Lsi10G002430 (gene) Bottle gourd (USVL1VR-Ls)

Overview
NameLsi10G002430
Typegene
OrganismLagenaria siceraria (Bottle gourd (USVL1VR-Ls))
DescriptionCleavage and polyadenylation specificity factor subunit 3-II
Locationchr10 : 3998695 .. 4026776 (-)
Genome Viewer
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

TCAATTCACATCTTATTTATCTCCCAACATCTTTTAAATGGTCCCAAAAATCTTCACTTCCCTACGAGAAAAAAAAAAAAAAAATTCTATTTTTGGCAATTTCCCGTCTTCTTTCCCTTTCCCTTTCAGCTGCCGACCACCCCCTTCTGCAGAATTTTTTTCTCTACGACTCTTCAACAGCCACAGGCGTAAGGCAGAGACGGCTAGAGCCCACCCCACGCGAACGTCCAACTTTCTCGTCGACGATCGTCTACGTTCACCCACGAATCTAACTTGCATTGTGGGCACGACTCTGAACGGCTTCGCCTAGGCTTTTGGAGGGGCTCCTCTTCTCAGTTTGAGACTCCAGCGTGAACAACAAGTTGGCAGCAGCATTTTTGAGTTGGGGGAAGGCTTTGAACTGTTACCCACAGTCCGATTGGCTTCAAATTAGTGTACCCATAACGTTTAAGGTCTAGATGTGAAAGTTGGGATGCTTCAGAACACCAACCGGCATGGTTCGGAGCCTTTTCGGCTTCTAAAAGTTGATATTAGTTCAAGGAAGTGGATTTTCGGATTGAAATAGTTCTCTTGGTTGCCTTCTCTCTCTCTTGGCTCGGTTGAGGGCTAGCAGTTTGTAGAAGTTTGTTTGAGTTGAAGGACTATTGCAATGGCCATCGATTGCCTCGTTCTTGGCGCTGGGCAAGACGTTGGGAAGAGTTGCGTGGTCGTCACAATCAATGGAAAGCGAATTATGTTTGATTGCGGGATGCATTTGGGTTATCTCGACCATCATCGATATCCCGATTTCTCTCGCATATCTGCTTCTCGTGATTATAATACTGCTCTCTCCTGTGTCATCATCACACACTTTCACTTGGACCATATAGGTGCTCTTCCATACTTCACTGAAGTTTGTGGCTATAATGGACCCATTTACATGACGTATCCAACAATGGCATTGGCTCCTTTAATGTTGGAGGACTCTCGAAAAGTGATGGTTGATCGAAGGGGTGAAGCAGAGCAATTTACTAATGATCATATTATGGAGTGCTTTAAAAAAGCTGCACTGCCCGAGAAAGAGTCTTCTGACATCCCTTTACCTTCACCTACTCGGTTGGAGACAATGGCAGCTCCTTTGCCCAAGAATGTGGTTGTGTTGGAGAATGGTGTTGTAGAATTGAATTCCTCTACACGCCTCACACAACCCAATGAACTTGTACCTGTGGATTTGAAGCAGACTATACAGGTTGATGAAGATCTTCAGATTCGTGCTTACTATGCTGGACATGTTTTAGGAGCTGCCATGTTTTATGCTAAAGTTGGAGATGCTGCTATGGTATACACAGGAGACTATAATATGACACCTGATAGACATCTGGGAGCAGCTCAAATTGATCGAATGCAATTAGACCTTCTTATAACAGAATCTACATATGCAACAACCATACGTGATTCTAAATATGGCCGCGAGAGAGAATTTCTTAAAGCTGTTCATAATTGTGTGGCTAGTGGAGGGAAGGTCCTTGTTCCTACTTTTGCACTGGGACGGGCTCAGGAACTCTGTATCTTGTTGGATGACTATTGGGAGCGCATGAATCTGAAGGTTCCGATATACTTTTCAGCAGGTTTGAGTGTTCAAGCTAATATGTACTATAAAATGCTCATCAGTTGGACAAGCCAGAAGGTTAAAGAGACGTACTCTACAAGGAATGCATTTGACTTTAAGAATGTTCAAAAGTTCGACCGTTCTATGATTGATGCTCCTGGACCTTGTGTTCTCTTTGCTACACCAGGGATGATCAGTGGTGGGTTTTCTCTTGAAGTTTTTAAGCGCTGGGCACCTTCTAAATTGAATCTGATCACATTACCTGGGTATTGTGTGGCTGGAACTGTTGGACACAAGTTAATGTCAGGCAAACCCACCAAAATTGATCTGGACAAGGACACTCAAATTGATGTGCAATGCCAGGCTAGTATCTACTAG

Coding sequence (CDS)

ATGGCCATCGATTGCCTCGTTCTTGGCGCTGGGCAAGACGTTGGGAAGAGTTGCGTGGTCGTCACAATCAATGGAAAGCGAATTATGTTTGATTGCGGGATGCATTTGGGTTATCTCGACCATCATCGATATCCCGATTTCTCTCGCATATCTGCTTCTCGTGATTATAATACTGCTCTCTCCTGTGTCATCATCACACACTTTCACTTGGACCATATAGGTGCTCTTCCATACTTCACTGAAGTTTGTGGCTATAATGGACCCATTTACATGACGTATCCAACAATGGCATTGGCTCCTTTAATGTTGGAGGACTCTCGAAAAGTGATGGTTGATCGAAGGGGTGAAGCAGAGCAATTTACTAATGATCATATTATGGAGTGCTTTAAAAAAGCTGCACTGCCCGAGAAAGAGTCTTCTGACATCCCTTTACCTTCACCTACTCGGTTGGAGACAATGGCAGCTCCTTTGCCCAAGAATGTGGTTGTGTTGGAGAATGGTGTTGTAGAATTGAATTCCTCTACACGCCTCACACAACCCAATGAACTTGTACCTGTGGATTTGAAGCAGACTATACAGGTTGATGAAGATCTTCAGATTCGTGCTTACTATGCTGGACATGTTTTAGGAGCTGCCATGTTTTATGCTAAAGTTGGAGATGCTGCTATGGTATACACAGGAGACTATAATATGACACCTGATAGACATCTGGGAGCAGCTCAAATTGATCGAATGCAATTAGACCTTCTTATAACAGAATCTACATATGCAACAACCATACGTGATTCTAAATATGGCCGCGAGAGAGAATTTCTTAAAGCTGTTCATAATTGTGTGGCTAGTGGAGGGAAGGTCCTTGTTCCTACTTTTGCACTGGGACGGGCTCAGGAACTCTGTATCTTGTTGGATGACTATTGGGAGCGCATGAATCTGAAGGTTCCGATATACTTTTCAGCAGGTTTGAGTGTTCAAGCTAATATGTACTATAAAATGCTCATCAGTTGGACAAGCCAGAAGGTTAAAGAGACGTACTCTACAAGGAATGCATTTGACTTTAAGAATGTTCAAAAGTTCGACCGTTCTATGATTGATGCTCCTGGACCTTGTGTTCTCTTTGCTACACCAGGGATGATCAGTGGTGGGTTTTCTCTTGAAGTTTTTAAGCGCTGGGCACCTTCTAAATTGAATCTGATCACATTACCTGGGTATTGTGTGGCTGGAACTGTTGGACACAAGTTAATGTCAGGCAAACCCACCAAAATTGATCTGGACAAGGACACTCAAATTGATGTGCAATGCCAGGCTAGTATCTACTAG

