CmaCh12G007710 (gene) Cucurbita maxima (Rimu)

NameCmaCh12G007710
Typegene
OrganismCucurbita maxima (Cucurbita maxima (Rimu))
DescriptionNADH-ubiquinone oxidoreductase chain 1
LocationCma_Chr12 : 5099266 .. 5131888 (-)
   



The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGCTTTTGTGCAATGTCGAAAGGGTCCTGATGTAGTGGGATCGTTCGGATTGTTACAACCTCTAGCAGATGGTTTGAAATTGATGATAAAAGAACCTCTTTCACCAAGTAGTGCTAATTTCTCCCTTTTTAGAATGGCTCCAGTGGCTACATTTATGTTAAGTCTGGTCGCTCGGGCCGTTGTACCTTTTGATTATGGTATGGTATTGTCAGATCCGAACATAGGGCTACTTTATTTGTTTGCCATATCTTCGCTAGGTGTTTATGGAATTATTATCGCGGCTTCATCAGATAAGGCAGCAAGTAAGAAGAAAACCAAGATCAGGCAATTTACCCTCCTGAAAAGACGGAGGCAATGCCTTAAATCGAATCATCTCCATTATCAGGCTCTTCAAGCCTATTATATACCTAATCCCATTGAACCACGAAAAAGGGAGGCAGTTGAATTGAGGAAGTTCAAGTTAGCAGCTCAATCGGATCCTATATTCATATTCTCCACTCCTTGGGAAGCTATTTCCTCCTATTCGATTCCTAGTCCCTCCAGAATCAATTATCTAGTCAAGGCTAGATTAAAGATCATTGCTTGCGACTGCCATTACGACTTTTTACAGCAGTCTAATTGTCACTATTGCTCTTTCGAGTCTACACTTAGAGTTTCATCCGGCTGCTTTTTGGCTTTTCTGGGCTATTCACTATCAGCAAAGAGAGTCTGCCCAGCTAAACGGATTCGATTATCAGGCATTCAGTCATCAGTAGCTTCTTCGATGAAAAGCCATCCTAATTCTGGTGAAAAGAGGGAGAAGATCCGTAAGATCAGTTCACTGCTAAAGGAACAGACTAAGAAGGCACTTCTAGCACTTCATTCTCCGAAAACAACTCTTTCTTCTATTTCTTTACGGACGGGGAAGATCAGCCTGAGAGTATCCGGGACGAGTGAAATCAATACTGTCTGGTATGAATTCCGGGAAGAGACTGAGGTTGCCTGA

Coding sequence (CDS)

ATGGCTTTTGTGCAATGTCGAAAGGGTCCTGATGTAGTGGGATCGTTCGGATTGTTACAACCTCTAGCAGATGGTTTGAAATTGATGATAAAAGAACCTCTTTCACCAAGTAGTGCTAATTTCTCCCTTTTTAGAATGGCTCCAGTGGCTACATTTATGTTAAGTCTGGTCGCTCGGGCCGTTGTACCTTTTGATTATGGTATGGTATTGTCAGATCCGAACATAGGGCTACTTTATTTGTTTGCCATATCTTCGCTAGGTGTTTATGGAATTATTATCGCGGCTTCATCAGATAAGGCAGCAAGTAAGAAGAAAACCAAGATCAGGCAATTTACCCTCCTGAAAAGACGGAGGCAATGCCTTAAATCGAATCATCTCCATTATCAGGCTCTTCAAGCCTATTATATACCTAATCCCATTGAACCACGAAAAAGGGAGGCAGTTGAATTGAGGAAGTTCAAGTTAGCAGCTCAATCGGATCCTATATTCATATTCTCCACTCCTTGGGAAGCTATTTCCTCCTATTCGATTCCTAGTCCCTCCAGAATCAATTATCTAGTCAAGGCTAGATTAAAGATCATTGCTTGCGACTGCCATTACGACTTTTTACAGCAGTCTAATTGTCACTATTGCTCTTTCGAGTCTACACTTAGAGTTTCATCCGGCTGCTTTTTGGCTTTTCTGGGCTATTCACTATCAGCAAAGAGAGTCTGCCCAGCTAAACGGATTCGATTATCAGGCATTCAGTCATCAGTAGCTTCTTCGATGAAAAGCCATCCTAATTCTGGTGAAAAGAGGGAGAAGATCCGTAAGATCAGTTCACTGCTAAAGGAACAGACTAAGAAGGCACTTCTAGCACTTCATTCTCCGAAAACAACTCTTTCTTCTATTTCTTTACGGACGGGGAAGATCAGCCTGAGAGTATCCGGGACGAGTGAAATCAATACTGTCTGGTATGAATTCCGGGAAGAGACTGAGGTTGCCTGA

