Cmc10g0280651 (gene) Melon (Charmono) v1.1

Overview
NameCmc10g0280651
Typegene
OrganismCucumis melo L. var. cantalupensis cv. Charmono (Melon (Charmono) v1.1)
DescriptionQuinolinate phosphoribosyltransferase [decarboxylating]
LocationCMiso1.1chr10: 18508110 .. 18541833 (+)
RNA-Seq ExpressionCmc10g0280651
SyntenyCmc10g0280651
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

TTAGCATTAGCATTAGCATTAGCATTAGCATGTATCATTGAGTCGGGACAAAACTACCTGCGCAAATGTGGTCCTGTCTTCTCCACAATCATGTCTCTAAACCGACTTTACCTTGCACACTTTTTGTTTTAACACTACTTCTTCATTCTTTTTTCTCACAGTCGAACCCCTCGCAAGTTCTTGCTTTCTGCTCCCTCTTTAGTTCCTCTTCGTCCTCAATTTCTCTTTATCTCCCAGTATAATCGTCAACTTTTTGGAATTTCCAGACTGTGAACCACACATTCACTGCCGGCAAGACTTATGCAACCGCAATTCTACTTTATCTGCACACTCAATTAAGTCATTTGAGTAGATGTATATGCTGAATTTGTATAGACCCTCTTTCGGGCATCTCTGGCAATGCTGTGAACATAAGGATTTGTGGGGTTGTTCTAGAGGGTTAACACGCATTCCAATCTCTACTGCTCGCTGCTTAGGTTCCAGGAAAATTATTGCCATGTCTGCATCTGTATCAAACGATTCTGGGATATCAGTTGCATCAGTAGCAATCCAGCCTCCATCTCACCCTACCTATGATCTGCGTGGCATCATCAAGTTAGCCCTTGCAGAAGATTCTGCTGACTTTGGTGATGTAACATCTTTGGCAACTATCCCTTCTGACATGCTAGTGGATGCTTTCTTTTTAGCCAAAGAGGATGGAATTGTTGCTGGTATTGCTCTTGCAGACATGGTTTTCCAGGAGGTTGATCCTTCAATTAGGGTGGAATGGTCAAAAAAGGATGGAGATTATATTCGTAAAGGATTGCAATTTGGAAAAGTTTCTGGAAAAGCACAAAGCATTCTTGTAGCTGAAAGGGTGGCACTAAACTTTATGCAGAGAATGAGTGGAATTGCAACTTTAACTAAGGCAATGGCAGATGCTGCAAGCCCTGCATGCATTCTGGAAACGAGAAAAACTGCTCCAGGTTTACGTTTGGTGGATAAGTGGGCGGTATTAATTGGTGGAGGTCAAAATCACAGGATGGGTTTATTTGATATGGTGTTGATAAAAGATAATCATATATCAGCAGCTGGCGGCATCTCAAATGCCATTAAATCTGTGGACTTGTATCTGCAACAAAGGAAACTTAAAATGAACGTTGAGGTTGAGACCAGGACTCTCGAGGAAGTTCATGAGGTACTACGCTATGCAACTCAAAACAAGACATCCTTAACTAGGATGATGTTGGATAATATGGTAGTTCCACTGCCAAGTGGTGATGTTGATGTTTCCATGCTTAAGGAGGCTGTAGACATAATCAATGGGAGATTTGAGACTGAGGCGTCAGGAAATGTTACTCTCCACACTATACATAAAATTGGACAAACTGGGGTTACTTACATATCCAGTGGTGCGCTGACACATTCTGTGAAAGCTCTTGATATCTCTTTGAAGATAGACACAGAATTGGCCCTTCAAGTTGGAAGACGTACAAAACGAGCTTGATTGATGATTCATTCTTGTATTTGGACCAATCACAAAGCGCAAGGCAAAGAAGATACAAGAGGCTTTCACACTGCATGTTCAAAAACTGGCAAATGCACAACGAGAAACCAAGAATTTTGAACTCAAATTCTTGTATAATGTTAGTTCAGCAAGTCAAGAAGAGCATGGAGTCAAGATGACACGGGAAAAGTTGTGTAATTTGGAAGATGACACGGGGAACGAAAAAAGTATGCAGAATTTGTGAAGAGGTGGCTATCCAACTTGCATCTCTTGGAATTCCGTGATGTCAACGTTGTCAAACATTACCATTATGAGGGGCGGATTACATAGCACATATTTAAGACAATTTAAAAACAATTATATCTTTTAATTTTGAGAAATGGTTGCTCGTTTGATGTGTAATCAAGTTTTAAGTTCCTAGGTCTTATTTTCTACAATTTGCAATTAAGTGTATTTGAATGACTTTTGAGTTTCTTAGTCTATCCATGACCATTTGGCCTATAAAAAGGCTTGTAATGCTTATGAAATGATAGATAATAAATACTAAAAAGCTTTTGCTTATT

Coding sequence (CDS)

ATGTATATGCTGAATTTGTATAGACCCTCTTTCGGGCATCTCTGGCAATGCTGTGAACATAAGGATTTGTGGGGTTGTTCTAGAGGGTTAACACGCATTCCAATCTCTACTGCTCGCTGCTTAGGTTCCAGGAAAATTATTGCCATGTCTGCATCTGTATCAAACGATTCTGGGATATCAGTTGCATCAGTAGCAATCCAGCCTCCATCTCACCCTACCTATGATCTGCGTGGCATCATCAAGTTAGCCCTTGCAGAAGATTCTGCTGACTTTGGTGATGTAACATCTTTGGCAACTATCCCTTCTGACATGCTAGTGGATGCTTTCTTTTTAGCCAAAGAGGATGGAATTGTTGCTGGTATTGCTCTTGCAGACATGGTTTTCCAGGAGGTTGATCCTTCAATTAGGGTGGAATGGTCAAAAAAGGATGGAGATTATATTCGTAAAGGATTGCAATTTGGAAAAGTTTCTGGAAAAGCACAAAGCATTCTTGTAGCTGAAAGGGTGGCACTAAACTTTATGCAGAGAATGAGTGGAATTGCAACTTTAACTAAGGCAATGGCAGATGCTGCAAGCCCTGCATGCATTCTGGAAACGAGAAAAACTGCTCCAGGTTTACGTTTGGTGGATAAGTGGGCGGTATTAATTGGTGGAGGTCAAAATCACAGGATGGGTTTATTTGATATGGTGTTGATAAAAGATAATCATATATCAGCAGCTGGCGGCATCTCAAATGCCATTAAATCTGTGGACTTGTATCTGCAACAAAGGAAACTTAAAATGAACGTTGAGGTTGAGACCAGGACTCTCGAGGAAGTTCATGAGGTACTACGCTATGCAACTCAAAACAAGACATCCTTAACTAGGATGATGTTGGATAATATGGTAGTTCCACTGCCAAGTGGTGATGTTGATGTTTCCATGCTTAAGGAGGCTGTAGACATAATCAATGGGAGATTTGAGACTGAGGCGTCAGGAAATGTTACTCTCCACACTATACATAAAATTGGACAAACTGGGGTTACTTACATATCCAGTGGTGCGCTGACACATTCTGTGAAAGCTCTTGATATCTCTTTGAAGATAGACACAGAATTGGCCCTTCAAGTTGGAAGACGTACAAAACGAGCTTGA

