Spg021112 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg021112
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
Descriptionphosphopantetheine adenylyltransferase
Locationscaffold9: 688143 .. 722602 (+)
RNA-Seq ExpressionSpg021112
SyntenySpg021112
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGCTACCTCGGAGGATTTGACTACCAATTCAAAAATCTCTCCTCCAAATTCATATGGAACTGTGGTTCTTGGTGGTACTTTTGATCGATTACACGACGGTCACCGTCTTTTTCTCAAGGCTGCAGCAGAGCTGGCAAGGGATCGGATTCTGATTGGAATTTGTGATGGTCCTATGCTGAGTAAAAAAAAGTTTCCGGAACTTATACAACCCATTGAGCAAAGAATGCAAAATGTTATAAATTATATCAAGTCTGTGAAGCCTGCTCTGTTGGTACACGTCGAACCTATTGTCGATCCATATGGTCCATCCATTGTTGATGAAACTTTGGAGGCAATTGTTGTCAGCAAAGAGACGTTAGCAGGTGGAATGTCAGTTAACAAGAAGCGAGGCAAGAATGGCCTTTCGCAACTGAAGATTGAAGTTGTGGATTTAGTTACTGGGGAATCTGGTGAAGATAAGTTGAGTTCATCAACACTAAGAAAGCTTGAGGCAGAGAAGGCTGCCTCTTCTTCCTTGCAGCAACAGACAGAGTAG

Coding sequence (CDS)

ATGGCTACCTCGGAGGATTTGACTACCAATTCAAAAATCTCTCCTCCAAATTCATATGGAACTGTGGTTCTTGGTGGTACTTTTGATCGATTACACGACGGTCACCGTCTTTTTCTCAAGGCTGCAGCAGAGCTGGCAAGGGATCGGATTCTGATTGGAATTTGTGATGGTCCTATGCTGAGTAAAAAAAAGTTTCCGGAACTTATACAACCCATTGAGCAAAGAATGCAAAATGTTATAAATTATATCAAGTCTGTGAAGCCTGCTCTGTTGGTACACGTCGAACCTATTGTCGATCCATATGGTCCATCCATTGTTGATGAAACTTTGGAGGCAATTGTTGTCAGCAAAGAGACGTTAGCAGGTGGAATGTCAGTTAACAAGAAGCGAGGCAAGAATGGCCTTTCGCAACTGAAGATTGAAGTTGTGGATTTAGTTACTGGGGAATCTGGTGAAGATAAGTTGAGTTCATCAACACTAAGAAAGCTTGAGGCAGAGAAGGCTGCCTCTTCTTCCTTGCAGCAACAGACAGAGTAG

Protein sequence

MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPMLSKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETLAGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAASSSLQQQTE
Homology
[Close]
BLAST of Spg021112 vs. NCBI nr
Match: XP_022137784.1 (phosphopantetheine adenylyltransferase [Momordica charantia])

HSP 1 Score: 298.1 bits (762), Expect = 5.0e-77
Identity = 153/170 (90.00%), Postives = 160/170 (94.12%), Query Frame = 0 

Query: 1   MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPML 60
           MA SED TTN +ISPPNSYG VVLGGTFDRLHDGHRLFLKAAAELARDRI+IG+CDGPML
Sbjct: 1   MAISEDSTTNQQISPPNSYGGVVLGGTFDRLHDGHRLFLKAAAELARDRIMIGVCDGPML 60

Query: 61  SKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120
           +KKKFPELIQPIE+RM NV+NYIKSVKP LLVHVEPIVDPYGPSIVDETLEAIVVSKETL
Sbjct: 61  TKKKFPELIQPIEERMLNVVNYIKSVKPELLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120

Query: 121 AGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAAS 171
           AGGMSVNKKRG+ GLSQLKIEVVDLVT ESG DKLSSSTLRK EAEKAAS
Sbjct: 121 AGGMSVNKKRGEKGLSQLKIEVVDLVTDESGGDKLSSSTLRKFEAEKAAS 170

