1)

HSP 1 Score: 493.8 bits (1270), Expect = 6.4e-136
Identity = 274/384 (71.35%), Postives = 295/384 (76.82%), Query Frame = 0 

Query: 1   MSADSRSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYG 60
           MSA SR RVTITLGRS GQVVKKA PGTD SVSDSWPVSGTKRSVRDRLG++ D+D  YG
Sbjct: 1   MSAASRGRVTITLGRS-GQVVKKASPGTDVSVSDSWPVSGTKRSVRDRLGSSSDSDGLYG 60

Query: 61  TQLNNKRLRGDGGMSNRSSNGLDV--SHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREK 120
           +QL NKRLRGD GMSN SSNGLDV  SHIGKDDLR+KLLQKDA RRAQSDNK+CLDLRE+
Sbjct: 61  SQLANKRLRGDDGMSNWSSNGLDVSHSHIGKDDLRYKLLQKDAFRRAQSDNKKCLDLRER 120

Query: 121 LPKADQSPIRHLDSRHRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQG 180
           LPKADQ+PIRHLDSR+ DPPLHNTNILR++P  R  D   QK+SLGSSYS+WTMDNLRQ 
Sbjct: 121 LPKADQAPIRHLDSRYHDPPLHNTNILRRTPSMRSADDLPQKDSLGSSYSSWTMDNLRQR 180

Query: 181 SPAKMVESSRRYSLQRDDEKLQRRPTNLSFENPRSMSYVAKDVHNASGSVSNATFSTNSL 240
           SPA++VE SRRYSLQRDDEKLQRR T+ S EN RS+ YVAKD+H ASGSVS ATF TNSL
Sbjct: 181 SPARIVEPSRRYSLQRDDEKLQRRTTDSSVENARSVGYVAKDIHKASGSVSTATFMTNSL 240

Query: 241 LPPTSAKRVAPIASLHPPLSGITHKALYPGDELQSIDGMLQSLGLGKYSILFKAEEVDMT 300
           LPPTSAK VAP+  LHPP SGI HK LYPGDELQS+DG+LQSLGLGKYSILFKAEEVDMT
Sbjct: 241 LPPTSAKPVAPVVPLHPPPSGIAHKTLYPGDELQSMDGLLQSLGLGKYSILFKAEEVDMT 300

Query: 301 ALKQMGENDLKELGIPMVWHGILIKSCIILSQLSIFNMVSEDQPPNMQPRRSTRPSRQPK 360
           ALKQMGENDLKELGIP                              M PR          
Sbjct: 301 ALKQMGENDLKELGIP------------------------------MGPR---------- 334

Query: 361 YLQAYHCSLKKILLAIAPRFKRQP 383
                    KKILLAIAPR KRQP
Sbjct: 361 ---------KKILLAIAPRSKRQP 334

[Close]
BLAST of Sed0012956 vs. ExPASy TrEMBL
Match: A0A1S3CPG7 (uncharacterized protein LOC103503334 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103503334 PE=4 SV=1)

HSP 1 Score: 493.4 bits (1269), Expect = 8.4e-136
Identity = 278/384 (72.40%), Postives = 295/384 (76.82%), Query Frame = 0 

Query: 1   MSADSRSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYG 60
           MSA SR RVTITLGRS GQVVKKAGPGTD SVSDSWPVSGTKRSVRDRLG++ D DLFYG
Sbjct: 1   MSAASRGRVTITLGRS-GQVVKKAGPGTDVSVSDSWPVSGTKRSVRDRLGSSSDCDLFYG 60

Query: 61  TQLNNK-RLRGDGGMSNRSSN-GLDVSHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREK 120
           +QLNNK RLRGD GMSN SSN GLDV HIGKDDLR+KLLQK A RRAQSDNK+CLDLREK
Sbjct: 61  SQLNNKRRLRGDDGMSNWSSNGGLDVPHIGKDDLRYKLLQKGAFRRAQSDNKKCLDLREK 120

Query: 121 LPKADQSPIRHLDSRHRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQG 180
           LPKADQ+PI     RHR+PPLHNTNILR++P TR  D   QK+SLGSSYS WTMDNLRQ 
Sbjct: 121 LPKADQAPI-----RHRNPPLHNTNILRRTPTTRSADDLPQKDSLGSSYSPWTMDNLRQR 180

