IVF0011431 (gene) Melon (IVF77) v1

Overview
NameIVF0011431
Typegene
OrganismCucumis melo L. ssp. agrestis cv. IVF77 (Melon (IVF77) v1)
Descriptionsurvival of motor neuron-related-splicing factor 30
Locationchr10: 25422473 .. 25446404 (+)
RNA-Seq ExpressionIVF0011431
SyntenyIVF0011431
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

GTTAGCGTTTGTGTGTGCGTTCTTCACCATCCTCTGATTCTCCTTCTAAAAACTTTTCCAATTTTGCGCTTTTTTTCCCCTTCTCCTCCTCCTCTGTTCATCCAATTCTACCAAAATAATGCAAGGAGGAGAAGATGTTAGCATTGAAGAGTTGGCTAATAATCTGTCTACCTACAAAGACCAGCTTCACCAGGTCAGACAGCTGTTAGATGATGATCCTGGCAACTCTGAATACATTGATATGGAAAAAGAGCTTGAAGAGGTTATCGCTTTGACGGAAGAACTTCTTTCAACAGCAAAGCAAAATGAGGTTTCTGGATCAAATGTAGAAACGGGTGATGACAGTGCATCAATTGGTTTCCAGCAGCCTAAAGAAAATGAAATGGAAGCTGGAAGCATGTCTGATTATCATGAGAAATTTCCTATCGGAACAAAAGTTCAAGCTGTTTGGAGTGAGGACGGGGAGTGGTACGATGCTACAATTGAAGCTCACACTGTAAATGGTTTCTATGTTAGTTATGATGGTTGGGGAAACAAAGAAGAGGTGGACCCTGCAAATGTAAGAACAATCCAACTGGAAGTTAATGCTTTGCTTGAAGCAGAAAGAATGGCTGAAGCTACAAAGCAGGCTATCAAACGCAAGATTGCTCAAGCTGCTTCTGTTGACTTTCAATCCCGAAATTTACCATCAAAACTTCGAATTGAACCTGATGATCCTGAGGATGTAAAAGCCACCAAACGCAAGAAAATACATGCCTTCAAGTCAAAGATGCGCATAGAACAGCTTGAAGTTACCCAAAATAAACGGCAGAATGCTTGGCAGCAGTTTCAATCAGCAAAAGGGAAATCTAAGAAGATTGGTTTCTTCTCTGGACGGAAGAGGGAGAGCATTTTCAAGTCTCCGGACGACCCGAATGGGAAGGTTGGTGTGACAGGAAGTGGAAAGGGTTTGACTGAGTTTCAGAAGAGGGAAAAACACCTGCATCTCAAGGGTGCAACGGTGGAGATGGATGAGTAAAAGTGAGATTAGAGTTTGTAGGTTGGTGGTTTCTTTGTATGTATCTTCATTTAGTATCCACAATCCAGTTTATGCGATCTCCGTGGTTAGATTCATATAAACGTGCTGAAAGTTTAGGCGGGGGGATTCCCTCCAAGTAACATAGTGTTTTCTTATGAGAATGGTTACAAAGCCTACCATGACAGGGTCTCTCTTTTCCTTTGACATTTTTATGTTTACTTGTTCTATTACCTTATAGTTAATGGGATATGCACATTTACATGAAAAACCCAATCAATTGTGTTTAAACTTCCACTCCCACTCCCACCTTTCTTTAGAGATGATCCTAGGTTGTCTGAGGGAGCTTACTTTGTAATGTCGCATTTATTGATGTTGTACGATAAGGGTATGACCGATGAACTTACCTGAACAAGACTAGTTCCATGGATTCATTTGTGTTCTCGATTTCTAATAAACCAGGAGGCGTGACCTAAAATTTGTTTGTTAGGTTC

Coding sequence (CDS)

ATGCAAGGAGGAGAAGATGTTAGCATTGAAGAGTTGGCTAATAATCTGTCTACCTACAAAGACCAGCTTCACCAGGTCAGACAGCTGTTAGATGATGATCCTGGCAACTCTGAATACATTGATATGGAAAAAGAGCTTGAAGAGGTTATCGCTTTGACGGAAGAACTTCTTTCAACAGCAAAGCAAAATGAGGTTTCTGGATCAAATGTAGAAACGGGTGATGACAGTGCATCAATTGGTTTCCAGCAGCCTAAAGAAAATGAAATGGAAGCTGGAAGCATGTCTGATTATCATGAGAAATTTCCTATCGGAACAAAAGTTCAAGCTGTTTGGAGTGAGGACGGGGAGTGGTACGATGCTACAATTGAAGCTCACACTGTAAATGGTTTCTATGTTAGTTATGATGGTTGGGGAAACAAAGAAGAGGTGGACCCTGCAAATGTAAGAACAATCCAACTGGAAGTTAATGCTTTGCTTGAAGCAGAAAGAATGGCTGAAGCTACAAAGCAGGCTATCAAACGCAAGATTGCTCAAGCTGCTTCTGTTGACTTTCAATCCCGAAATTTACCATCAAAACTTCGAATTGAACCTGATGATCCTGAGGATGTAAAAGCCACCAAACGCAAGAAAATACATGCCTTCAAGTCAAAGATGCGCATAGAACAGCTTGAAGTTACCCAAAATAAACGGCAGAATGCTTGGCAGCAGTTTCAATCAGCAAAAGGGAAATCTAAGAAGATTGGTTTCTTCTCTGGACGGAAGAGGGAGAGCATTTTCAAGTCTCCGGACGACCCGAATGGGAAGGTTGGTGTGACAGGAAGTGGAAAGGGTTTGACTGAGTTTCAGAAGAGGGAAAAACACCTGCATCTCAAGGGTGCAACGGTGGAGATGGATGAGTAA