Protein sequence

MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTRIPISTARCLGSRKIIAMSASVSNDSGISVASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAGIALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGIATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAAGGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLPSGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISLKIDTELALQVGRRTKRA
Homology
[Close]
BLAST of Cmc10g0280651 vs. NCBI nr
Match: XP_008454775.1 (PREDICTED: nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic isoform X1 [Cucumis melo] >XP_008454776.1 PREDICTED: nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic isoform X1 [Cucumis melo] >XP_016901657.1 PREDICTED: nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic isoform X1 [Cucumis melo])

HSP 1 Score: 729.2 bits (1881), Expect = 1.8e-206
Identity = 376/377 (99.73%), Postives = 376/377 (99.73%), Query Frame = 0 

Query: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTRIPISTARCLGSRKIIAMSASVSNDSGIS 60
           MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLT IPISTARCLGSRKIIAMSASVSNDSGIS
Sbjct: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTHIPISTARCLGSRKIIAMSASVSNDSGIS 60

Query: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120
           VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG
Sbjct: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120

Query: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180
           IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI
Sbjct: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180

Query: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240
           ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA
Sbjct: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240

Query: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300
           GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP
Sbjct: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300

Query: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360
           SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL
Sbjct: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360

Query: 361 KIDTELALQVGRRTKRA 378
           KIDTELALQVGRRTKRA
Sbjct: 361 KIDTELALQVGRRTKRA 377

[Close]
BLAST of Cmc10g0280651 vs. NCBI nr
Match: XP_011659842.1 (nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic [Cucumis sativus] >XP_011659843.1 nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic [Cucumis sativus] >KAE8648128.1 hypothetical protein Csa_021520 [Cucumis sativus])

HSP 1 Score: 708.8 bits (1828), Expect = 2.6e-200
Identity = 368/377 (97.61%), Postives = 371/377 (98.41%), Query Frame = 0 

Query: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTRIPISTARCLGSRKIIAMSASVSNDSGIS 60
           MYMLNLYRPSFGHLW+CCEHKDL G SRGLTRIPISTARCLGSRKIIAMSASVS DSGIS
Sbjct: 1   MYMLNLYRPSFGHLWKCCEHKDLCGYSRGLTRIPISTARCLGSRKIIAMSASVSKDSGIS 60

Query: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120
           VAS AIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG
Sbjct: 61  VASAAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120

Query: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180
           IALADMVFQEVDPSIRVEWSKKDGDYI KGLQFGKVSG+AQSILVAERVALNFMQRMSGI
Sbjct: 121 IALADMVFQEVDPSIRVEWSKKDGDYIHKGLQFGKVSGQAQSILVAERVALNFMQRMSGI 180

Query: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240
           ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA
Sbjct: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240

Query: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300
           GGISNAIKSVDLYLQQR+LKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP
Sbjct: 241 GGISNAIKSVDLYLQQRELKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300

Query: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360
           SGDVDVSMLKEAV IINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL
Sbjct: 301 SGDVDVSMLKEAVGIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360

Query: 361 KIDTELALQVGRRTKRA 378
           KIDTELALQVGRRTKRA
Sbjct: 361 KIDTELALQVGRRTKRA 377

[Close]
BLAST of Cmc10g0280651 vs. NCBI nr
Match: XP_031745411.1 (LOW QUALITY PROTEIN: nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic-like [Cucumis sativus])

HSP 1 Score: 704.9 bits (1818), Expect = 3.7e-199
Identity = 366/377 (97.08%), Postives = 370/377 (98.14%), Query Frame = 0 

Query: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTRIPISTARCLGSRKIIAMSASVSNDSGIS 60
           MYMLNLYRPSFGHLW+CCEHKDL G SRGLTRIPISTARCLGSRKIIAMSASVS DSGIS
Sbjct: 1   MYMLNLYRPSFGHLWKCCEHKDLCGYSRGLTRIPISTARCLGSRKIIAMSASVSKDSGIS 60

Query: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120
           VAS AIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG
Sbjct: 61  VASAAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120

Query: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180
           IALADMVFQEVDPSIRVEW KK+GDYI KGLQFGKVSG+AQSILVAERVALNFMQRMSGI
Sbjct: 121 IALADMVFQEVDPSIRVEWXKKNGDYIHKGLQFGKVSGQAQSILVAERVALNFMQRMSGI 180

Query: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240
           ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA
Sbjct: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240

Query: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300
           GGISNAIKSVDLYLQQR+LKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP
Sbjct: 241 GGISNAIKSVDLYLQQRELKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300

Query: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360
           SGDVDVSMLKEAV IINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL
Sbjct: 301 SGDVDVSMLKEAVGIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360

Query: 361 KIDTELALQVGRRTKRA 378
           KIDTELALQVGRRTKRA
Sbjct: 361 KIDTELALQVGRRTKRA 377

[Close]
BLAST of Cmc10g0280651 vs. NCBI nr
Match: XP_038892237.1 (nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic isoform X1 [Benincasa hispida])

HSP 1 Score: 689.9 bits (1779), Expect = 1.2e-194
Identity = 359/377 (95.23%), Postives = 365/377 (96.82%), Query Frame = 0 

Query: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTRIPISTARCLGSRKIIAMSASVSNDSGIS 60
           MY+LNLYRPSFGHLWQCC HK+L GCSRGLT IPISTAR LGSRKIIAMS SVS DSGIS
Sbjct: 1   MYILNLYRPSFGHLWQCCGHKELRGCSRGLTYIPISTARGLGSRKIIAMSTSVSKDSGIS 60

