Sed0013521 (gene) Chayote v1

Overview
NameSed0013521
Typegene
OrganismSechium edule (Chayote v1)
Descriptioncytochrome c oxidase assembly protein COX11, mitochondrial
LocationLG07: 17305273 .. 17343344 (+)
RNA-Seq ExpressionSed0013521
SyntenySed0013521
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

GCTTCTTCTCCGTAGCAAAGCTCTTTTTCGACAACCTCTCCGATTTCAGACTCTCTCTCCCTCATCGACTTGCGGCTTCATGGGTTTGGTTTCTGCATTTCCACTAATTTGAACAATGCTTCCGGGTTTTCTGATCTCTTTTTTTATTAGATTCACTTCGTTCTGATCCTGTACCTTACCTTCGTTTAAGACCCATTTTGTTGATTGCTTGAGAAGAAGAAACTCAGAATGGCTGGTGGAGGAATGATCGGGCAGTTACTAAGGAGGAATCTTAAGACTCAATCTACATCCTTTGGAGCACGTGCTTTTGTGGGAGGTGGTGCATCAGAACATTTGAGCTCTGCAATAGTGGCATCCTGTTATGAGGCCGATCATGGGTTGCAATGTCCAGGTTACATCTGGCCTCGCAATGGTAATCTCAGTTCACATGTTCATGCATCGTTGACATCCAGTTTTCTACTGCAATCAACTTATAATTTTAGTCGAGTTCATAACATTTGTAAAAGGCGTTCTGGTTTAGATATATGGAGCTTGAAGTTGGGATGTGGTTTTCATTCACATTCATTTCATAATTCTCATTGTTTTTCGCCTCCTACTCGTCATATTGGAAAGTGTTCGTTTATGCACAATATTCAACGCAGCTACTCTAAAGCTTCTATCGAACAGAAGTCCAAAAAGATGCTTCTATACCTTGTAGCATTGGTTTTTGCCATGGTGGGATGTAGTTATGCAGCTGTTCCTCTTTATAGGAGGTTCTGCCAAGCTACTGGTTATGGGGGCACTGTTCAGCGCCGTGAGAGTGTTGAAGAAAAAATTGCTCGCCATGCTAAAGATGGAACAGTAACTACAAGGGATATTGTTGTGCAGTTTAATGCTGACGTAGCTGATGGAATGCCCTGGAAGTTTATCCCAACACAGAGAGAGGTAAGGGTAAAACCAGGAGAAAGTGCACTTGCATTCTATACTGCTGAAAATCGAAGTTCAACTCCAATTACCGGTGTGTCAACGTACAATGTTACACCGATGAAGGCTGCAATCTACTTCAATAAAATACAATGCTTCTGCTTCGAGGAGCAACGCCTCCTTCCTGGGGAGCAGATTGACATGCCCGTGTTCTTTTACATTGATCCTGAATTTGAAACTGATCCAAAAATGGATGGCATCAACAATTTGATTTTATCCTATACTTTTTTCAAGGTCTCAGAAGAATAGATGATGAACAGATTGGTTGATTTTTACATAGAGATTACAGGGTTTAGAGATCCCATTTTTTCCTATTGATAGAGATAGTTTGCAGAAAATAATTGACAGAAAGATACTTGTGTTCTTTCTCTAAAGTAGGTGTTCTATCACATGTCATGAGTTTATGGAAATTATAGAAATTTATGTTCAAGGTCATTCAACTCGTGGATATCCAAGATATGGG

Coding sequence (CDS)