Protein sequence

MQGGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTAKQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDATIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAASVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSAKGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDE
Homology
[Close]
BLAST of IVF0011431 vs. ExPASy Swiss-Prot
Match: Q6DEY1 (Survival of motor neuron-related-splicing factor 30 OS=Xenopus tropicalis OX=8364 GN=smndc1 PE=2 SV=1)

HSP 1 Score: 93.6 bits (231), Expect = 4.1e-18
Identity = 90/285 (31.58%), Postives = 136/285 (47.72%), Query Frame = 0 

Query: 10  EELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTAKQNEVSGSN 69
           E+LA  L+ YK QL QV   L  +  N + + ++K+L+EVI LT++LLS+          
Sbjct: 3   EDLAKQLAGYKAQLQQVESALTANGENEDLLKLKKDLQEVIELTKDLLSSQPS------- 62

Query: 70  VETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDATI-EAHTVN 129
            ET DD+         ++   +GS S     + +G K  AVWS+DG+WY+A I E    N
Sbjct: 63  -ETADDAC--------DDMSASGSQS-----WKVGEKCMAVWSDDGQWYEAEIEEIDEEN 122

Query: 130 G-FYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAASVDFQSR 189
           G   +++ G+GN E     N+R ++       E  +  E                   S 
Sbjct: 123 GTAAITFAGYGNAEVTSLLNLRPVE-------EGRKAKE------------------DSG 182

Query: 190 NLPSKLRIEPDDPEDVKATKR-KKIHAFKSKMRIEQLEVTQNKRQNAWQQFQS-AKGKSK 249
           NLP   +      E + A +  KK  A K   RI++LE  +  ++  WQQF + A  K+K
Sbjct: 183 NLPMSKK------EMIAAQREYKKKKALKKAQRIKELEQEREDQKVKWQQFNNKAYSKNK 230

Query: 250 KIGFFSGRKRESIFKSPDDPNGKVGVTGSG---KGLTEFQKREKH 288
           K     G+ + SIF SP+   GKVGV   G   K +T++Q   K+
Sbjct: 243 K-----GQVKRSIFASPESVTGKVGVGTCGIADKPMTQYQDTSKY 230

[Close]
BLAST of IVF0011431 vs. ExPASy Swiss-Prot
Match: O75940 (Survival of motor neuron-related-splicing factor 30 OS=Homo sapiens OX=9606 GN=SMNDC1 PE=1 SV=1)

HSP 1 Score: 87.4 bits (215), Expect = 2.9e-16
Identity = 89/284 (31.34%), Postives = 131/284 (46.13%), Query Frame = 0 

Query: 10  EELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTAKQNEVSGSN 69
           E+LA  L++YK QL QV   L  +  N + + ++K+L+EVI LT++LLST          
Sbjct: 3   EDLAKQLASYKAQLQQVEAALSGNGENEDLLKLKKDLQEVIELTKDLLSTQPS------- 62

Query: 70  VETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDATI-EAHTVN 129
            ET   S S    QP  +             + +G K  AVWSEDG+ Y+A I E    N
Sbjct: 63  -ETLASSDSFASTQPTHS-------------WKVGDKCMAVWSEDGQCYEAEIEEIDEEN 122

Query: 130 G-FYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAASVDFQSR 189
           G   +++ G+GN              EV  LL  + + E  K          A  D  ++
Sbjct: 123 GTAAITFAGYGN-------------AEVTPLLNLKPVEEGRK----------AKEDSGNK 182

Query: 190 NLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQS-AKGKSKK 249
            +  K  I        +  + KK  A K   RI++LE  +  ++  WQQF + A  K+KK
Sbjct: 183 PMSKKEMI-------AQQREYKKKKALKKAQRIKELEQEREDQKVKWQQFNNRAYSKNKK 230

Query: 250 IGFFSGRKRESIFKSPDDPNGKVGVTGSG---KGLTEFQKREKH 288
                G+ + SIF SP+   GKVGV   G   K +T++Q   K+
Sbjct: 243 -----GQVKRSIFASPESVTGKVGVGTCGIADKPMTQYQDTSKY 230

[Close]
BLAST of IVF0011431 vs. ExPASy Swiss-Prot
Match: Q5R591 (Survival of motor neuron-related-splicing factor 30 OS=Pongo abelii OX=9601 GN=SMNDC1 PE=2 SV=1)

HSP 1 Score: 87.0 bits (214), Expect = 3.8e-16
Identity = 88/284 (30.99%), Postives = 131/284 (46.13%), Query Frame = 0 

Query: 10  EELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTAKQNEVSGSN 69
           E+LA  L++YK QL QV   L  +  N + + ++K+L+EVI LT++LLST          
Sbjct: 3   EDLAKQLASYKAQLQQVEAALSGNGENEDLLKLKKDLQEVIELTKDLLSTQPS------- 62

Query: 70  VETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDATI-EAHTVN 129
            ET   S S    QP  +             + +G K  A+WSEDG+ Y+A I E    N
Sbjct: 63  -ETLASSDSFASTQPTHS-------------WKVGDKCMAIWSEDGQCYEAEIEEIDEEN 122

Query: 130 G-FYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAASVDFQSR 189
           G   +++ G+GN              EV  LL  + + E  K          A  D  ++
Sbjct: 123 GTAAITFAGYGN-------------AEVTPLLNLKPVEEGRK----------AKEDSGNK 182