Protein sequence

MAIDCLVLGAGQDVGKSCVVVTINGKRIMFDCGMHLGYLDHHRYPDFSRISASRDYNTALSCVIITHFHLDHIGALPYFTEVCGYNGPIYMTYPTMALAPLMLEDSRKVMVDRRGEAEQFTNDHIMECFKKAALPEKESSDIPLPSPTRLETMAAPLPKNVVVLENGVVELNSSTRLTQPNELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQIDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCILLDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDRSMIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKIDLDKDTQIDVQCQASIY
Homology
[Close]
BLAST of Lsi10G002430 vs. Swiss-Prot
Match: CPS3B_ARATH (Cleavage and polyadenylation specificity factor subunit 3-II OS=Arabidopsis thaliana GN=CPSF73-II PE=1 SV=2)

HSP 1 Score: 432.2 bits (1110), Expect = 6.9e-120
Identity = 205/277 (74.01%), Postives = 239/277 (86.28%), Query Frame = 1 

Query: 159 KNVVVLENGVVELNSSTRLTQ-PNELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAK 218
           + V+V   G  EL ++T +     +++ +DLKQTIQVDEDLQIRAYYAGHVLGA M YAK
Sbjct: 107 RRVMVDRRGEEELFTTTHIANCMKKVIAIDLKQTIQVDEDLQIRAYYAGHVLGAVMVYAK 166

Query: 219 VGDAAMVYTGDYNMTPDRHLGAAQIDRMQLDLLITESTYATTIRDSKYGREREFLKAVHN 278
           +GDAA+VYTGDYNMT DRHLGAA+IDR+QLDLLI+ESTYATTIR SKY REREFL+AVH 
Sbjct: 167 MGDAAIVYTGDYNMTTDRHLGAAKIDRLQLDLLISESTYATTIRGSKYPREREFLQAVHK 226

Query: 279 CVASGGKVLVPTFALGRAQELCILLDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTS 338
           CVA GGK L+P+FALGRAQELC+LLDDYWERMN+KVPIYFS+GL++QANMYYKMLISWTS
Sbjct: 227 CVAGGGKALIPSFALGRAQELCMLLDDYWERMNIKVPIYFSSGLTIQANMYYKMLISWTS 286

Query: 339 QKVKETYSTRNAFDFKNVQKFDRSMIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNL 398
           Q VKE ++T N FDFKNV+ FDRS+I APGPCVLFATPGM+  GFSLEVFK WAPS LNL
Sbjct: 287 QNVKEKHNTHNPFDFKNVKDFDRSLIHAPGPCVLFATPGMLCAGFSLEVFKHWAPSPLNL 346

Query: 399 ITLPGYCVAGTVGHKLMSGKPTKIDLDKDTQIDVQCQ 435
           + LPGY VAGTVGHKLM+GKPT +DL   T++DV+C+
Sbjct: 347 VALPGYSVAGTVGHKLMAGKPTTVDLYNGTKVDVRCK 383

[Close]
BLAST of Lsi10G002430 vs. Swiss-Prot
Match: INT11_DICDI (Integrator complex subunit 11 homolog OS=Dictyostelium discoideum GN=ints11 PE=3 SV=1)

HSP 1 Score: 362.5 bits (929), Expect = 6.7e-99
Identity = 167/264 (63.26%), Postives = 217/264 (82.20%), Query Frame = 1 

Query: 182 ELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 241
           +++PV+L QTI+VDE+L I+AYYAGHVLGAAMFYAKVGD ++VYTGDYNMTPDRHLG+A 
Sbjct: 131 KVIPVNLHQTIKVDEELSIKAYYAGHVLGAAMFYAKVGDESVVYTGDYNMTPDRHLGSAW 190

Query: 242 IDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCIL 301
           ID+++ D+LITE+TYATTIRDSK GRER+FLK +H CV  GGKVL+P FALGR QELCIL
Sbjct: 191 IDQVKPDVLITETTYATTIRDSKRGRERDFLKRIHECVEKGGKVLIPVFALGRVQELCIL 250

Query: 302 LDDYWERMNL-KVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDR 361
           +D YWE+MNL  +PIYFSAGL+ +AN+YYK+ I+WT+QK+K+T+  RN FDFK+++ F  
Sbjct: 251 IDSYWEQMNLGHIPIYFSAGLAEKANLYYKLFINWTNQKIKQTFVKRNMFDFKHIKPFQS 310

Query: 362 SMIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMS----- 421
            ++DAPG  VLFATPGM+  G SLEVFK+WAP++LN+  +PGYCV GTVG+KL++     
Sbjct: 311 HLVDAPGAMVLFATPGMLHAGASLEVFKKWAPNELNMTIIPGYCVVGTVGNKLLTTGSDQ 370

Query: 422 ---GKPTK--IDLDKDTQIDVQCQ 435
               KP    +++DK T I+V+C+
Sbjct: 371 QQQSKPQSQMVEIDKKTTIEVKCK 394

[Close]
BLAST of Lsi10G002430 vs. Swiss-Prot
Match: INT11_DANRE (Integrator complex subunit 11 OS=Danio rerio GN=cpsf3l PE=2 SV=1)