ATGGCTGGTGGAGGAATGATCGGGCAGTTACTAAGGAGGAATCTTAAGACTCAATCTACATCCTTTGGAGCACGTGCTTTTGTGGGAGGTGGTGCATCAGAACATTTGAGCTCTGCAATAGTGGCATCCTGTTATGAGGCCGATCATGGGTTGCAATGTCCAGGTTACATCTGGCCTCGCAATGGTAATCTCAGTTCACATGTTCATGCATCGTTGACATCCAGTTTTCTACTGCAATCAACTTATAATTTTAGTCGAGTTCATAACATTTGTAAAAGGCGTTCTGGTTTAGATATATGGAGCTTGAAGTTGGGATGTGGTTTTCATTCACATTCATTTCATAATTCTCATTGTTTTTCGCCTCCTACTCGTCATATTGGAAAGTGTTCGTTTATGCACAATATTCAACGCAGCTACTCTAAAGCTTCTATCGAACAGAAGTCCAAAAAGATGCTTCTATACCTTGTAGCATTGGTTTTTGCCATGGTGGGATGTAGTTATGCAGCTGTTCCTCTTTATAGGAGGTTCTGCCAAGCTACTGGTTATGGGGGCACTGTTCAGCGCCGTGAGAGTGTTGAAGAAAAAATTGCTCGCCATGCTAAAGATGGAACAGTAACTACAAGGGATATTGTTGTGCAGTTTAATGCTGACGTAGCTGATGGAATGCCCTGGAAGTTTATCCCAACACAGAGAGAGGTAAGGGTAAAACCAGGAGAAAGTGCACTTGCATTCTATACTGCTGAAAATCGAAGTTCAACTCCAATTACCGGTGTGTCAACGTACAATGTTACACCGATGAAGGCTGCAATCTACTTCAATAAAATACAATGCTTCTGCTTCGAGGAGCAACGCCTCCTTCCTGGGGAGCAGATTGACATGCCCGTGTTCTTTTACATTGATCCTGAATTTGAAACTGATCCAAAAATGGATGGCATCAACAATTTGATTTTATCCTATACTTTTTTCAAGGTCTCAGAAGAATAG

Protein sequence

MAGGGMIGQLLRRNLKTQSTSFGARAFVGGGASEHLSSAIVASCYEADHGLQCPGYIWPRNGNLSSHVHASLTSSFLLQSTYNFSRVHNICKRRSGLDIWSLKLGCGFHSHSFHNSHCFSPPTRHIGKCSFMHNIQRSYSKASIEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQATGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGESALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYIDPEFETDPKMDGINNLILSYTFFKVSEE
Homology
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BLAST of Sed0013521 vs. NCBI nr
Match: XP_008453793.1 (PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X2 [Cucumis melo] >XP_016901545.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X2 [Cucumis melo] >XP_016901546.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X2 [Cucumis melo] >TYK16744.1 cytochrome c oxidase assembly protein COX11 [Cucumis melo var. makuwa])

HSP 1 Score: 573.2 bits (1476), Expect = 1.5e-159
Identity = 285/328 (86.89%), Postives = 298/328 (90.85%), Query Frame = 0 

Query: 1   MAGGGMIGQLLRRNLKTQSTSFGARAFVGGGASEHLSSAIVASCYEADHGLQCPGYIWPR 60
           MAGGGMIGQLLRR LKTQSTSFGA +F+G GA EHLS A VASCYEADHGLQCP YIW R
Sbjct: 7   MAGGGMIGQLLRRKLKTQSTSFGALSFLGDGAPEHLSFATVASCYEADHGLQCPSYIWSR 66

Query: 61  NGNLSSHVHASLTSSFLLQSTYNFSRVHNICKRRSGLDIWSLKLGCGFHSHSFHNSHCFS 120
           NGNLSSHVHASLTS+FLLQSTY+ SR  N+ KR  GLD+  LK+GCGFHS SF  SH FS
Sbjct: 67  NGNLSSHVHASLTSNFLLQSTYSLSRTCNVYKRGYGLDVCGLKMGCGFHSQSFQKSHWFS 126