Query: 190 NLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQS-AKGKSKK 249
            +  K  I        +  + KK  A K   RI++LE  +  ++  WQQF + A  K+KK
Sbjct: 183 PMSKKEMI-------AQQREYKKKKALKKAQRIKELEQEREDQKVKWQQFNNRAYSKNKK 230

Query: 250 IGFFSGRKRESIFKSPDDPNGKVGVTGSG---KGLTEFQKREKH 288
                G+ + SIF SP+   GKVGV   G   K +T++Q   K+
Sbjct: 243 -----GQVKRSIFASPESVTGKVGVGTCGIADKPMTQYQDTSKY 230

[Close]
BLAST of IVF0011431 vs. ExPASy Swiss-Prot
Match: Q3T045 (Survival of motor neuron-related-splicing factor 30 OS=Bos taurus OX=9913 GN=SMNDC1 PE=2 SV=1)

HSP 1 Score: 86.3 bits (212), Expect = 6.5e-16
Identity = 88/284 (30.99%), Postives = 134/284 (47.18%), Query Frame = 0 

Query: 10  EELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTAKQNEVSGSN 69
           E+LA  L++YK QL QV   L  +  N + + ++K+L+EVI LT++LLST     ++ S 
Sbjct: 3   EDLAKQLASYKAQLQQVEAALSGNGENEDLLKLKKDLQEVIELTKDLLSTQPSETLASS- 62

Query: 70  VETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDATI-EAHTVN 129
               D+ AS    QP  +             + +G K  A+WSEDG+ Y+A I E    N
Sbjct: 63  ----DNFAS---TQPTHS-------------WKVGDKCMAIWSEDGQCYEAEIEEIDEEN 122

Query: 130 G-FYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAASVDFQSR 189
           G   +++ G+GN              EV  LL  + + E  K          A  D  ++
Sbjct: 123 GTAAITFAGYGN-------------AEVTPLLNLKPVEEGRK----------AKEDSGNK 182

Query: 190 NLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQS-AKGKSKK 249
            +  K  I        +  + KK  A K   RI++LE  +  ++  WQQF + A  K+KK
Sbjct: 183 PMSKKEMI-------AQQREYKKKKALKKAQRIKELEQEREDQKVKWQQFNNRAYSKNKK 230

Query: 250 IGFFSGRKRESIFKSPDDPNGKVGVTGSG---KGLTEFQKREKH 288
                G+ + SIF SP+   GKVGV   G   K +T++Q   K+
Sbjct: 243 -----GQVKRSIFASPESVTGKVGVGTCGIADKPMTQYQDTSKY 230

[Close]
BLAST of IVF0011431 vs. ExPASy Swiss-Prot
Match: Q4QQU6 (Survival of motor neuron-related-splicing factor 30 OS=Rattus norvegicus OX=10116 GN=Smndc1 PE=2 SV=1)

HSP 1 Score: 84.3 bits (207), Expect = 2.5e-15
Identity = 88/284 (30.99%), Postives = 130/284 (45.77%), Query Frame = 0 

Query: 10  EELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTAKQNEVSGSN 69
           E+LA  L++YK QL QV   L  +  N + + ++K+L+EVI LT++LLST          
Sbjct: 3   EDLAKQLASYKAQLQQVEAALSGNGENEDLLKLKKDLQEVIELTKDLLSTQPS------- 62

Query: 70  VETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDATI-EAHTVN 129
            ET   S S    QP  +             + +G K  AVWSEDG+ Y+A I E    N
Sbjct: 63  -ETLTSSDSFASTQPTHS-------------WKVGDKCMAVWSEDGQCYEAEIEEIDEEN 122

Query: 130 G-FYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAASVDFQSR 189
           G   +++  +GN              EV  LL  + + E  K          A  D  ++
Sbjct: 123 GTAAITFAVYGN-------------AEVTPLLNLKPVEEGRK----------AKEDSGNK 182

Query: 190 NLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQS-AKGKSKK 249
            +  K  I        +  + KK  A K   RI++LE  +  ++  WQQF + A  K+KK
Sbjct: 183 PMSKKEMI-------AQQREYKKKKALKKAQRIKELEQEREDQKVKWQQFNNRAYSKNKK 230

Query: 250 IGFFSGRKRESIFKSPDDPNGKVGVTGSG---KGLTEFQKREKH 288
                G+ + SIF SP+   GKVGV   G   K +T++Q   K+
Sbjct: 243 -----GQVKRSIFASPESVTGKVGVGTCGIADKPMTQYQDTSKY 230

[Close]
BLAST of IVF0011431 vs. ExPASy TrEMBL
Match: A0A6J1K7R2 (survival of motor neuron-related-splicing factor 30 OS=Cucurbita maxima OX=3661 GN=LOC111493029 PE=4 SV=1)

HSP 1 Score: 556.2 bits (1432), Expect = 8.2e-155
Identity = 285/299 (95.32%), Postives = 293/299 (97.99%), Query Frame = 0 

Query: 1   MQGGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTA 60
           MQGGEDVS+EELA NLSTYKDQL QVR+LLDDDPGNSEYIDMEKELEEVIALTEELLSTA
Sbjct: 1   MQGGEDVSMEELATNLSTYKDQLQQVRELLDDDPGNSEYIDMEKELEEVIALTEELLSTA 60