[Close]
BLAST of Spg021112 vs. NCBI nr
Match: XP_038896019.1 (phosphopantetheine adenylyltransferase isoform X2 [Benincasa hispida])

HSP 1 Score: 296.2 bits (757), Expect = 1.9e-76
Identity = 155/178 (87.08%), Postives = 166/178 (93.26%), Query Frame = 0 

Query: 1   MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPML 60
           MA SED   NSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIG+CDGPML
Sbjct: 15  MAISEDSIINSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGVCDGPML 74

Query: 61  SKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120
           SKKKFPELIQPIE+RMQNV+NYIKSVKPALL++VEPIVDPYGPSIVDETLEAI+VS ETL
Sbjct: 75  SKKKFPELIQPIEERMQNVVNYIKSVKPALLINVEPIVDPYGPSIVDETLEAIIVSNETL 134

Query: 121 AGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAASSSLQQQTE 179
            GGMSVNKKR +NGLSQLKIEVVDLVT E+  +KLSSS LR+LEAEKAA S+LQQQTE
Sbjct: 135 PGGMSVNKKRAENGLSQLKIEVVDLVTDEADGEKLSSSALRELEAEKAA-SALQQQTE 191

[Close]
BLAST of Spg021112 vs. NCBI nr
Match: XP_038896027.1 (phosphopantetheine adenylyltransferase isoform X3 [Benincasa hispida] >XP_038896034.1 phosphopantetheine adenylyltransferase isoform X3 [Benincasa hispida])

HSP 1 Score: 296.2 bits (757), Expect = 1.9e-76
Identity = 155/178 (87.08%), Postives = 166/178 (93.26%), Query Frame = 0 

Query: 1   MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPML 60
           MA SED   NSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIG+CDGPML
Sbjct: 1   MAISEDSIINSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGVCDGPML 60

Query: 61  SKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120
           SKKKFPELIQPIE+RMQNV+NYIKSVKPALL++VEPIVDPYGPSIVDETLEAI+VS ETL
Sbjct: 61  SKKKFPELIQPIEERMQNVVNYIKSVKPALLINVEPIVDPYGPSIVDETLEAIIVSNETL 120

Query: 121 AGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAASSSLQQQTE 179
            GGMSVNKKR +NGLSQLKIEVVDLVT E+  +KLSSS LR+LEAEKAA S+LQQQTE
Sbjct: 121 PGGMSVNKKRAENGLSQLKIEVVDLVTDEADGEKLSSSALRELEAEKAA-SALQQQTE 177

[Close]
BLAST of Spg021112 vs. NCBI nr
Match: XP_038896014.1 (phosphopantetheine adenylyltransferase isoform X1 [Benincasa hispida])

HSP 1 Score: 296.2 bits (757), Expect = 1.9e-76
Identity = 155/178 (87.08%), Postives = 166/178 (93.26%), Query Frame = 0 

Query: 1   MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPML 60
           MA SED   NSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIG+CDGPML
Sbjct: 47  MAISEDSIINSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGVCDGPML 106

Query: 61  SKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120
           SKKKFPELIQPIE+RMQNV+NYIKSVKPALL++VEPIVDPYGPSIVDETLEAI+VS ETL
Sbjct: 107 SKKKFPELIQPIEERMQNVVNYIKSVKPALLINVEPIVDPYGPSIVDETLEAIIVSNETL 166

Query: 121 AGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAASSSLQQQTE 179
            GGMSVNKKR +NGLSQLKIEVVDLVT E+  +KLSSS LR+LEAEKAA S+LQQQTE
Sbjct: 167 PGGMSVNKKRAENGLSQLKIEVVDLVTDEADGEKLSSSALRELEAEKAA-SALQQQTE 223

[Close]
BLAST of Spg021112 vs. NCBI nr
Match: KAG7028970.1 (Phosphopantetheine adenylyltransferase [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 290.4 bits (742), Expect = 1.0e-74
Identity = 154/177 (87.01%), Postives = 163/177 (92.09%), Query Frame = 0 