Query: 121 P-PTRHIGKCSFMHNIQRSYSKASIEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQA 180
           P  TR+IG+ S +HNIQRSY  A+IE+KSK ML YLVALV  MVGCSYAAVPLYRRFCQA
Sbjct: 127 PLSTRYIGRYSSLHNIQRSYCTAAIERKSKNMLFYLVALVLTMVGCSYAAVPLYRRFCQA 186

Query: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240
           TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE
Sbjct: 187 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 246

Query: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300
           SALAFYTAEN+SSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI
Sbjct: 247 SALAFYTAENKSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 306

Query: 301 DPEFETDPKMDGINNLILSYTFFKVSEE 328
           DPEFETDPKMDGINNLILSYTFFKVSEE
Sbjct: 307 DPEFETDPKMDGINNLILSYTFFKVSEE 334

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BLAST of Sed0013521 vs. NCBI nr
Match: XP_022981835.1 (cytochrome c oxidase assembly protein COX11, mitochondrial [Cucurbita maxima] >XP_022981843.1 cytochrome c oxidase assembly protein COX11, mitochondrial [Cucurbita maxima])

HSP 1 Score: 570.1 bits (1468), Expect = 1.2e-158
Identity = 288/328 (87.80%), Postives = 297/328 (90.55%), Query Frame = 0 

Query: 1   MAGGGMIGQLLRRNLKTQSTSFGARAFVGGGASEHLSSAIVASCYEADHGLQCPGYIWPR 60
           MAGGGMI QLLRRNLKTQSTSFG  AF+GGGA EHLS A VASCYEAD GLQCP YIW R
Sbjct: 1   MAGGGMIRQLLRRNLKTQSTSFGTLAFMGGGALEHLSFATVASCYEADQGLQCPSYIWSR 60

Query: 61  NGNLSSHVHASLTSSFLLQSTYNFSRVHNICKRRSGLDIWSLKLGCGFHSHSFHNSHCF- 120
           NGNL  HVHASLTS+FL QSTYNFS+  N+ K  SGLD+WSL  G  FHS SF  SH   
Sbjct: 61  NGNLRPHVHASLTSNFLQQSTYNFSQSRNVYK-SSGLDLWSLNWGRRFHSQSFQKSHWLS 120

Query: 121 SPPTRHIGKCSFMHNIQRSYSKASIEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQA 180
           SP TR+IG+CS M+NIQR YSKASIE+KSK MLLYLVALVFAMVGCSYAAVPLYRRFCQA
Sbjct: 121 SPSTRYIGRCSSMYNIQRCYSKASIERKSKNMLLYLVALVFAMVGCSYAAVPLYRRFCQA 180

Query: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240
           TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE
Sbjct: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240

Query: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300
           SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI
Sbjct: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300

Query: 301 DPEFETDPKMDGINNLILSYTFFKVSEE 328
           DPEFETDPKMDGINNLILSYTFFKVSEE
Sbjct: 301 DPEFETDPKMDGINNLILSYTFFKVSEE 327

[Close]
BLAST of Sed0013521 vs. NCBI nr
Match: XP_008453787.1 (PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo] >XP_008453788.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo] >XP_008453789.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo] >XP_008453791.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo] >XP_008453792.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo] >XP_016901543.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo] >XP_016901544.1 PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 [Cucumis melo])

HSP 1 Score: 567.8 bits (1462), Expect = 6.2e-158
Identity = 285/331 (86.10%), Postives = 298/331 (90.03%), Query Frame = 0 

Query: 1   MAGGGMIGQLLRRNLKTQST---SFGARAFVGGGASEHLSSAIVASCYEADHGLQCPGYI 60
           MAGGGMIGQLLRR LKTQST   SFGA +F+G GA EHLS A VASCYEADHGLQCP YI
Sbjct: 7   MAGGGMIGQLLRRKLKTQSTVRMSFGALSFLGDGAPEHLSFATVASCYEADHGLQCPSYI 66