Query: 61  KQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDA 120
           KQNE+SGSNVETGDDSASI FQQ K N+MEA SMSDYHEKFPIGTKVQAVWSEDGEWYDA
Sbjct: 61  KQNEISGSNVETGDDSASISFQQTKGNKMEAESMSDYHEKFPIGTKVQAVWSEDGEWYDA 120

Query: 121 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 180
           TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA
Sbjct: 121 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 180

Query: 181 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240
           SVDFQSRNLPS+LRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA
Sbjct: 181 SVDFQSRNLPSRLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240

Query: 241 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDE 300
           KGKSKKIGFFSGRK+ESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGA+VEMD+
Sbjct: 241 KGKSKKIGFFSGRKKESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGASVEMDD 299

[Close]
BLAST of IVF0011431 vs. ExPASy TrEMBL
Match: A0A6J1EY48 (survival of motor neuron-related-splicing factor 30 OS=Cucurbita moschata OX=3662 GN=LOC111439780 PE=4 SV=1)

HSP 1 Score: 556.2 bits (1432), Expect = 8.2e-155
Identity = 285/299 (95.32%), Postives = 293/299 (97.99%), Query Frame = 0 

Query: 1   MQGGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTA 60
           MQGGEDVS+EELA NLSTYKDQL QVR+LLDDDPGNSEYIDMEKELEEVIALTEELLSTA
Sbjct: 1   MQGGEDVSMEELATNLSTYKDQLQQVRELLDDDPGNSEYIDMEKELEEVIALTEELLSTA 60

Query: 61  KQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDA 120
           KQNE+SGSNVETGDDSASI FQQ K N+MEA SMSDYHEKFPIGTKVQAVWSEDGEWYDA
Sbjct: 61  KQNEISGSNVETGDDSASISFQQTKGNKMEAESMSDYHEKFPIGTKVQAVWSEDGEWYDA 120

Query: 121 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 180
           TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA
Sbjct: 121 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 180

Query: 181 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240
           SVDFQSRNLPS+LRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA
Sbjct: 181 SVDFQSRNLPSRLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240

Query: 241 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDE 300
           KGKSKKIGFFSGRK+ESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGA+VEMD+
Sbjct: 241 KGKSKKIGFFSGRKKESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGASVEMDD 299

[Close]
BLAST of IVF0011431 vs. ExPASy TrEMBL
Match: A0A6J1DPE2 (survival of motor neuron-related-splicing factor 30 OS=Momordica charantia OX=3673 GN=LOC111022290 PE=4 SV=1)

HSP 1 Score: 540.4 bits (1391), Expect = 4.7e-150
Identity = 278/299 (92.98%), Postives = 288/299 (96.32%), Query Frame = 0 

Query: 1   MQGGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTA 60
           MQGGEDVSIEELA+NLSTYKDQL QVRQLLDDDP NSEYIDMEKELEEVI+LTEELL+TA
Sbjct: 1   MQGGEDVSIEELASNLSTYKDQLQQVRQLLDDDPSNSEYIDMEKELEEVISLTEELLATA 60

Query: 61  KQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDA 120
           KQNE+SGSNVETGD+SASI F Q KE +MEA S+SD+HEKFPIG+KVQAVWSEDGEWYDA
Sbjct: 61  KQNEISGSNVETGDNSASISFLQSKETKMEAESLSDHHEKFPIGSKVQAVWSEDGEWYDA 120

Query: 121 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 180
           TIEAHTVNGFYVSYD WGNKEEVDPANVR IQ EVNALLEAERMAEATKQAIKRKIAQAA
Sbjct: 121 TIEAHTVNGFYVSYDSWGNKEEVDPANVREIQQEVNALLEAERMAEATKQAIKRKIAQAA 180

Query: 181 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240
           SVDFQSRNLP KLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA
Sbjct: 181 SVDFQSRNLPPKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240

Query: 241 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDE 300
           KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMD+
Sbjct: 241 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDD 299

[Close]
BLAST of IVF0011431 vs. ExPASy TrEMBL
Match: A0A1S3CE07 (survival of motor neuron-related-splicing factor 30 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103499374 PE=4 SV=1)

HSP 1 Score: 497.7 bits (1280), Expect = 3.5e-137
Identity = 256/257 (99.61%), Postives = 257/257 (100.00%), Query Frame = 0 

Query: 43  EKELEEVIALTEELLSTAKQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFP 102
           +KELEEVIALTEELLSTAKQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFP
Sbjct: 13  KKELEEVIALTEELLSTAKQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFP 72

Query: 103 IGTKVQAVWSEDGEWYDATIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAE 162
           IGTKVQAVWSEDGEWYDATIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAE
Sbjct: 73  IGTKVQAVWSEDGEWYDATIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAE 132

Query: 163 RMAEATKQAIKRKIAQAASVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQ 222
           RMAEATKQAIKRKIAQAASVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQ
Sbjct: 133 RMAEATKQAIKRKIAQAASVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQ 192

Query: 223 LEVTQNKRQNAWQQFQSAKGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQ 282
           LEVTQNKRQNAWQQFQSAKGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQ
Sbjct: 193 LEVTQNKRQNAWQQFQSAKGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQ 252

Query: 283 KREKHLHLKGATVEMDE 300
           KREKHLHLKGATVEMDE
Sbjct: 253 KREKHLHLKGATVEMDE 269

[Close]
BLAST of IVF0011431 vs. ExPASy TrEMBL
Match: A0A1S3CD96 (survival of motor neuron-related-splicing factor 30 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103499374 PE=4 SV=1)