Query: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120
           VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDM+VDAFFLAKEDG+VAG
Sbjct: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMVVDAFFLAKEDGVVAG 120

Query: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180
           IALADMVFQEVDPS RVEWS+KDGDYI KGLQFGKVSG+AQSILVAERVALNFMQRMSGI
Sbjct: 121 IALADMVFQEVDPSSRVEWSQKDGDYIHKGLQFGKVSGQAQSILVAERVALNFMQRMSGI 180

Query: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240
           ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA
Sbjct: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240

Query: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300
           GGISNAIKSVDLYLQQR LKMNVEVETRTLEEVHEVL YATQNKTSLTRMMLDNMVVPLP
Sbjct: 241 GGISNAIKSVDLYLQQRNLKMNVEVETRTLEEVHEVLHYATQNKTSLTRMMLDNMVVPLP 300

Query: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360
           SGDVDVSMLKEAVDIINGRFETEASGNVTL TI KIGQTGVTYISSGALTHSVKALDISL
Sbjct: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLETIQKIGQTGVTYISSGALTHSVKALDISL 360

Query: 361 KIDTELALQVGRRTKRA 378
           KIDTELALQVGRRTKRA
Sbjct: 361 KIDTELALQVGRRTKRA 377

[Close]
BLAST of Cmc10g0280651 vs. NCBI nr
Match: XP_008454777.1 (PREDICTED: nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic isoform X2 [Cucumis melo])

HSP 1 Score: 679.9 bits (1753), Expect = 1.3e-191
Identity = 356/377 (94.43%), Postives = 356/377 (94.43%), Query Frame = 0 

Query: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTRIPISTARCLGSRKIIAMSASVSNDSGIS 60
           MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLT IPISTARCLGSRKIIAMSASVSNDSGIS
Sbjct: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTHIPISTARCLGSRKIIAMSASVSNDSGIS 60

Query: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120
           VASVAIQPPSHPTYDLRGIIKLALAEDSADF                    AKEDGIVAG
Sbjct: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADF--------------------AKEDGIVAG 120

Query: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180
           IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI
Sbjct: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180

Query: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240
           ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA
Sbjct: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240

Query: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300
           GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP
Sbjct: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300

Query: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360
           SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL
Sbjct: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 357

Query: 361 KIDTELALQVGRRTKRA 378
           KIDTELALQVGRRTKRA
Sbjct: 361 KIDTELALQVGRRTKRA 357

[Close]
BLAST of Cmc10g0280651 vs. ExPASy Swiss-Prot
Match: Q9ZU32 (Nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic OS=Arabidopsis thaliana OX=3702 GN=QPT PE=2 SV=2)

HSP 1 Score: 508.1 bits (1307), Expect = 8.8e-143
Identity = 259/334 (77.54%), Postives = 299/334 (89.52%), Query Frame = 0 

Query: 44  RKIIAMSASVSNDSGISVASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSD 103
           R  + MSAS +  +G    S+ I+PPSHPTYDL+ +IKLALAED+   GDVT +ATIP D
Sbjct: 17  RSFVKMSASATQTAG--EVSMGIKPPSHPTYDLKAVIKLALAEDAGHTGDVTCMATIPFD 76

Query: 104 MLVDAFFLAKEDGIVAGIALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSI 163
           M V+A+FLAKEDGIVAG+ALADM+F+ VDPS++VEW +KDGDY+ KGL+FGKVSG A  I
Sbjct: 77  MEVEAYFLAKEDGIVAGVALADMIFEHVDPSLKVEWMRKDGDYVHKGLKFGKVSGNAHKI 136

Query: 164 LVAERVALNFMQRMSGIATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHR 223
           +VAERV LNFMQRMSGIATLTK MADAASPACILETRKTAPGLRLVDKWAVLIGGG+NHR
Sbjct: 137 VVAERVLLNFMQRMSGIATLTKLMADAASPACILETRKTAPGLRLVDKWAVLIGGGRNHR 196

Query: 224 MGLFDMVLIKDNHISAAGGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQN 283
           MGLFDMV+IKDNHISAAGGI NA+KSVD YL+Q+ L+M+VEVETRTLEEV EVL YA+ +
Sbjct: 197 MGLFDMVMIKDNHISAAGGIVNAVKSVDEYLKQKNLEMDVEVETRTLEEVKEVLEYASGS 256

Query: 284 KTSLTRMMLDNMVVPLPSGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTY 343
           +T LTR+MLDNMVVPL +GDVDV+MLK+AV++INGRFETEASGNVTL T+HKIGQ+GVT+
Sbjct: 257 ETRLTRIMLDNMVVPLENGDVDVTMLKDAVELINGRFETEASGNVTLETVHKIGQSGVTF 316

Query: 344 ISSGALTHSVKALDISLKIDTELALQVGRRTKRA 378
           ISSGALTHSVKALDISLKIDTELAL+VGRRTKRA
Sbjct: 317 ISSGALTHSVKALDISLKIDTELALEVGRRTKRA 348

[Close]
BLAST of Cmc10g0280651 vs. ExPASy Swiss-Prot
Match: Q0IZS0 (Nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=Os09g0553600 PE=2 SV=1)

HSP 1 Score: 476.9 bits (1226), Expect = 2.2e-133
Identity = 237/316 (75.00%), Postives = 283/316 (89.56%), Query Frame = 0 

Query: 62  ASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAGI 121
           A V + PP+HPTYDL+ +I LAL+ED+ D GDV+ LATIPSD+  +A F+AKEDG+VAGI
Sbjct: 56  ARVPVAPPAHPTYDLKAVINLALSEDAGDRGDVSCLATIPSDVKAEATFIAKEDGVVAGI 115

Query: 122 ALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGIA 181
           +LADM+F++VDPS++VEW + DG+Y+ KGLQFG+V G A++I+VAERV LNFMQRMSGIA
Sbjct: 116 SLADMIFKQVDPSLKVEWFESDGNYVHKGLQFGRVYGCARNIIVAERVVLNFMQRMSGIA 175

Query: 182 TLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAAG 241
           T+TKAMADAA PACILETRKTAPGLRLVDKWAVLIGGG+NHR+GLFDMV+IKDNHIS AG
Sbjct: 176 TMTKAMADAAHPACILETRKTAPGLRLVDKWAVLIGGGKNHRIGLFDMVMIKDNHISVAG 235