Query: 61  WPRNGNLSSHVHASLTSSFLLQSTYNFSRVHNICKRRSGLDIWSLKLGCGFHSHSFHNSH 120
           W RNGNLSSHVHASLTS+FLLQSTY+ SR  N+ KR  GLD+  LK+GCGFHS SF  SH
Sbjct: 67  WSRNGNLSSHVHASLTSNFLLQSTYSLSRTCNVYKRGYGLDVCGLKMGCGFHSQSFQKSH 126

Query: 121 CFSP-PTRHIGKCSFMHNIQRSYSKASIEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRF 180
            FSP  TR+IG+ S +HNIQRSY  A+IE+KSK ML YLVALV  MVGCSYAAVPLYRRF
Sbjct: 127 WFSPLSTRYIGRYSSLHNIQRSYCTAAIERKSKNMLFYLVALVLTMVGCSYAAVPLYRRF 186

Query: 181 CQATGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVK 240
           CQATGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVK
Sbjct: 187 CQATGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVK 246

Query: 241 PGESALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVF 300
           PGESALAFYTAEN+SSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVF
Sbjct: 247 PGESALAFYTAENKSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVF 306

Query: 301 FYIDPEFETDPKMDGINNLILSYTFFKVSEE 328
           FYIDPEFETDPKMDGINNLILSYTFFKVSEE
Sbjct: 307 FYIDPEFETDPKMDGINNLILSYTFFKVSEE 337

[Close]
BLAST of Sed0013521 vs. NCBI nr
Match: XP_022136891.1 (cytochrome c oxidase assembly protein COX11, mitochondrial [Momordica charantia])

HSP 1 Score: 566.2 bits (1458), Expect = 1.8e-157
Identity = 284/328 (86.59%), Postives = 294/328 (89.63%), Query Frame = 0 

Query: 1   MAGGGMIGQLLRRNLKTQSTSFGARAFVGGGASEHLSSAIVASCYEADHGLQCPGYIWPR 60
           MAGG MI QLLRR LKTQSTSFGA  F+GGGASEHLS A VASC EAD GLQCP Y+W R
Sbjct: 1   MAGGVMISQLLRRKLKTQSTSFGAFPFLGGGASEHLSLATVASCCEADRGLQCPSYLWSR 60

Query: 61  NGNLSSHVHASLTSSFLLQSTYNFSRVHNICKRRSGLDIWSLKLGCGFHSHSFHNSHCFS 120
           NGNLSSHVHAS TS+FL QS YNFSR    CKR S LD+W LKLG GFHS SFH SH FS
Sbjct: 61  NGNLSSHVHASFTSNFLRQSVYNFSRA---CKRGSDLDVWGLKLGRGFHSQSFHKSHWFS 120

Query: 121 P-PTRHIGKCSFMHNIQRSYSKASIEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQA 180
           P  TR+ G+CS  HNIQRSYSK + E+KS+ MLLYLVALVF MVGCSYAAVPLYRRFCQA
Sbjct: 121 PLSTRYTGRCSSSHNIQRSYSKVARERKSQNMLLYLVALVFVMVGCSYAAVPLYRRFCQA 180

Query: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240
           TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE
Sbjct: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240

Query: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300
           SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI
Sbjct: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300

Query: 301 DPEFETDPKMDGINNLILSYTFFKVSEE 328
           DPEFETDPKMDGINN+ILSYTFFKVSEE
Sbjct: 301 DPEFETDPKMDGINNIILSYTFFKVSEE 325

[Close]
BLAST of Sed0013521 vs. NCBI nr
Match: XP_023527454.1 (cytochrome c oxidase assembly protein COX11, mitochondrial [Cucurbita pepo subsp. pepo])

HSP 1 Score: 566.2 bits (1458), Expect = 1.8e-157
Identity = 288/328 (87.80%), Postives = 298/328 (90.85%), Query Frame = 0 

