CsGy2G016070 (gene) Cucumber (Gy14) v2.1

Overview
NameCsGy2G016070
Typegene
OrganismCucumis sativus L. var. sativus cv. Gy14 (Cucumber (Gy14) v2.1)
DescriptionDNA-binding protein BIN4
LocationGy14Chr2: 16035114 .. 16061062 (-)
RNA-Seq ExpressionCsGy2G016070
SyntenyCsGy2G016070
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGAGCAGTTCGAGAGAACAGTCTCCAGATTGGATGCGATCTTTCCAAGCACCAACTGGTGTTGCTCTATCCTCTAATTCTGGATCTTCAAAGAATGGTAGCTCATCAATGGACAATGCAATTGATCAAAGGGATCCGTCTTCACATAAAACTACACAGGATTTAGATGGAGATCAGATTCAAGGGGATTGTGGCAACCATAATTTGGCGAAGGAAGTGAAACTCGACAGACATACAGGTCATGAAAACTCAAAGCACTCTGTTTGGATGTTATCATTGGATTCAGAGTCATGTTCAGATAATAATTTTATTAAGGAGGATTACAGTTATCATGAAGAATTAGCTGAACTTGCAACATCTGAGATCCAAGGGAGAAGGAAGGATGAAAATGCAGGTCGCAGATTCACGGAGGGAAAATCTAAATCAAGGAAAGTATCAAATGAAATGTCTCCCAAAAAAAAGGTCAAATCCGAAGTTTGCACTTCAGCAAAAGAGAATATAATGAATTCTGGTACAAATAAAGGTGGTTCTACGATGGAAGGATCTGAAGGCCATGTAAGAAATGGTGATGTGGAAATTTTAGAGAAGGATGCATTGGATGATTGCATCGGACCTCCTGTTTCCTCCTCAAGGTTGCCATTGGTGTTGTCTGACAAAGCCCATAGGTTGAAGGCGCTTGTTGAGTGTGAAGGAACTTCAATAGATTTGAGCGGTGACATGGGTGCTGTAGGACGTGTTGTAGTTTCAGATTCCTCATCTGCAAAAAATGAACTTTGCCTAGATCTGAAAGGCACACTTTACAGAGCGGTAATAGTTCCTTCAAGGACATTTTGCATCGTTAGCTTTGGTCAGTCAGAGGCTAAGATAGAATCTATCATGAACGATTTCATTCAGTTGAAGGCACTGTCCAAAGTTGATGAGGCTGAAACTATGGTTGAAGGCACATTAGATGGATTCTCGTTTGATTCTGAAGACGACGCTGAGAAAATAACTAAAGCTGCTTCTCCAGCTGACCAAAATGAGCCGGTAGAAGGGCTCAACACAAAATCCAAAAACAAAGCCGAGAAATCATCAGTATGTTCCTACGTCCAATTGCATGTAGTATCTTAACAATCCATCTTTCGTTCATGCTTATGCTCTGGAAATGTCATTTTAGGGGCGGAAGCGTGTTAAAACTGGAGGAAGGCTGCAGGCTCCGAAGAAAACAAGGAAGAAAGTTCAAGGTTCTAAAACTAAAAATGCAAAAAGCAAGAAATGAAGTTCGAAATCTTTGTTTGCCCTGAAAAGGGAAAGTCCTTTCGTCTGAATGTAAGAGGCAAATGGGGGCTTTAGCCAACCTGCTTGAAACAACATTTTCTTTCTCCGGTTCACCTCTCTGACTAGAAGTTTAGAGCCTTTTTTATAAAGTTTTTTTTCTTTTCTATTTCATATTCTTTCTTTCTAGTTCTTAGTTTCTTATGTTTTAAAAACAATAAATAGACCATATTTGATGACTATTATCATTTTATGTTTCTTGAAAAAACCAAACAGAACCACAAATGCGTTTGATAATCATTTGTTGTTTCTCGTTATTTTGTTATTTTTTCTAATATTTTCGCTTAATTTTTTAGTTTAAAATAATTTAATTATATAAAAGATAAATATATAAAATTTATTAAAATATATAACATTCATTAAAATATATACAAAATAATTATG

Coding sequence (CDS)

ATGAGCAGTTCGAGAGAACAGTCTCCAGATTGGATGCGATCTTTCCAAGCACCAACTGGTGTTGCTCTATCCTCTAATTCTGGATCTTCAAAGAATGGTAGCTCATCAATGGACAATGCAATTGATCAAAGGGATCCGTCTTCACATAAAACTACACAGGATTTAGATGGAGATCAGATTCAAGGGGATTGTGGCAACCATAATTTGGCGAAGGAAGTGAAACTCGACAGACATACAGGTCATGAAAACTCAAAGCACTCTGTTTGGATGTTATCATTGGATTCAGAGTCATGTTCAGATAATAATTTTATTAAGGAGGATTACAGTTATCATGAAGAATTAGCTGAACTTGCAACATCTGAGATCCAAGGGAGAAGGAAGGATGAAAATGCAGGTCGCAGATTCACGGAGGGAAAATCTAAATCAAGGAAAGTATCAAATGAAATGTCTCCCAAAAAAAAGGTCAAATCCGAAGTTTGCACTTCAGCAAAAGAGAATATAATGAATTCTGGTACAAATAAAGGTGGTTCTACGATGGAAGGATCTGAAGGCCATGTAAGAAATGGTGATGTGGAAATTTTAGAGAAGGATGCATTGGATGATTGCATCGGACCTCCTGTTTCCTCCTCAAGGTTGCCATTGGTGTTGTCTGACAAAGCCCATAGGTTGAAGGCGCTTGTTGAGTGTGAAGGAACTTCAATAGATTTGAGCGGTGACATGGGTGCTGTAGGACGTGTTGTAGTTTCAGATTCCTCATCTGCAAAAAATGAACTTTGCCTAGATCTGAAAGGCACACTTTACAGAGCGGTAATAGTTCCTTCAAGGACATTTTGCATCGTTAGCTTTGGTCAGTCAGAGGCTAAGATAGAATCTATCATGAACGATTTCATTCAGTTGAAGGCACTGTCCAAAGTTGATGAGGCTGAAACTATGGTTGAAGGCACATTAGATGGATTCTCGTTTGATTCTGAAGACGACGCTGAGAAAATAACTAAAGCTGCTTCTCCAGCTGACCAAAATGAGCCGGTAGAAGGGCTCAACACAAAATCCAAAAACAAAGCCGAGAAATCATCAGTATGTTCCTACGTCCAATTGCATGTAGTATCTTAA