HSP 1 Score: 489.6 bits (1259), Expect = 9.5e-135
Identity = 251/252 (99.60%), Postives = 252/252 (100.00%), Query Frame = 0 

Query: 48  EVIALTEELLSTAKQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKV 107
           +VIALTEELLSTAKQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKV
Sbjct: 23  QVIALTEELLSTAKQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKV 82

Query: 108 QAVWSEDGEWYDATIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEA 167
           QAVWSEDGEWYDATIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEA
Sbjct: 83  QAVWSEDGEWYDATIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEA 142

Query: 168 TKQAIKRKIAQAASVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQ 227
           TKQAIKRKIAQAASVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQ
Sbjct: 143 TKQAIKRKIAQAASVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQ 202

Query: 228 NKRQNAWQQFQSAKGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKH 287
           NKRQNAWQQFQSAKGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKH
Sbjct: 203 NKRQNAWQQFQSAKGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKH 262

Query: 288 LHLKGATVEMDE 300
           LHLKGATVEMDE
Sbjct: 263 LHLKGATVEMDE 274

[Close]
BLAST of IVF0011431 vs. NCBI nr
Match: XP_004142808.1 (survival of motor neuron-related-splicing factor 30 isoform X1 [Cucumis sativus] >KGN51867.2 hypothetical protein Csa_008126 [Cucumis sativus])

HSP 1 Score: 572 bits (1473), Expect = 3.82e-205
Identity = 295/299 (98.66%), Postives = 297/299 (99.33%), Query Frame = 0 

Query: 1   MQGGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTA 60
           MQGGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTA
Sbjct: 1   MQGGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTA 60

Query: 61  KQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDA 120
           KQNEVSGSNVETGDDSASIGFQQ KENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDA
Sbjct: 61  KQNEVSGSNVETGDDSASIGFQQSKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDA 120

Query: 121 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 180
           TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVN LLEAER+AEATKQAIKRKIAQAA
Sbjct: 121 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNPLLEAERVAEATKQAIKRKIAQAA 180

Query: 181 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240
           SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQ+A
Sbjct: 181 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQTA 240

Query: 241 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDE 299
           KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDE
Sbjct: 241 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDE 299

[Close]
BLAST of IVF0011431 vs. NCBI nr
Match: XP_038876515.1 (survival of motor neuron-related-splicing factor 30 [Benincasa hispida])

HSP 1 Score: 565 bits (1455), Expect = 2.12e-202
Identity = 291/299 (97.32%), Postives = 294/299 (98.33%), Query Frame = 0 

Query: 1   MQGGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTA 60
           MQGGEDVSIEELANNLSTYKDQL QVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTA
Sbjct: 1   MQGGEDVSIEELANNLSTYKDQLQQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTA 60

Query: 61  KQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDA 120
           KQNE+ GSNVETGDDSASI F QPKENEMEAGSMSDYHEKFPIG+KVQAVWSEDGEWYDA
Sbjct: 61  KQNEIPGSNVETGDDSASISFHQPKENEMEAGSMSDYHEKFPIGSKVQAVWSEDGEWYDA 120

Query: 121 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 180
           TIEAHTVNGFYVSYDGWGNKEEVDPANVR IQLEVNALLEAER+AEATKQAIKRKIAQAA
Sbjct: 121 TIEAHTVNGFYVSYDGWGNKEEVDPANVRAIQLEVNALLEAERVAEATKQAIKRKIAQAA 180

Query: 181 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240
           SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA
Sbjct: 181 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240

Query: 241 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDE 299
           KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDE
Sbjct: 241 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDE 299

[Close]
BLAST of IVF0011431 vs. NCBI nr
Match: XP_022933076.1 (survival of motor neuron-related-splicing factor 30 [Cucurbita moschata] >XP_022998367.1 survival of motor neuron-related-splicing factor 30 [Cucurbita maxima] >XP_023530530.1 survival of motor neuron-related-splicing factor 30 [Cucurbita pepo subsp. pepo] >KAG6601669.1 Survival of motor neuron-related-splicing factor 30, partial [Cucurbita argyrosperma subsp. sororia])

HSP 1 Score: 553 bits (1426), Expect = 5.57e-198
Identity = 285/299 (95.32%), Postives = 293/299 (97.99%), Query Frame = 0 

Query: 1   MQGGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTA 60
           MQGGEDVS+EELA NLSTYKDQL QVR+LLDDDPGNSEYIDMEKELEEVIALTEELLSTA
Sbjct: 1   MQGGEDVSMEELATNLSTYKDQLQQVRELLDDDPGNSEYIDMEKELEEVIALTEELLSTA 60

Query: 61  KQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDA 120
           KQNE+SGSNVETGDDSASI FQQ K N+MEA SMSDYHEKFPIGTKVQAVWSEDGEWYDA
Sbjct: 61  KQNEISGSNVETGDDSASISFQQTKGNKMEAESMSDYHEKFPIGTKVQAVWSEDGEWYDA 120

Query: 121 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 180
           TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA
Sbjct: 121 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 180

Query: 181 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240
           SVDFQSRNLPS+LRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA
Sbjct: 181 SVDFQSRNLPSRLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240

Query: 241 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDE 299
           KGKSKKIGFFSGRK+ESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGA+VEMD+
Sbjct: 241 KGKSKKIGFFSGRKKESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGASVEMDD 299

[Close]
BLAST of IVF0011431 vs. NCBI nr
Match: XP_022155149.1 (survival of motor neuron-related-splicing factor 30 [Momordica charantia])