Query: 1   MAGGGMIGQLLRRNLKTQSTSFGARAFVGGGASEHLSSAIVASCYEADHGLQCPGYIWPR 60
           MAGGGMI QLLRRNLKTQSTSFG  AF+GGGA EHLS A VASC+EAD GL+CP YIW R
Sbjct: 1   MAGGGMIRQLLRRNLKTQSTSFGTLAFMGGGALEHLSFATVASCHEADQGLRCPSYIWSR 60

Query: 61  NGNLSSHVHASLTSSFLLQSTYNFSRVHNICKRRSGLDIWSLKLGCGFHSHSFHNSHCF- 120
           NGNL  HVHASLTS+FL QSTYNFS+  N+ K  SGLDI SL LG  FHS SFH SH   
Sbjct: 61  NGNLHPHVHASLTSNFLQQSTYNFSQSCNVYK-SSGLDIRSLNLGRRFHSQSFHKSHWLS 120

Query: 121 SPPTRHIGKCSFMHNIQRSYSKASIEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQA 180
           SP TR+IG+CS M+NIQR YSKASIE+KSK MLLYLVALVFAMVGCSYAAVPLYRRFCQA
Sbjct: 121 SPSTRYIGRCSSMYNIQRCYSKASIERKSKNMLLYLVALVFAMVGCSYAAVPLYRRFCQA 180

Query: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240
           TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE
Sbjct: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240

Query: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300
           SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI
Sbjct: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300

Query: 301 DPEFETDPKMDGINNLILSYTFFKVSEE 328
           DPEFETDPKMDGINNLILSYTFFKVSEE
Sbjct: 301 DPEFETDPKMDGINNLILSYTFFKVSEE 327

[Close]
BLAST of Sed0013521 vs. ExPASy Swiss-Prot
Match: Q8GWR0 (Cytochrome c oxidase assembly protein COX11, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=COX11 PE=2 SV=1)

HSP 1 Score: 335.1 bits (858), Expect = 8.8e-91
Identity = 165/199 (82.91%), Postives = 178/199 (89.45%), Query Frame = 0 

Query: 130 SFMHNIQRSYSKAS-IEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQATGYGGTVQR 189
           S + +  R YS  S  E KS+KML YL A+VF MVG +YAAVPLYR FCQATGYGGTVQR
Sbjct: 71  SMLDSAHRQYSTHSPSETKSQKMLYYLTAVVFGMVGLTYAAVPLYRTFCQATGYGGTVQR 130

Query: 190 RESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGESALAFYTAE 249
           +E+VEEKIARH++ GTVT R+IVVQFNADVADGM WKF PTQREVRVKPGESALAFYTAE
Sbjct: 131 KETVEEKIARHSESGTVTEREIVVQFNADVADGMQWKFTPTQREVRVKPGESALAFYTAE 190

Query: 250 NRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYIDPEFETDPK 309
           N+SS PITGVSTYNVTPMKA +YFNKIQCFCFEEQRLLPGEQIDMPVFFYIDPEFETDP+
Sbjct: 191 NKSSAPITGVSTYNVTPMKAGVYFNKIQCFCFEEQRLLPGEQIDMPVFFYIDPEFETDPR 250

Query: 310 MDGINNLILSYTFFKVSEE 328
           MDGINNLILSYTFFKVSEE
Sbjct: 251 MDGINNLILSYTFFKVSEE 269

[Close]
BLAST of Sed0013521 vs. ExPASy Swiss-Prot
Match: O21243 (Cytochrome c oxidase assembly protein ctaG OS=Reclinomonas americana OX=48483 GN=CTAG PE=3 SV=1)

HSP 1 Score: 202.6 bits (514), Expect = 6.8e-51
Identity = 101/181 (55.80%), Postives = 127/181 (70.17%), Query Frame = 0 

Query: 147 KSKKMLLYLVALV-FAMVGCSYAAVPLYRRFCQATGYGGTVQRRESVEEKIARHAKDGTV 206
           K++K +  L+A V   M+G SY +VPLYR FCQ TG+GGT Q  +   + +    KD   
Sbjct: 3   KNRKSIAILIAAVSITMIGFSYGSVPLYRIFCQVTGFGGTTQVADLESDILT--LKDEQQ 62