Query: 1   MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPML 60
           M  SED   +SKISPPNSY +VVLGGTFDRLHDGHRLFLKAAAELARDRILIG+CDGPML
Sbjct: 513 MTISEDSAIDSKISPPNSYESVVLGGTFDRLHDGHRLFLKAAAELARDRILIGVCDGPML 572

Query: 61  SKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120
           SKKKF ELIQPIE+RMQNV++Y+KSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL
Sbjct: 573 SKKKFRELIQPIEERMQNVVDYVKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 632

Query: 121 AGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAASSSLQQQT 178
           AGGMSVNKKRG+ GL  LKIEVVDLVT ESG DKLSSSTLRKLEAEKAA  +LQQQT
Sbjct: 633 AGGMSVNKKRGEKGLPLLKIEVVDLVTEESGGDKLSSSTLRKLEAEKAA-PALQQQT 688

[Close]
BLAST of Spg021112 vs. ExPASy Swiss-Prot
Match: Q9ZPV8 (Phosphopantetheine adenylyltransferase OS=Arabidopsis thaliana OX=3702 GN=COAD PE=1 SV=1)

HSP 1 Score: 242.7 bits (618), Expect = 3.2e-63
Identity = 121/169 (71.60%), Postives = 146/169 (86.39%), Query Frame = 0 

Query: 1   MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPML 60
           MA  ED    SK+SP NS+G VVLGGTFDRLHDGHR+FLKAAAELARDRI++G+CDGPML
Sbjct: 1   MAAPED----SKMSPANSFGAVVLGGTFDRLHDGHRMFLKAAAELARDRIVVGVCDGPML 60

Query: 61  SKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120
           +KK+F ++IQPIE+RM+NV  Y+KS+KP L+V  EPI DPYGPSIVDE LEAIVVSKETL
Sbjct: 61  TKKQFSDMIQPIEERMRNVETYVKSIKPELVVQAEPITDPYGPSIVDENLEAIVVSKETL 120

Query: 121 AGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAA 170
            GG+SVN+KR + GLSQLKIEVV++V+  S  +K+SSSTLRK+EAEKA+
Sbjct: 121 PGGLSVNRKRAERGLSQLKIEVVEIVSDGSSGNKISSSTLRKMEAEKAS 165

[Close]
BLAST of Spg021112 vs. ExPASy Swiss-Prot
Match: Q6ZLC4 (Phosphopantetheine adenylyltransferase 1 OS=Oryza sativa subsp. japonica OX=39947 GN=Os07g0179400 PE=2 SV=1)

HSP 1 Score: 211.1 bits (536), Expect = 1.0e-53
Identity = 105/155 (67.74%), Postives = 133/155 (85.81%), Query Frame = 0 

Query: 14  SPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPMLSKKKFPELIQPIE 73
           +PP  YG+VVLGGTFDRLHDGHR  LKA+A+LARDRI++G+C GPML+KK++ ELI+P+E
Sbjct: 24  APP--YGSVVLGGTFDRLHDGHRRLLKASADLARDRIVVGVCTGPMLAKKEYAELIEPVE 83

Query: 74  QRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETLAGGMSVNKKRGKN 133
           +RM+ V +YIKSVKP L+V VEPI DPYGPSI+D+ L+AI+VSKETL GG +VN+KR + 
Sbjct: 84  KRMKAVEDYIKSVKPELVVQVEPIEDPYGPSIIDDKLDAIIVSKETLNGGFAVNRKREEK 143

Query: 134 GLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKA 169
           GL  LK+EVVDL++G +  +KLSSS LRKLEAEKA
Sbjct: 144 GLPLLKVEVVDLLSGGAEGEKLSSSALRKLEAEKA 176

[Close]
BLAST of Spg021112 vs. ExPASy Swiss-Prot
Match: B9F2L1 (Phosphopantetheine adenylyltransferase 2 OS=Oryza sativa subsp. japonica OX=39947 GN=Os02g0134000 PE=3 SV=1)

HSP 1 Score: 195.3 bits (495), Expect = 5.9e-49
Identity = 105/170 (61.76%), Postives = 129/170 (75.88%), Query Frame = 0 