HSP 1 Score: 538 bits (1385), Expect = 9.87e-192
Identity = 278/299 (92.98%), Postives = 288/299 (96.32%), Query Frame = 0 

Query: 1   MQGGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTA 60
           MQGGEDVSIEELA+NLSTYKDQL QVRQLLDDDP NSEYIDMEKELEEVI+LTEELL+TA
Sbjct: 1   MQGGEDVSIEELASNLSTYKDQLQQVRQLLDDDPSNSEYIDMEKELEEVISLTEELLATA 60

Query: 61  KQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSDYHEKFPIGTKVQAVWSEDGEWYDA 120
           KQNE+SGSNVETGD+SASI F Q KE +MEA S+SD+HEKFPIG+KVQAVWSEDGEWYDA
Sbjct: 61  KQNEISGSNVETGDNSASISFLQSKETKMEAESLSDHHEKFPIGSKVQAVWSEDGEWYDA 120

Query: 121 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 180
           TIEAHTVNGFYVSYD WGNKEEVDPANVR IQ EVNALLEAERMAEATKQAIKRKIAQAA
Sbjct: 121 TIEAHTVNGFYVSYDSWGNKEEVDPANVREIQQEVNALLEAERMAEATKQAIKRKIAQAA 180

Query: 181 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240
           SVDFQSRNLP KLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA
Sbjct: 181 SVDFQSRNLPPKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 240

Query: 241 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDE 299
           KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMD+
Sbjct: 241 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVEMDD 299

[Close]
BLAST of IVF0011431 vs. NCBI nr
Match: KAG7032438.1 (Survival of motor neuron-related-splicing factor 30 [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 538 bits (1386), Expect = 1.68e-191
Identity = 284/323 (87.93%), Postives = 292/323 (90.40%), Query Frame = 0 

Query: 1   MQGGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEV----------- 60
           MQGGEDVS+EELA NLSTYKDQL QVR+LLDDDPGNSEYIDMEKELEEV           
Sbjct: 1   MQGGEDVSMEELATNLSTYKDQLQQVRELLDDDPGNSEYIDMEKELEEVVYFCPPRYILT 60

Query: 61  -------------IALTEELLSTAKQNEVSGSNVETGDDSASIGFQQPKENEMEAGSMSD 120
                        IALTEELLSTAKQNE+SGSNVETGDDSASI FQQ K N+MEA SM D
Sbjct: 61  ATWTWAKVAVMQVIALTEELLSTAKQNEISGSNVETGDDSASISFQQTKGNKMEAESMCD 120

Query: 121 YHEKFPIGTKVQAVWSEDGEWYDATIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVN 180
           YHEKFPIGTKVQAVWSEDGEWYDATIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVN
Sbjct: 121 YHEKFPIGTKVQAVWSEDGEWYDATIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVN 180

Query: 181 ALLEAERMAEATKQAIKRKIAQAASVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKS 240
           ALLEAERMAEATKQAIKRKIAQAASVDFQSRNLPS+LRIEPDDPEDVKATKRKKIHAFKS
Sbjct: 181 ALLEAERMAEATKQAIKRKIAQAASVDFQSRNLPSRLRIEPDDPEDVKATKRKKIHAFKS 240

Query: 241 KMRIEQLEVTQNKRQNAWQQFQSAKGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGK 299
           KMRIEQLEVTQNKRQNAWQQFQSAKGKSKKIGFFSGRK+ESIFKSPDDPNGKVGVTGSGK
Sbjct: 241 KMRIEQLEVTQNKRQNAWQQFQSAKGKSKKIGFFSGRKKESIFKSPDDPNGKVGVTGSGK 300

[Close]
BLAST of IVF0011431 vs. TAIR 10
Match: AT2G02570.1 (nucleic acid binding;RNA binding )

HSP 1 Score: 379.8 bits (974), Expect = 2.0e-105
Identity = 200/296 (67.57%), Postives = 245/296 (82.77%), Query Frame = 0 

Query: 3   GGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTAKQ 62
           G E++SIE+LA+++STYK+QL QVRQLL +DP NSEY DMEKEL+EVIALTEE+L+TAKQ
Sbjct: 4   GVEELSIEQLASSISTYKEQLEQVRQLLSEDPRNSEYADMEKELKEVIALTEEVLATAKQ 63

Query: 63  NEVSGSNVETGDDSASIGFQQPKENEMEAGSMSD-YHE-KFPIGTKVQAVWSEDGEWYDA 122
           NE+S S+     + A+ G    +    + G  +D  HE KFP+GTKVQAV+S+DGEWYDA
Sbjct: 64  NEISLSDAGVSAE-ATPGSPDLEGAWEKTGLRNDPIHEGKFPVGTKVQAVFSDDGEWYDA 123

Query: 123 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 182
           TIEAHT NG++V+YD WGNKEEVDP NVR I  E NA++EAER+A+ATK A+KRKI +AA
Sbjct: 124 TIEAHTANGYFVAYDEWGNKEEVDPDNVRPI--EQNAIVEAERLAQATKNALKRKIEKAA 183

Query: 183 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 242
           S D+Q++ LP+KL+I+P+DPEDVK  KRKKIHAFKSK R EQLEV QNK+QN WQQFQ+ 
Sbjct: 184 SSDYQTKTLPAKLKIDPNDPEDVKIAKRKKIHAFKSKARFEQLEVVQNKKQNDWQQFQTT 243

Query: 243 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVE 297
           K K+KK+GFF+GRK+ESIFKSP+DP GKVGVTGSGKGLT+FQKREKHLHLK    E
Sbjct: 244 KAKTKKVGFFTGRKKESIFKSPEDPFGKVGVTGSGKGLTDFQKREKHLHLKSGNAE 296

