Cla97C04G070270 (gene) Watermelon (97103) v2

Overview
NameCla97C04G070270
Typegene
OrganismCitrullus lanatus (Watermelon (97103) v2)
DescriptionThiocyanate methyltransferase 1
LocationCla97Chr04 : 10815539 .. 10848099 (+)
Genome Viewer
Gene Expression
   



Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGATCCTTGGCACTAGAAAATTGTCAACATTTGGAGCTGCTCCCGTGCAAACCCGTCGAAGTTTGATGATGAAATTGAGGATGAACCAACAATCTACAGAACATAATGCTTCGAAGTCCAATCATCAATCGAGTCTCGATGAGTGTCAAAAAGTTATGCGCACAGACCATACTGGTGGTTGGGAGATATGCTGGGAGCAAGGTCTAACACCATGGGACTTAGGACAACCAACGCCTGTGATTAGCCATCTTTGTGCAATGGGAGCTCTTCCAAATGGCCGTGTGCTTGTGCCTGGATGTGGAAGTGGCTATGATGTTGTTCAAATGGCATGCTCTGAACGCTATGTTGTTGGATTGGACATATCAGACAATGCCATACAAAAGGCCAGAGAGCTATCTTCCTCATCACCAAATATGAGATACTTTACCTTCTTAAAGGAAGATTTTTTCAGTTGGAGACCTAAGGAATTGTTTGATCTGATTTTTGATTATACGTTTTTTTGTGCCATTGAACCTGACATGAGACTAGCTTGGGGACAACAGATTCAGAGGCTATTAAAACCAAATGGGGAGCTTATAACGCTAATGTTTCCAATCGATGACCATATTGGTGGACCACCTTACAAAGTTTCAGTTTCAGATTATGAGGACGTGCTACATCCATTGGGCTTTAAGGCTATACTGATCAAGGACAATGAACTCGCCATTCCACCTCGCAAGGGACGAGAGATGATTGGAAGGTGGAAGAGGAGTTTAGCTCAAGCTTCACTGTAA

Coding sequence (CDS)

ATGATCCTTGGCACTAGAAAATTGTCAACATTTGGAGCTGCTCCCGTGCAAACCCGTCGAAGTTTGATGATGAAATTGAGGATGAACCAACAATCTACAGAACATAATGCTTCGAAGTCCAATCATCAATCGAGTCTCGATGAGTGTCAAAAAGTTATGCGCACAGACCATACTGGTGGTTGGGAGATATGCTGGGAGCAAGGTCTAACACCATGGGACTTAGGACAACCAACGCCTGTGATTAGCCATCTTTGTGCAATGGGAGCTCTTCCAAATGGCCGTGTGCTTGTGCCTGGATGTGGAAGTGGCTATGATGTTGTTCAAATGGCATGCTCTGAACGCTATGTTGTTGGATTGGACATATCAGACAATGCCATACAAAAGGCCAGAGAGCTATCTTCCTCATCACCAAATATGAGATACTTTACCTTCTTAAAGGAAGATTTTTTCAGTTGGAGACCTAAGGAATTGTTTGATCTGATTTTTGATTATACGTTTTTTTGTGCCATTGAACCTGACATGAGACTAGCTTGGGGACAACAGATTCAGAGGCTATTAAAACCAAATGGGGAGCTTATAACGCTAATGTTTCCAATCGATGACCATATTGGTGGACCACCTTACAAAGTTTCAGTTTCAGATTATGAGGACGTGCTACATCCATTGGGCTTTAAGGCTATACTGATCAAGGACAATGAACTCGCCATTCCACCTCGCAAGGGACGAGAGATGATTGGAAGGTGGAAGAGGAGTTTAGCTCAAGCTTCACTGTAA

Protein sequence

MILGTRKLSTFGAAPVQTRRSLMMKLRMNQQSTEHNASKSNHQSSLDECQKVMRTDHTGGWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQMACSERYVVGLDISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCAIEPDMRLAWGQQIQRLLKPNGELITLMFPIDDHIGGPPYKVSVSDYEDVLHPLGFKAILIKDNELAIPPRKGREMIGRWKRSLAQASL
Homology
[Close]
BLAST of Cla97C04G070270 vs. NCBI nr
Match: XP_004144344.1 (PREDICTED: probable thiol methyltransferase 2 [Cucumis sativus] >KGN54738.1 hypothetical protein Csa_4G439050 [Cucumis sativus])

HSP 1 Score: 454.1 bits (1167), Expect = 3.1e-124
Identity = 221/259 (85.33%), Postives = 233/259 (89.96%), Query Frame = 0 

Query: 1   MILGTRKL-STFGAAPVQTRRSLMMKLRMNQQSTEHNASKSNHQSSLDECQKVMRTDHTG 60
           MILG  K  S    AP+QT R+L +KLRMNQ ST+HNASK NHQS + E QKVM TDH+G
Sbjct: 1   MILGAGKFCSILSRAPLQTHRALTLKLRMNQNSTQHNASKFNHQSRVHEFQKVMGTDHSG 60

Query: 61  GWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQMACSERYVVGL 120
           GW+ICWEQGLTPWDLGQPTP+I HLCA GALPNGRVLVPGCGSGYDVVQMAC+ERYVVGL
Sbjct: 61  GWDICWEQGLTPWDLGQPTPLIGHLCATGALPNGRVLVPGCGSGYDVVQMACAERYVVGL 120

Query: 121 DISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCAIEPDMRLAWG 180
           DISD AIQKA ELSSSSPNMR+ TFLKEDFFSWRPKELFDLIFDYTFFCAIEP MR AWG
Sbjct: 121 DISDKAIQKAIELSSSSPNMRHCTFLKEDFFSWRPKELFDLIFDYTFFCAIEPVMRQAWG 180

Query: 181 QQIQRLLKPNGELITLMFPI-DDHIGGPPYKVSVSDYEDVLHPLGFKAILIKDNELAIPP 240
           QQIQRLLKPNGELITLMFPI DDHIGGPPYKVSVSDYEDVLHPLGFKA+LI DNELA+PP
Sbjct: 181 QQIQRLLKPNGELITLMFPIDDDHIGGPPYKVSVSDYEDVLHPLGFKAVLINDNELAVPP 240