HSP 1 Score: 344.0 bits (881), Expect = 2.5e-93
Identity = 156/253 (61.66%), Postives = 208/253 (82.21%), Query Frame = 1 

Query: 182 ELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 241
           ++VP++L QT+QVD++L+I+AYYAGHVLGAAM   KVG  ++VYTGDYNMTPDRHLGAA 
Sbjct: 132 KVVPLNLHQTVQVDDELEIKAYYAGHVLGAAMVQIKVGSESVVYTGDYNMTPDRHLGAAW 191

Query: 242 IDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCIL 301
           ID+ + D+LI+ESTYATTIRDSK  RER+FLK VH  V  GGKVL+P FALGRAQELCIL
Sbjct: 192 IDKCRPDILISESTYATTIRDSKRCRERDFLKKVHETVERGGKVLIPVFALGRAQELCIL 251

Query: 302 LDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDRS 361
           L+ +WERMNLK PIYFS GL+ +AN YYK+ I+WT+QK+++T+  RN F+FK+++ FDRS
Sbjct: 252 LETFWERMNLKAPIYFSTGLTEKANHYYKLFITWTNQKIRKTFVQRNMFEFKHIKAFDRS 311

Query: 362 MIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 421
             D PGP V+FATPGM+  G SL++FK+WA ++ N++ +PGYCV GTVGHK+++G+  K+
Sbjct: 312 YADNPGPMVVFATPGMLHAGQSLQIFKKWAGNEKNMVIMPGYCVQGTVGHKILNGQ-KKL 371

Query: 422 DLDKDTQIDVQCQ 435
           +++    +DV+ Q
Sbjct: 372 EMEGRATLDVKLQ 383

[Close]
BLAST of Lsi10G002430 vs. Swiss-Prot
Match: INT11_RAT (Integrator complex subunit 11 OS=Rattus norvegicus GN=Cpsf3l PE=2 SV=1)

HSP 1 Score: 343.6 bits (880), Expect = 3.2e-93
Identity = 157/253 (62.06%), Postives = 208/253 (82.21%), Query Frame = 1 

Query: 182 ELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 241
           ++V V L QT+QVD++L+I+AYYAGHVLGAAMF  KVG  ++VYTGDYNMTPDRHLGAA 
Sbjct: 132 KVVAVHLHQTVQVDDELEIKAYYAGHVLGAAMFQIKVGSESVVYTGDYNMTPDRHLGAAW 191

Query: 242 IDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCIL 301
           ID+ + +LLITESTYATTIRDSK  RER+FLK VH  V  GGKVL+P FALGRAQELCIL
Sbjct: 192 IDKCRPNLLITESTYATTIRDSKRCRERDFLKKVHETVERGGKVLIPVFALGRAQELCIL 251

Query: 302 LDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDRS 361
           L+ +WERMNLKVPIYFS GL+ +AN YYK+ I+WT+QK+++T+  RN F+FK+++ FDR+
Sbjct: 252 LETFWERMNLKVPIYFSTGLTEKANHYYKLFITWTNQKIRKTFVQRNMFEFKHIKAFDRT 311

Query: 362 MIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 421
             D PGP V+FATPGM+  G SL++F++WA ++ N++ +PGYCV GTVGHK++SG+  K+
Sbjct: 312 FADNPGPMVVFATPGMLHAGQSLQIFRKWAGNEKNMVIMPGYCVQGTVGHKILSGQ-RKL 371

Query: 422 DLDKDTQIDVQCQ 435
           +++    ++V+ Q
Sbjct: 372 EMEGRQMLEVKMQ 383

[Close]
BLAST of Lsi10G002430 vs. Swiss-Prot
Match: INT11_MOUSE (Integrator complex subunit 11 OS=Mus musculus GN=Cpsf3l PE=1 SV=1)

HSP 1 Score: 343.6 bits (880), Expect = 3.2e-93
Identity = 157/253 (62.06%), Postives = 208/253 (82.21%), Query Frame = 1 

Query: 182 ELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 241
           ++V V L QT+QVD++L+I+AYYAGHVLGAAMF  KVG  ++VYTGDYNMTPDRHLGAA 
Sbjct: 132 KVVAVHLHQTVQVDDELEIKAYYAGHVLGAAMFQIKVGSESVVYTGDYNMTPDRHLGAAW 191

Query: 242 IDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCIL 301
           ID+ + +LLITESTYATTIRDSK  RER+FLK VH  V  GGKVL+P FALGRAQELCIL
Sbjct: 192 IDKCRPNLLITESTYATTIRDSKRCRERDFLKKVHETVERGGKVLIPVFALGRAQELCIL 251

Query: 302 LDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDRS 361
           L+ +WERMNLKVPIYFS GL+ +AN YYK+ I+WT+QK+++T+  RN F+FK+++ FDR+
Sbjct: 252 LETFWERMNLKVPIYFSTGLTEKANHYYKLFITWTNQKIRKTFVQRNMFEFKHIKAFDRT 311

Query: 362 MIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 421
             D PGP V+FATPGM+  G SL++F++WA ++ N++ +PGYCV GTVGHK++SG+  K+
Sbjct: 312 FADNPGPMVVFATPGMLHAGQSLQIFRKWAGNEKNMVIMPGYCVQGTVGHKILSGQ-RKL 371

Query: 422 DLDKDTQIDVQCQ 435
           +++    ++V+ Q
Sbjct: 372 EMEGRQMLEVKMQ 383

[Close]
BLAST of Lsi10G002430 vs. TrEMBL
Match: M0SCM1_MUSAM (Uncharacterized protein OS=Musa acuminata subsp. malaccensis PE=4 SV=1)

HSP 1 Score: 629.4 bits (1622), Expect = 3.3e-177
Identity = 300/406 (73.89%), Postives = 343/406 (84.48%), Query Frame = 1 

Query: 29  MFDCGMHLGYLDHHRYPDFSRISASRDYNTALSCVIITHFHLDHIGALPYFTEVCGYNGP 88
           MFDCGMH+GYLD  R+PDFS IS + D+++AL+CV+ITHFHLDH+GALPYFTEVCGY+GP
Sbjct: 1   MFDCGMHMGYLDSRRFPDFSLISKTGDFDSALTCVVITHFHLDHVGALPYFTEVCGYHGP 60