Protein sequence

MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQIQGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATSEIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTMEGSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDMGAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLKALSKVDEAETMVEGTLDGFSFDSEDDAEKITKAASPADQNEPVEGLNTKSKNKAEKSSVCSYVQLHVVS*
Homology
[Close]
BLAST of CsGy2G016070 vs. ExPASy Swiss-Prot
Match: Q9FLU1 (DNA-binding protein BIN4 OS=Arabidopsis thaliana OX=3702 GN=BIN4 PE=1 SV=2)

HSP 1 Score: 186.8 bits (473), Expect = 4.4e-46
Identity = 166/431 (38.52%), Postives = 219/431 (50.81%), Query Frame = 0 

Query: 2   SSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI- 61
           SSSRE SPDW+RS++AP   +L S S      SS  D+   + +  S     D DGD I 
Sbjct: 3   SSSREGSPDWLRSYEAPMTTSLLSLS------SSDDDSPYRESEVISSLPLPDDDGDDIV 62

Query: 62  -----------QGDCGNHNLAKEVKL-----------------DRHTGHEN--------- 121
                      + +     + K+V +                 D   G EN         
Sbjct: 63  VLETESVELLTRKNSETKVVTKQVSIEQVFSRKKKADASLNLEDSCAGKENGNNVDCEKL 122

Query: 122 -SKH--------SVWMLSLDSESCS------------DNNFIKEDYSYHEELAELATSEI 181
            SKH        SVW++S DSE  S            D +F+ E  +  E   +    E 
Sbjct: 123 SSKHKDAQGGADSVWLVSSDSEPSSPIKQEVTVSTEKDADFVLE-ATEEEPAVKTVRKEK 182

Query: 182 QGRRKDENAGRRFTEGKSK---------------SRKVSNEMSPKKKVKSEVCTSAKENI 241
             + K +++ +   EG S                + +V+ E SPK K KS   T  +EN 
Sbjct: 183 SPKTKSKSSRKTPKEGNSAQEILKTEDKDTDTTIAEQVTPEKSPKTKSKSSRKTPKEENC 242

Query: 242 MNSGTNKGGSTMEGSEGHVRNGDVEILEKDALDDCIGPPV-SSSRLPLVLSDKAHRLKAL 301
                       +       + D  I E+   D  I P   SSSRLPLVLS+K +R K L
Sbjct: 243 AQEILKTEDKDKD------TDTDTIIAEEVTTDQKIKPSSGSSSRLPLVLSEKVNRTKVL 302

Query: 302 VECEGTSIDLSGDMGAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSE 356
           VECEG SIDLSGDMGAVGRVVVSD++    ++ LDLKGT+Y++ I+PSRTFC+V+ GQ+E
Sbjct: 303 VECEGDSIDLSGDMGAVGRVVVSDTT---GDMYLDLKGTIYKSTIIPSRTFCVVNVGQTE 362

[Close]
BLAST of CsGy2G016070 vs. NCBI nr
Match: XP_004147326.1 (DNA-binding protein BIN4 isoform X1 [Cucumis sativus] >XP_011649447.1 DNA-binding protein BIN4 isoform X1 [Cucumis sativus] >KGN62298.2 hypothetical protein Csa_016942 [Cucumis sativus])

HSP 1 Score: 685 bits (1767), Expect = 3.20e-247
Identity = 358/358 (100.00%), Postives = 358/358 (100.00%), Query Frame = 0 

Query: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60
           MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI
Sbjct: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60

Query: 61  QGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATS 120
           QGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATS
Sbjct: 61  QGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATS 120

Query: 121 EIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTME 180
           EIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTME
Sbjct: 121 EIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTME 180

Query: 181 GSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDM 240
           GSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDM
Sbjct: 181 GSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDM 240

Query: 241 GAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLK 300
           GAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLK
Sbjct: 241 GAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLK 300

Query: 301 ALSKVDEAETMVEGTLDGFSFDSEDDAEKITKAASPADQNEPVEGLNTKSKNKAEKSS 358
           ALSKVDEAETMVEGTLDGFSFDSEDDAEKITKAASPADQNEPVEGLNTKSKNKAEKSS
Sbjct: 301 ALSKVDEAETMVEGTLDGFSFDSEDDAEKITKAASPADQNEPVEGLNTKSKNKAEKSS 358

[Close]
BLAST of CsGy2G016070 vs. NCBI nr
Match: XP_031736566.1 (DNA-binding protein BIN4 isoform X2 [Cucumis sativus])

HSP 1 Score: 657 bits (1694), Expect = 2.92e-236
Identity = 348/358 (97.21%), Postives = 348/358 (97.21%), Query Frame = 0 

Query: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60
           MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI
Sbjct: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60

Query: 61  QGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATS 120
           QGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATS
Sbjct: 61  QGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATS 120