Protein sequence

MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARAVVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKAASKKKTKIRQFTLLKRRRQCLKSNHLHYQALQAYYIPNPIEPRKREAVELRKFKLAAQSDPIFIFSTPWEAISSYSIPSPSRINYLVKARLKIIACDCHYDFLQQSNCHYCSFESTLRVSSGCFLAFLGYSLSAKRVCPAKRIRLSGIQSSVASSMKSHPNSGEKREKIRKISSLLKEQTKKALLALHSPKTTLSSISLRTGKISLRVSGTSEINTVWYEFREETEVA
BLAST of CmaCh12G007710 vs. Swiss-Prot
Match: NU1M_PETHY (NADH-ubiquinone oxidoreductase chain 1 OS=Petunia hybrida GN=ND1 PE=3 SV=1)

HSP 1 Score: 176.8 bits (447), Expect = 3.9e-43
Identity = 91/100 (91.00%), Postives = 95/100 (95.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKL++KEP+SPSSANFSLFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLILKEPISPSSANFSLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 91  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAGWSSNS 130

BLAST of CmaCh12G007710 vs. Swiss-Prot
Match: NU1M_OENBE (NADH-ubiquinone oxidoreductase chain 1 OS=Oenothera berteroana GN=ND1 PE=2 SV=1)

HSP 1 Score: 169.9 bits (429), Expect = 4.8e-41
Identity = 89/100 (89.00%), Postives = 93/100 (93.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKL++KEP+SPSSANFSLFRMAPVATFMLSLVA A
Sbjct: 37  MAFVQRRKGPDVVGSFGLLQPLADGLKLILKEPISPSSANFSLFRMAPVATFMLSLVAWA 96

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYGMVLSD NIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 97  VVPFDYGMVLSDLNIGLLYLFAISSLGVYGIIIAGWSSNS 136

BLAST of CmaCh12G007710 vs. Swiss-Prot
Match: NU1M_WHEAT (NADH-ubiquinone oxidoreductase chain 1 OS=Triticum aestivum GN=ND1 PE=2 SV=1)

HSP 1 Score: 167.5 bits (423), Expect = 2.4e-40
Identity = 88/100 (88.00%), Postives = 92/100 (92.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKL++KEP+SPSSANF LFRMAPVATFMLSLVA A
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLILKEPISPSSANFFLFRMAPVATFMLSLVAWA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYGMVLSD NIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 91  VVPFDYGMVLSDLNIGLLYLFAISSLGVYGIIIAGWSSNS 130

BLAST of CmaCh12G007710 vs. Swiss-Prot
Match: NU1M_ARATH (NADH-ubiquinone oxidoreductase chain 1 OS=Arabidopsis thaliana GN=ND1 PE=2 SV=4)

HSP 1 Score: 167.5 bits (423), Expect = 2.4e-40
Identity = 88/100 (88.00%), Postives = 92/100 (92.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKL++KEP+SPSSANF LFRMAPVATFMLSLVA A
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLILKEPISPSSANFFLFRMAPVATFMLSLVAWA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYGMVLSD NIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 91  VVPFDYGMVLSDLNIGLLYLFAISSLGVYGIIIAGWSSNS 130

BLAST of CmaCh12G007710 vs. Swiss-Prot
Match: NU1M_MARPO (NADH-ubiquinone oxidoreductase chain 1 OS=Marchantia polymorpha GN=ND1 PE=3 SV=2)

HSP 1 Score: 139.0 bits (349), Expect = 9.0e-32
Identity = 76/103 (73.79%), Postives = 84/103 (81.55%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MA +Q RKGP+VVG  GLLQPLADGLKLMIKEP+ PSSAN  +F MAPV TF L+L A A
Sbjct: 34  MASMQRRKGPNVVGILGLLQPLADGLKLMIKEPILPSSANIFIFLMAPVLTFTLALCAWA 93

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA--ASSDKAA 102
           V+PFDYGMV SD NIG+LYLFAISSLGVYGII A  AS+ K A
Sbjct: 94  VIPFDYGMVFSDLNIGVLYLFAISSLGVYGIITAGWASNSKYA 136

BLAST of CmaCh12G007710 vs. TrEMBL
Match: G3EU12_CUCME (NADH-ubiquinone oxidoreductase chain 1 OS=Cucumis melo subsp. melo GN=nad1 PE=3 SV=1)

HSP 1 Score: 178.3 bits (451), Expect = 1.5e-41
Identity = 93/100 (93.00%), Postives = 95/100 (95.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYG+VLSDPNIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 91  VVPFDYGIVLSDPNIGLLYLFAISSLGVYGIIIAGWSSNS 130