Query: 242 GISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLPS 301
           GI+NA+K VD +L + KL + VEVETRTL+EV ++L YA +N TSLTR+MLDNMVVPL +
Sbjct: 236 GITNAMKFVDRFLAKEKLALPVEVETRTLQEVKDLLEYAAENNTSLTRIMLDNMVVPLGN 295

Query: 302 GDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISLK 361
           GD+DVSMLK+AV++INGRFETEASGNVT+ T+ KIG+TGVTYISSGALTHSVKALDISLK
Sbjct: 296 GDIDVSMLKDAVELINGRFETEASGNVTIDTVKKIGETGVTYISSGALTHSVKALDISLK 355

Query: 362 IDTELALQVGRRTKRA 378
           IDTELALQVGRRT RA
Sbjct: 356 IDTELALQVGRRTNRA 371

[Close]
BLAST of Cmc10g0280651 vs. ExPASy Swiss-Prot
Match: P77938 (Probable nicotinate-nucleotide pyrophosphorylase [carboxylating] OS=Rhodospirillum rubrum OX=1085 GN=nadC PE=3 SV=1)

HSP 1 Score: 201.8 bits (512), Expect = 1.3e-50
Identity = 129/301 (42.86%), Postives = 174/301 (57.81%), Query Frame = 0 

Query: 69  PSHPT-----YDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAGIAL 128
           P+HP      + +   ++ ALAED    GD+TS ATIP+     A F+A++ GI+AG+  
Sbjct: 3   PNHPVAALSPFAIDEAVRRALAEDLGRAGDITSTATIPAATRAHARFVARQPGILAGLGC 62

Query: 129 ADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGIATL 188
           A   F  +D ++      +DG  I  G    +V+G A++IL AER ALNF+  +SGIAT 
Sbjct: 63  ARSAFALLDDTVTFTTPLEDGAEIAAGQTVAEVAGAARTILAAERTALNFLGHLSGIATR 122

Query: 189 TKAMADAA--SPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAAG 248
           T+   DA   + A +  TRKT PGLR ++K+AV  GGG NHR GL D VLIKDNHI+ AG
Sbjct: 123 TRRFGDAIAHTRARLTCTRKTTPGLRGLEKYAVRCGGGSNHRFGLDDAVLIKDNHIAVAG 182

Query: 249 GISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLPS 308
           G+S A+      +      + +E+E  TLE++ EVL            ++LDNM      
Sbjct: 183 GVSAALSRARAGVGH---MVRIEIEVDTLEQLAEVLAVG-----GAEVVLLDNM------ 242

Query: 309 GDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISLK 363
              D   L  AVD++ GR  TEASG V+L TI  + ++GV YIS GALTHSV  LDI L 
Sbjct: 243 ---DAPTLTRAVDMVAGRLVTEASGGVSLDTIAALAESGVDYISVGALTHSVTTLDIGLD 286

[Close]
BLAST of Cmc10g0280651 vs. ExPASy Swiss-Prot
Match: P30819 (Nicotinate-nucleotide pyrophosphorylase [carboxylating] OS=Pseudomonas aeruginosa (strain ATCC 15692 / DSM 22644 / CIP 104116 / JCM 14847 / LMG 12228 / 1C / PRS 101 / PAO1) OX=208964 GN=nadC PE=3 SV=2)

HSP 1 Score: 170.2 bits (430), Expect = 4.3e-41
Identity = 110/292 (37.67%), Postives = 164/292 (56.16%), Query Frame = 0 

Query: 75  DLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAGIALADMVFQEVDPS 134
           +++  ++ ALAED    GD+T+   I      +A  + +E   +AG A  D VF++VDP 
Sbjct: 12  EIQANVRTALAEDVGG-GDLTA-QLIDPQREAEARVITREHATIAGRAWVDEVFRQVDPR 71

Query: 135 IRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGIATLTKAMAD--AAS 194
           + V W  +DG  +       ++ G A+++L  ER ALNF+Q +SG AT ++  AD  A +
Sbjct: 72  VLVTWQVEDGQRVEPNQMLFQLKGPARALLTGERSALNFLQLLSGTATRSQHYADLVAGT 131

Query: 195 PACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAAGGISNAIKSVDL 254
              +L+TRKT PGLRL  K+AV  GG  NHR+GL+D  LIK+NHI+A GGI  AI     
Sbjct: 132 AVKLLDTRKTLPGLRLAQKYAVTCGGCHNHRIGLYDAFLIKENHIAACGGIDRAI----- 191

Query: 255 YLQQRKLKMN--VEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLPSGDVDVSMLK 314
             + R++     VEVE   L+E+ + L  A  +   L  + LD+M              +
Sbjct: 192 -AEARRIAPGKPVEVEVENLDELRQALE-AGADIVMLDELSLDDM--------------R 251

Query: 315 EAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISLKI 363
            AV +  GR + EASG +   T+  I +TGV YIS G LT  V+A+D+S+++
Sbjct: 252 TAVALTAGRAKLEASGGINEGTLRNIAETGVDYISIGTLTKDVRAVDLSMRL 280

[Close]
BLAST of Cmc10g0280651 vs. ExPASy Swiss-Prot
Match: P30012 (Nicotinate-nucleotide pyrophosphorylase [carboxylating] OS=Salmonella typhimurium (strain LT2 / SGSC1412 / ATCC 700720) OX=99287 GN=nadC PE=1 SV=3)

HSP 1 Score: 165.2 bits (417), Expect = 1.4e-39
Identity = 107/293 (36.52%), Postives = 158/293 (53.92%), Query Frame = 0 

Query: 75  DLRGIIKLALAED---SADFGDVTSLATIPSDMLVDAFFLAKEDGIVAGIALADMVF-QE 134
           D+   +  AL ED     D G+  +   +P+D    A  + +EDG+  G    + VF Q 
Sbjct: 22  DIPAAVAQALREDLGGEVDAGNDITAQLLPADTQAHATVITREDGVFCGKRWVEEVFIQL 81

Query: 135 VDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGIATLTKAMAD- 194
               +R+ W   DGD I       +++G A+ +L  ER ALNF+Q +SG+A+  +     
Sbjct: 82  AGDDVRLTWHVDDGDAIHANQTVFELNGPARVLLTGERTALNFVQTLSGVASEVRRYVGL 141