Query: 241 RKGREMIGRWKRSLAQASL 258
           RKGREMIGRWKRSLAQ SL
Sbjct: 241 RKGREMIGRWKRSLAQPSL 259

[Close]
BLAST of Cla97C04G070270 vs. NCBI nr
Match: XP_022149366.1 (probable thiol methyltransferase 2 isoform X2 [Momordica charantia])

HSP 1 Score: 452.2 bits (1162), Expect = 1.2e-123
Identity = 216/258 (83.72%), Postives = 236/258 (91.47%), Query Frame = 0 

Query: 1   MILGTRKL-STFGAAPVQTRRSLMMKLRMNQQSTEHNASKSNHQSSLDECQKVMRTDHTG 60
           M+ GTRKL S  GAAP Q+ R L  K+RMN+ + +HNASKS+HQS LD+ Q VMRTD TG
Sbjct: 1   MLFGTRKLPSILGAAPFQSHRVLTTKIRMNKDNAQHNASKSDHQSRLDKFQNVMRTDQTG 60

Query: 61  GWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQMACSERYVVGL 120
           GWEICWEQGLTPWDLGQPTPVISHLCA+GALPNGR LVPGCGSG+DVVQ+ACSERYV+GL
Sbjct: 61  GWEICWEQGLTPWDLGQPTPVISHLCAIGALPNGRALVPGCGSGHDVVQLACSERYVIGL 120

Query: 121 DISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCAIEPDMRLAWG 180
           DIS+NAIQKARELSSSSPNMRYFTFLK DFFSWRPKELFDLIFDYTFF AIEP +R AWG
Sbjct: 121 DISENAIQKARELSSSSPNMRYFTFLKADFFSWRPKELFDLIFDYTFFSAIEPAVRPAWG 180

Query: 181 QQIQRLLKPNGELITLMFPIDDHIGGPPYKVSVSDYEDVLHPLGFKAILIKDNELAIPPR 240
           QQ+Q+LL+PNGELITLMFPID+HIGGPPYKVSVSDYEDVL PLGFKA+LI+DNELAIPPR
Sbjct: 181 QQMQKLLRPNGELITLMFPIDNHIGGPPYKVSVSDYEDVLLPLGFKAVLIEDNELAIPPR 240

Query: 241 KGREMIGRWKRSLAQASL 258
           KGREMIGRWKRSL QASL
Sbjct: 241 KGREMIGRWKRSLTQASL 258

[Close]
BLAST of Cla97C04G070270 vs. NCBI nr
Match: XP_008449545.1 (PREDICTED: probable thiol methyltransferase 2 isoform X2 [Cucumis melo])

HSP 1 Score: 450.3 bits (1157), Expect = 4.4e-123
Identity = 220/260 (84.62%), Postives = 233/260 (89.62%), Query Frame = 0 

Query: 1   MILGTRKLSTF--GAAPVQTRRSLMMKLRMNQQSTEHNASKSNHQSSLDECQKVMRTDHT 60
           MILG  K  +    AAP+QT R+L +KLRMNQ STEH ASK NHQS + E QKVM TDH+
Sbjct: 1   MILGAGKFRSVLSRAAPLQTHRALTLKLRMNQNSTEHKASKFNHQSRVHEFQKVMGTDHS 60

Query: 61  GGWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQMACSERYVVG 120
           GGW+ICWE GLTPWDLGQPTP+ISHLCA GALPNGRVLVPGCGSGYDVVQMAC+ERYVVG
Sbjct: 61  GGWDICWEHGLTPWDLGQPTPLISHLCATGALPNGRVLVPGCGSGYDVVQMACAERYVVG 120

Query: 121 LDISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCAIEPDMRLAW 180
           LDISDNAIQKA ELSSSSPNMR+ TFL+EDFFSWRPKELFDLIFDYTFFCAIEP MR  W
Sbjct: 121 LDISDNAIQKAIELSSSSPNMRHCTFLREDFFSWRPKELFDLIFDYTFFCAIEPVMRQVW 180

Query: 181 GQQIQRLLKPNGELITLMFPI-DDHIGGPPYKVSVSDYEDVLHPLGFKAILIKDNELAIP 240
           GQQIQRLLKPNGELITLMFPI DDH GGPPYKVSVSDYEDVLHPLGFKA+LIKDNELAIP
Sbjct: 181 GQQIQRLLKPNGELITLMFPIDDDHSGGPPYKVSVSDYEDVLHPLGFKAVLIKDNELAIP 240

Query: 241 PRKGREMIGRWKRSLAQASL 258
           PRKGREMIGRWKRSL+Q SL
Sbjct: 241 PRKGREMIGRWKRSLSQPSL 260

[Close]
BLAST of Cla97C04G070270 vs. NCBI nr
Match: XP_022925292.1 (probable thiol methyltransferase 2 isoform X1 [Cucurbita moschata])

HSP 1 Score: 447.6 bits (1150), Expect = 2.9e-122
Identity = 217/258 (84.11%), Postives = 232/258 (89.92%), Query Frame = 0 

Query: 1   MILGTRKL-STFGAAPVQTRRSLMMKLRMNQQSTEHNASKSNHQSSLDECQKVMRTDHTG 60
           MI+G RKL S  GAAP+Q+ R L  KLRM Q + EHNASKSNHQS +D+  KV+R DHTG
Sbjct: 1   MIVGIRKLPSILGAAPLQSHRRLPTKLRMGQHNAEHNASKSNHQSRVDKFSKVIRDDHTG 60

Query: 61  GWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQMACSERYVVGL 120
           GWE CWEQGLTPWDLGQPTPVISHLCAMG LPNGR LVPGCGSGYDVVQMA SERYV+GL
Sbjct: 61  GWETCWEQGLTPWDLGQPTPVISHLCAMGDLPNGRALVPGCGSGYDVVQMASSERYVIGL 120