BLAST of CmaCh12G007710 vs. TrEMBL
Match: G3EIX4_CUCSA (NADH-ubiquinone oxidoreductase chain 1 OS=Cucumis sativus GN=nad1 PE=3 SV=1)

HSP 1 Score: 178.3 bits (451), Expect = 1.5e-41
Identity = 93/100 (93.00%), Postives = 95/100 (95.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYG+VLSDPNIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 91  VVPFDYGIVLSDPNIGLLYLFAISSLGVYGIIIAGWSSNS 130

BLAST of CmaCh12G007710 vs. TrEMBL
Match: A0A142I0W6_NICSY (NADH-ubiquinone oxidoreductase chain 1 OS=Nicotiana sylvestris GN=nad1 PE=3 SV=1)

HSP 1 Score: 177.6 bits (449), Expect = 2.5e-41
Identity = 94/104 (90.38%), Postives = 99/104 (95.19%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKL++KEP+SPSSANFSLFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLILKEPISPSSANFSLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA--ASSDKAAS 103
           VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA  +S+ K AS
Sbjct: 91  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAGWSSNSKYAS 134

BLAST of CmaCh12G007710 vs. TrEMBL
Match: A0A0C5AUB1_HYONI (NADH-ubiquinone oxidoreductase chain 1 OS=Hyoscyamus niger GN=nad1 PE=3 SV=1)

HSP 1 Score: 177.6 bits (449), Expect = 2.5e-41
Identity = 94/104 (90.38%), Postives = 99/104 (95.19%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKL++KEP+SPSSANFSLFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLILKEPISPSSANFSLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA--ASSDKAAS 103
           VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA  +S+ K AS
Sbjct: 91  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAGWSSNSKYAS 134

BLAST of CmaCh12G007710 vs. TrEMBL
Match: A0A0M5KJL4_TOBAC (NADH-ubiquinone oxidoreductase chain 1 OS=Nicotiana tabacum GN=nad1 PE=3 SV=1)

HSP 1 Score: 177.6 bits (449), Expect = 2.5e-41
Identity = 94/104 (90.38%), Postives = 99/104 (95.19%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKL++KEP+SPSSANFSLFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLILKEPISPSSANFSLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA--ASSDKAAS 103
           VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA  +S+ K AS
Sbjct: 91  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAGWSSNSKYAS 134

BLAST of CmaCh12G007710 vs. TAIR10
Match: ATMG01120.1 (ATMG01120.1 NADH dehydrogenase 1B)

HSP 1 Score: 172.9 bits (437), Expect = 3.2e-43
Identity = 89/100 (89.00%), Postives = 93/100 (93.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADG KL++KEP+SPSSANF LFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGSKLILKEPISPSSANFFLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 91  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAGRSSNS 130

BLAST of CmaCh12G007710 vs. TAIR10
Match: ATMG00516.1 (ATMG00516.1 NADH dehydrogenase 1C)

HSP 1 Score: 172.9 bits (437), Expect = 3.2e-43
Identity = 89/100 (89.00%), Postives = 93/100 (93.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADG KL++KEP+SPSSANF LFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGSKLILKEPISPSSANFFLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 91  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAGRSSNS 130

BLAST of CmaCh12G007710 vs. TAIR10
Match: ATMG01275.1 (ATMG01275.1 NADH dehydrogenase 1A)

HSP 1 Score: 172.9 bits (437), Expect = 3.2e-43
Identity = 89/100 (89.00%), Postives = 93/100 (93.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADG KL++KEP+SPSSANF LFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGSKLILKEPISPSSANFFLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 91  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAGRSSNS 130

BLAST of CmaCh12G007710 vs. TAIR10
Match: AT2G07785.1 (AT2G07785.1 NADH dehydrogenase family protein)

HSP 1 Score: 172.6 bits (436), Expect = 4.1e-43
Identity = 89/97 (91.75%), Postives = 92/97 (94.85%), Query Frame = 1

Query: 1  MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
          MAFVQ RKGPDVVGSFGLLQPLADG KL++KEP+SPSSANF LFRMAPVATFMLSLVARA
Sbjct: 1  MAFVQRRKGPDVVGSFGLLQPLADGSKLILKEPISPSSANFFLFRMAPVATFMLSLVARA 60

Query: 61 VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASS 98
          VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA  S
Sbjct: 61 VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAGRS 97

BLAST of CmaCh12G007710 vs. TAIR10
Match: ATCG01100.1 (ATCG01100.1 NADH dehydrogenase family protein)