Query: 195 -AASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAAGGISNAIK 254
            A +   +L+TRKT PGLR   K+AVL GGG NHR+GL D  LIK+NHI A+G +  A++
Sbjct: 142 LAGTQTQLLDTRKTLPGLRTALKYAVLCGGGANHRLGLTDAFLIKENHIIASGSVRQAVE 201

Query: 255 SVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLPSGDVDVSM 314
               +L      + VEVE   L+E+ + L      K     +MLDN          +   
Sbjct: 202 KA-FWLHP---DVPVEVEVENLDELDDAL------KAGADIIMLDNF---------NTDQ 261

Query: 315 LKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISLK 362
           ++EAV  +NG+   E SGNVT  T+ +  +TGV +IS GALT  V+ALD+S++
Sbjct: 262 MREAVKRVNGQARLEVSGNVTAETLREFAETGVDFISVGALTKHVRALDLSMR 295

[Close]
BLAST of Cmc10g0280651 vs. ExPASy TrEMBL
Match: A0A1S3BZD2 (Quinolinate phosphoribosyltransferase [decarboxylating] OS=Cucumis melo OX=3656 GN=LOC103495096 PE=3 SV=1)

HSP 1 Score: 729.2 bits (1881), Expect = 8.9e-207
Identity = 376/377 (99.73%), Postives = 376/377 (99.73%), Query Frame = 0 

Query: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTRIPISTARCLGSRKIIAMSASVSNDSGIS 60
           MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLT IPISTARCLGSRKIIAMSASVSNDSGIS
Sbjct: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTHIPISTARCLGSRKIIAMSASVSNDSGIS 60

Query: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120
           VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG
Sbjct: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120

Query: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180
           IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI
Sbjct: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180

Query: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240
           ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA
Sbjct: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240

Query: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300
           GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP
Sbjct: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300

Query: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360
           SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL
Sbjct: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360

Query: 361 KIDTELALQVGRRTKRA 378
           KIDTELALQVGRRTKRA
Sbjct: 361 KIDTELALQVGRRTKRA 377

[Close]
BLAST of Cmc10g0280651 vs. ExPASy TrEMBL
Match: A0A1S3C051 (Quinolinate phosphoribosyltransferase [decarboxylating] OS=Cucumis melo OX=3656 GN=LOC103495096 PE=3 SV=1)

HSP 1 Score: 679.9 bits (1753), Expect = 6.2e-192
Identity = 356/377 (94.43%), Postives = 356/377 (94.43%), Query Frame = 0 

Query: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTRIPISTARCLGSRKIIAMSASVSNDSGIS 60
           MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLT IPISTARCLGSRKIIAMSASVSNDSGIS
Sbjct: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTHIPISTARCLGSRKIIAMSASVSNDSGIS 60

Query: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120
           VASVAIQPPSHPTYDLRGIIKLALAEDSADF                    AKEDGIVAG
Sbjct: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADF--------------------AKEDGIVAG 120

Query: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180
           IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI
Sbjct: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180

Query: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240
           ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA
Sbjct: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240

Query: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300
           GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP
Sbjct: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300

Query: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360
           SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL
Sbjct: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 357

Query: 361 KIDTELALQVGRRTKRA 378
           KIDTELALQVGRRTKRA
Sbjct: 361 KIDTELALQVGRRTKRA 357

[Close]
BLAST of Cmc10g0280651 vs. ExPASy TrEMBL
Match: A0A6J1FQC2 (Quinolinate phosphoribosyltransferase [decarboxylating] OS=Cucurbita moschata OX=3662 GN=LOC111447821 PE=3 SV=1)

HSP 1 Score: 666.0 bits (1717), Expect = 9.3e-188
Identity = 347/377 (92.04%), Postives = 359/377 (95.23%), Query Frame = 0 

Query: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTRIPISTARCLGSRKIIAMSASVSNDSGIS 60
           M++LNLYRPSFGH+WQCC H DL GCSRG T I ISTA  L  RK+ AMSASVS DSGIS
Sbjct: 1   MHILNLYRPSFGHIWQCCGHSDLRGCSRGFTHISISTAHGLVPRKLTAMSASVSKDSGIS 60

Query: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120
           VASVAIQPPSHPTYDLRG+IKLALAEDSA+FGDVTSLATIPSDM+VDAFFLAKEDGIVAG
Sbjct: 61  VASVAIQPPSHPTYDLRGVIKLALAEDSANFGDVTSLATIPSDMVVDAFFLAKEDGIVAG 120

Query: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180
           IALA+MVFQEVDPSI+VEWS+KDGDYI KGLQFGKVSG+AQSILVAERVALNFMQRMSGI
Sbjct: 121 IALANMVFQEVDPSIKVEWSQKDGDYIHKGLQFGKVSGQAQSILVAERVALNFMQRMSGI 180

Query: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240
           ATLTKAMADAA+PA ILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA
Sbjct: 181 ATLTKAMADAANPARILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240

Query: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300
           GGISNAIKSVDLYLQQR LKMNVEVETRTLEEVHEVL YATQNKTSLTRMMLDNMVVPLP
Sbjct: 241 GGISNAIKSVDLYLQQRNLKMNVEVETRTLEEVHEVLHYATQNKTSLTRMMLDNMVVPLP 300

Query: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360
           SGDVDVSMLKEAVDIINGRFETEASGNVTL TI KIGQTGVTYISSGALTHSVKALDISL
Sbjct: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLQTIQKIGQTGVTYISSGALTHSVKALDISL 360

Query: 361 KIDTELALQVGRRTKRA 378
           KIDTELALQVGRRTKRA
Sbjct: 361 KIDTELALQVGRRTKRA 377

[Close]
BLAST of Cmc10g0280651 vs. ExPASy TrEMBL
Match: A0A6J1ILM4 (Quinolinate phosphoribosyltransferase [decarboxylating] OS=Cucurbita maxima OX=3661 GN=LOC111477549 PE=3 SV=1)

HSP 1 Score: 656.4 bits (1692), Expect = 7.4e-185
Identity = 343/377 (90.98%), Postives = 357/377 (94.69%), Query Frame = 0 

Query: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTRIPISTARCLGSRKIIAMSASVSNDSGIS 60
           M++LNLYRPSFGH+ QCC H DL  CSRGLT I ISTA  L  RK+ AMSASV+ DSGIS
Sbjct: 1   MHILNLYRPSFGHICQCCGHSDLRACSRGLTHISISTAHGLVPRKLTAMSASVAKDSGIS 60