Query: 121 DISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCAIEPDMRLAWG 180
           DIS+NAIQKARELSSSSP +RYF+FLKEDFFSWRPKELFDLIFDYTFF AIEP MR+AWG
Sbjct: 121 DISNNAIQKARELSSSSPKIRYFSFLKEDFFSWRPKELFDLIFDYTFFSAIEPAMRVAWG 180

Query: 181 QQIQRLLKPNGELITLMFPIDDHIGGPPYKVSVSDYEDVLHPLGFKAILIKDNELAIPPR 240
           QQ+Q LLKPNGELITLMFPID+HIGGPPYKVSVSDYEDVL PLGFKA+LIKDNE AIPPR
Sbjct: 181 QQMQMLLKPNGELITLMFPIDNHIGGPPYKVSVSDYEDVLLPLGFKAVLIKDNEHAIPPR 240

Query: 241 KGREMIGRWKRSLAQASL 258
           KGREMIGRWKRSLA ASL
Sbjct: 241 KGREMIGRWKRSLAHASL 258

[Close]
BLAST of Cla97C04G070270 vs. NCBI nr
Match: XP_023518377.1 (probable thiol methyltransferase 2 isoform X1 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 444.5 bits (1142), Expect = 2.4e-121
Identity = 215/258 (83.33%), Postives = 232/258 (89.92%), Query Frame = 0 

Query: 1   MILGTRKL-STFGAAPVQTRRSLMMKLRMNQQSTEHNASKSNHQSSLDECQKVMRTDHTG 60
           MI+G RKL S  GAAP+Q+ R L  KLRM Q ++EHNAS SNHQS +D+  KV+R DHTG
Sbjct: 1   MIVGIRKLPSILGAAPLQSHRRLPTKLRMGQHNSEHNASNSNHQSRVDKFSKVIRDDHTG 60

Query: 61  GWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQMACSERYVVGL 120
           GWE CWEQGLTPWDLGQPTPVISHLCAMG LPNGR LVPGCGSGYDVVQMA SERYV+GL
Sbjct: 61  GWETCWEQGLTPWDLGQPTPVISHLCAMGDLPNGRALVPGCGSGYDVVQMASSERYVIGL 120

Query: 121 DISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCAIEPDMRLAWG 180
           DIS+NAIQKARELSSSSP +RYF+FLKEDFFSWRPKELFDLIFDYTFF AIEP MR+AWG
Sbjct: 121 DISNNAIQKARELSSSSPKIRYFSFLKEDFFSWRPKELFDLIFDYTFFSAIEPAMRVAWG 180

Query: 181 QQIQRLLKPNGELITLMFPIDDHIGGPPYKVSVSDYEDVLHPLGFKAILIKDNELAIPPR 240
           QQ+Q LLKPNGELITLMFPID+HIGGPPYKVSVS+YEDVL PLGFKA+LIKDNE AIPPR
Sbjct: 181 QQMQMLLKPNGELITLMFPIDNHIGGPPYKVSVSEYEDVLLPLGFKAVLIKDNEHAIPPR 240

Query: 241 KGREMIGRWKRSLAQASL 258
           KGREMIGRWKRSLA ASL
Sbjct: 241 KGREMIGRWKRSLAHASL 258

[Close]
BLAST of Cla97C04G070270 vs. TrEMBL
Match: tr|A0A0A0KYY5|A0A0A0KYY5_CUCSA (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G439050 PE=4 SV=1)

HSP 1 Score: 454.1 bits (1167), Expect = 2.0e-124
Identity = 221/259 (85.33%), Postives = 233/259 (89.96%), Query Frame = 0 

Query: 1   MILGTRKL-STFGAAPVQTRRSLMMKLRMNQQSTEHNASKSNHQSSLDECQKVMRTDHTG 60
           MILG  K  S    AP+QT R+L +KLRMNQ ST+HNASK NHQS + E QKVM TDH+G
Sbjct: 1   MILGAGKFCSILSRAPLQTHRALTLKLRMNQNSTQHNASKFNHQSRVHEFQKVMGTDHSG 60

Query: 61  GWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQMACSERYVVGL 120
           GW+ICWEQGLTPWDLGQPTP+I HLCA GALPNGRVLVPGCGSGYDVVQMAC+ERYVVGL
Sbjct: 61  GWDICWEQGLTPWDLGQPTPLIGHLCATGALPNGRVLVPGCGSGYDVVQMACAERYVVGL 120

Query: 121 DISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCAIEPDMRLAWG 180
           DISD AIQKA ELSSSSPNMR+ TFLKEDFFSWRPKELFDLIFDYTFFCAIEP MR AWG
Sbjct: 121 DISDKAIQKAIELSSSSPNMRHCTFLKEDFFSWRPKELFDLIFDYTFFCAIEPVMRQAWG 180

Query: 181 QQIQRLLKPNGELITLMFPI-DDHIGGPPYKVSVSDYEDVLHPLGFKAILIKDNELAIPP 240
           QQIQRLLKPNGELITLMFPI DDHIGGPPYKVSVSDYEDVLHPLGFKA+LI DNELA+PP
Sbjct: 181 QQIQRLLKPNGELITLMFPIDDDHIGGPPYKVSVSDYEDVLHPLGFKAVLINDNELAVPP 240

Query: 241 RKGREMIGRWKRSLAQASL 258
           RKGREMIGRWKRSLAQ SL
Sbjct: 241 RKGREMIGRWKRSLAQPSL 259

[Close]
BLAST of Cla97C04G070270 vs. TrEMBL
Match: tr|A0A1S3BN67|A0A1S3BN67_CUCME (probable thiol methyltransferase 2 isoform X2 OS=Cucumis melo OX=3656 GN=LOC103491394 PE=4 SV=1)

HSP 1 Score: 450.3 bits (1157), Expect = 2.9e-123
Identity = 220/260 (84.62%), Postives = 233/260 (89.62%), Query Frame = 0 

Query: 1   MILGTRKLSTF--GAAPVQTRRSLMMKLRMNQQSTEHNASKSNHQSSLDECQKVMRTDHT 60
           MILG  K  +    AAP+QT R+L +KLRMNQ STEH ASK NHQS + E QKVM TDH+
Sbjct: 1   MILGAGKFRSVLSRAAPLQTHRALTLKLRMNQNSTEHKASKFNHQSRVHEFQKVMGTDHS 60