Query: 181 SPAKMVESSRRYSLQRDDEKLQRRPTNLSFENPRSMSYVAKDVHNASGSVSNATFSTNSL 240
           SPA++VESSR YSLQRDDEKLQRRP NLSFEN RS+ YVAKDVHNASGSVS AT+ TNSL
Sbjct: 181 SPARIVESSRHYSLQRDDEKLQRRPANLSFENARSVGYVAKDVHNASGSVSTATYVTNSL 240

Query: 241 LPPTSAKRVAPIASLHPPLSGITHKALYPGDELQSIDGMLQSLGLGKYSILFKAEEVDMT 300
           LPPTSAK VAP+  LHPP SGI HK LYPGDELQ+IDG+LQSLGLGKYSILFKAEEVDMT
Sbjct: 241 LPPTSAKPVAPVVPLHPPPSGIAHKTLYPGDELQTIDGLLQSLGLGKYSILFKAEEVDMT 300

Query: 301 ALKQMGENDLKELGIPMVWHGILIKSCIILSQLSIFNMVSEDQPPNMQPRRSTRPSRQPK 360
           ALKQMGENDLKELGIP                              M PR          
Sbjct: 301 ALKQMGENDLKELGIP------------------------------MGPR---------- 329

Query: 361 YLQAYHCSLKKILLAIAPRFKRQP 383
                    KKILLAIAPR KRQP
Sbjct: 361 ---------KKILLAIAPRSKRQP 329

[Close]
BLAST of Sed0012956 vs. ExPASy TrEMBL
Match: A0A5D3DIL1 (Protein bicaudal C-like protein 1-A-like isoform X2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold278G00450 PE=4 SV=1)

HSP 1 Score: 493.0 bits (1268), Expect = 1.1e-135
Identity = 261/316 (82.59%), Postives = 278/316 (87.97%), Query Frame = 0 

Query: 1   MSADSRSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYG 60
           MSA SR RVTITLGRS GQVVKKAGPGTD SVSDSWPVSGTKRSVRDRLG++ D DLF G
Sbjct: 1   MSAASRGRVTITLGRS-GQVVKKAGPGTDVSVSDSWPVSGTKRSVRDRLGSSSDCDLFCG 60

Query: 61  TQLNNKRLRGDGGMSNRSSN-GLDVSHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREKL 120
           +QLNNKRLRGD GMSN SSN GLDV HIGKDDLR+KLLQK A RRAQSDNK+CLDLREKL
Sbjct: 61  SQLNNKRLRGDDGMSNWSSNGGLDVPHIGKDDLRYKLLQKGAFRRAQSDNKKCLDLREKL 120

Query: 121 PKADQSPIRHLDSRHRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQGS 180
           PKADQ+PI     RHR+PPLHNTNILR++P TR  D   QK+SLGSSYS WTMDNLRQ S
Sbjct: 121 PKADQAPI-----RHRNPPLHNTNILRRTPTTRSADDLPQKDSLGSSYSPWTMDNLRQRS 180

Query: 181 PAKMVESSRRYSLQRDDEKLQRRPTNLSFENPRSMSYVAKDVHNASGSVSNATFSTNSLL 240
           PA++VESSR YSLQRDDEKLQRRP NLSFEN RS+ YVAKDVHNASGSVS AT+ TNSLL
Sbjct: 181 PARIVESSRHYSLQRDDEKLQRRPANLSFENARSVGYVAKDVHNASGSVSTATYVTNSLL 240

Query: 241 PPTSAKRVAPIASLHPPLSGITHKALYPGDELQSIDGMLQSLGLGKYSILFKAEEVDMTA 300
           PPTSAK VAP+  LHPP SGI HK LYPGDELQ+IDG+LQSLGLGKYSILFKAEEVDMTA
Sbjct: 241 PPTSAKPVAPVVPLHPPPSGIAHKTLYPGDELQTIDGLLQSLGLGKYSILFKAEEVDMTA 300