Query: 121 EIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTME 180
           EIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTME
Sbjct: 121 EIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTME 180

Query: 181 GSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDM 240
           GSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDM
Sbjct: 181 GSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDM 240

Query: 241 GAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLK 300
           GAVGRVVVSDSSSAKNELCLDLKGTLYRAV          SFGQSEAKIESIMNDFIQLK
Sbjct: 241 GAVGRVVVSDSSSAKNELCLDLKGTLYRAV----------SFGQSEAKIESIMNDFIQLK 300

Query: 301 ALSKVDEAETMVEGTLDGFSFDSEDDAEKITKAASPADQNEPVEGLNTKSKNKAEKSS 358
           ALSKVDEAETMVEGTLDGFSFDSEDDAEKITKAASPADQNEPVEGLNTKSKNKAEKSS
Sbjct: 301 ALSKVDEAETMVEGTLDGFSFDSEDDAEKITKAASPADQNEPVEGLNTKSKNKAEKSS 348

[Close]
BLAST of CsGy2G016070 vs. NCBI nr
Match: XP_008460815.1 (PREDICTED: DNA-binding protein BIN4 isoform X2 [Cucumis melo])

HSP 1 Score: 634 bits (1635), Expect = 4.26e-227
Identity = 335/359 (93.31%), Postives = 346/359 (96.38%), Query Frame = 0 

Query: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60
           MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI
Sbjct: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60

Query: 61  QGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATS 120
           QGDCGNHNLAKE KLDR TGHENS+HSVWMLS DSESCSDNNFIKED ++HEEL+ELATS
Sbjct: 61  QGDCGNHNLAKEGKLDRRTGHENSEHSVWMLSSDSESCSDNNFIKEDCNHHEELSELATS 120

Query: 121 EIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTME 180
           EIQGRRKDENAGRRFTEGKSKSRKVS EMSPKKK+KS+VCTSAKE I+NS TNKGG T+E
Sbjct: 121 EIQGRRKDENAGRRFTEGKSKSRKVSKEMSPKKKIKSQVCTSAKEKIINSDTNKGGLTLE 180

Query: 181 GSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDM 240
           GSEG VRNG+ EILEKDALDDCI PPVSSSRLPLVLSDK HRLKALVECEGTSIDLSGDM
Sbjct: 181 GSEGFVRNGEEEILEKDALDDCIVPPVSSSRLPLVLSDKVHRLKALVECEGTSIDLSGDM 240

Query: 241 GAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLK 300
           GAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLK
Sbjct: 241 GAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLK 300

Query: 301 ALSKVDEAETMVEGTLDGFSFDSEDDAEKITK-AASPADQNEPVEGLNTKSKNKAEKSS 358
           ALSKVDEAETMVEGTLDGFSFDSED+AEKITK A+SPADQNEPVEGLNTKSKNKAEKSS
Sbjct: 301 ALSKVDEAETMVEGTLDGFSFDSEDEAEKITKVASSPADQNEPVEGLNTKSKNKAEKSS 359

[Close]
BLAST of CsGy2G016070 vs. NCBI nr
Match: XP_008460814.1 (PREDICTED: DNA-binding protein BIN4 isoform X1 [Cucumis melo] >XP_016902628.1 PREDICTED: DNA-binding protein BIN4 isoform X1 [Cucumis melo] >XP_016902629.1 PREDICTED: DNA-binding protein BIN4 isoform X1 [Cucumis melo])

HSP 1 Score: 624 bits (1609), Expect = 6.74e-223
Identity = 335/374 (89.57%), Postives = 346/374 (92.51%), Query Frame = 0 

Query: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60
           MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI
Sbjct: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60

Query: 61  QGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATS 120
           QGDCGNHNLAKE KLDR TGHENS+HSVWMLS DSESCSDNNFIKED ++HEEL+ELATS
Sbjct: 61  QGDCGNHNLAKEGKLDRRTGHENSEHSVWMLSSDSESCSDNNFIKEDCNHHEELSELATS 120

Query: 121 EIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTME 180
           EIQGRRKDENAGRRFTEGKSKSRKVS EMSPKKK+KS+VCTSAKE I+NS TNKGG T+E
Sbjct: 121 EIQGRRKDENAGRRFTEGKSKSRKVSKEMSPKKKIKSQVCTSAKEKIINSDTNKGGLTLE 180

Query: 181 GSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDM 240
           GSEG VRNG+ EILEKDALDDCI PPVSSSRLPLVLSDK HRLKALVECEGTSIDLSGDM
Sbjct: 181 GSEGFVRNGEEEILEKDALDDCIVPPVSSSRLPLVLSDKVHRLKALVECEGTSIDLSGDM 240

Query: 241 GAVGRVVVSDSSSAKNELCLDLKG---------------TLYRAVIVPSRTFCIVSFGQS 300
           GAVGRVVVSDSSSAKNELCLDLKG               TLYRAVIVPSRTFCIVSFGQS
Sbjct: 241 GAVGRVVVSDSSSAKNELCLDLKGKFHPNMLCFGSKRSGTLYRAVIVPSRTFCIVSFGQS 300

Query: 301 EAKIESIMNDFIQLKALSKVDEAETMVEGTLDGFSFDSEDDAEKITK-AASPADQNEPVE 358
           EAKIESIMNDFIQLKALSKVDEAETMVEGTLDGFSFDSED+AEKITK A+SPADQNEPVE
Sbjct: 301 EAKIESIMNDFIQLKALSKVDEAETMVEGTLDGFSFDSEDEAEKITKVASSPADQNEPVE 360

[Close]
BLAST of CsGy2G016070 vs. NCBI nr
Match: XP_031736567.1 (DNA-binding protein BIN4 isoform X3 [Cucumis sativus] >XP_031736568.1 DNA-binding protein BIN4 isoform X3 [Cucumis sativus])