Query: 61  GGWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQMACSERYVVG 120
           GGW+ICWE GLTPWDLGQPTP+ISHLCA GALPNGRVLVPGCGSGYDVVQMAC+ERYVVG
Sbjct: 61  GGWDICWEHGLTPWDLGQPTPLISHLCATGALPNGRVLVPGCGSGYDVVQMACAERYVVG 120

Query: 121 LDISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCAIEPDMRLAW 180
           LDISDNAIQKA ELSSSSPNMR+ TFL+EDFFSWRPKELFDLIFDYTFFCAIEP MR  W
Sbjct: 121 LDISDNAIQKAIELSSSSPNMRHCTFLREDFFSWRPKELFDLIFDYTFFCAIEPVMRQVW 180

Query: 181 GQQIQRLLKPNGELITLMFPI-DDHIGGPPYKVSVSDYEDVLHPLGFKAILIKDNELAIP 240
           GQQIQRLLKPNGELITLMFPI DDH GGPPYKVSVSDYEDVLHPLGFKA+LIKDNELAIP
Sbjct: 181 GQQIQRLLKPNGELITLMFPIDDDHSGGPPYKVSVSDYEDVLHPLGFKAVLIKDNELAIP 240

Query: 241 PRKGREMIGRWKRSLAQASL 258
           PRKGREMIGRWKRSL+Q SL
Sbjct: 241 PRKGREMIGRWKRSLSQPSL 260

[Close]
BLAST of Cla97C04G070270 vs. TrEMBL
Match: tr|A0A1S3BM99|A0A1S3BM99_CUCME (probable thiol methyltransferase 2 isoform X3 OS=Cucumis melo OX=3656 GN=LOC103491394 PE=4 SV=1)

HSP 1 Score: 419.9 bits (1078), Expect = 4.3e-114
Identity = 205/243 (84.36%), Postives = 217/243 (89.30%), Query Frame = 0 

Query: 1   MILGTRKLSTF--GAAPVQTRRSLMMKLRMNQQSTEHNASKSNHQSSLDECQKVMRTDHT 60
           MILG  K  +    AAP+QT R+L +KLRMNQ STEH ASK NHQS + E QKVM TDH+
Sbjct: 1   MILGAGKFRSVLSRAAPLQTHRALTLKLRMNQNSTEHKASKFNHQSRVHEFQKVMGTDHS 60

Query: 61  GGWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQMACSERYVVG 120
           GGW+ICWE GLTPWDLGQPTP+ISHLCA GALPNGRVLVPGCGSGYDVVQMAC+ERYVVG
Sbjct: 61  GGWDICWEHGLTPWDLGQPTPLISHLCATGALPNGRVLVPGCGSGYDVVQMACAERYVVG 120

Query: 121 LDISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCAIEPDMRLAW 180
           LDISDNAIQKA ELSSSSPNMR+ TFL+EDFFSWRPKELFDLIFDYTFFCAIEP MR  W
Sbjct: 121 LDISDNAIQKAIELSSSSPNMRHCTFLREDFFSWRPKELFDLIFDYTFFCAIEPVMRQVW 180

Query: 181 GQQIQRLLKPNGELITLMFPI-DDHIGGPPYKVSVSDYEDVLHPLGFKAILIKDNELAIP 240
           GQQIQRLLKPNGELITLMFPI DDH GGPPYKVSVSDYEDVLHPLGFKA+LIKDNELAIP
Sbjct: 181 GQQIQRLLKPNGELITLMFPIDDDHSGGPPYKVSVSDYEDVLHPLGFKAVLIKDNELAIP 240

[Close]
BLAST of Cla97C04G070270 vs. TrEMBL
Match: tr|A0A1S4DY06|A0A1S4DY06_CUCME (probable thiol methyltransferase 2 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103491394 PE=4 SV=1)

HSP 1 Score: 419.9 bits (1078), Expect = 4.3e-114
Identity = 205/243 (84.36%), Postives = 217/243 (89.30%), Query Frame = 0 

Query: 1   MILGTRKLSTF--GAAPVQTRRSLMMKLRMNQQSTEHNASKSNHQSSLDECQKVMRTDHT 60
           MILG  K  +    AAP+QT R+L +KLRMNQ STEH ASK NHQS + E QKVM TDH+
Sbjct: 1   MILGAGKFRSVLSRAAPLQTHRALTLKLRMNQNSTEHKASKFNHQSRVHEFQKVMGTDHS 60

Query: 61  GGWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQMACSERYVVG 120
           GGW+ICWE GLTPWDLGQPTP+ISHLCA GALPNGRVLVPGCGSGYDVVQMAC+ERYVVG
Sbjct: 61  GGWDICWEHGLTPWDLGQPTPLISHLCATGALPNGRVLVPGCGSGYDVVQMACAERYVVG 120

Query: 121 LDISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCAIEPDMRLAW 180
           LDISDNAIQKA ELSSSSPNMR+ TFL+EDFFSWRPKELFDLIFDYTFFCAIEP MR  W
Sbjct: 121 LDISDNAIQKAIELSSSSPNMRHCTFLREDFFSWRPKELFDLIFDYTFFCAIEPVMRQVW 180

Query: 181 GQQIQRLLKPNGELITLMFPI-DDHIGGPPYKVSVSDYEDVLHPLGFKAILIKDNELAIP 240
           GQQIQRLLKPNGELITLMFPI DDH GGPPYKVSVSDYEDVLHPLGFKA+LIKDNELAIP
Sbjct: 181 GQQIQRLLKPNGELITLMFPIDDDHSGGPPYKVSVSDYEDVLHPLGFKAVLIKDNELAIP 240

[Close]
BLAST of Cla97C04G070270 vs. TrEMBL
Match: tr|A0A2P6RHV7|A0A2P6RHV7_ROSCH (Putative methyl halide transferase OS=Rosa chinensis OX=74649 GN=RchiOBHm_Chr2g0084541 PE=4 SV=1)