Query: 89  IYMTYPTMALAPLMLEDSRKVMVDRRGEAEQFTNDHIMECFKKAALPEKESSDIPLPSPT 148
           IYMTYPT ALAPLMLED RKVMVDRRGE EQFT DHIM+C KK         D  L   +
Sbjct: 61  IYMTYPTKALAPLMLEDYRKVMVDRRGEEEQFTYDHIMDCMKKVLWHHHSLQDTTLHK-S 120

Query: 149 RLETMAAPLPKNVVVLENGVVELNSSTRLTQPNELVPVDLKQTIQVDEDLQIRAYYAGHV 208
            ++   +PL +  + L +              + + P+DLKQT+QVD+DL+IRAYYAGHV
Sbjct: 121 LIDVQCSPLCEPYMRLLHEFF-----------HAVTPLDLKQTVQVDKDLEIRAYYAGHV 180

Query: 209 LGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQIDRMQLDLLITESTYATTIRDSKYGRE 268
           LGAAM YAKVG+  +VYTGDYNMTPDRHLGAA IDR+QLDLL+TESTYATTIRDSKY RE
Sbjct: 181 LGAAMIYAKVGENTIVYTGDYNMTPDRHLGAAHIDRLQLDLLVTESTYATTIRDSKYARE 240

Query: 269 REFLKAVHNCVASGGKVLVPTFALGRAQELCILLDDYWERMNLKVPIYFSAGLSVQANMY 328
           REFL+AVH CVA GGKVL+PTFALGRAQELCILLDDYWERMNLKVPIYFSAGL++QANMY
Sbjct: 241 REFLRAVHKCVAGGGKVLIPTFALGRAQELCILLDDYWERMNLKVPIYFSAGLTIQANMY 300

Query: 329 YKMLISWTSQKVKETYSTRNAFDFKNVQKFDRSMIDAPGPCVLFATPGMISGGFSLEVFK 388
           YKMLI WTSQK+K+T S RN FDFK+V  FDRS+I+APGPCVLFATPGMISGGFSLEVFK
Sbjct: 301 YKMLIGWTSQKIKDTSSVRNTFDFKHVCPFDRSLINAPGPCVLFATPGMISGGFSLEVFK 360

Query: 389 RWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKIDLDKDTQIDVQCQ 435
           +WAPS+LNL+TLPGYCVAGT+GHKLMSGKPTKIDLDKDT +DV+CQ
Sbjct: 361 QWAPSELNLVTLPGYCVAGTIGHKLMSGKPTKIDLDKDTYVDVRCQ 394

[Close]
BLAST of Lsi10G002430 vs. TrEMBL
Match: A0A0A0LQW3_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_2G435430 PE=4 SV=1)

HSP 1 Score: 500.4 bits (1287), Expect = 2.3e-138
Identity = 241/253 (95.26%), Postives = 248/253 (98.02%), Query Frame = 1 

Query: 182 ELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 241
           ++VPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ
Sbjct: 131 KVVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 190

Query: 242 IDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCIL 301
           IDRMQLDLLITESTYATTIRDSKY REREFLKAVHNC+ASGGKVL+PTFALGRAQELC+L
Sbjct: 191 IDRMQLDLLITESTYATTIRDSKYAREREFLKAVHNCLASGGKVLIPTFALGRAQELCVL 250

Query: 302 LDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDRS 361
           LDDYWERMNLK PIY SAGL+VQANMYYKMLISWTSQKVKETY+TRNAFDFKNVQKFDRS
Sbjct: 251 LDDYWERMNLKFPIYVSAGLTVQANMYYKMLISWTSQKVKETYTTRNAFDFKNVQKFDRS 310

Query: 362 MIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 421
           MIDAPGPCVLFATPGMIS GFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI
Sbjct: 311 MIDAPGPCVLFATPGMISSGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 370

Query: 422 DLDKDTQIDVQCQ 435
           DLDK TQIDVQCQ
Sbjct: 371 DLDKVTQIDVQCQ 383

[Close]
BLAST of Lsi10G002430 vs. TrEMBL
Match: Q6E435_CUCME (ACT11D09.9 OS=Cucumis melo GN=ACT11D09.9 PE=4 SV=1)

HSP 1 Score: 491.9 bits (1265), Expect = 8.1e-136
Identity = 239/251 (95.22%), Postives = 246/251 (98.01%), Query Frame = 1 

Query: 182 ELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 241
           ++VPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ
Sbjct: 163 KVVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 222

Query: 242 IDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQ-ELCI 301
           IDRMQLDLLITESTYATTIRDSKY REREFLKAVHNC+ASGGKVL+PTFALGRAQ ELC+
Sbjct: 223 IDRMQLDLLITESTYATTIRDSKYAREREFLKAVHNCLASGGKVLIPTFALGRAQQELCV 282

Query: 302 LLDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDR 361
           LLDDYWERMNLK PIY SAGL+VQANMYYKMLISWTSQKVKETY+TRNAFDFKNVQKFDR
Sbjct: 283 LLDDYWERMNLKFPIYVSAGLTVQANMYYKMLISWTSQKVKETYTTRNAFDFKNVQKFDR 342

Query: 362 SMIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTK 421
           SMIDAPGPCVLFATPGMIS GFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTK
Sbjct: 343 SMIDAPGPCVLFATPGMISSGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTK 402

Query: 422 IDLDKDTQIDV 432
           IDLDKDTQIDV
Sbjct: 403 IDLDKDTQIDV 413

[Close]
BLAST of Lsi10G002430 vs. TrEMBL
Match: A0A061E8Z1_THECC (Cleavage and polyadenylation specificity factor 73 kDa subunit-II OS=Theobroma cacao GN=TCM_011055 PE=4 SV=1)

HSP 1 Score: 488.8 bits (1257), Expect = 6.9e-135
Identity = 226/253 (89.33%), Postives = 250/253 (98.81%), Query Frame = 1 

Query: 182 ELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 241
           +++PVDLKQT+QVD+DLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ
Sbjct: 130 KVIPVDLKQTVQVDKDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 189

Query: 242 IDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCIL 301
           IDR+QLDLLITESTYATTIRDS+YGREREFLKAVHNCVA+GGKVL+PTFALGRAQELCIL
Sbjct: 190 IDRLQLDLLITESTYATTIRDSRYGREREFLKAVHNCVAAGGKVLIPTFALGRAQELCIL 249