Query: 207 TTRDIVVQFNADVADGMPWKFIPTQREVRVKPGESALAFYTAENRSSTPITGVSTYNVTP 266
             R I V+FN DV+D MPWKF P Q+E++V  GE+ALAFY+AEN + + I G+STYNV P
Sbjct: 63  ENRIITVRFNGDVSDTMPWKFHPIQQEIKVMVGETALAFYSAENPTDSSIIGISTYNVNP 122

Query: 267 MKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYIDPEFETDPKMDGINNLILSYTFFKVS 326
            +A IYFNKIQCFCFEEQRL P E IDMPVFF+IDP    DPKM  I+++ LSYTFF V 
Sbjct: 123 QQAGIYFNKIQCFCFEEQRLKPHETIDMPVFFFIDPAILDDPKMSDIDSITLSYTFFNVE 181

[Close]
BLAST of Sed0013521 vs. ExPASy Swiss-Prot
Match: Q86ZU7 (Rsm22-cox11 tandem protein 2, mitochondrial OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=cox1102 PE=1 SV=2)

HSP 1 Score: 195.3 bits (495), Expect = 1.1e-48
Identity = 105/219 (47.95%), Postives = 135/219 (61.64%), Query Frame = 0 

Query: 108 FHSHSFHNSHCFSPPTRHIGKCSFMHNIQRSYSKASIEQKSKKMLLYLVALVFAMVGCSY 167
           F+SH F    C           S   NI R YS+       +  + YLVA+    +G +Y
Sbjct: 530 FNSHRF---PCIFTSFSCYNCISGTRNISRQYSRDKFHYNQRTTIYYLVAISIFALGLTY 589

Query: 168 AAVPLYRRFCQATGYGGTV---QRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPW 227
           AAVPLYR FC  TGYGGT+   Q R + E  + R  KD     + I V FN DVA  + W
Sbjct: 590 AAVPLYRLFCSKTGYGGTLNTDQSRMNAERMVPR--KD----NKRIRVTFNGDVAGNLSW 649

Query: 228 KFIPTQREVRVKPGESALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQR 287
           K  P QRE+ V PGE+AL FYTAEN S   I GV+TYN+ P +AA+YF+K+ CFCFEEQ+
Sbjct: 650 KLWPQQREIYVLPGETALGFYTAENTSDHDIVGVATYNIVPGQAAVYFSKVACFCFEEQK 709

Query: 288 LLPGEQIDMPVFFYIDPEFETDPKMDGINNLILSYTFFK 324
           L   E++D+PVFF+IDPEF  DP M  I++++LSYTFF+
Sbjct: 710 LDAHEKVDLPVFFFIDPEFADDPNMKDIDDILLSYTFFE 739

[Close]
BLAST of Sed0013521 vs. ExPASy Swiss-Prot
Match: A3KMZ6 (Cytochrome c oxidase assembly protein COX11, mitochondrial OS=Bos taurus OX=9913 GN=COX11 PE=2 SV=1)

HSP 1 Score: 194.5 bits (493), Expect = 1.9e-48
Identity = 97/186 (52.15%), Postives = 122/186 (65.59%), Query Frame = 0 

Query: 146 QKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQATGYGGTVQRRESVEEKIARHAKDG-- 205
           +++K +L Y+ A    M+G SYAAVPLYR +CQ TG GG+          +A HA D   
Sbjct: 85  RRNKTVLTYMAAAAVGMLGASYAAVPLYRLYCQTTGLGGSA---------VAGHASDQIE 144

Query: 206 ---TVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGESALAFYTAENRSSTPITGVST 265
               V  R I + FNADV   + W F P Q E+ V PGE+ALAFY A+N +  P+ G+ST
Sbjct: 145 NMVPVKDRIIKITFNADVHASLQWNFRPQQTEIYVVPGETALAFYKAKNPTDKPVIGIST 204