HSP 1 Score: 340.1 bits (871), Expect = 4.3e-90
Identity = 164/268 (61.19%), Postives = 203/268 (75.75%), Query Frame = 0 

Query: 1   MILGTRKLSTFGAAPVQTRRSLMMKLRM-----NQQSTEHNASKSNHQ-SSLDECQKVMR 60
           +I   R L+     P  +R  + ++LRM      +Q    + S+ NH+   ++E Q+++ 
Sbjct: 9   LIRTRRNLNLLPLIPPTSRTRVFLQLRMMMTKKREQGDPESQSRENHKPRGVNELQQLLH 68

Query: 61  TDHTGG-----WEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQM 120
           +D TGG     W+ CWEQGLTPWDLGQPTPVI+HL  +GALP GR LVPGCG+GYDVV++
Sbjct: 69  SDSTGGAGGGDWDKCWEQGLTPWDLGQPTPVIAHLHRLGALPKGRALVPGCGTGYDVVEI 128

Query: 121 ACSERYVVGLDISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCA 180
           AC ER+V GLDIS NAI KA +L SS PN  +FTFLK DFF+W P ELFDLIFDYTFFCA
Sbjct: 129 ACPERHVTGLDISHNAINKALQLFSSLPNAMHFTFLKVDFFTWHPTELFDLIFDYTFFCA 188

Query: 181 IEPDMRLAWGQQIQRLLKPNGELITLMFPIDDHIGGPPYKVSVSDYEDVLHPLGFKAILI 240
           IEPDMR AW Q+++ +LKP+GELITLMFPI DH+GGPPYKVSVSDYE+VLHP+GFKAI I
Sbjct: 189 IEPDMRSAWAQKMRDILKPDGELITLMFPISDHLGGPPYKVSVSDYEEVLHPMGFKAISI 248

Query: 241 KDNELAIPPRKGREMIGRWKRSLAQASL 258
            DN LA+ PRKGRE +GRWKR  +++SL
Sbjct: 249 LDNHLAVLPRKGREKLGRWKRPASKSSL 276

[Close]
BLAST of Cla97C04G070270 vs. Swiss-Prot
Match: sp|Q6AWU6|HOL3_ARATH (Probable thiol methyltransferase 2 OS=Arabidopsis thaliana OX=3702 GN=HOL3 PE=1 SV=1)

HSP 1 Score: 295.4 bits (755), Expect = 6.0e-79
Identity = 137/217 (63.13%), Postives = 169/217 (77.88%), Query Frame = 0 

Query: 36  NASKSNH-QSSLDECQKVMRTDHTGGWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGR 95
           NA K+   QSS D   ++M  + +GGWE  WE G TPWDLG+PTPVI+HL   G+LPNGR
Sbjct: 3   NAGKATSLQSSRDLFHRLMSENSSGGWEKSWEAGATPWDLGKPTPVIAHLVETGSLPNGR 62

Query: 96  VLVPGCGSGYDVVQMACSERYVVGLDISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRP 155
            LVPGCG+GYDVV MA  +R+VVGLDIS  A++++ +  S+ PN +YF+FL EDFF+W P
Sbjct: 63  ALVPGCGTGYDVVAMASPDRHVVGLDISKTAVERSTKKFSTLPNAKYFSFLSEDFFTWEP 122

Query: 156 KELFDLIFDYTFFCAIEPDMRLAWGQQIQRLLKPNGELITLMFPIDDHIGGPPYKVSVSD 215
            E FDLIFDYTFFCA EP +R  W Q++++LLKP GELITLMFPID+  GGPPY+VSVS+
Sbjct: 123 AEKFDLIFDYTFFCAFEPGVRPLWAQRMEKLLKPGGELITLMFPIDERSGGPPYEVSVSE 182

Query: 216 YEDVLHPLGFKAILIKDNELAIPPRKGREMIGRWKRS 252
           YE VL PLGF+AI I DNELA+ PRKG E +GRWK+S
Sbjct: 183 YEKVLIPLGFEAISIVDNELAVGPRKGMEKLGRWKKS 219

[Close]
BLAST of Cla97C04G070270 vs. Swiss-Prot
Match: sp|Q93V78|TMT1_BRAOL (Thiocyanate methyltransferase 1 OS=Brassica oleracea OX=3712 GN=TMT1 PE=1 SV=1)

HSP 1 Score: 282.0 bits (720), Expect = 6.8e-75
Identity = 131/220 (59.55%), Postives = 165/220 (75.00%), Query Frame = 0 

Query: 34  EHNASKSNHQSSL--DECQKVM-RTDHTGGWEICWEQGLTPWDLGQPTPVISHLCAMGAL 93
           +  A  SN ++ +  +E  K +  T   GGWE CWE G+TPWD G+ TP++ HL    +L
Sbjct: 5   QQKAGHSNGENIIPPEEVAKFLPETVEEGGWEKCWEDGITPWDQGRATPLVVHLVDSSSL 64

Query: 94  PNGRVLVPGCGSGYDVVQMACSERYVVGLDISDNAIQKARELSSSSPNMRYFTFLKEDFF 153
           P GR LVPGCG G+DVV MA  ER+VVGLDIS++A++KA E   SSP  +YFTF+KEDFF
Sbjct: 65  PLGRALVPGCGGGHDVVAMASPERFVVGLDISESALEKAAETYGSSPKAKYFTFVKEDFF 124

Query: 154 SWRPKELFDLIFDYTFFCAIEPDMRLAWGQQIQRLLKPNGELITLMFPIDDHIGGPPYKV 213
           +WRP ELFDLIFDY  FCAIEP+MR AW + +  LLKP+GELITLM+PI DH GGPPYKV
Sbjct: 125 TWRPNELFDLIFDYVVFCAIEPEMRPAWAKSMYELLKPDGELITLMYPITDHDGGPPYKV 184

Query: 214 SVSDYEDVLHPLGFKAILIKDNELAIPPRKGREMIGRWKR 251
           +VS YEDVL P+GFKA+ I++N  +I  RKG+E +GRWK+
Sbjct: 185 AVSTYEDVLVPVGFKAVSIEENPYSIATRKGKEKLGRWKK 224