HSP 1 Score: 621 bits (1601), Expect = 1.64e-222
Identity = 322/322 (100.00%), Postives = 322/322 (100.00%), Query Frame = 0 

Query: 37  MDNAIDQRDPSSHKTTQDLDGDQIQGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSE 96
           MDNAIDQRDPSSHKTTQDLDGDQIQGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSE
Sbjct: 1   MDNAIDQRDPSSHKTTQDLDGDQIQGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSE 60

Query: 97  SCSDNNFIKEDYSYHEELAELATSEIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVK 156
           SCSDNNFIKEDYSYHEELAELATSEIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVK
Sbjct: 61  SCSDNNFIKEDYSYHEELAELATSEIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVK 120

Query: 157 SEVCTSAKENIMNSGTNKGGSTMEGSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVL 216
           SEVCTSAKENIMNSGTNKGGSTMEGSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVL
Sbjct: 121 SEVCTSAKENIMNSGTNKGGSTMEGSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVL 180

Query: 217 SDKAHRLKALVECEGTSIDLSGDMGAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRT 276
           SDKAHRLKALVECEGTSIDLSGDMGAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRT
Sbjct: 181 SDKAHRLKALVECEGTSIDLSGDMGAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRT 240

Query: 277 FCIVSFGQSEAKIESIMNDFIQLKALSKVDEAETMVEGTLDGFSFDSEDDAEKITKAASP 336
           FCIVSFGQSEAKIESIMNDFIQLKALSKVDEAETMVEGTLDGFSFDSEDDAEKITKAASP
Sbjct: 241 FCIVSFGQSEAKIESIMNDFIQLKALSKVDEAETMVEGTLDGFSFDSEDDAEKITKAASP 300

Query: 337 ADQNEPVEGLNTKSKNKAEKSS 358
           ADQNEPVEGLNTKSKNKAEKSS
Sbjct: 301 ADQNEPVEGLNTKSKNKAEKSS 322

[Close]
BLAST of CsGy2G016070 vs. ExPASy TrEMBL
Match: A0A0A0LJZ5 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G338790 PE=4 SV=1)

HSP 1 Score: 663 bits (1710), Expect = 1.01e-238
Identity = 347/347 (100.00%), Postives = 347/347 (100.00%), Query Frame = 0 

Query: 12  MRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQIQGDCGNHNLAK 71
           MRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQIQGDCGNHNLAK
Sbjct: 1   MRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQIQGDCGNHNLAK 60

Query: 72  EVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATSEIQGRRKDENA 131
           EVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATSEIQGRRKDENA
Sbjct: 61  EVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATSEIQGRRKDENA 120

Query: 132 GRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTMEGSEGHVRNGDV 191
           GRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTMEGSEGHVRNGDV
Sbjct: 121 GRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTMEGSEGHVRNGDV 180

Query: 192 EILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDMGAVGRVVVSDS 251
           EILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDMGAVGRVVVSDS
Sbjct: 181 EILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDMGAVGRVVVSDS 240

Query: 252 SSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLKALSKVDEAETM 311
           SSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLKALSKVDEAETM
Sbjct: 241 SSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLKALSKVDEAETM 300

Query: 312 VEGTLDGFSFDSEDDAEKITKAASPADQNEPVEGLNTKSKNKAEKSS 358
           VEGTLDGFSFDSEDDAEKITKAASPADQNEPVEGLNTKSKNKAEKSS
Sbjct: 301 VEGTLDGFSFDSEDDAEKITKAASPADQNEPVEGLNTKSKNKAEKSS 347

[Close]
BLAST of CsGy2G016070 vs. ExPASy TrEMBL
Match: A0A1S3CDA8 (DNA-binding protein BIN4 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103499580 PE=4 SV=1)

HSP 1 Score: 634 bits (1635), Expect = 2.06e-227
Identity = 335/359 (93.31%), Postives = 346/359 (96.38%), Query Frame = 0 

Query: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60
           MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI
Sbjct: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60

Query: 61  QGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATS 120
           QGDCGNHNLAKE KLDR TGHENS+HSVWMLS DSESCSDNNFIKED ++HEEL+ELATS
Sbjct: 61  QGDCGNHNLAKEGKLDRRTGHENSEHSVWMLSSDSESCSDNNFIKEDCNHHEELSELATS 120

Query: 121 EIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTME 180
           EIQGRRKDENAGRRFTEGKSKSRKVS EMSPKKK+KS+VCTSAKE I+NS TNKGG T+E
Sbjct: 121 EIQGRRKDENAGRRFTEGKSKSRKVSKEMSPKKKIKSQVCTSAKEKIINSDTNKGGLTLE 180

Query: 181 GSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDM 240
           GSEG VRNG+ EILEKDALDDCI PPVSSSRLPLVLSDK HRLKALVECEGTSIDLSGDM
Sbjct: 181 GSEGFVRNGEEEILEKDALDDCIVPPVSSSRLPLVLSDKVHRLKALVECEGTSIDLSGDM 240

Query: 241 GAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLK 300
           GAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLK
Sbjct: 241 GAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLK 300

Query: 301 ALSKVDEAETMVEGTLDGFSFDSEDDAEKITK-AASPADQNEPVEGLNTKSKNKAEKSS 358
           ALSKVDEAETMVEGTLDGFSFDSED+AEKITK A+SPADQNEPVEGLNTKSKNKAEKSS
Sbjct: 301 ALSKVDEAETMVEGTLDGFSFDSEDEAEKITKVASSPADQNEPVEGLNTKSKNKAEKSS 359