Query: 19  YGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPMLSKKK----FPELIQPIEQ 78
           Y  VV+GGTFDRLH GH LFLKAAAE AR+RI+IGICDGPML+KK+    +  LIQPIE+
Sbjct: 35  YAAVVVGGTFDRLHQGHHLFLKAAAEFARERIVIGICDGPMLAKKQASRMYAYLIQPIEK 94

Query: 79  RMQNVINYIK---------SVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETLAGGMS 138
           RM+NV  YIK         S+KP L VHVEPIVDP+GPSIVDE LEAI+VSKETL GG++
Sbjct: 95  RMENVKEYIKAMIASYHFQSIKPDLEVHVEPIVDPFGPSIVDEALEAIIVSKETLPGGLA 154

Query: 139 VNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAASSSLQQ 176
           VN+KR + GL+QL+IEVV+LV  +S  +K+SS+  RK EAE+      Q+
Sbjct: 155 VNRKRAERGLAQLEIEVVELVPEKSTGNKISSTAFRKKEAERELHKQQQE 204

[Close]
BLAST of Spg021112 vs. ExPASy Swiss-Prot
Match: Q9DBL7 (Bifunctional coenzyme A synthase OS=Mus musculus OX=10090 GN=Coasy PE=1 SV=2)

HSP 1 Score: 127.1 bits (318), Expect = 2.0e-28
Identity = 61/152 (40.13%), Postives = 100/152 (65.79%), Query Frame = 0 

Query: 15  PPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPMLSKKKFPELIQPIEQ 74
           P   Y    +GGTFDRLH+ H++ L  A  LA++++++G+ D  +L  K  PEL+QP  +
Sbjct: 186 PVRGYHRGAVGGTFDRLHNAHKVLLSVACVLAQEQLVVGVADKDLLKSKLLPELLQPYAE 245

Query: 75  RMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETLAGGMSVNKKRGKNG 134
           R++++  ++  +KP+L   + P++DPYGP+  D TLE +VVS+ET  GGM+VN+ R +NG
Sbjct: 246 RVEHLTEFLVDIKPSLTFELVPLLDPYGPAGSDPTLEFLVVSEETYRGGMAVNRFRLENG 305

Query: 135 LSQLKIEVVDLVT----GESGEDKLSSSTLRK 163
             +L +  + L+      E+ EDK+SSS+ R+
Sbjct: 306 KEELALYQIQLLKDQSHNENEEDKVSSSSFRQ 337

[Close]
BLAST of Spg021112 vs. ExPASy Swiss-Prot
Match: Q8MIR4 (Bifunctional coenzyme A synthase OS=Sus scrofa OX=9823 GN=COASY PE=1 SV=1)

HSP 1 Score: 124.0 bits (310), Expect = 1.7e-27
Identity = 61/152 (40.13%), Postives = 101/152 (66.45%), Query Frame = 0 

Query: 15  PPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPMLSKKKFPELIQPIEQ 74
           P   +    +GGTFDRLH+ H++ L  A  LA++++++G+ D  +L  K  PEL+QP  +
Sbjct: 186 PVRGHQRGAVGGTFDRLHNAHKVLLSVACILAQEQLVVGVADKDLLKSKLLPELLQPYTE 245

Query: 75  RMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETLAGGMSVNKKRGKNG 134
           R++++  ++  +KP+L   + P++DPYGP+  D +LE +VVS+ET  GGM+VN+ R +NG
Sbjct: 246 RVEHLSEFLVDIKPSLSFDLIPLLDPYGPAGSDPSLEFLVVSEETYRGGMAVNRFRLENG 305

Query: 135 LSQLKIEVV----DLVTGESGEDKLSSSTLRK 163
           L +L +  +    DL   E+ EDK+SSS+ R+
Sbjct: 306 LEELTLYQIQLLKDLNPKENEEDKVSSSSFRQ 337

[Close]
BLAST of Spg021112 vs. ExPASy TrEMBL
Match: A0A6J1C893 (phosphopantetheine adenylyltransferase OS=Momordica charantia OX=3673 GN=LOC111009139 PE=4 SV=1)