[Close]
BLAST of Cla97C04G070270 vs. Swiss-Prot
Match: sp|Q93XC4|TMT2_BRAOL (Probable thiocyanate methyltransferase 2 OS=Brassica oleracea OX=3712 GN=TMT2 PE=2 SV=1)

HSP 1 Score: 279.6 bits (714), Expect = 3.4e-74
Identity = 129/220 (58.64%), Postives = 164/220 (74.55%), Query Frame = 0 

Query: 34  EHNASKSNHQSSL---DECQKVMRTDHTGGWEICWEQGLTPWDLGQPTPVISHLCAMGAL 93
           + N+  SN ++ +   D  + + +T   GGWE CWE G+TPWD G+ TP++ HL    +L
Sbjct: 5   QQNSGNSNGENIIPPEDVAKFLPKTVDEGGWEKCWEDGVTPWDQGRATPLVVHLVESSSL 64

Query: 94  PNGRVLVPGCGSGYDVVQMACSERYVVGLDISDNAIQKARELSSSSPNMRYFTFLKEDFF 153
           P GR LVPGCG G+DVV MA  ERYVVGLDIS++A++KA E   SSP  +YFTF+KEDFF
Sbjct: 65  PLGRGLVPGCGGGHDVVAMASPERYVVGLDISESALEKAAETYGSSPKAKYFTFVKEDFF 124

Query: 154 SWRPKELFDLIFDYTFFCAIEPDMRLAWGQQIQRLLKPNGELITLMFPIDDHIGGPPYKV 213
           +WRP ELFDLIFDY  FCAIEP+ R AW + +  LLKP+GELITLM+PI DH GGPPYKV
Sbjct: 125 TWRPNELFDLIFDYVVFCAIEPETRPAWAKAMYELLKPDGELITLMYPITDHDGGPPYKV 184

Query: 214 SVSDYEDVLHPLGFKAILIKDNELAIPPRKGREMIGRWKR 251
           +VS YEDVL P+GFKA+ I++N  +I  RKG+E + RWK+
Sbjct: 185 AVSTYEDVLVPVGFKAVSIEENPYSIATRKGKEKLARWKK 224

[Close]
BLAST of Cla97C04G070270 vs. Swiss-Prot
Match: sp|O80562|HOL2_ARATH (Probable thiol methyltransferase 1 OS=Arabidopsis thaliana OX=3702 GN=HOL2 PE=1 SV=1)

HSP 1 Score: 277.7 bits (709), Expect = 1.3e-73
Identity = 123/192 (64.06%), Postives = 150/192 (78.12%), Query Frame = 0 

Query: 59  GGWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQMACSERYVVG 118
           GGW+ CWE G+TPWD G+ TP+I HL    ALP GR LVPGCG G+DVV MA  ER+VVG
Sbjct: 34  GGWDKCWEDGVTPWDQGRATPLILHLLDSSALPLGRTLVPGCGGGHDVVAMASPERFVVG 93

Query: 119 LDISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCAIEPDMRLAW 178
           LDISD A+ KA E   SSP   YF+F+KED F+WRP ELFDLIFDY FFCAIEP+MR AW
Sbjct: 94  LDISDKALNKANETYGSSPKAEYFSFVKEDVFTWRPNELFDLIFDYVFFCAIEPEMRPAW 153

Query: 179 GQQIQRLLKPNGELITLMFPIDDHIGGPPYKVSVSDYEDVLHPLGFKAILIKDNELAIPP 238
           G+ +  LLKP+GELITLM+P+ DH GG PYKV++S YEDVL P+GFKA+ +++N  +IP 
Sbjct: 154 GKSMHELLKPDGELITLMYPMTDHEGGAPYKVALSSYEDVLVPVGFKAVSVEENPDSIPT 213

Query: 239 RKGREMIGRWKR 251
           RKG+E + RWK+
Sbjct: 214 RKGKEKLARWKK 225

[Close]
BLAST of Cla97C04G070270 vs. Swiss-Prot
Match: sp|Q0WP12|HOL1_ARATH (Thiocyanate methyltransferase 1 OS=Arabidopsis thaliana OX=3702 GN=HOL1 PE=1 SV=1)

HSP 1 Score: 261.9 bits (668), Expect = 7.3e-69
Identity = 121/211 (57.35%), Postives = 156/211 (73.93%), Query Frame = 0 

Query: 34  EHNASKSNHQSSLDECQKVM----RTDHTGGWEICWEQGLTPWDLGQPTPVISHLCAMGA 93
           + N+ +SN  + +   ++V     +T   GGWE CWE+ +TPWD G+ TP+I HL    +
Sbjct: 5   QQNSDQSNGGNVIPTPEEVATFLHKTVEEGGWEKCWEEEITPWDQGRATPLIVHLVDTSS 64

Query: 94  LPNGRVLVPGCGSGYDVVQMACSERYVVGLDISDNAIQKARELSSSSPNMRYFTFLKEDF 153
           LP GR LVPGCG G+DVV MA  ER+VVGLDIS++A+ KA E   SSP   YF+F+KED 
Sbjct: 65  LPLGRALVPGCGGGHDVVAMASPERFVVGLDISESALAKANETYGSSPKAEYFSFVKEDV 124

Query: 154 FSWRPKELFDLIFDYTFFCAIEPDMRLAWGQQIQRLLKPNGELITLMFPIDDHIGGPPYK 213
           F+WRP ELFDLIFDY FFCAIEP+MR AW + +  LLKP+GELITLM+PI DH+GGPPYK
Sbjct: 125 FTWRPTELFDLIFDYVFFCAIEPEMRPAWAKSMYELLKPDGELITLMYPITDHVGGPPYK 184

Query: 214 VSVSDYEDVLHPLGFKAILIKDNELAIPPRK 241
           V VS +E+VL P+GFKA+ +++N  AIP R+
Sbjct: 185 VDVSTFEEVLVPIGFKAVSVEENPHAIPTRQ 215

[Close]
BLAST of Cla97C04G070270 vs. TAIR10
Match: AT2G43940.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein)