[Close]
BLAST of CsGy2G016070 vs. ExPASy TrEMBL
Match: A0A1S3CDB0 (DNA-binding protein BIN4 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103499580 PE=4 SV=1)

HSP 1 Score: 624 bits (1609), Expect = 3.26e-223
Identity = 335/374 (89.57%), Postives = 346/374 (92.51%), Query Frame = 0 

Query: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60
           MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI
Sbjct: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60

Query: 61  QGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATS 120
           QGDCGNHNLAKE KLDR TGHENS+HSVWMLS DSESCSDNNFIKED ++HEEL+ELATS
Sbjct: 61  QGDCGNHNLAKEGKLDRRTGHENSEHSVWMLSSDSESCSDNNFIKEDCNHHEELSELATS 120

Query: 121 EIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTME 180
           EIQGRRKDENAGRRFTEGKSKSRKVS EMSPKKK+KS+VCTSAKE I+NS TNKGG T+E
Sbjct: 121 EIQGRRKDENAGRRFTEGKSKSRKVSKEMSPKKKIKSQVCTSAKEKIINSDTNKGGLTLE 180

Query: 181 GSEGHVRNGDVEILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDM 240
           GSEG VRNG+ EILEKDALDDCI PPVSSSRLPLVLSDK HRLKALVECEGTSIDLSGDM
Sbjct: 181 GSEGFVRNGEEEILEKDALDDCIVPPVSSSRLPLVLSDKVHRLKALVECEGTSIDLSGDM 240

Query: 241 GAVGRVVVSDSSSAKNELCLDLKG---------------TLYRAVIVPSRTFCIVSFGQS 300
           GAVGRVVVSDSSSAKNELCLDLKG               TLYRAVIVPSRTFCIVSFGQS
Sbjct: 241 GAVGRVVVSDSSSAKNELCLDLKGKFHPNMLCFGSKRSGTLYRAVIVPSRTFCIVSFGQS 300

Query: 301 EAKIESIMNDFIQLKALSKVDEAETMVEGTLDGFSFDSEDDAEKITK-AASPADQNEPVE 358
           EAKIESIMNDFIQLKALSKVDEAETMVEGTLDGFSFDSED+AEKITK A+SPADQNEPVE
Sbjct: 301 EAKIESIMNDFIQLKALSKVDEAETMVEGTLDGFSFDSEDEAEKITKVASSPADQNEPVE 360

[Close]
BLAST of CsGy2G016070 vs. ExPASy TrEMBL
Match: A0A5D3BS94 (DNA-binding protein BIN4 isoform X2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold680G00060 PE=4 SV=1)

HSP 1 Score: 602 bits (1553), Expect = 3.65e-215
Identity = 319/343 (93.00%), Postives = 330/343 (96.21%), Query Frame = 0 

Query: 17  APTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQIQGDCGNHNLAKEVKLD 76
           APTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQIQGDCGNHNLAKE KLD
Sbjct: 2   APTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQIQGDCGNHNLAKEGKLD 61

Query: 77  RHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATSEIQGRRKDENAGRRFT 136
           R TGHENS+HSVWMLS DSESCSDNNFIKED ++HEEL+ELATSEIQGRRKDENAGRRFT
Sbjct: 62  RRTGHENSEHSVWMLSSDSESCSDNNFIKEDCNHHEELSELATSEIQGRRKDENAGRRFT 121

Query: 137 EGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTMEGSEGHVRNGDVEILEK 196
           EGKSKSRKVS EMSPKKK+KS+VCTSAKE I+NS TNKGG T+EGSEG VRNG+ EILEK
Sbjct: 122 EGKSKSRKVSKEMSPKKKIKSQVCTSAKEKIINSDTNKGGLTLEGSEGFVRNGEEEILEK 181

Query: 197 DALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGDMGAVGRVVVSDSSSAKN 256
           DALDDCI PPVSSSRLPLVLSDK HRLKALVECEGTSIDLSGDMGAVGRVVVSDSSSAKN
Sbjct: 182 DALDDCIVPPVSSSRLPLVLSDKVHRLKALVECEGTSIDLSGDMGAVGRVVVSDSSSAKN 241

Query: 257 ELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLKALSKVDEAETMVEGTL 316
           ELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLKALSKVDEAETMVEGTL
Sbjct: 242 ELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQLKALSKVDEAETMVEGTL 301

Query: 317 DGFSFDSEDDAEKITK-AASPADQNEPVEGLNTKSKNKAEKSS 358
           DGFSFDSED+AEKITK A+SPADQNEPVEGLNTKSKNKAEKSS
Sbjct: 302 DGFSFDSEDEAEKITKVASSPADQNEPVEGLNTKSKNKAEKSS 344

[Close]
BLAST of CsGy2G016070 vs. ExPASy TrEMBL
Match: A0A6J1CI66 (DNA-binding protein BIN4 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111011402 PE=4 SV=1)

HSP 1 Score: 532 bits (1370), Expect = 4.63e-187
Identity = 289/360 (80.28%), Postives = 313/360 (86.94%), Query Frame = 0 

Query: 1   MSSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI 60
           MSSSREQSPDWMRSFQ PTGVALSSNS SS N SS MDNAIDQ+D SSHKTTQDLDGDQI
Sbjct: 1   MSSSREQSPDWMRSFQVPTGVALSSNSESSNNVSSFMDNAIDQKDLSSHKTTQDLDGDQI 60

Query: 61  QGDCGNHNLAKEVKLDRHTGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATS 120
           QGD G+HNL KE+KL+ H GH +SKHSVWMLS DSE CSDN+ IKEDYS+HEEL E  TS
Sbjct: 61  QGDRGHHNLVKEMKLEEHAGHGDSKHSVWMLSSDSELCSDNSLIKEDYSHHEELFESKTS 120