Query: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120
           VASVAIQPPSHPTYDLRG+IKLALAEDSA+FGDVTSLATIPSDM+VDAFFLAKEDGIVAG
Sbjct: 61  VASVAIQPPSHPTYDLRGVIKLALAEDSANFGDVTSLATIPSDMVVDAFFLAKEDGIVAG 120

Query: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180
           I LA+MVFQEVDPSI+VEWS+KDGDYI KGLQFGKVSG+AQSILVAERVALNFMQRMSGI
Sbjct: 121 ITLANMVFQEVDPSIKVEWSQKDGDYIHKGLQFGKVSGQAQSILVAERVALNFMQRMSGI 180

Query: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240
           ATLTKAMADAA+PA ILETRKTAPGLRLVDKWAVLIGGG+NHRMGLFDMVLIKDNHISAA
Sbjct: 181 ATLTKAMADAAAPARILETRKTAPGLRLVDKWAVLIGGGENHRMGLFDMVLIKDNHISAA 240

Query: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300
           GGISNAIKSVDLYLQQR LKMNVEVETRTLEEVHEVL YATQNKTSLTRMMLDNMVVPLP
Sbjct: 241 GGISNAIKSVDLYLQQRNLKMNVEVETRTLEEVHEVLHYATQNKTSLTRMMLDNMVVPLP 300

Query: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360
           SGDVDVSMLKEAVDIINGRFETEASGNVTL TI KIGQTGVTYISSGALTHSVKALDISL
Sbjct: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLQTIQKIGQTGVTYISSGALTHSVKALDISL 360

Query: 361 KIDTELALQVGRRTKRA 378
           KIDTELALQVGRRTKRA
Sbjct: 361 KIDTELALQVGRRTKRA 377

[Close]
BLAST of Cmc10g0280651 vs. ExPASy TrEMBL
Match: A0A6J1DQ18 (Quinolinate phosphoribosyltransferase [decarboxylating] OS=Momordica charantia OX=3673 GN=LOC111022503 PE=3 SV=1)

HSP 1 Score: 629.0 bits (1621), Expect = 1.3e-176
Identity = 331/377 (87.80%), Postives = 349/377 (92.57%), Query Frame = 0 

Query: 1   MYMLNLYRPSFGHLWQCCEHKDLWGCSRGLTRIPISTARCLGSRKIIAMSASVSNDSGIS 60
           M++LNLY+PS G LW+CC   DL   S GL +I  STA  L SRKI AMSASV+  SGIS
Sbjct: 39  MHILNLYKPSPGLLWKCCGPSDLRSYSSGLIQISTSTAHGLVSRKITAMSASVTKGSGIS 98

Query: 61  VASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDAFFLAKEDGIVAG 120
           + S+AIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSD++VDAFFLAKEDG VAG
Sbjct: 99  IKSMAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDIVVDAFFLAKEDGTVAG 158

Query: 121 IALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAERVALNFMQRMSGI 180
           IALADMVFQEVDPSIRVEWS+KDGDYI KGLQFGKVSG+A+SIL+AERVALNFMQRMSGI
Sbjct: 159 IALADMVFQEVDPSIRVEWSQKDGDYIHKGLQFGKVSGQARSILIAERVALNFMQRMSGI 218

Query: 181 ATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 240
           ATLTKAMADAASPA ILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA
Sbjct: 219 ATLTKAMADAASPARILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFDMVLIKDNHISAA 278

Query: 241 GGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLTRMMLDNMVVPLP 300
           G I NAIKSVDLYLQQR LKM+VEVETRTLEEVHEVL YATQ KTSLTRMMLDNMVVPLP
Sbjct: 279 GSIINAIKSVDLYLQQRNLKMDVEVETRTLEEVHEVLHYATQKKTSLTRMMLDNMVVPLP 338

Query: 301 SGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGALTHSVKALDISL 360
           +GDVDV+MLKEAVDIINGRFETEASGNVTLHT+ KIGQTGVTYISSGALTHSVKALDISL
Sbjct: 339 NGDVDVAMLKEAVDIINGRFETEASGNVTLHTVQKIGQTGVTYISSGALTHSVKALDISL 398

Query: 361 KIDTELALQVGRRTKRA 378
           KIDTELALQVGRRTKRA
Sbjct: 399 KIDTELALQVGRRTKRA 415

[Close]
BLAST of Cmc10g0280651 vs. TAIR 10
Match: AT2G01350.1 (quinolinate phoshoribosyltransferase )

HSP 1 Score: 508.1 bits (1307), Expect = 6.2e-144
Identity = 259/334 (77.54%), Postives = 299/334 (89.52%), Query Frame = 0 

Query: 44  RKIIAMSASVSNDSGISVASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSD 103
           R  + MSAS +  +G    S+ I+PPSHPTYDL+ +IKLALAED+   GDVT +ATIP D
Sbjct: 17  RSFVKMSASATQTAG--EVSMGIKPPSHPTYDLKAVIKLALAEDAGHTGDVTCMATIPFD 76

Query: 104 MLVDAFFLAKEDGIVAGIALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSI 163
           M V+A+FLAKEDGIVAG+ALADM+F+ VDPS++VEW +KDGDY+ KGL+FGKVSG A  I
Sbjct: 77  MEVEAYFLAKEDGIVAGVALADMIFEHVDPSLKVEWMRKDGDYVHKGLKFGKVSGNAHKI 136

Query: 164 LVAERVALNFMQRMSGIATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHR 223
           +VAERV LNFMQRMSGIATLTK MADAASPACILETRKTAPGLRLVDKWAVLIGGG+NHR
Sbjct: 137 VVAERVLLNFMQRMSGIATLTKLMADAASPACILETRKTAPGLRLVDKWAVLIGGGRNHR 196

Query: 224 MGLFDMVLIKDNHISAAGGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQN 283
           MGLFDMV+IKDNHISAAGGI NA+KSVD YL+Q+ L+M+VEVETRTLEEV EVL YA+ +
Sbjct: 197 MGLFDMVMIKDNHISAAGGIVNAVKSVDEYLKQKNLEMDVEVETRTLEEVKEVLEYASGS 256

Query: 284 KTSLTRMMLDNMVVPLPSGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTY 343
           +T LTR+MLDNMVVPL +GDVDV+MLK+AV++INGRFETEASGNVTL T+HKIGQ+GVT+
Sbjct: 257 ETRLTRIMLDNMVVPLENGDVDVTMLKDAVELINGRFETEASGNVTLETVHKIGQSGVTF 316