HSP 1 Score: 74.3 bits (181), Expect = 1.5e-13
Identity = 39/93 (41.94%), Postives = 57/93 (61.29%), Query Frame = 1

Query: 2   AFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARAV 61
           A +Q R GP+  G  G+LQ LADG KL+ KE L PS  N  LF + P    +  L++ +V
Sbjct: 56  AGIQQRIGPEYAGPLGILQALADGTKLLFKENLRPSRGNTPLFSIGPSIAVISILLSYSV 115

Query: 62  VPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA 95
           +PF   +VL+D NIG+    AISS+   G++++
Sbjct: 116 IPFSNHLVLADLNIGIFLWIAISSIAPIGLLMS 148

BLAST of CmaCh12G007710 vs. NCBI nr
Match: gi|346683360|ref|YP_004849322.1| (NADH dehydrogenase subunit 1 [Cucumis sativus])

HSP 1 Score: 178.3 bits (451), Expect = 2.1e-41
Identity = 93/100 (93.00%), Postives = 95/100 (95.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYG+VLSDPNIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 91  VVPFDYGIVLSDPNIGLLYLFAISSLGVYGIIIAGWSSNS 130

BLAST of CmaCh12G007710 vs. NCBI nr
Match: gi|57013995|ref|YP_173351.1| (NADH dehydrogenase subunit 1 [Nicotiana tabacum])

HSP 1 Score: 177.6 bits (449), Expect = 3.6e-41
Identity = 94/104 (90.38%), Postives = 99/104 (95.19%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKL++KEP+SPSSANFSLFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLILKEPISPSSANFSLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA--ASSDKAAS 103
           VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA  +S+ K AS
Sbjct: 91  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAGWSSNSKYAS 134

BLAST of CmaCh12G007710 vs. NCBI nr
Match: gi|570700005|ref|YP_008992266.1| (NADH dehydrogenase subunit 1 (mitochondrion) [Salvia miltiorrhiza])

HSP 1 Score: 177.6 bits (449), Expect = 3.6e-41
Identity = 91/100 (91.00%), Postives = 95/100 (95.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKL++KEP+SPSSANFSLFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLILKEPISPSSANFSLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 91  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAGRSSNS 130

BLAST of CmaCh12G007710 vs. NCBI nr
Match: gi|377806970|ref|YP_005090403.1| (nad1 gene product (mitochondrion) [Dorcoceras hygrometricum])

HSP 1 Score: 177.6 bits (449), Expect = 3.6e-41
Identity = 91/100 (91.00%), Postives = 95/100 (95.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKL++KEP+SPSSANFSLFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLILKEPISPSSANFSLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 91  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAGRSSNS 130

BLAST of CmaCh12G007710 vs. NCBI nr
Match: gi|568245161|ref|YP_008964098.1| (NADH dehydrogenase subunit 1 (mitochondrion) (mitochondrion) [Ajuga reptans])

HSP 1 Score: 177.6 bits (449), Expect = 3.6e-41
Identity = 91/100 (91.00%), Postives = 95/100 (95.00%), Query Frame = 1

Query: 1   MAFVQCRKGPDVVGSFGLLQPLADGLKLMIKEPLSPSSANFSLFRMAPVATFMLSLVARA 60
           MAFVQ RKGPDVVGSFGLLQPLADGLKL++KEP+SPSSANFSLFRMAPVATFMLSLVARA
Sbjct: 31  MAFVQRRKGPDVVGSFGLLQPLADGLKLILKEPISPSSANFSLFRMAPVATFMLSLVARA 90

Query: 61  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAASSDKA 101
           VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIA  S  +
Sbjct: 91  VVPFDYGMVLSDPNIGLLYLFAISSLGVYGIIIAGRSSNS 130