Query: 121 EIQGRRKDENAGRRFTEGKSKSRKVSNEMSPKKKVKSEVCTSAKENIMNSGTNKGGSTME 180
           +  GRRKDEN  R FT+GKSKSRKVS++ SPKK+VKS+V T  KE I+N  TNK G  +E
Sbjct: 121 QFLGRRKDENTDREFTDGKSKSRKVSDKKSPKKEVKSQVRTLTKEKIINFHTNKEGFVLE 180

Query: 181 GSEGHVRNG-DVEILEKDALDDCIGPPVSSSRLPLVLSDKAHRLKALVECEGTSIDLSGD 240
           GSE  VRNG DVEI+ KDALDDC GPPVSSSRLPLVLSDK HRLKALVECEGTSIDLSGD
Sbjct: 181 GSECCVRNGGDVEIIGKDALDDCNGPPVSSSRLPLVLSDKVHRLKALVECEGTSIDLSGD 240

Query: 241 MGAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQL 300
           +GAVGRVVVSDSS AKNELCLDLKGT+YRA IVPSRTFCIVSFGQSEAK+E IMNDFIQL
Sbjct: 241 VGAVGRVVVSDSSFAKNELCLDLKGTIYRAAIVPSRTFCIVSFGQSEAKMECIMNDFIQL 300

Query: 301 KALSKVDEAETMVEGTLDGFSFDSEDDAEKITK-AASPADQNEPVEGLNTKSKNKAEKSS 358
           KA S +DEAETMVEGTLDGFSFDSED+AEKITK ++SP DQNE VEGL+ KSKNKAEKSS
Sbjct: 301 KAESNIDEAETMVEGTLDGFSFDSEDEAEKITKVSSSPTDQNEAVEGLSKKSKNKAEKSS 360

[Close]
BLAST of CsGy2G016070 vs. TAIR 10
Match: AT5G24630.5 (double-stranded DNA binding )

HSP 1 Score: 190.3 bits (482), Expect = 2.8e-48
Identity = 162/427 (37.94%), Postives = 215/427 (50.35%), Query Frame = 0 

Query: 2   SSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI- 61
           SSSRE SPDW+RS++AP   +L S S      SS  D+   + +  S     D DGD I 
Sbjct: 3   SSSREGSPDWLRSYEAPMTTSLLSLS------SSDDDSPYRESEVISSLPLPDDDGDDIV 62

Query: 62  ------------------------------------------QGDCGNHNLAKEVKLDRH 121
                                                     +G    +N+  E    +H
Sbjct: 63  VLETESVELLTRKNSETKVVTKQVSIEQVFSRKKKADASLNLEGKENGNNVDCEKLSSKH 122

Query: 122 TGHENSKHSVWMLSLDSESCS------------DNNFIKEDYSYHEELAELATSEIQGRR 181
              +    SVW++S DSE  S            D +F+ E  +  E   +    E   + 
Sbjct: 123 KDAQGGADSVWLVSSDSEPSSPIKQEVTVSTEKDADFVLE-ATEEEPAVKTVRKEKSPKT 182

Query: 182 KDENAGRRFTEGKSK---------------SRKVSNEMSPKKKVKSEVCTSAKENIMNSG 241
           K +++ +   EG S                + +V+ E SPK K KS   T  +EN     
Sbjct: 183 KSKSSRKTPKEGNSAQEILKTEDKDTDTTIAEQVTPEKSPKTKSKSSRKTPKEEN----- 242

Query: 242 TNKGGSTMEGSEGHVRNGDVEILEKDALDDCIGPPV-SSSRLPLVLSDKAHRLKALVECE 301
                   E  +    + D  I E+   D  I P   SSSRLPLVLS+K +R K LVECE
Sbjct: 243 -----CAQEILKTEDTDTDTIIAEEVTTDQKIKPSSGSSSRLPLVLSEKVNRTKVLVECE 302

Query: 302 GTSIDLSGDMGAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIE 356
           G SIDLSGDMGAVGRVVVSD++    ++ LDLKGT+Y++ I+PSRTFC+V+ GQ+EAKIE
Sbjct: 303 GDSIDLSGDMGAVGRVVVSDTT---GDMYLDLKGTIYKSTIIPSRTFCVVNVGQTEAKIE 362

[Close]
BLAST of CsGy2G016070 vs. TAIR 10
Match: AT5G24630.3 (double-stranded DNA binding )

HSP 1 Score: 189.1 bits (479), Expect = 6.3e-48
Identity = 161/427 (37.70%), Postives = 214/427 (50.12%), Query Frame = 0 

Query: 2   SSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI- 61
           SSSRE SPDW+RS++AP   +L S S      SS  D+   + +  S     D DGD I 
Sbjct: 3   SSSREGSPDWLRSYEAPMTTSLLSLS------SSDDDSPYRESEVISSLPLPDDDGDDIV 62

Query: 62  ------------------------------------------QGDCGNHNLAKEVKLDRH 121
                                                     +G    +N+  E    +H
Sbjct: 63  VLETESVELLTRKNSETKVVTKQVSIEQVFSRKKKADASLNLEGKENGNNVDCEKLSSKH 122

Query: 122 TGHENSKHSVWMLSLDSESCS------------DNNFIKEDYSYHEELAELATSEIQGRR 181
              +    SVW++S DSE  S            D +F+ E  +  E   +    E   + 
Sbjct: 123 KDAQGGADSVWLVSSDSEPSSPIKQEVTVSTEKDADFVLE-ATEEEPAVKTVRKEKSPKT 182