HSP 1 Score: 298.1 bits (762), Expect = 2.4e-77
Identity = 153/170 (90.00%), Postives = 160/170 (94.12%), Query Frame = 0 

Query: 1   MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPML 60
           MA SED TTN +ISPPNSYG VVLGGTFDRLHDGHRLFLKAAAELARDRI+IG+CDGPML
Sbjct: 1   MAISEDSTTNQQISPPNSYGGVVLGGTFDRLHDGHRLFLKAAAELARDRIMIGVCDGPML 60

Query: 61  SKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120
           +KKKFPELIQPIE+RM NV+NYIKSVKP LLVHVEPIVDPYGPSIVDETLEAIVVSKETL
Sbjct: 61  TKKKFPELIQPIEERMLNVVNYIKSVKPELLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120

Query: 121 AGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAAS 171
           AGGMSVNKKRG+ GLSQLKIEVVDLVT ESG DKLSSSTLRK EAEKAAS
Sbjct: 121 AGGMSVNKKRGEKGLSQLKIEVVDLVTDESGGDKLSSSTLRKFEAEKAAS 170

[Close]
BLAST of Spg021112 vs. ExPASy TrEMBL
Match: A0A6J1G8J4 (phosphopantetheine adenylyltransferase isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111451700 PE=4 SV=1)

HSP 1 Score: 290.4 bits (742), Expect = 5.0e-75
Identity = 154/177 (87.01%), Postives = 163/177 (92.09%), Query Frame = 0 

Query: 1   MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPML 60
           M  SED   +SKISPPNSY +VVLGGTFDRLHDGHRLFLKAAAELARDRILIG+CDGPML
Sbjct: 10  MTISEDSAIDSKISPPNSYESVVLGGTFDRLHDGHRLFLKAAAELARDRILIGVCDGPML 69

Query: 61  SKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120
           SKKKF ELIQPIE+RMQNV++Y+KSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL
Sbjct: 70  SKKKFRELIQPIEERMQNVVDYVKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 129

Query: 121 AGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAASSSLQQQT 178
           AGGMSVNKKRG+ GL  LKIEVVDLVT ESG DKLSSSTLRKLEAEKAA  +LQQQT
Sbjct: 130 AGGMSVNKKRGEKGLPLLKIEVVDLVTEESGGDKLSSSTLRKLEAEKAA-PALQQQT 185

[Close]
BLAST of Spg021112 vs. ExPASy TrEMBL
Match: A0A6J1G807 (phosphopantetheine adenylyltransferase isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111451700 PE=4 SV=1)

HSP 1 Score: 290.4 bits (742), Expect = 5.0e-75
Identity = 154/177 (87.01%), Postives = 163/177 (92.09%), Query Frame = 0 

Query: 1   MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPML 60
           M  SED   +SKISPPNSY +VVLGGTFDRLHDGHRLFLKAAAELARDRILIG+CDGPML
Sbjct: 1   MTISEDSAIDSKISPPNSYESVVLGGTFDRLHDGHRLFLKAAAELARDRILIGVCDGPML 60

Query: 61  SKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120
           SKKKF ELIQPIE+RMQNV++Y+KSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL
Sbjct: 61  SKKKFRELIQPIEERMQNVVDYVKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120

Query: 121 AGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAASSSLQQQT 178
           AGGMSVNKKRG+ GL  LKIEVVDLVT ESG DKLSSSTLRKLEAEKAA  +LQQQT
Sbjct: 121 AGGMSVNKKRGEKGLPLLKIEVVDLVTEESGGDKLSSSTLRKLEAEKAA-PALQQQT 176

[Close]
BLAST of Spg021112 vs. ExPASy TrEMBL
Match: A0A6J1IC88 (phosphopantetheine adenylyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111472344 PE=4 SV=1)

HSP 1 Score: 290.0 bits (741), Expect = 6.5e-75
Identity = 153/177 (86.44%), Postives = 163/177 (92.09%), Query Frame = 0 