Query: 302 LDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDRS 361
           L+DYWERMNLKVPIYFS+GL++QANMYYKMLI+WTSQK+KETY+T NAFDFKNVQ FDRS
Sbjct: 250 LEDYWERMNLKVPIYFSSGLTIQANMYYKMLINWTSQKIKETYATHNAFDFKNVQNFDRS 309

Query: 362 MIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 421
           +I+APGPCVLFATPGMISGGFSLEVF +WAPS++NLITLPGYCVAGT+GHKLMSGKPTKI
Sbjct: 310 LINAPGPCVLFATPGMISGGFSLEVFMQWAPSEINLITLPGYCVAGTIGHKLMSGKPTKI 369

Query: 422 DLDKDTQIDVQCQ 435
           DLDKDTQ+DV+CQ
Sbjct: 370 DLDKDTQVDVRCQ 382

[Close]
BLAST of Lsi10G002430 vs. TrEMBL
Match: D3BR60_POLPA (Integrator complex subunit 11 OS=Polysphondylium pallidum GN=ints11 PE=4 SV=1)

HSP 1 Score: 486.9 bits (1252), Expect = 2.6e-134
Identity = 239/443 (53.95%), Postives = 302/443 (68.17%), Query Frame = 1 

Query: 1   MAIDCLVLGAGQDVGKSCVVVTINGKRIMFDCGMHLGYLDHHRYPDFSRISASRDYNTAL 60
           M I  + LGAGQDVG+SCV+V+I  K IMFDCGMH+GY D  R+PDFS IS ++ +   L
Sbjct: 1   MGIKVVPLGAGQDVGRSCVIVSIGNKNIMFDCGMHMGYHDERRFPDFSFISKTKQFTKVL 60

Query: 61  SCVIITHFHLDHIGALPYFTEVCGYNGPIYMTYPTMALAPLMLEDSRKVMVDRRGEAEQF 120
            CVIITHFHLDH GALPYFTE+CGY+GPIYMT     L  + +               ++
Sbjct: 61  DCVIITHFHLDHCGALPYFTEICGYDGPIYMTVCYKCLISISI--------------YKY 120

Query: 121 TNDHIMECFKKAALPEKESSDIPLPSPTRLETMAAPLPKNVVVLENGVVELNSSTRLTQP 180
             + +    +   LP K    I L    ++                 VV+    T    P
Sbjct: 121 NYNSLTFMLQLIQLPTKAIVPILLEDYRKI-----------------VVDRKGETNFFTP 180

Query: 181 -------NELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTP 240
                   +++PV L QTI VD++L I+ YYAGHVLGAAMFY KVG+ ++VYTGDYNMTP
Sbjct: 181 QMIKDCMKKVIPVALHQTIDVDDELSIKPYYAGHVLGAAMFYCKVGEESVVYTGDYNMTP 240

Query: 241 DRHLGAAQIDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALG 300
           DRHLG+A ID +   LLITE+TYATTIRDSK GRER+FLK VH CV  GGKVL+P FALG
Sbjct: 241 DRHLGSAWIDAVNPTLLITETTYATTIRDSKRGRERDFLKRVHECVEKGGKVLIPVFALG 300

Query: 301 RAQELCILLDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFK 360
           R QELCIL+D YWE+M L VPIYFS GL+ +AN YYK+ I WT+QK+K+T+  RN FDFK
Sbjct: 301 RVQELCILIDTYWEQMGLSVPIYFSEGLAEKANFYYKLFIGWTNQKIKQTFVKRNMFDFK 360

Query: 361 NVQKFDRSMIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKL 420
           +++ FDR ++DAPGP VLFATPGM+  G SLEVFK+WAPS+LN+  +PGYCV GTVG+KL
Sbjct: 361 HIKPFDRMLVDAPGPMVLFATPGMLHAGASLEVFKKWAPSELNMTIIPGYCVVGTVGNKL 412

Query: 421 MSGK--PTKIDLDKDTQIDVQCQ 435
           +S    P  +++DK T ++V+C+
Sbjct: 421 LSNASGPQMVEIDKKTTLEVKCK 412

[Close]
BLAST of Lsi10G002430 vs. TAIR10
Match: AT2G01730.1 (AT2G01730.1 cleavage and polyadenylation specificity factor 73 kDa subunit-II)

HSP 1 Score: 432.2 bits (1110), Expect = 3.9e-121
Identity = 205/277 (74.01%), Postives = 239/277 (86.28%), Query Frame = 1 

Query: 159 KNVVVLENGVVELNSSTRLTQ-PNELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAK 218
           + V+V   G  EL ++T +     +++ +DLKQTIQVDEDLQIRAYYAGHVLGA M YAK
Sbjct: 107 RRVMVDRRGEEELFTTTHIANCMKKVIAIDLKQTIQVDEDLQIRAYYAGHVLGAVMVYAK 166

Query: 219 VGDAAMVYTGDYNMTPDRHLGAAQIDRMQLDLLITESTYATTIRDSKYGREREFLKAVHN 278
           +GDAA+VYTGDYNMT DRHLGAA+IDR+QLDLLI+ESTYATTIR SKY REREFL+AVH 
Sbjct: 167 MGDAAIVYTGDYNMTTDRHLGAAKIDRLQLDLLISESTYATTIRGSKYPREREFLQAVHK 226

Query: 279 CVASGGKVLVPTFALGRAQELCILLDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTS 338
           CVA GGK L+P+FALGRAQELC+LLDDYWERMN+KVPIYFS+GL++QANMYYKMLISWTS
Sbjct: 227 CVAGGGKALIPSFALGRAQELCMLLDDYWERMNIKVPIYFSSGLTIQANMYYKMLISWTS 286

Query: 339 QKVKETYSTRNAFDFKNVQKFDRSMIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNL 398
           Q VKE ++T N FDFKNV+ FDRS+I APGPCVLFATPGM+  GFSLEVFK WAPS LNL
Sbjct: 287 QNVKEKHNTHNPFDFKNVKDFDRSLIHAPGPCVLFATPGMLCAGFSLEVFKHWAPSPLNL 346

Query: 399 ITLPGYCVAGTVGHKLMSGKPTKIDLDKDTQIDVQCQ 435
           + LPGY VAGTVGHKLM+GKPT +DL   T++DV+C+
Sbjct: 347 VALPGYSVAGTVGHKLMAGKPTTVDLYNGTKVDVRCK 383

[Close]
BLAST of Lsi10G002430 vs. TAIR10
Match: AT1G61010.1 (AT1G61010.1 cleavage and polyadenylation specificity factor 73-I)