Query: 182 KDENAGRRFTEGKSK---------------SRKVSNEMSPKKKVKSEVCTSAKENIMNSG 241
           K +++ +   EG S                + +V+ E SPK K KS   T  +EN     
Sbjct: 183 KSKSSRKTPKEGNSAQEILKTEDKDTDTTIAEQVTPEKSPKTKSKSSRKTPKEENCAQEI 242

Query: 242 TNKGGSTMEGSEGHVRNGDVEILEKDALDDCIGPPV-SSSRLPLVLSDKAHRLKALVECE 301
                   +       + D  I E+   D  I P   SSSRLPLVLS+K +R K LVECE
Sbjct: 243 LKTEDKDKD------TDTDTIIAEEVTTDQKIKPSSGSSSRLPLVLSEKVNRTKVLVECE 302

Query: 302 GTSIDLSGDMGAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIE 356
           G SIDLSGDMGAVGRVVVSD++    ++ LDLKGT+Y++ I+PSRTFC+V+ GQ+EAKIE
Sbjct: 303 GDSIDLSGDMGAVGRVVVSDTT---GDMYLDLKGTIYKSTIIPSRTFCVVNVGQTEAKIE 362

[Close]
BLAST of CsGy2G016070 vs. TAIR 10
Match: AT5G24630.4 (double-stranded DNA binding )

HSP 1 Score: 189.1 bits (479), Expect = 6.3e-48
Identity = 161/427 (37.70%), Postives = 214/427 (50.12%), Query Frame = 0 

Query: 2   SSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI- 61
           SSSRE SPDW+RS++AP   +L S S      SS  D+   + +  S     D DGD I 
Sbjct: 3   SSSREGSPDWLRSYEAPMTTSLLSLS------SSDDDSPYRESEVISSLPLPDDDGDDIV 62

Query: 62  ------------------------------------------QGDCGNHNLAKEVKLDRH 121
                                                     +G    +N+  E    +H
Sbjct: 63  VLETESVELLTRKNSETKVVTKQVSIEQVFSRKKKADASLNLEGKENGNNVDCEKLSSKH 122

Query: 122 TGHENSKHSVWMLSLDSESCS------------DNNFIKEDYSYHEELAELATSEIQGRR 181
              +    SVW++S DSE  S            D +F+ E  +  E   +    E   + 
Sbjct: 123 KDAQGGADSVWLVSSDSEPSSPIKQEVTVSTEKDADFVLE-ATEEEPAVKTVRKEKSPKT 182

Query: 182 KDENAGRRFTEGKSK---------------SRKVSNEMSPKKKVKSEVCTSAKENIMNSG 241
           K +++ +   EG S                + +V+ E SPK K KS   T  +EN     
Sbjct: 183 KSKSSRKTPKEGNSAQEILKTEDKDTDTTIAEQVTPEKSPKTKSKSSRKTPKEENCAQEI 242

Query: 242 TNKGGSTMEGSEGHVRNGDVEILEKDALDDCIGPPV-SSSRLPLVLSDKAHRLKALVECE 301
                   +       + D  I E+   D  I P   SSSRLPLVLS+K +R K LVECE
Sbjct: 243 LKTEDKDKD------TDTDTIIAEEVTTDQKIKPSSGSSSRLPLVLSEKVNRTKVLVECE 302

Query: 302 GTSIDLSGDMGAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIE 356
           G SIDLSGDMGAVGRVVVSD++    ++ LDLKGT+Y++ I+PSRTFC+V+ GQ+EAKIE
Sbjct: 303 GDSIDLSGDMGAVGRVVVSDTT---GDMYLDLKGTIYKSTIIPSRTFCVVNVGQTEAKIE 362

[Close]
BLAST of CsGy2G016070 vs. TAIR 10
Match: AT5G24630.2 (double-stranded DNA binding )

HSP 1 Score: 188.7 bits (478), Expect = 8.2e-48
Identity = 164/418 (39.23%), Postives = 216/418 (51.67%), Query Frame = 0 

Query: 2   SSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI- 61
           SSSRE SPDW+RS++AP   +L S S      SS  D+   + +  S     D DGD I 
Sbjct: 3   SSSREGSPDWLRSYEAPMTTSLLSLS------SSDDDSPYRESEVISSLPLPDDDGDDIV 62

Query: 62  ------------------------------------------QGDCGNHNLAKEVKLDRH 121
                                                     +G    +N+  E    +H
Sbjct: 63  VLETESVELLTRKNSETKVVTKQVSIEQVFSRKKKADASLNLEGKENGNNVDCEKLSSKH 122

Query: 122 TGHENSKHSVWMLSLDSESCSDNNFIKEDYSYHEELAELATSEIQGRRKDENAGRRFTEG 181
              +    SVW++S DSE  S    IK++ +   E             KD +     TE 
Sbjct: 123 KDAQGGADSVWLVSSDSEPSSP---IKQEVTVSTE-------------KDADFVLEATEE 182

Query: 182 KSKSRKVSNEMSPKKKVKSEVCT-----SAKENIM--NSGTNKGGSTMEGSEGHVR---- 241
           +   + V  E SPK K KS   T     SA+E +   +  T+   +  + S+G  R    
Sbjct: 183 EPAVKTVRKEKSPKTKSKSSRKTPKEGNSAQEILKTEDKDTDTTIAEQDFSKGTQRFLYH 242

Query: 242 -------NGDVEILEKDALDDCIGPPV-SSSRLPLVLSDKAHRLKALVECEGTSIDLSGD 301
                  + D  I E+   D  I P   SSSRLPLVLS+K +R K LVECEG SIDLSGD
Sbjct: 243 ADKDKDTDTDTIIAEEVTTDQKIKPSSGSSSRLPLVLSEKVNRTKVLVECEGDSIDLSGD 302