HSP 1 Score: 295.4 bits (755), Expect = 3.3e-80
Identity = 137/217 (63.13%), Postives = 169/217 (77.88%), Query Frame = 0 

Query: 36  NASKSNH-QSSLDECQKVMRTDHTGGWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGR 95
           NA K+   QSS D   ++M  + +GGWE  WE G TPWDLG+PTPVI+HL   G+LPNGR
Sbjct: 3   NAGKATSLQSSRDLFHRLMSENSSGGWEKSWEAGATPWDLGKPTPVIAHLVETGSLPNGR 62

Query: 96  VLVPGCGSGYDVVQMACSERYVVGLDISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRP 155
            LVPGCG+GYDVV MA  +R+VVGLDIS  A++++ +  S+ PN +YF+FL EDFF+W P
Sbjct: 63  ALVPGCGTGYDVVAMASPDRHVVGLDISKTAVERSTKKFSTLPNAKYFSFLSEDFFTWEP 122

Query: 156 KELFDLIFDYTFFCAIEPDMRLAWGQQIQRLLKPNGELITLMFPIDDHIGGPPYKVSVSD 215
            E FDLIFDYTFFCA EP +R  W Q++++LLKP GELITLMFPID+  GGPPY+VSVS+
Sbjct: 123 AEKFDLIFDYTFFCAFEPGVRPLWAQRMEKLLKPGGELITLMFPIDERSGGPPYEVSVSE 182

Query: 216 YEDVLHPLGFKAILIKDNELAIPPRKGREMIGRWKRS 252
           YE VL PLGF+AI I DNELA+ PRKG E +GRWK+S
Sbjct: 183 YEKVLIPLGFEAISIVDNELAVGPRKGMEKLGRWKKS 219

[Close]
BLAST of Cla97C04G070270 vs. TAIR10
Match: AT2G43920.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein)

HSP 1 Score: 277.7 bits (709), Expect = 7.2e-75
Identity = 123/192 (64.06%), Postives = 150/192 (78.12%), Query Frame = 0 

Query: 59  GGWEICWEQGLTPWDLGQPTPVISHLCAMGALPNGRVLVPGCGSGYDVVQMACSERYVVG 118
           GGW+ CWE G+TPWD G+ TP+I HL    ALP GR LVPGCG G+DVV MA  ER+VVG
Sbjct: 34  GGWDKCWEDGVTPWDQGRATPLILHLLDSSALPLGRTLVPGCGGGHDVVAMASPERFVVG 93

Query: 119 LDISDNAIQKARELSSSSPNMRYFTFLKEDFFSWRPKELFDLIFDYTFFCAIEPDMRLAW 178
           LDISD A+ KA E   SSP   YF+F+KED F+WRP ELFDLIFDY FFCAIEP+MR AW
Sbjct: 94  LDISDKALNKANETYGSSPKAEYFSFVKEDVFTWRPNELFDLIFDYVFFCAIEPEMRPAW 153

Query: 179 GQQIQRLLKPNGELITLMFPIDDHIGGPPYKVSVSDYEDVLHPLGFKAILIKDNELAIPP 238
           G+ +  LLKP+GELITLM+P+ DH GG PYKV++S YEDVL P+GFKA+ +++N  +IP 
Sbjct: 154 GKSMHELLKPDGELITLMYPMTDHEGGAPYKVALSSYEDVLVPVGFKAVSVEENPDSIPT 213

Query: 239 RKGREMIGRWKR 251
           RKG+E + RWK+
Sbjct: 214 RKGKEKLARWKK 225

[Close]
BLAST of Cla97C04G070270 vs. TAIR10
Match: AT2G43910.2 (HARMLESS TO OZONE LAYER 1)

HSP 1 Score: 261.9 bits (668), Expect = 4.1e-70
Identity = 121/211 (57.35%), Postives = 156/211 (73.93%), Query Frame = 0 

Query: 34  EHNASKSNHQSSLDECQKVM----RTDHTGGWEICWEQGLTPWDLGQPTPVISHLCAMGA 93
           + N+ +SN  + +   ++V     +T   GGWE CWE+ +TPWD G+ TP+I HL    +
Sbjct: 5   QQNSDQSNGGNVIPTPEEVATFLHKTVEEGGWEKCWEEEITPWDQGRATPLIVHLVDTSS 64

Query: 94  LPNGRVLVPGCGSGYDVVQMACSERYVVGLDISDNAIQKARELSSSSPNMRYFTFLKEDF 153
           LP GR LVPGCG G+DVV MA  ER+VVGLDIS++A+ KA E   SSP   YF+F+KED 
Sbjct: 65  LPLGRALVPGCGGGHDVVAMASPERFVVGLDISESALAKANETYGSSPKAEYFSFVKEDV 124

Query: 154 FSWRPKELFDLIFDYTFFCAIEPDMRLAWGQQIQRLLKPNGELITLMFPIDDHIGGPPYK 213
           F+WRP ELFDLIFDY FFCAIEP+MR AW + +  LLKP+GELITLM+PI DH+GGPPYK
Sbjct: 125 FTWRPTELFDLIFDYVFFCAIEPEMRPAWAKSMYELLKPDGELITLMYPITDHVGGPPYK 184

Query: 214 VSVSDYEDVLHPLGFKAILIKDNELAIPPRK 241
           V VS +E+VL P+GFKA+ +++N  AIP R+
Sbjct: 185 VDVSTFEEVLVPIGFKAVSVEENPHAIPTRQ 215