The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
NU1M_PETHY3.9e-4391.00NADH-ubiquinone oxidoreductase chain 1 OS=Petunia hybrida GN=ND1 PE=3 SV=1[more]
NU1M_OENBE4.8e-4189.00NADH-ubiquinone oxidoreductase chain 1 OS=Oenothera berteroana GN=ND1 PE=2 SV=1[more]
NU1M_WHEAT2.4e-4088.00NADH-ubiquinone oxidoreductase chain 1 OS=Triticum aestivum GN=ND1 PE=2 SV=1[more]
NU1M_ARATH2.4e-4088.00NADH-ubiquinone oxidoreductase chain 1 OS=Arabidopsis thaliana GN=ND1 PE=2 SV=4[more]
NU1M_MARPO9.0e-3273.79NADH-ubiquinone oxidoreductase chain 1 OS=Marchantia polymorpha GN=ND1 PE=3 SV=2[more]
Match NameE-valueIdentityDescription
G3EU12_CUCME1.5e-4193.00NADH-ubiquinone oxidoreductase chain 1 OS=Cucumis melo subsp. melo GN=nad1 PE=3 ... [more]
G3EIX4_CUCSA1.5e-4193.00NADH-ubiquinone oxidoreductase chain 1 OS=Cucumis sativus GN=nad1 PE=3 SV=1[more]
A0A142I0W6_NICSY2.5e-4190.38NADH-ubiquinone oxidoreductase chain 1 OS=Nicotiana sylvestris GN=nad1 PE=3 SV=1[more]
A0A0C5AUB1_HYONI2.5e-4190.38NADH-ubiquinone oxidoreductase chain 1 OS=Hyoscyamus niger GN=nad1 PE=3 SV=1[more]
A0A0M5KJL4_TOBAC2.5e-4190.38NADH-ubiquinone oxidoreductase chain 1 OS=Nicotiana tabacum GN=nad1 PE=3 SV=1[more]
Match NameE-valueIdentityDescription
ATMG01120.13.2e-4389.00ATMG01120.1 NADH dehydrogenase 1B[more]
ATMG00516.13.2e-4389.00ATMG00516.1 NADH dehydrogenase 1C[more]
ATMG01275.13.2e-4389.00ATMG01275.1 NADH dehydrogenase 1A[more]
AT2G07785.14.1e-4391.75 NADH dehydrogenase family protein[more]
ATCG01100.11.5e-1341.94ATCG01100.1 NADH dehydrogenase family protein[more]
Match NameE-valueIdentityDescription
gi|346683360|ref|YP_004849322.1|2.1e-4193.00NADH dehydrogenase subunit 1 [Cucumis sativus][more]
gi|57013995|ref|YP_173351.1|3.6e-4190.38NADH dehydrogenase subunit 1 [Nicotiana tabacum][more]
gi|570700005|ref|YP_008992266.1|3.6e-4191.00NADH dehydrogenase subunit 1 (mitochondrion) [Salvia miltiorrhiza][more]
gi|377806970|ref|YP_005090403.1|3.6e-4191.00nad1 gene product (mitochondrion) [Dorcoceras hygrometricum][more]
gi|568245161|ref|YP_008964098.1|3.6e-4191.00NADH dehydrogenase subunit 1 (mitochondrion) (mitochondrion) [Ajuga reptans][more]
The following terms have been associated with this gene:
Vocabulary: INTERPRO
TermDefinition
IPR001694NADH_UbQ_OxRdtase_su1/FPO
IPR018086NADH_UbQ_OxRdtase_su1_CS
Vocabulary: Cellular Component
TermDefinition
GO:0016020membrane
Vocabulary: Biological Process
TermDefinition
GO:0055114oxidation-reduction process
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006120 mitochondrial electron transport, NADH to ubiquinone
biological_process GO:0015992 proton transport
biological_process GO:0006814 sodium ion transport
biological_process GO:0006744 ubiquinone biosynthetic process
biological_process GO:0055114 oxidation-reduction process
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0005739 mitochondrion
cellular_component GO:0005886 plasma membrane
cellular_component GO:0016020 membrane
molecular_function GO:0008137 NADH dehydrogenase (ubiquinone) activity

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

Feature NameUnique NameType
CmaCh12G007710.1CmaCh12G007710.1mRNA


Analysis Name: InterPro Annotations of Cucurbita maxima
Date Performed: 2017-05-20
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR001694NADH:ubiquinone oxidoreductase, subunit 1/F420H2 oxidoreductase subunit HPANTHERPTHR11432NADH DEHYDROGENASE SUBUNIT 1coord: 1..95
score: 1.1
IPR001694NADH:ubiquinone oxidoreductase, subunit 1/F420H2 oxidoreductase subunit HPFAMPF00146NADHdhcoord: 1..97
score: 2.0
IPR018086NADH:ubiquinone oxidoreductase, subunit 1, conserved sitePROSITEPS00667COMPLEX1_ND1_1coord: 17..32
scor

The following gene(s) are orthologous to this gene:
GeneOrthologueOrganismBlock
CmaCh12G007710CmoCh12G007940Cucurbita moschata (Rifu)cmacmoB177
The following gene(s) are paralogous to this gene:

None

The following block(s) are covering this gene:
GeneOrganismBlock
CmaCh12G007710Cucurbita maxima (Rimu)cmacmaB006
CmaCh12G007710Cucurbita maxima (Rimu)cmacmaB174
CmaCh12G007710Cucurbita pepo (Zucchini)cmacpeB203