Query: 266 YNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYIDPEFETDPKMDGINNLILSYT 325
           YNV P +A  YFNKIQCFCFEEQRL P E++DMPVFFYIDPEF  DP+M  ++ + LSYT
Sbjct: 205 YNVVPFEAGQYFNKIQCFCFEEQRLNPQEEVDMPVFFYIDPEFAEDPRMVNVDLITLSYT 261

Query: 326 FFKVSE 327
           FF+  E
Sbjct: 265 FFEAKE 261

[Close]
BLAST of Sed0013521 vs. ExPASy Swiss-Prot
Match: Q6P8I6 (Cytochrome c oxidase assembly protein COX11, mitochondrial OS=Mus musculus OX=10090 GN=Cox11 PE=1 SV=1)

HSP 1 Score: 193.4 bits (490), Expect = 4.1e-48
Identity = 97/186 (52.15%), Postives = 122/186 (65.59%), Query Frame = 0 

Query: 146 QKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQATGYGGTVQRRESVEEKIARHAKDG-- 205
           +++K +L Y+ A    M+G SYAAVPLYR +CQ TG GG+          +A H+ D   
Sbjct: 89  RRNKTVLTYVAAAAVGMLGASYAAVPLYRLYCQTTGLGGSA---------VAGHSSDQIE 148

Query: 206 ---TVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGESALAFYTAENRSSTPITGVST 265
               V  R I V FNADV   + W F P Q E+ V PGE+ALAFY A+N +  P+ G+ST
Sbjct: 149 NMVPVKDRVIKVTFNADVHASLQWNFRPQQTEIYVVPGETALAFYKAKNPTDKPVIGIST 208

Query: 266 YNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYIDPEFETDPKMDGINNLILSYT 325
           YNV P +A  YFNKIQCFCFEEQRL P E++DMPVFFYIDPEF  DP+M  ++ + LSYT
Sbjct: 209 YNVVPFEAGQYFNKIQCFCFEEQRLNPQEEVDMPVFFYIDPEFAEDPRMVNVDLITLSYT 265

Query: 326 FFKVSE 327
           FF+  E
Sbjct: 269 FFEAKE 265

[Close]
BLAST of Sed0013521 vs. ExPASy TrEMBL
Match: A0A1S3BXX3 (cytochrome c oxidase assembly protein COX11, mitochondrial isoform X2 OS=Cucumis melo OX=3656 GN=LOC103494414 PE=3 SV=1)

HSP 1 Score: 573.2 bits (1476), Expect = 7.1e-160
Identity = 285/328 (86.89%), Postives = 298/328 (90.85%), Query Frame = 0 

Query: 1   MAGGGMIGQLLRRNLKTQSTSFGARAFVGGGASEHLSSAIVASCYEADHGLQCPGYIWPR 60
           MAGGGMIGQLLRR LKTQSTSFGA +F+G GA EHLS A VASCYEADHGLQCP YIW R
Sbjct: 7   MAGGGMIGQLLRRKLKTQSTSFGALSFLGDGAPEHLSFATVASCYEADHGLQCPSYIWSR 66

Query: 61  NGNLSSHVHASLTSSFLLQSTYNFSRVHNICKRRSGLDIWSLKLGCGFHSHSFHNSHCFS 120
           NGNLSSHVHASLTS+FLLQSTY+ SR  N+ KR  GLD+  LK+GCGFHS SF  SH FS
Sbjct: 67  NGNLSSHVHASLTSNFLLQSTYSLSRTCNVYKRGYGLDVCGLKMGCGFHSQSFQKSHWFS 126