The following BLAST results are available for this feature:
BLAST of Cla97C04G070270 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_004144344.13.1e-12485.33PREDICTED: probable thiol methyltransferase 2 [Cucumis sativus] >KGN54738.1 hypo... [more]
XP_022149366.11.2e-12383.72probable thiol methyltransferase 2 isoform X2 [Momordica charantia][more]
XP_008449545.14.4e-12384.62PREDICTED: probable thiol methyltransferase 2 isoform X2 [Cucumis melo][more]
XP_022925292.12.9e-12284.11probable thiol methyltransferase 2 isoform X1 [Cucurbita moschata][more]
XP_023518377.12.4e-12183.33probable thiol methyltransferase 2 isoform X1 [Cucurbita pepo subsp. pepo][more]
BLAST of Cla97C04G070270 vs. TrEMBL
Match NameE-valueIdentityDescription
tr|A0A0A0KYY5|A0A0A0KYY5_CUCSA2.0e-12485.33Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G439050 PE=4 SV=1[more]
tr|A0A1S3BN67|A0A1S3BN67_CUCME2.9e-12384.62probable thiol methyltransferase 2 isoform X2 OS=Cucumis melo OX=3656 GN=LOC1034... [more]
tr|A0A1S3BM99|A0A1S3BM99_CUCME4.3e-11484.36probable thiol methyltransferase 2 isoform X3 OS=Cucumis melo OX=3656 GN=LOC1034... [more]
tr|A0A1S4DY06|A0A1S4DY06_CUCME4.3e-11484.36probable thiol methyltransferase 2 isoform X1 OS=Cucumis melo OX=3656 GN=LOC1034... [more]
tr|A0A2P6RHV7|A0A2P6RHV7_ROSCH4.3e-9061.19Putative methyl halide transferase OS=Rosa chinensis OX=74649 GN=RchiOBHm_Chr2g0... [more]
BLAST of Cla97C04G070270 vs. Swiss-Prot
Match NameE-valueIdentityDescription
sp|Q6AWU6|HOL3_ARATH6.0e-7963.13Probable thiol methyltransferase 2 OS=Arabidopsis thaliana OX=3702 GN=HOL3 PE=1 ... [more]
sp|Q93V78|TMT1_BRAOL6.8e-7559.55Thiocyanate methyltransferase 1 OS=Brassica oleracea OX=3712 GN=TMT1 PE=1 SV=1[more]
sp|Q93XC4|TMT2_BRAOL3.4e-7458.64Probable thiocyanate methyltransferase 2 OS=Brassica oleracea OX=3712 GN=TMT2 PE... [more]
sp|O80562|HOL2_ARATH1.3e-7364.06Probable thiol methyltransferase 1 OS=Arabidopsis thaliana OX=3702 GN=HOL2 PE=1 ... [more]
sp|Q0WP12|HOL1_ARATH7.3e-6957.35Thiocyanate methyltransferase 1 OS=Arabidopsis thaliana OX=3702 GN=HOL1 PE=1 SV=... [more]
BLAST of Cla97C04G070270 vs. TAIR10
Match NameE-valueIdentityDescription
AT2G43940.13.3e-8063.13S-adenosyl-L-methionine-dependent methyltransferases superfamily protein[more]
AT2G43920.17.2e-7564.06S-adenosyl-L-methionine-dependent methyltransferases superfamily protein[more]
AT2G43910.24.1e-7057.35HARMLESS TO OZONE LAYER 1[more]
Annotated Terms
The following terms have been associated with this gene:
Vocabulary: Molecular Function
TermDefinition
GO:0008757S-adenosylmethionine-dependent methyltransferase activity
Vocabulary: INTERPRO
TermDefinition
IPR029063SAM-dependent_MTases
IPR008854TPMT
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0032259 methylation
biological_process GO:0008150 biological_process
cellular_component GO:0005575 cellular_component
molecular_function GO:0008168 methyltransferase activity
molecular_function GO:0008757 S-adenosylmethionine-dependent methyltransferase activity
molecular_function GO:0016740 transferase activity
Relationships

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

Feature NameUnique NameType
Cla97C04G070270.1Cla97C04G070270.1mRNA


InterPro
Analysis Name: InterPro Annotations of watermelon 97103 v2
Date Performed: 2019-05-12
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableGENE3DG3DSA:3.40.50.150coord: 27..256
e-value: 4.9E-85
score: 286.3
NoneNo IPR availablePANTHERPTHR32183:SF6THIOCYANATE METHYLTRANSFERASE 1-RELATEDcoord: 28..253
NoneNo IPR availablePANTHERPTHR32183FAMILY NOT NAMEDcoord: 28..253
NoneNo IPR availableCDDcd02440AdoMet_MTasescoord: 94..194
e-value: 2.23204E-10
score: 54.7434
IPR008854TPMT familyPFAMPF05724TPMTcoord: 58..241
e-value: 1.4E-50
score: 171.9
IPR008854TPMT familyPROSITEPS51585SAM_MT_TPMTcoord: 58..250
score: 54.944
IPR029063S-adenosyl-L-methionine-dependent methyltransferaseSUPERFAMILYSSF53335S-adenosyl-L-methionine-dependent methyltransferasescoord: 53..250

Synteny
The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
Cla97C04G070270Csa4G439050Cucumber (Chinese Long) v2cuwmbB303
Cla97C04G070270MELO3C003270Melon (DHL92) v3.5.1mewmbB543
Cla97C04G070270ClCG04G002900Watermelon (Charleston Gray)wcgwmbB200
Cla97C04G070270CSPI04G19490Wild cucumber (PI 183967)cpiwmbB312
Cla97C04G070270Cucsa.169960Cucumber (Gy14) v1cgywmbB308
Cla97C04G070270CmaCh07G013720Cucurbita maxima (Rimu)cmawmbB893
Cla97C04G070270CmoCh07G014120Cucurbita moschata (Rifu)cmowmbB863
Cla97C04G070270Lsi01G020070Bottle gourd (USVL1VR-Ls)lsiwmbB136
Cla97C04G070270CsGy4G018370Cucumber (Gy14) v2cgybwmbB283
Cla97C04G070270MELO3C033208.2Melon (DHL92) v3.6.1medwmbB537
Cla97C04G070270Carg21094Silver-seed gourdcarwmbB0500
Cla97C04G070270CsaV3_4G029860Cucumber (Chinese Long) v3cucwmbB308
Cla97C04G070270Bhi03G002302Wax gourdwgowmbB434
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
Cla97C04G070270Cucumber (Gy14) v2cgybwmbB288
Cla97C04G070270Watermelon (97103) v1wmwmbB293
Cla97C04G070270Watermelon (97103) v1wmwmbB296