HSP 1 Score: 176.4 bits (446), Expect = 3.8e-44
Identity = 88/241 (36.51%), Postives = 140/241 (58.09%), Query Frame = 1 

Query: 186 VDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQIDRM 245
           +D  QT++V+  ++   Y AGHVLGAAMF   +    ++YTGDY+   DRHL AA++ + 
Sbjct: 148 IDFHQTVEVN-GIKFWCYTAGHVLGAAMFMVDIAGVRILYTGDYSREEDRHLRAAELPQF 207

Query: 246 QLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCILLDDY 305
             D+ I EST    +  S++ RE+ F   +H+ VA GG+VL+P FALGRAQEL ++LD+Y
Sbjct: 208 SPDICIIESTSGVQLHQSRHIREKRFTDVIHSTVAQGGRVLIPAFALGRAQELLLILDEY 267

Query: 306 WERMN--LKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDR-SM 365
           W        +PIY+++ L+ +    Y+  I   + +++  ++  N F FK++   +    
Sbjct: 268 WANHPDLHNIPIYYASPLAKKCMAVYQTYILSMNDRIRNQFANSNPFVFKHISPLNSIDD 327

Query: 366 IDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKID 424
            +  GP V+ ATPG +  G S ++F  W   K N   +PGY V GT+  K +  +P ++ 
Sbjct: 328 FNDVGPSVVMATPGGLQSGLSRQLFDSWCSDKKNACIIPGYMVEGTLA-KTIINEPKEVT 386

[Close]
BLAST of Lsi10G002430 vs. TAIR10
Match: AT5G23880.1 (AT5G23880.1 cleavage and polyadenylation specificity factor 100)

HSP 1 Score: 116.3 bits (290), Expect = 4.7e-26
Identity = 68/232 (29.31%), Postives = 116/232 (50.00%), Query Frame = 1 

Query: 196 EDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQIDR-MQLDLLITES 255
           E + I  + AGH+LG +++        ++Y  DYN   +RHL    +   ++  +LIT++
Sbjct: 142 EGIVIAPHVAGHMLGGSIWRITKDGEDVIYAVDYNHRKERHLNGTVLQSFVRPAVLITDA 201

Query: 256 TYAT-TIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCILLDDYWERMNLKV 315
            +A  T + ++  R++EFL  +   +  GG VL+P    GR  EL ++L+ +W +     
Sbjct: 202 YHALYTNQTARQQRDKEFLDTISKHLEVGGNVLLPVDTAGRVLELLLILEQHWSQRGFSF 261

Query: 316 PIYFSAGLSVQANMYYKMLISWTSQKVKETYSTR--NAFDFKNVQ-KFDRSMID--APGP 375
           PIYF   +S     Y K  + W S  + +++ T   NAF  ++V    +++ +D   PGP
Sbjct: 262 PIYFLTYVSSSTIDYVKSFLEWMSDSISKSFETSRDNAFLLRHVTLLINKTDLDNAPPGP 321

Query: 376 CVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTK 421
            V+ A+   +  GF+ E+F  WA    NL+        GT+   L S  P K
Sbjct: 322 KVVLASMASLEAGFAREIFVEWANDPRNLVLFTETGQFGTLARMLQSAPPPK 373

[Close]
BLAST of Lsi10G002430 vs. TAIR10
Match: AT5G63420.1 (AT5G63420.1 RNA-metabolising metallo-beta-lactamase family protein)

HSP 1 Score: 48.9 bits (115), Expect = 9.2e-06
Identity = 31/104 (29.81%), Postives = 49/104 (47.12%), Query Frame = 1 

Query: 6   LVLGAGQDVGKSCVVVTINGKRIMFDCGMHLGYLDHHRYPDFSRISAS----RDYNTALS 65
           L +G   ++G +C++V    + I+ D G+     D    P   +I       R +   + 
Sbjct: 113 LPIGGLGEIGMNCMLVGNYDRYILIDAGIMFPDYDE---PGIQKIMPDTGFIRRWKHKIE 172

Query: 66  CVIITHFHLDHIGALPYFTEVCGYNGPIYMTYPTMALAPLMLED 106
            V+ITH H DHIGALP+       N PI+ +  TM L    L++
Sbjct: 173 AVVITHGHEDHIGALPWVIPALDPNTPIFASSFTMELIKKRLKE 213

[Close]
BLAST of Lsi10G002430 vs. NCBI nr
Match: gi|659118488|ref|XP_008459147.1| (PREDICTED: cleavage and polyadenylation specificity factor subunit 3-II isoform X1 [Cucumis melo])

HSP 1 Score: 503.8 bits (1296), Expect = 3.0e-139
Identity = 242/253 (95.65%), Postives = 249/253 (98.42%), Query Frame = 1 

Query: 182 ELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 241
           ++VPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ
Sbjct: 131 KVVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 190

Query: 242 IDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCIL 301
           IDRMQLDLLITESTYATTIRDSKY REREFLKAVHNC+ASGGKVL+PTFALGRAQELC+L
Sbjct: 191 IDRMQLDLLITESTYATTIRDSKYAREREFLKAVHNCLASGGKVLIPTFALGRAQELCVL 250

Query: 302 LDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDRS 361
           LDDYWERMNLK PIY SAGL+VQANMYYKMLISWTSQKVKETY+TRNAFDFKNVQKFDRS
Sbjct: 251 LDDYWERMNLKFPIYVSAGLTVQANMYYKMLISWTSQKVKETYTTRNAFDFKNVQKFDRS 310

Query: 362 MIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 421
           MIDAPGPCVLFATPGMIS GFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI
Sbjct: 311 MIDAPGPCVLFATPGMISSGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 370

Query: 422 DLDKDTQIDVQCQ 435
           DLDKDTQIDVQCQ
Sbjct: 371 DLDKDTQIDVQCQ 383

[Close]
BLAST of Lsi10G002430 vs. NCBI nr
Match: gi|659118492|ref|XP_008459149.1| (PREDICTED: cleavage and polyadenylation specificity factor subunit 3-II isoform X3 [Cucumis melo])

HSP 1 Score: 503.8 bits (1296), Expect = 3.0e-139
Identity = 242/253 (95.65%), Postives = 249/253 (98.42%), Query Frame = 1 

Query: 182 ELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 241
           ++VPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ
Sbjct: 131 KVVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 190