Query: 301 LKQMGENDLKELGIPM 316
           LKQMGENDLKELGIPM
Sbjct: 301 LKQMGENDLKELGIPM 310

[Close]
BLAST of Sed0012956 vs. ExPASy TrEMBL
Match: A0A6J1KGR5 (uncharacterized protein LOC111493741 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111493741 PE=4 SV=1)

HSP 1 Score: 489.6 bits (1259), Expect = 1.2e-134
Identity = 273/384 (71.09%), Postives = 295/384 (76.82%), Query Frame = 0 

Query: 1   MSADSRSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYG 60
           M+A SR RVTITLGRS GQVVKKA PGTD SVSDSWPVSGTKRSVRDRLG++ D+D  YG
Sbjct: 1   MAAASRGRVTITLGRS-GQVVKKASPGTDVSVSDSWPVSGTKRSVRDRLGSSSDSDGLYG 60

Query: 61  TQLNNKRLRGDGGMSNRSSNGLDV--SHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREK 120
           +QL+NKRLRGD GMSN SSNGLDV  SHIGKDDLR+KLLQKDA RRA SDNK+CLDLRE+
Sbjct: 61  SQLDNKRLRGDDGMSNWSSNGLDVPHSHIGKDDLRYKLLQKDAFRRALSDNKKCLDLRER 120

Query: 121 LPKADQSPIRHLDSRHRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQG 180
           LPKADQ+PIRHLDSR+ DPPL NT ILR++P  R  D  SQK+SLGSSYS+WTMDNLRQ 
Sbjct: 121 LPKADQAPIRHLDSRYHDPPLPNTKILRRTPSMRSADDLSQKDSLGSSYSSWTMDNLRQR 180

Query: 181 SPAKMVESSRRYSLQRDDEKLQRRPTNLSFENPRSMSYVAKDVHNASGSVSNATFSTNSL 240
           SPA++VE SRRYSLQRDDEKLQRR T  S EN RS+ YVAKD+HNASGSVS ATF TNSL
Sbjct: 181 SPARVVEPSRRYSLQRDDEKLQRRTTYSSVENARSVGYVAKDIHNASGSVSTATFMTNSL 240

Query: 241 LPPTSAKRVAPIASLHPPLSGITHKALYPGDELQSIDGMLQSLGLGKYSILFKAEEVDMT 300
           LPPTSAK VAP+A LHPP SGI HK LYPGDELQSIDG+LQSLGLGKYSILFKAEEVDMT
Sbjct: 241 LPPTSAKPVAPVAPLHPPPSGIAHKTLYPGDELQSIDGLLQSLGLGKYSILFKAEEVDMT 300

Query: 301 ALKQMGENDLKELGIPMVWHGILIKSCIILSQLSIFNMVSEDQPPNMQPRRSTRPSRQPK 360
           ALKQMGENDLKELGIP                              M PR          
Sbjct: 301 ALKQMGENDLKELGIP------------------------------MGPR---------- 334

Query: 361 YLQAYHCSLKKILLAIAPRFKRQP 383
                    KKILLAI+PR KRQP
Sbjct: 361 ---------KKILLAISPRSKRQP 334

[Close]
BLAST of Sed0012956 vs. TAIR 10
Match: AT1G70180.1 (Sterile alpha motif (SAM) domain-containing protein )

HSP 1 Score: 142.9 bits (359), Expect = 5.3e-34
Identity = 139/458 (30.35%), Postives = 187/458 (40.83%), Query Frame = 0 

Query: 6   RSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYGTQLNN 65
           RSRVTITLGRS GQVV +A   +D       P  GTKRSV++RLGN  D+ ++ G ++ +
Sbjct: 7   RSRVTITLGRS-GQVVNRA--ASDIDDGYELPRVGTKRSVKERLGNPLDSSVYGGEEVVS 66

Query: 66  KRLRGDGGMSNRSSNGLDVSHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREKLPKADQS 125
           KR RG+      S N L +S   ++DLRFKL+QK+A RRAQSD    +DLREKL +++Q 
Sbjct: 67  KRQRGEASF---SGNDLQIS---RNDLRFKLMQKNAQRRAQSDEGCTMDLREKLSRSEQP 126