[Close]
BLAST of IVF0011431 vs. TAIR 10
Match: AT2G02570.2 (nucleic acid binding;RNA binding )

HSP 1 Score: 379.8 bits (974), Expect = 2.0e-105
Identity = 200/296 (67.57%), Postives = 245/296 (82.77%), Query Frame = 0 

Query: 3   GGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTAKQ 62
           G E++SIE+LA+++STYK+QL QVRQLL +DP NSEY DMEKEL+EVIALTEE+L+TAKQ
Sbjct: 4   GVEELSIEQLASSISTYKEQLEQVRQLLSEDPRNSEYADMEKELKEVIALTEEVLATAKQ 63

Query: 63  NEVSGSNVETGDDSASIGFQQPKENEMEAGSMSD-YHE-KFPIGTKVQAVWSEDGEWYDA 122
           NE+S S+     + A+ G    +    + G  +D  HE KFP+GTKVQAV+S+DGEWYDA
Sbjct: 64  NEISLSDAGVSAE-ATPGSPDLEGAWEKTGLRNDPIHEGKFPVGTKVQAVFSDDGEWYDA 123

Query: 123 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 182
           TIEAHT NG++V+YD WGNKEEVDP NVR I  E NA++EAER+A+ATK A+KRKI +AA
Sbjct: 124 TIEAHTANGYFVAYDEWGNKEEVDPDNVRPI--EQNAIVEAERLAQATKNALKRKIEKAA 183

Query: 183 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 242
           S D+Q++ LP+KL+I+P+DPEDVK  KRKKIHAFKSK R EQLEV QNK+QN WQQFQ+ 
Sbjct: 184 SSDYQTKTLPAKLKIDPNDPEDVKIAKRKKIHAFKSKARFEQLEVVQNKKQNDWQQFQTT 243

Query: 243 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVE 297
           K K+KK+GFF+GRK+ESIFKSP+DP GKVGVTGSGKGLT+FQKREKHLHLK    E
Sbjct: 244 KAKTKKVGFFTGRKKESIFKSPEDPFGKVGVTGSGKGLTDFQKREKHLHLKSGNAE 296

[Close]
BLAST of IVF0011431 vs. TAIR 10
Match: AT2G02570.4 (nucleic acid binding;RNA binding )

HSP 1 Score: 379.8 bits (974), Expect = 2.0e-105
Identity = 200/296 (67.57%), Postives = 245/296 (82.77%), Query Frame = 0 

Query: 3   GGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTAKQ 62
           G E++SIE+LA+++STYK+QL QVRQLL +DP NSEY DMEKEL+EVIALTEE+L+TAKQ
Sbjct: 4   GVEELSIEQLASSISTYKEQLEQVRQLLSEDPRNSEYADMEKELKEVIALTEEVLATAKQ 63

Query: 63  NEVSGSNVETGDDSASIGFQQPKENEMEAGSMSD-YHE-KFPIGTKVQAVWSEDGEWYDA 122
           NE+S S+     + A+ G    +    + G  +D  HE KFP+GTKVQAV+S+DGEWYDA
Sbjct: 64  NEISLSDAGVSAE-ATPGSPDLEGAWEKTGLRNDPIHEGKFPVGTKVQAVFSDDGEWYDA 123

Query: 123 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 182
           TIEAHT NG++V+YD WGNKEEVDP NVR I  E NA++EAER+A+ATK A+KRKI +AA
Sbjct: 124 TIEAHTANGYFVAYDEWGNKEEVDPDNVRPI--EQNAIVEAERLAQATKNALKRKIEKAA 183

Query: 183 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 242
           S D+Q++ LP+KL+I+P+DPEDVK  KRKKIHAFKSK R EQLEV QNK+QN WQQFQ+ 
Sbjct: 184 SSDYQTKTLPAKLKIDPNDPEDVKIAKRKKIHAFKSKARFEQLEVVQNKKQNDWQQFQTT 243

Query: 243 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVE 297
           K K+KK+GFF+GRK+ESIFKSP+DP GKVGVTGSGKGLT+FQKREKHLHLK    E
Sbjct: 244 KAKTKKVGFFTGRKKESIFKSPEDPFGKVGVTGSGKGLTDFQKREKHLHLKSGNAE 296

[Close]
BLAST of IVF0011431 vs. TAIR 10
Match: AT2G02570.3 (nucleic acid binding;RNA binding )

HSP 1 Score: 354.0 bits (907), Expect = 1.2e-97
Identity = 190/296 (64.19%), Postives = 235/296 (79.39%), Query Frame = 0 

Query: 3   GGEDVSIEELANNLSTYKDQLHQVRQLLDDDPGNSEYIDMEKELEEVIALTEELLSTAKQ 62
           G E++SIE+LA+++STYK+QL QVRQLL +DP NSEY DMEKEL+EVIALTEE+L+TAKQ
Sbjct: 4   GVEELSIEQLASSISTYKEQLEQVRQLLSEDPRNSEYADMEKELKEVIALTEEVLATAKQ 63

Query: 63  NEVSGSNVETGDDSASIGFQQPKENEMEAGSMSD-YHE-KFPIGTKVQAVWSEDGEWYDA 122
           NE+S S+     + A+ G    +    + G  +D  HE KFP+GTKVQAV+S+DGEWYDA
Sbjct: 64  NEISLSDAGVSAE-ATPGSPDLEGAWEKTGLRNDPIHEGKFPVGTKVQAVFSDDGEWYDA 123