Query: 242 IDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCIL 301
           IDRMQLDLLITESTYATTIRDSKY REREFLKAVHNC+ASGGKVL+PTFALGRAQELC+L
Sbjct: 191 IDRMQLDLLITESTYATTIRDSKYAREREFLKAVHNCLASGGKVLIPTFALGRAQELCVL 250

Query: 302 LDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDRS 361
           LDDYWERMNLK PIY SAGL+VQANMYYKMLISWTSQKVKETY+TRNAFDFKNVQKFDRS
Sbjct: 251 LDDYWERMNLKFPIYVSAGLTVQANMYYKMLISWTSQKVKETYTTRNAFDFKNVQKFDRS 310

Query: 362 MIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 421
           MIDAPGPCVLFATPGMIS GFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI
Sbjct: 311 MIDAPGPCVLFATPGMISSGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 370

Query: 422 DLDKDTQIDVQCQ 435
           DLDKDTQIDVQCQ
Sbjct: 371 DLDKDTQIDVQCQ 383

[Close]
BLAST of Lsi10G002430 vs. NCBI nr
Match: gi|778673821|ref|XP_011650068.1| (PREDICTED: cleavage and polyadenylation specificity factor subunit 3-II isoform X2 [Cucumis sativus])

HSP 1 Score: 502.7 bits (1293), Expect = 6.6e-139
Identity = 242/255 (94.90%), Postives = 250/255 (98.04%), Query Frame = 1 

Query: 182 ELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 241
           ++VPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ
Sbjct: 131 KVVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 190

Query: 242 IDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCIL 301
           IDRMQLDLLITESTYATTIRDSKY REREFLKAVHNC+ASGGKVL+PTFALGRAQELC+L
Sbjct: 191 IDRMQLDLLITESTYATTIRDSKYAREREFLKAVHNCLASGGKVLIPTFALGRAQELCVL 250

Query: 302 LDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDRS 361
           LDDYWERMNLK PIY SAGL+VQANMYYKMLISWTSQKVKETY+TRNAFDFKNVQKFDRS
Sbjct: 251 LDDYWERMNLKFPIYVSAGLTVQANMYYKMLISWTSQKVKETYTTRNAFDFKNVQKFDRS 310

Query: 362 MIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 421
           MIDAPGPCVLFATPGMIS GFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI
Sbjct: 311 MIDAPGPCVLFATPGMISSGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 370

Query: 422 DLDKDTQIDVQCQAS 437
           DLDK TQIDVQCQA+
Sbjct: 371 DLDKVTQIDVQCQAT 385

[Close]
BLAST of Lsi10G002430 vs. NCBI nr
Match: gi|778673818|ref|XP_011650067.1| (PREDICTED: cleavage and polyadenylation specificity factor subunit 3-II isoform X1 [Cucumis sativus])

HSP 1 Score: 500.4 bits (1287), Expect = 3.3e-138
Identity = 241/253 (95.26%), Postives = 248/253 (98.02%), Query Frame = 1 

Query: 182 ELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 241
           ++VPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ
Sbjct: 131 KVVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 190

Query: 242 IDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCIL 301
           IDRMQLDLLITESTYATTIRDSKY REREFLKAVHNC+ASGGKVL+PTFALGRAQELC+L
Sbjct: 191 IDRMQLDLLITESTYATTIRDSKYAREREFLKAVHNCLASGGKVLIPTFALGRAQELCVL 250

Query: 302 LDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDRS 361
           LDDYWERMNLK PIY SAGL+VQANMYYKMLISWTSQKVKETY+TRNAFDFKNVQKFDRS
Sbjct: 251 LDDYWERMNLKFPIYVSAGLTVQANMYYKMLISWTSQKVKETYTTRNAFDFKNVQKFDRS 310

Query: 362 MIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 421
           MIDAPGPCVLFATPGMIS GFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI
Sbjct: 311 MIDAPGPCVLFATPGMISSGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 370

Query: 422 DLDKDTQIDVQCQ 435
           DLDK TQIDVQCQ
Sbjct: 371 DLDKVTQIDVQCQ 383

[Close]
BLAST of Lsi10G002430 vs. NCBI nr
Match: gi|778673828|ref|XP_011650070.1| (PREDICTED: cleavage and polyadenylation specificity factor subunit 3-II isoform X4 [Cucumis sativus])

HSP 1 Score: 500.4 bits (1287), Expect = 3.3e-138
Identity = 241/253 (95.26%), Postives = 248/253 (98.02%), Query Frame = 1 

Query: 182 ELVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 241
           ++VPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ
Sbjct: 131 KVVPVDLKQTIQVDEDLQIRAYYAGHVLGAAMFYAKVGDAAMVYTGDYNMTPDRHLGAAQ 190

Query: 242 IDRMQLDLLITESTYATTIRDSKYGREREFLKAVHNCVASGGKVLVPTFALGRAQELCIL 301
           IDRMQLDLLITESTYATTIRDSKY REREFLKAVHNC+ASGGKVL+PTFALGRAQELC+L
Sbjct: 191 IDRMQLDLLITESTYATTIRDSKYAREREFLKAVHNCLASGGKVLIPTFALGRAQELCVL 250

Query: 302 LDDYWERMNLKVPIYFSAGLSVQANMYYKMLISWTSQKVKETYSTRNAFDFKNVQKFDRS 361
           LDDYWERMNLK PIY SAGL+VQANMYYKMLISWTSQKVKETY+TRNAFDFKNVQKFDRS
Sbjct: 251 LDDYWERMNLKFPIYVSAGLTVQANMYYKMLISWTSQKVKETYTTRNAFDFKNVQKFDRS 310

Query: 362 MIDAPGPCVLFATPGMISGGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 421
           MIDAPGPCVLFATPGMIS GFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI
Sbjct: 311 MIDAPGPCVLFATPGMISSGFSLEVFKRWAPSKLNLITLPGYCVAGTVGHKLMSGKPTKI 370