Query: 344 ISSGALTHSVKALDISLKIDTELALQVGRRTKRA 378
           ISSGALTHSVKALDISLKIDTELAL+VGRRTKRA
Sbjct: 317 ISSGALTHSVKALDISLKIDTELALEVGRRTKRA 348

[Close]
BLAST of Cmc10g0280651 vs. TAIR 10
Match: AT2G01350.4 (quinolinate phoshoribosyltransferase )

HSP 1 Score: 505.8 bits (1301), Expect = 3.1e-143
Identity = 258/329 (78.42%), Postives = 297/329 (90.27%), Query Frame = 0 

Query: 49  MSASVSNDSGISVASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSDMLVDA 108
           MSAS +  +G    S+ I+PPSHPTYDL+ +IKLALAED+   GDVT +ATIP DM V+A
Sbjct: 1   MSASATQTAG--EVSMGIKPPSHPTYDLKAVIKLALAEDAGHTGDVTCMATIPFDMEVEA 60

Query: 109 FFLAKEDGIVAGIALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSILVAER 168
           +FLAKEDGIVAG+ALADM+F+ VDPS++VEW +KDGDY+ KGL+FGKVSG A  I+VAER
Sbjct: 61  YFLAKEDGIVAGVALADMIFEHVDPSLKVEWMRKDGDYVHKGLKFGKVSGNAHKIVVAER 120

Query: 169 VALNFMQRMSGIATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHRMGLFD 228
           V LNFMQRMSGIATLTK MADAASPACILETRKTAPGLRLVDKWAVLIGGG+NHRMGLFD
Sbjct: 121 VLLNFMQRMSGIATLTKLMADAASPACILETRKTAPGLRLVDKWAVLIGGGRNHRMGLFD 180

Query: 229 MVLIKDNHISAAGGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQNKTSLT 288
           MV+IKDNHISAAGGI NA+KSVD YL+Q+ L+M+VEVETRTLEEV EVL YA+ ++T LT
Sbjct: 181 MVMIKDNHISAAGGIVNAVKSVDEYLKQKNLEMDVEVETRTLEEVKEVLEYASGSETRLT 240

Query: 289 RMMLDNMVVPLPSGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTYISSGA 348
           R+MLDNMVVPL +GDVDV+MLK+AV++INGRFETEASGNVTL T+HKIGQ+GVT+ISSGA
Sbjct: 241 RIMLDNMVVPLENGDVDVTMLKDAVELINGRFETEASGNVTLETVHKIGQSGVTFISSGA 300

Query: 349 LTHSVKALDISLKIDTELALQVGRRTKRA 378
           LTHSVKALDISLKIDTELAL+VGRRTKRA
Sbjct: 301 LTHSVKALDISLKIDTELALEVGRRTKRA 327

[Close]
BLAST of Cmc10g0280651 vs. TAIR 10
Match: AT2G01350.3 (quinolinate phoshoribosyltransferase )

HSP 1 Score: 492.7 bits (1267), Expect = 2.7e-139
Identity = 256/334 (76.65%), Postives = 294/334 (88.02%), Query Frame = 0 

Query: 44  RKIIAMSASVSNDSGISVASVAIQPPSHPTYDLRGIIKLALAEDSADFGDVTSLATIPSD 103
           R  + MSAS +  +G    S+ I+PPSHPTYDL+ +IKLALAED+   GDVT +ATIP D
Sbjct: 17  RSFVKMSASATQTAG--EVSMGIKPPSHPTYDLKAVIKLALAEDAGHTGDVTCMATIPFD 76

Query: 104 MLVDAFFLAKEDGIVAGIALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKVSGKAQSI 163
           M V+A+FLAKEDGIVAG+ALADM+F+ VDPS+      KDGDY+ KGL+FGKVSG A  I
Sbjct: 77  MEVEAYFLAKEDGIVAGVALADMIFEHVDPSL------KDGDYVHKGLKFGKVSGNAHKI 136

Query: 164 LVAERVALNFMQRMSGIATLTKAMADAASPACILETRKTAPGLRLVDKWAVLIGGGQNHR 223
           +VAERV LNFMQRMSGIATLTK MADAASPACILETRKTAPGLRLVDKWAVLIGGG+NHR
Sbjct: 137 VVAERVLLNFMQRMSGIATLTKLMADAASPACILETRKTAPGLRLVDKWAVLIGGGRNHR 196

Query: 224 MGLFDMVLIKDNHISAAGGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEVLRYATQN 283
           MGLFDMV+IKDNHISAAGGI NA+KSVD YL+Q+ L+M+VEVETRTLEEV EVL YA+ +
Sbjct: 197 MGLFDMVMIKDNHISAAGGIVNAVKSVDEYLKQKNLEMDVEVETRTLEEVKEVLEYASGS 256

Query: 284 KTSLTRMMLDNMVVPLPSGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKIGQTGVTY 343
           +T LTR+MLDNMVVPL +GDVDV+MLK+AV++INGRFETEASGNVTL T+HKIGQ+GVT+
Sbjct: 257 ETRLTRIMLDNMVVPLENGDVDVTMLKDAVELINGRFETEASGNVTLETVHKIGQSGVTF 316

Query: 344 ISSGALTHSVKALDISLKIDTELALQVGRRTKRA 378
           ISSGALTHSVKALDISLKIDTELAL+VGRRTKRA
Sbjct: 317 ISSGALTHSVKALDISLKIDTELALEVGRRTKRA 342

[Close]
BLAST of Cmc10g0280651 vs. TAIR 10
Match: AT2G01350.2 (quinolinate phoshoribosyltransferase )

HSP 1 Score: 456.1 bits (1172), Expect = 2.8e-128
Identity = 230/281 (81.85%), Postives = 262/281 (93.24%), Query Frame = 0 

Query: 97  LATIPSDMLVDAFFLAKEDGIVAGIALADMVFQEVDPSIRVEWSKKDGDYIRKGLQFGKV 156
           +ATIP DM V+A+FLAKEDGIVAG+ALADM+F+ VDPS++VEW +KDGDY+ KGL+FGKV
Sbjct: 1   MATIPFDMEVEAYFLAKEDGIVAGVALADMIFEHVDPSLKVEWMRKDGDYVHKGLKFGKV 60