Query: 126 PIRHLDSR-----HRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQGSP 185
           P R LD+R      RD PL ++   R         G SQ  S  SS+  W +++LR+ SP
Sbjct: 127 P-RSLDTRPRMAEPRDRPLSSSRTAR---------GSSQMISSSSSHPAWALEDLRRRSP 186

Query: 186 AKMVESSRRYSLQRD--------------------------------DEKLQRRPTNLS- 245
            + V++SR  S  R+                                D ++   P ++S 
Sbjct: 187 ERFVDTSRGRSPPRNAGSFIGIPREPSPPRNGRRMIGSARDRSPPRSDGRIIGSPRDISP 246

Query: 246 ------------------------------------------------------------ 305
                                                                       
Sbjct: 247 PRDAGRRFGPPRDQSPPRNAGRVTGSPRDRSPPRNAGRRMGPPRDQSPPRSTRSFSSNSR 306

Query: 306 -------------------------------------------------FENPRSMSYVA 317
                                                             +N R+  Y  
Sbjct: 307 ALSPARNMGSYMSSSQGFSPPRNPRSYMGSSRGSPPRSNIEDFHGRSRMLDNMRASPYPV 366

[Close]
BLAST of Sed0012956 vs. TAIR 10
Match: AT1G70180.2 (Sterile alpha motif (SAM) domain-containing protein )

HSP 1 Score: 141.4 bits (355), Expect = 1.6e-33
Identity = 138/457 (30.20%), Postives = 186/457 (40.70%), Query Frame = 0 

Query: 6   RSRVTITLGRSGGQVVKKAGPGTDASVSDSWPVSGTKRSVRDRLGNTPDTDLFYGTQLNN 65
           RSRVTITLGRS GQVV +A   +D       P  GTKRSV++RLGN  D+ ++ G ++ +
Sbjct: 7   RSRVTITLGRS-GQVVNRA--ASDIDDGYELPRVGTKRSVKERLGNPLDSSVYGGEEVVS 66

Query: 66  KRLRGDGGMSNRSSNGLDVSHIGKDDLRFKLLQKDASRRAQSDNKRCLDLREKLPKADQS 125
           KR RG+      S N L +S   ++DLRFKL+QK+A RRAQSD    +DLREKL +++Q 
Sbjct: 67  KRQRGEASF---SGNDLQIS---RNDLRFKLMQKNAQRRAQSDEGCTMDLREKLSRSEQP 126

Query: 126 PIRHLDSR-----HRDPPLHNTNILRQSPLTRKTDGFSQKESLGSSYSTWTMDNLRQGSP 185
           P R LD+R      RD PL ++   R         G SQ  S  SS+  W +++LR+ SP
Sbjct: 127 P-RSLDTRPRMAEPRDRPLSSSRTAR---------GSSQMISSSSSHPAWALEDLRRRSP 186

Query: 186 AKMVESSRRYSLQRD--------------------------------DEKLQRRPTNLS- 245
            + V++SR  S  R+                                D ++   P ++S 
Sbjct: 187 ERFVDTSRGRSPPRNAGSFIGIPREPSPPRNGRRMIGSARDRSPPRSDGRIIGSPRDISP 246

Query: 246 ------------------------------------------------------------ 305
                                                                       
Sbjct: 247 PRDAGRRFGPPRDQSPPRNAGRVTGSPRDRSPPRNAGRRMGPPRDQSPPRSTRSFSSNSR 306

Query: 306 -------------------------------------------------FENPRSMSYVA 316
                                                             +N R+  Y  
Sbjct: 307 ALSPARNMGSYMSSSQGFSPPRNPRSYMGSSRGSPPRSNIEDFHGRSRMLDNMRASPYPV 366

[Close]
BLAST of Sed0012956 vs. TAIR 10
Match: AT5G48680.1 (Sterile alpha motif (SAM) domain-containing protein )

HSP 1 Score: 53.9 bits (128), Expect = 3.3e-07
Identity = 26/43 (60.47%), Postives = 32/43 (74.42%), Query Frame = 0 

Query: 273 SIDGMLQSLGLGKYSILFKAEEVDMTALKQMGENDLKELGIPM 316
           S+D  L+SLGL KYS  F+ EEVDM AL+ M ++DLK L IPM
Sbjct: 149 SVDSFLESLGLEKYSTAFQVEEVDMDALRHMTDDDLKALLIPM 191