Query: 123 TIEAHTVNGFYVSYDGWGNKEEVDPANVRTIQLEVNALLEAERMAEATKQAIKRKIAQAA 182
           TIEAHT NG++V+YD WGNKEEVDP NVR I  E NA++EAER+A+ATK A+KRKI +AA
Sbjct: 124 TIEAHTANGYFVAYDEWGNKEEVDPDNVRPI--EQNAIVEAERLAQATKNALKRKIEKAA 183

Query: 183 SVDFQSRNLPSKLRIEPDDPEDVKATKRKKIHAFKSKMRIEQLEVTQNKRQNAWQQFQSA 242
           S D+Q++ LP+KL+I+P+DPEDVK  KRKKIH            V QNK+QN WQQFQ+ 
Sbjct: 184 SSDYQTKTLPAKLKIDPNDPEDVKIAKRKKIH------------VVQNKKQNDWQQFQTT 243

Query: 243 KGKSKKIGFFSGRKRESIFKSPDDPNGKVGVTGSGKGLTEFQKREKHLHLKGATVE 297
           K K+KK+GFF+GRK+ESIFKSP+DP GKVGVTGSGKGLT+FQKREKHLHLK    E
Sbjct: 244 KAKTKKVGFFTGRKKESIFKSPEDPFGKVGVTGSGKGLTDFQKREKHLHLKSGNAE 284

The following BLAST results are available for this feature:
BLAST of IVF0011431 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q6DEY14.1e-1831.58Survival of motor neuron-related-splicing factor 30 OS=Xenopus tropicalis OX=836... [more]
O759402.9e-1631.34Survival of motor neuron-related-splicing factor 30 OS=Homo sapiens OX=9606 GN=S... [more]
Q5R5913.8e-1630.99Survival of motor neuron-related-splicing factor 30 OS=Pongo abelii OX=9601 GN=S... [more]
Q3T0456.5e-1630.99Survival of motor neuron-related-splicing factor 30 OS=Bos taurus OX=9913 GN=SMN... [more]
Q4QQU62.5e-1530.99Survival of motor neuron-related-splicing factor 30 OS=Rattus norvegicus OX=1011... [more]
BLAST of IVF0011431 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1K7R28.2e-15595.32survival of motor neuron-related-splicing factor 30 OS=Cucurbita maxima OX=3661 ... [more]
A0A6J1EY488.2e-15595.32survival of motor neuron-related-splicing factor 30 OS=Cucurbita moschata OX=366... [more]
A0A6J1DPE24.7e-15092.98survival of motor neuron-related-splicing factor 30 OS=Momordica charantia OX=36... [more]
A0A1S3CE073.5e-13799.61survival of motor neuron-related-splicing factor 30 isoform X2 OS=Cucumis melo O... [more]
A0A1S3CD969.5e-13599.60survival of motor neuron-related-splicing factor 30 isoform X1 OS=Cucumis melo O... [more]
BLAST of IVF0011431 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_004142808.13.82e-20598.66survival of motor neuron-related-splicing factor 30 isoform X1 [Cucumis sativus]... [more]
XP_038876515.12.12e-20297.32survival of motor neuron-related-splicing factor 30 [Benincasa hispida][more]
XP_022933076.15.57e-19895.32survival of motor neuron-related-splicing factor 30 [Cucurbita moschata] >XP_022... [more]
XP_022155149.19.87e-19292.98survival of motor neuron-related-splicing factor 30 [Momordica charantia][more]
KAG7032438.11.68e-19187.93Survival of motor neuron-related-splicing factor 30 [Cucurbita argyrosperma subs... [more]
BLAST of IVF0011431 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G02570.12.0e-10567.57nucleic acid binding;RNA binding [more]
AT2G02570.22.0e-10567.57nucleic acid binding;RNA binding [more]
AT2G02570.42.0e-10567.57nucleic acid binding;RNA binding [more]
AT2G02570.31.2e-9764.19nucleic acid binding;RNA binding [more]
InterPro
Analysis Name: InterPro Annotations of Melon (IVF77) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 43..63
NoneNo IPR availableCOILSCoilCoilcoord: 158..178
NoneNo IPR availableCOILSCoilCoilcoord: 9..29
NoneNo IPR availableGENE3D2.30.30.140coord: 96..152
e-value: 5.8E-11
score: 44.0
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 256..276
NoneNo IPR availablePANTHERPTHR13681:SF32BNAA06G34090D PROTEINcoord: 1..292
NoneNo IPR availablePANTHERPTHR13681SURVIVAL OF MOTOR NEURON-RELATED-SPLICING FACTOR 30-RELATEDcoord: 1..292
NoneNo IPR availableSUPERFAMILY63748Tudor/PWWP/MBTcoord: 100..151
IPR002999Tudor domainSMARTSM00333TUDOR_7coord: 99..156
e-value: 1.7E-11
score: 54.2
IPR002999Tudor domainPROSITEPS50304TUDORcoord: 100..158
score: 13.444279
IPR002999Tudor domainCDDcd04508TUDORcoord: 104..149
e-value: 9.30718E-11
score: 54.1411
IPR010304Survival motor neuronPFAMPF06003SMNcoord: 68..157
e-value: 1.2E-6
score: 28.0

Relationships

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

Feature NameUnique NameType
IVF0011431.1IVF0011431.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006397 mRNA processing
cellular_component GO:0005737 cytoplasm
cellular_component GO:0005634 nucleus
molecular_function GO:0003723 RNA binding