Query: 422 DLDKDTQIDVQCQ 435
           DLDK TQIDVQCQ
Sbjct: 371 DLDKVTQIDVQCQ 383

The following BLAST results are available for this feature:
BLAST of Lsi10G002430 vs. Swiss-Prot
Match NameE-valueIdentityDescription
CPS3B_ARATH6.9e-12074.01Cleavage and polyadenylation specificity factor subunit 3-II OS=Arabidopsis thal... [more]
INT11_DICDI6.7e-9963.26Integrator complex subunit 11 homolog OS=Dictyostelium discoideum GN=ints11 PE=3... [more]
INT11_DANRE2.5e-9361.66Integrator complex subunit 11 OS=Danio rerio GN=cpsf3l PE=2 SV=1[more]
INT11_RAT3.2e-9362.06Integrator complex subunit 11 OS=Rattus norvegicus GN=Cpsf3l PE=2 SV=1[more]
INT11_MOUSE3.2e-9362.06Integrator complex subunit 11 OS=Mus musculus GN=Cpsf3l PE=1 SV=1[more]
BLAST of Lsi10G002430 vs. TrEMBL
Match NameE-valueIdentityDescription
M0SCM1_MUSAM3.3e-17773.89Uncharacterized protein OS=Musa acuminata subsp. malaccensis PE=4 SV=1[more]
A0A0A0LQW3_CUCSA2.3e-13895.26Uncharacterized protein OS=Cucumis sativus GN=Csa_2G435430 PE=4 SV=1[more]
Q6E435_CUCME8.1e-13695.22ACT11D09.9 OS=Cucumis melo GN=ACT11D09.9 PE=4 SV=1[more]
A0A061E8Z1_THECC6.9e-13589.33Cleavage and polyadenylation specificity factor 73 kDa subunit-II OS=Theobroma c... [more]
D3BR60_POLPA2.6e-13453.95Integrator complex subunit 11 OS=Polysphondylium pallidum GN=ints11 PE=4 SV=1[more]
BLAST of Lsi10G002430 vs. TAIR10
Match NameE-valueIdentityDescription
AT2G01730.13.9e-12174.01 cleavage and polyadenylation specificity factor 73 kDa subunit-II[more]
AT1G61010.13.8e-4436.51 cleavage and polyadenylation specificity factor 73-I[more]
AT5G23880.14.7e-2629.31 cleavage and polyadenylation specificity factor 100[more]
AT5G63420.19.2e-0629.81 RNA-metabolising metallo-beta-lactamase family protein[more]
BLAST of Lsi10G002430 vs. NCBI nr
Match NameE-valueIdentityDescription
gi|659118488|ref|XP_008459147.1|3.0e-13995.65PREDICTED: cleavage and polyadenylation specificity factor subunit 3-II isoform ... [more]
gi|659118492|ref|XP_008459149.1|3.0e-13995.65PREDICTED: cleavage and polyadenylation specificity factor subunit 3-II isoform ... [more]
gi|778673821|ref|XP_011650068.1|6.6e-13994.90PREDICTED: cleavage and polyadenylation specificity factor subunit 3-II isoform ... [more]
gi|778673818|ref|XP_011650067.1|3.3e-13895.26PREDICTED: cleavage and polyadenylation specificity factor subunit 3-II isoform ... [more]
gi|778673828|ref|XP_011650070.1|3.3e-13895.26PREDICTED: cleavage and polyadenylation specificity factor subunit 3-II isoform ... [more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: INTERPRO
TermDefinition
IPR022712Beta_Casp
IPR001279Metallo-B-lactamas
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0010197 polar nucleus fusion
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0005634 nucleus
cellular_component GO:0005575 cellular_component
molecular_function GO:0008270 zinc ion binding
molecular_function GO:0003674 molecular_function
Relationships

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

Feature NameUnique NameType
Lsi10G002430.1Lsi10G002430.1mRNA


InterPro
Analysis Name: InterPro Annotations of Lagenaria siceraria
Date Performed: 2017-09-18
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR001279Metallo-beta-lactamaseGENE3DG3DSA:3.60.15.10coord: 7..107
score: 1.3E-57coord: 181..310
score: 1.3
IPR001279Metallo-beta-lactamasePFAMPF00753Lactamase_Bcoord: 15..86
score: 5.0
IPR001279Metallo-beta-lactamasePFAMPF16661Lactamase_B_6coord: 190..243
score: 8.
IPR001279Metallo-beta-lactamaseSMARTSM00849Lactamase_B_5acoord: 15..283
score: 6.2
IPR001279Metallo-beta-lactamaseunknownSSF56281Metallo-hydrolase/oxidoreductasecoord: 179..420
score: 1.22E-110coord: 3..116
score: 1.22E
IPR022712Beta-Casp domainPFAMPF10996Beta-Caspcoord: 295..413
score: 1.2
IPR022712Beta-Casp domainSMARTSM01027Beta_Casp_2coord: 295..413
score: 2.4
NoneNo IPR availablePANTHERPTHR11203CLEAVAGE AND POLYADENYLATION SPECIFICITY FACTORcoord: 182..434
score: 4.0E-190coord: 1..112
score: 4.0E
NoneNo IPR availablePANTHERPTHR11203:SF37INTEGRATOR COMPLEX SUBUNIT 11coord: 1..112
score: 4.0E-190coord: 182..434
score: 4.0E

Synteny
The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
Lsi10G002430Cucsa.318900Cucumber (Gy14) v1cgylsiB520
Lsi10G002430Cla012978Watermelon (97103) v1lsiwmB044
Lsi10G002430MELO3C021829Melon (DHL92) v3.5.1lsimeB053
Lsi10G002430ClCG09G016770Watermelon (Charleston Gray)lsiwcgB034
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
Lsi10G002430Cucurbita maxima (Rimu)cmalsiB507
Lsi10G002430Cucurbita maxima (Rimu)cmalsiB548
Lsi10G002430Cucurbita moschata (Rifu)cmolsiB491
Lsi10G002430Cucurbita moschata (Rifu)cmolsiB533
Lsi10G002430Cucurbita pepo (Zucchini)cpelsiB220
Lsi10G002430Cucurbita pepo (Zucchini)cpelsiB589
Lsi10G002430Wild cucumber (PI 183967)cpilsiB092
Lsi10G002430Cucumber (Chinese Long) v2culsiB094
Lsi10G002430Cucumber (Gy14) v2cgyblsiB087
Lsi10G002430Melon (DHL92) v3.6.1lsimedB054
Lsi10G002430Silver-seed gourdcarlsiB382
Lsi10G002430Silver-seed gourdcarlsiB961
Lsi10G002430Cucumber (Chinese Long) v3cuclsiB105
Lsi10G002430Watermelon (97103) v2lsiwmbB070
Lsi10G002430Wax gourdlsiwgoB069