[Close]
BLAST of Sed0012956 vs. TAIR 10
Match: AT3G07170.1 (Sterile alpha motif (SAM) domain-containing protein )

HSP 1 Score: 53.5 bits (127), Expect = 4.3e-07
Identity = 33/73 (45.21%), Postives = 39/73 (53.42%), Query Frame = 0 

Query: 243 SAKRVAPIASLHPPLSGITHKALYPGDELQSIDGMLQSLGLGKYSILFKAEEVDMTALKQ 302
           S K VA         S  T K     D   S+D  L+SLGL KYS  F+ EEVDM AL  
Sbjct: 119 SMKSVATETETRKTSSQATRKKSQQAD--SSVDSFLESLGLEKYSTAFQVEEVDMDALMH 178

Query: 303 MGENDLKELGIPM 316
           M ++DLK + IPM
Sbjct: 179 MTDDDLKAMLIPM 189

The following BLAST results are available for this feature:
BLAST of Sed0012956 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_038890159.11.5e-13982.54uncharacterized protein LOC120079818 [Benincasa hispida][more]
XP_008465721.17.0e-13772.58PREDICTED: uncharacterized protein LOC103503334 isoform X2 [Cucumis melo][more]
XP_023545921.11.3e-13571.35protein bicaudal C homolog 1-A-like isoform X1 [Cucurbita pepo subsp. pepo][more]
XP_022946530.11.3e-13571.35protein bicaudal C homolog 1-B-like isoform X1 [Cucurbita moschata][more]
KAG7029996.11.3e-13571.35hypothetical protein SDJN02_08340 [Cucurbita argyrosperma subsp. argyrosperma][more]
BLAST of Sed0012956 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Sed0012956 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3CPI73.4e-13772.58uncharacterized protein LOC103503334 isoform X2 OS=Cucumis melo OX=3656 GN=LOC10... [more]
A0A6J1G4436.4e-13671.35protein bicaudal C homolog 1-B-like isoform X1 OS=Cucurbita moschata OX=3662 GN=... [more]
A0A1S3CPG78.4e-13672.40uncharacterized protein LOC103503334 isoform X1 OS=Cucumis melo OX=3656 GN=LOC10... [more]
A0A5D3DIL11.1e-13582.59Protein bicaudal C-like protein 1-A-like isoform X2 OS=Cucumis melo var. makuwa ... [more]
A0A6J1KGR51.2e-13471.09uncharacterized protein LOC111493741 isoform X1 OS=Cucurbita maxima OX=3661 GN=L... [more]
BLAST of Sed0012956 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G70180.15.3e-3430.35Sterile alpha motif (SAM) domain-containing protein [more]
AT1G70180.21.6e-3330.20Sterile alpha motif (SAM) domain-containing protein [more]
AT5G48680.13.3e-0760.47Sterile alpha motif (SAM) domain-containing protein [more]
AT3G07170.14.3e-0745.21Sterile alpha motif (SAM) domain-containing protein [more]
InterPro
Analysis Name: InterPro Annotations of Chayote (edule) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR001660Sterile alpha motif domainPFAMPF00536SAM_1coord: 275..318
e-value: 7.4E-8
score: 32.7
IPR001660Sterile alpha motif domainPROSITEPS50105SAM_DOMAINcoord: 269..318
score: 8.82419
IPR013761Sterile alpha motif/pointed domain superfamilyGENE3D1.10.150.50coord: 269..326
e-value: 1.4E-13
score: 52.8
IPR013761Sterile alpha motif/pointed domain superfamilySUPERFAMILY47769SAM/Pointed domaincoord: 271..326
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 55..83
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 141..186
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 101..140
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..85
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 101..200
NoneNo IPR availablePANTHERPTHR23509:SF38OSJNBA0060P14.15 PROTEINcoord: 1..317
NoneNo IPR availablePANTHERPTHR23509PA-PL1 PHOSPHOLIPASE FAMILYcoord: 1..317

Relationships

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

Feature NameUnique NameType
Sed0012956.1Sed0012956.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
molecular_function GO:0005515 protein binding