Query: 1   MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPML 60
           M  SED   +SKISPPNSY +VVLGGTFDRLHDGHRLFLKAAAELARDRILIG+CDGPML
Sbjct: 1   MTISEDTAIDSKISPPNSYESVVLGGTFDRLHDGHRLFLKAAAELARDRILIGVCDGPML 60

Query: 61  SKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120
           SKKKF ELIQPIE+RMQNV++Y+KSVKPALLVHVEPIVDPYGPS+VD+TLEAIVVSKETL
Sbjct: 61  SKKKFRELIQPIEERMQNVVDYVKSVKPALLVHVEPIVDPYGPSVVDKTLEAIVVSKETL 120

Query: 121 AGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAASSSLQQQT 178
           AGGMSVNKKRG+NGL  LKIEVVDLVT ESG DKLSSSTLRKLEAEKAA   LQQQT
Sbjct: 121 AGGMSVNKKRGENGLPLLKIEVVDLVTEESGGDKLSSSTLRKLEAEKAA-PVLQQQT 176

[Close]
BLAST of Spg021112 vs. ExPASy TrEMBL
Match: A0A5D3CW78 (Phosphopantetheine adenylyltransferase isoform X2 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold209G00840 PE=4 SV=1)

HSP 1 Score: 288.9 bits (738), Expect = 1.5e-74
Identity = 153/178 (85.96%), Postives = 164/178 (92.13%), Query Frame = 0 

Query: 1   MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPML 60
           MA SED T N KISPPNSYG+VVLGGTFDRLHDGHRLFLKAAAELARD I IG+CDGPML
Sbjct: 1   MAISEDSTINYKISPPNSYGSVVLGGTFDRLHDGHRLFLKAAAELARDWIWIGVCDGPML 60

Query: 61  SKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120
           +KKKFPELIQPIE+RMQNV+NYIKSVKP LLV VEPIVDPYGPSIV+E LEAIVVSKETL
Sbjct: 61  NKKKFPELIQPIEERMQNVVNYIKSVKPTLLVSVEPIVDPYGPSIVEEGLEAIVVSKETL 120

Query: 121 AGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAASSSLQQQTE 179
            GG+SVNKKR +NGLSQLKIEVVDLVT ESG++KLSSS LRKLEAEKAA S+LQQQTE
Sbjct: 121 PGGISVNKKRSENGLSQLKIEVVDLVTEESGDEKLSSSILRKLEAEKAA-SALQQQTE 177

[Close]
BLAST of Spg021112 vs. TAIR 10
Match: AT2G18250.1 (4-phosphopantetheine adenylyltransferase )

HSP 1 Score: 242.7 bits (618), Expect = 2.3e-64
Identity = 121/169 (71.60%), Postives = 146/169 (86.39%), Query Frame = 0 

Query: 1   MATSEDLTTNSKISPPNSYGTVVLGGTFDRLHDGHRLFLKAAAELARDRILIGICDGPML 60
           MA  ED    SK+SP NS+G VVLGGTFDRLHDGHR+FLKAAAELARDRI++G+CDGPML
Sbjct: 1   MAAPED----SKMSPANSFGAVVLGGTFDRLHDGHRMFLKAAAELARDRIVVGVCDGPML 60

Query: 61  SKKKFPELIQPIEQRMQNVINYIKSVKPALLVHVEPIVDPYGPSIVDETLEAIVVSKETL 120
           +KK+F ++IQPIE+RM+NV  Y+KS+KP L+V  EPI DPYGPSIVDE LEAIVVSKETL
Sbjct: 61  TKKQFSDMIQPIEERMRNVETYVKSIKPELVVQAEPITDPYGPSIVDENLEAIVVSKETL 120

Query: 121 AGGMSVNKKRGKNGLSQLKIEVVDLVTGESGEDKLSSSTLRKLEAEKAA 170
            GG+SVN+KR + GLSQLKIEVV++V+  S  +K+SSSTLRK+EAEKA+
Sbjct: 121 PGGLSVNRKRAERGLSQLKIEVVEIVSDGSSGNKISSSTLRKMEAEKAS 165