Query: 157 SGKAQSILVAERVALNFMQRMSGIATLTKAMADAASPACILETRKTAPGLRLVDKWAVLI 216
           SG A  I+VAERV LNFMQRMSGIATLTK MADAASPACILETRKTAPGLRLVDKWAVLI
Sbjct: 61  SGNAHKIVVAERVLLNFMQRMSGIATLTKLMADAASPACILETRKTAPGLRLVDKWAVLI 120

Query: 217 GGGQNHRMGLFDMVLIKDNHISAAGGISNAIKSVDLYLQQRKLKMNVEVETRTLEEVHEV 276
           GGG+NHRMGLFDMV+IKDNHISAAGGI NA+KSVD YL+Q+ L+M+VEVETRTLEEV EV
Sbjct: 121 GGGRNHRMGLFDMVMIKDNHISAAGGIVNAVKSVDEYLKQKNLEMDVEVETRTLEEVKEV 180

Query: 277 LRYATQNKTSLTRMMLDNMVVPLPSGDVDVSMLKEAVDIINGRFETEASGNVTLHTIHKI 336
           L YA+ ++T LTR+MLDNMVVPL +GDVDV+MLK+AV++INGRFETEASGNVTL T+HKI
Sbjct: 181 LEYASGSETRLTRIMLDNMVVPLENGDVDVTMLKDAVELINGRFETEASGNVTLETVHKI 240

Query: 337 GQTGVTYISSGALTHSVKALDISLKIDTELALQVGRRTKRA 378
           GQ+GVT+ISSGALTHSVKALDISLKIDTELAL+VGRRTKRA
Sbjct: 241 GQSGVTFISSGALTHSVKALDISLKIDTELALEVGRRTKRA 281

The following BLAST results are available for this feature:
BLAST of Cmc10g0280651 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008454775.11.8e-20699.73PREDICTED: nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplasti... [more]
XP_011659842.12.6e-20097.61nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic [Cucumis ... [more]
XP_031745411.13.7e-19997.08LOW QUALITY PROTEIN: nicotinate-nucleotide pyrophosphorylase [carboxylating], ch... [more]
XP_038892237.11.2e-19495.23nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic isoform X... [more]
XP_008454777.11.3e-19194.43PREDICTED: nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplasti... [more]
BLAST of Cmc10g0280651 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q9ZU328.8e-14377.54Nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic OS=Arabid... [more]
Q0IZS02.2e-13375.00Nicotinate-nucleotide pyrophosphorylase [carboxylating], chloroplastic OS=Oryza ... [more]
P779381.3e-5042.86Probable nicotinate-nucleotide pyrophosphorylase [carboxylating] OS=Rhodospirill... [more]
P308194.3e-4137.67Nicotinate-nucleotide pyrophosphorylase [carboxylating] OS=Pseudomonas aeruginos... [more]
P300121.4e-3936.52Nicotinate-nucleotide pyrophosphorylase [carboxylating] OS=Salmonella typhimuriu... [more]
BLAST of Cmc10g0280651 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3BZD28.9e-20799.73Quinolinate phosphoribosyltransferase [decarboxylating] OS=Cucumis melo OX=3656 ... [more]
A0A1S3C0516.2e-19294.43Quinolinate phosphoribosyltransferase [decarboxylating] OS=Cucumis melo OX=3656 ... [more]
A0A6J1FQC29.3e-18892.04Quinolinate phosphoribosyltransferase [decarboxylating] OS=Cucurbita moschata OX... [more]
A0A6J1ILM47.4e-18590.98Quinolinate phosphoribosyltransferase [decarboxylating] OS=Cucurbita maxima OX=3... [more]
A0A6J1DQ181.3e-17687.80Quinolinate phosphoribosyltransferase [decarboxylating] OS=Momordica charantia O... [more]
BLAST of Cmc10g0280651 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G01350.16.2e-14477.54quinolinate phoshoribosyltransferase [more]
AT2G01350.43.1e-14378.42quinolinate phoshoribosyltransferase [more]
AT2G01350.32.7e-13976.65quinolinate phoshoribosyltransferase [more]
AT2G01350.22.8e-12881.85quinolinate phoshoribosyltransferase [more]
InterPro
Analysis Name: InterPro Annotations of Melon (Charmono) v1.1
Date Performed: 2022-10-13
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR002638Quinolinate phosphoribosyl transferase, C-terminalPFAMPF01729QRPTase_Ccoord: 180..361
e-value: 2.3E-57
score: 193.5
IPR004393Nicotinate-nucleotide pyrophosphorylaseTIGRFAMTIGR00078TIGR00078coord: 80..362
e-value: 2.6E-80
score: 267.4
IPR004393Nicotinate-nucleotide pyrophosphorylaseCDDcd01572QPRTasecoord: 79..361
e-value: 5.60538E-131
score: 374.12
IPR037128Quinolinate phosphoribosyl transferase, N-terminal domain superfamilyGENE3D3.90.1170.20coord: 83..360
e-value: 5.5E-93
score: 312.9
IPR022412Quinolinate phosphoribosyl transferase, N-terminalPFAMPF02749QRPTase_Ncoord: 90..178
e-value: 3.2E-27
score: 94.4
IPR013785Aldolase-type TIM barrelGENE3D3.20.20.70Aldolase class Icoord: 192..352
e-value: 5.5E-93
score: 312.9
IPR027277Nicotinate-nucleotide pyrophosphorylase/Putative pyrophosphorylase ModDPANTHERPTHR32179NICOTINATE-NUCLEOTIDE PYROPHOSPHORYLASE [CARBOXYLATING]coord: 67..371
NoneNo IPR availablePANTHERPTHR32179:SF3NICOTINATE-NUCLEOTIDE PYROPHOSPHORYLASE [CARBOXYLATING]coord: 67..371
NoneNo IPR availableSUPERFAMILY54675Nicotinate/Quinolinate PRTase N-terminal domain-likecoord: 68..179
IPR036068Nicotinate phosphoribosyltransferase-like, C-terminalSUPERFAMILY51690Nicotinate/Quinolinate PRTase C-terminal domain-likecoord: 180..362

Relationships

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

Feature NameUnique NameType
Cmc10g0280651.1Cmc10g0280651.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009435 NAD biosynthetic process
molecular_function GO:0004514 nicotinate-nucleotide diphosphorylase (carboxylating) activity
molecular_function GO:0003824 catalytic activity
molecular_function GO:0016763 pentosyltransferase activity