Query: 302 MGAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKIESIMNDFIQL 356
           MGAVGRVVVSD++    ++ LDLKGT+Y++ I+PSRTFC+V+ GQ+EAKIE+IMNDFIQL
Sbjct: 303 MGAVGRVVVSDTT---GDMYLDLKGTIYKSTIIPSRTFCVVNVGQTEAKIEAIMNDFIQL 362

[Close]
BLAST of CsGy2G016070 vs. TAIR 10
Match: AT5G24630.1 (double-stranded DNA binding )

HSP 1 Score: 186.8 bits (473), Expect = 3.1e-47
Identity = 165/428 (38.55%), Postives = 220/428 (51.40%), Query Frame = 0 

Query: 2   SSSREQSPDWMRSFQAPTGVALSSNSGSSKNGSSSMDNAIDQRDPSSHKTTQDLDGDQI- 61
           SSSRE SPDW+RS++AP   +L S S      SS  D+   + +  S     D DGD I 
Sbjct: 3   SSSREGSPDWLRSYEAPMTTSLLSLS------SSDDDSPYRESEVISSLPLPDDDGDDIV 62

Query: 62  -----------QGDCGNHNLAKEVKLDR-------------HTGHEN----------SKH 121
                      + +     + K+V +++               G EN          SKH
Sbjct: 63  VLETESVELLTRKNSETKVVTKQVSIEQVFSRKKKADASLNLEGKENGNNVDCEKLSSKH 122

Query: 122 ---------SVWMLSLDSESCS------------DNNFIKEDYSYHEELAELATSEIQGR 181
                    SVW++S DSE  S            D +F+ E  +  E   +    E   +
Sbjct: 123 KDAQQGGADSVWLVSSDSEPSSPIKQEVTVSTEKDADFVLE-ATEEEPAVKTVRKEKSPK 182

Query: 182 RKDENAGRRFTEGKSK---------------SRKVSNEMSPKKKVKSEVCTSAKENIMNS 241
            K +++ +   EG S                + +V+ E SPK K KS   T  +EN    
Sbjct: 183 TKSKSSRKTPKEGNSAQEILKTEDKDTDTTIAEQVTPEKSPKTKSKSSRKTPKEENCAQE 242

Query: 242 GTNKGGSTMEGSEGHVRNGDVEILEKDALDDCIGPPV-SSSRLPLVLSDKAHRLKALVEC 301
                    +       + D  I E+   D  I P   SSSRLPLVLS+K +R K LVEC
Sbjct: 243 ILKTEDKDKD------TDTDTIIAEEVTTDQKIKPSSGSSSRLPLVLSEKVNRTKVLVEC 302

Query: 302 EGTSIDLSGDMGAVGRVVVSDSSSAKNELCLDLKGTLYRAVIVPSRTFCIVSFGQSEAKI 356
           EG SIDLSGDMGAVGRVVVSD++    ++ LDLKGT+Y++ I+PSRTFC+V+ GQ+EAKI
Sbjct: 303 EGDSIDLSGDMGAVGRVVVSDTT---GDMYLDLKGTIYKSTIIPSRTFCVVNVGQTEAKI 362

The following BLAST results are available for this feature:
BLAST of CsGy2G016070 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9FLU14.4e-4638.52DNA-binding protein BIN4 OS=Arabidopsis thaliana OX=3702 GN=BIN4 PE=1 SV=2[more]
BLAST of CsGy2G016070 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_004147326.13.20e-247100.00DNA-binding protein BIN4 isoform X1 [Cucumis sativus] >XP_011649447.1 DNA-bindin... [more]
XP_031736566.12.92e-23697.21DNA-binding protein BIN4 isoform X2 [Cucumis sativus][more]
XP_008460815.14.26e-22793.31PREDICTED: DNA-binding protein BIN4 isoform X2 [Cucumis melo][more]
XP_008460814.16.74e-22389.57PREDICTED: DNA-binding protein BIN4 isoform X1 [Cucumis melo] >XP_016902628.1 PR... [more]
XP_031736567.11.64e-222100.00DNA-binding protein BIN4 isoform X3 [Cucumis sativus] >XP_031736568.1 DNA-bindin... [more]
BLAST of CsGy2G016070 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A0A0LJZ51.01e-238100.00Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_2G338790 PE=4 SV=1[more]
A0A1S3CDA82.06e-22793.31DNA-binding protein BIN4 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103499580 PE=4... [more]
A0A1S3CDB03.26e-22389.57DNA-binding protein BIN4 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103499580 PE=4... [more]
A0A5D3BS943.65e-21593.00DNA-binding protein BIN4 isoform X2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5... [more]
A0A6J1CI664.63e-18780.28DNA-binding protein BIN4 isoform X1 OS=Momordica charantia OX=3673 GN=LOC1110114... [more]
BLAST of CsGy2G016070 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G24630.52.8e-4837.94double-stranded DNA binding [more]
AT5G24630.36.3e-4837.70double-stranded DNA binding [more]
AT5G24630.46.3e-4837.70double-stranded DNA binding [more]
AT5G24630.28.2e-4839.23double-stranded DNA binding [more]
AT5G24630.13.1e-4738.55double-stranded DNA binding [more]
InterPro
Analysis Name: InterPro Annotations of Cucumber (Gy14) v2.1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 330..357
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..65
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 341..357
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 125..159
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..42
IPR033246DNA-binding protein BIN4PANTHERPTHR34810DNA-BINDING PROTEIN BIN4coord: 1..359

Relationships

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

Feature NameUnique NameType
CsGy2G016070.2CsGy2G016070.2mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0042023 DNA endoreduplication
cellular_component GO:0009330 DNA topoisomerase type II (double strand cut, ATP-hydrolyzing) complex
molecular_function GO:0003690 double-stranded DNA binding