The following BLAST results are available for this feature:
BLAST of Spg021112 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022137784.15.0e-7790.00phosphopantetheine adenylyltransferase [Momordica charantia][more]
XP_038896019.11.9e-7687.08phosphopantetheine adenylyltransferase isoform X2 [Benincasa hispida][more]
XP_038896027.11.9e-7687.08phosphopantetheine adenylyltransferase isoform X3 [Benincasa hispida] >XP_038896... [more]
XP_038896014.11.9e-7687.08phosphopantetheine adenylyltransferase isoform X1 [Benincasa hispida][more]
KAG7028970.11.0e-7487.01Phosphopantetheine adenylyltransferase [Cucurbita argyrosperma subsp. argyrosper... [more]
BLAST of Spg021112 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9ZPV83.2e-6371.60Phosphopantetheine adenylyltransferase OS=Arabidopsis thaliana OX=3702 GN=COAD P... [more]
Q6ZLC41.0e-5367.74Phosphopantetheine adenylyltransferase 1 OS=Oryza sativa subsp. japonica OX=3994... [more]
B9F2L15.9e-4961.76Phosphopantetheine adenylyltransferase 2 OS=Oryza sativa subsp. japonica OX=3994... [more]
Q9DBL72.0e-2840.13Bifunctional coenzyme A synthase OS=Mus musculus OX=10090 GN=Coasy PE=1 SV=2[more]
Q8MIR41.7e-2740.13Bifunctional coenzyme A synthase OS=Sus scrofa OX=9823 GN=COASY PE=1 SV=1[more]
BLAST of Spg021112 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1C8932.4e-7790.00phosphopantetheine adenylyltransferase OS=Momordica charantia OX=3673 GN=LOC1110... [more]
A0A6J1G8J45.0e-7587.01phosphopantetheine adenylyltransferase isoform X1 OS=Cucurbita moschata OX=3662 ... [more]
A0A6J1G8075.0e-7587.01phosphopantetheine adenylyltransferase isoform X2 OS=Cucurbita moschata OX=3662 ... [more]
A0A6J1IC886.5e-7586.44phosphopantetheine adenylyltransferase OS=Cucurbita maxima OX=3661 GN=LOC1114723... [more]
A0A5D3CW781.5e-7485.96Phosphopantetheine adenylyltransferase isoform X2 OS=Cucumis melo var. makuwa OX... [more]
BLAST of Spg021112 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G18250.12.3e-6471.604-phosphopantetheine adenylyltransferase [more]
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR014729Rossmann-like alpha/beta/alpha sandwich foldGENE3D3.40.50.620HUPscoord: 21..171
e-value: 2.4E-45
score: 156.3
IPR004821Cytidyltransferase-like domainPFAMPF01467CTP_transf_likecoord: 24..92
e-value: 1.5E-8
score: 35.0
IPR004821Cytidyltransferase-like domainTIGRFAMTIGR00125TIGR00125coord: 22..81
e-value: 1.2E-7
score: 29.7
NoneNo IPR availablePANTHERPTHR10695:SF50PHOSPHOPANTETHEINE ADENYLYLTRANSFERASEcoord: 5..172
NoneNo IPR availablePANTHERPTHR10695DEPHOSPHO-COA KINASE-RELATEDcoord: 5..172
NoneNo IPR availableCDDcd02164PPAT_CoAScoord: 22..162
e-value: 3.59286E-67
score: 199.814
NoneNo IPR availableSUPERFAMILY52374Nucleotidylyl transferasecoord: 21..167

Relationships

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

Feature NameUnique NameType
Spg021112.1Spg021112.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006629 lipid metabolic process
biological_process GO:0019915 lipid storage
biological_process GO:0016310 phosphorylation
biological_process GO:0080020 regulation of coenzyme A biosynthetic process
biological_process GO:0009651 response to salt stress
biological_process GO:0009058 biosynthetic process
molecular_function GO:0004140 dephospho-CoA kinase activity
molecular_function GO:0004595 pantetheine-phosphate adenylyltransferase activity
molecular_function GO:0003824 catalytic activity