Query: 121 P-PTRHIGKCSFMHNIQRSYSKASIEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQA 180
           P  TR+IG+ S +HNIQRSY  A+IE+KSK ML YLVALV  MVGCSYAAVPLYRRFCQA
Sbjct: 127 PLSTRYIGRYSSLHNIQRSYCTAAIERKSKNMLFYLVALVLTMVGCSYAAVPLYRRFCQA 186

Query: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240
           TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE
Sbjct: 187 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 246

Query: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300
           SALAFYTAEN+SSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI
Sbjct: 247 SALAFYTAENKSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 306

Query: 301 DPEFETDPKMDGINNLILSYTFFKVSEE 328
           DPEFETDPKMDGINNLILSYTFFKVSEE
Sbjct: 307 DPEFETDPKMDGINNLILSYTFFKVSEE 334

[Close]
BLAST of Sed0013521 vs. ExPASy TrEMBL
Match: A0A5D3D0J0 (Cytochrome c oxidase assembly protein COX11 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold21G005840 PE=3 SV=1)

HSP 1 Score: 573.2 bits (1476), Expect = 7.1e-160
Identity = 285/328 (86.89%), Postives = 298/328 (90.85%), Query Frame = 0 

Query: 1   MAGGGMIGQLLRRNLKTQSTSFGARAFVGGGASEHLSSAIVASCYEADHGLQCPGYIWPR 60
           MAGGGMIGQLLRR LKTQSTSFGA +F+G GA EHLS A VASCYEADHGLQCP YIW R
Sbjct: 7   MAGGGMIGQLLRRKLKTQSTSFGALSFLGDGAPEHLSFATVASCYEADHGLQCPSYIWSR 66

Query: 61  NGNLSSHVHASLTSSFLLQSTYNFSRVHNICKRRSGLDIWSLKLGCGFHSHSFHNSHCFS 120
           NGNLSSHVHASLTS+FLLQSTY+ SR  N+ KR  GLD+  LK+GCGFHS SF  SH FS
Sbjct: 67  NGNLSSHVHASLTSNFLLQSTYSLSRTCNVYKRGYGLDVCGLKMGCGFHSQSFQKSHWFS 126

Query: 121 P-PTRHIGKCSFMHNIQRSYSKASIEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQA 180
           P  TR+IG+ S +HNIQRSY  A+IE+KSK ML YLVALV  MVGCSYAAVPLYRRFCQA
Sbjct: 127 PLSTRYIGRYSSLHNIQRSYCTAAIERKSKNMLFYLVALVLTMVGCSYAAVPLYRRFCQA 186

Query: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240
           TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE
Sbjct: 187 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 246

Query: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300
           SALAFYTAEN+SSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI
Sbjct: 247 SALAFYTAENKSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 306

Query: 301 DPEFETDPKMDGINNLILSYTFFKVSEE 328
           DPEFETDPKMDGINNLILSYTFFKVSEE
Sbjct: 307 DPEFETDPKMDGINNLILSYTFFKVSEE 334

[Close]
BLAST of Sed0013521 vs. ExPASy TrEMBL
Match: A0A6J1J0Q5 (cytochrome c oxidase assembly protein COX11, mitochondrial OS=Cucurbita maxima OX=3661 GN=LOC111480860 PE=3 SV=1)

HSP 1 Score: 570.1 bits (1468), Expect = 6.0e-159
Identity = 288/328 (87.80%), Postives = 297/328 (90.55%), Query Frame = 0 

Query: 1   MAGGGMIGQLLRRNLKTQSTSFGARAFVGGGASEHLSSAIVASCYEADHGLQCPGYIWPR 60
           MAGGGMI QLLRRNLKTQSTSFG  AF+GGGA EHLS A VASCYEAD GLQCP YIW R
Sbjct: 1   MAGGGMIRQLLRRNLKTQSTSFGTLAFMGGGALEHLSFATVASCYEADQGLQCPSYIWSR 60

Query: 61  NGNLSSHVHASLTSSFLLQSTYNFSRVHNICKRRSGLDIWSLKLGCGFHSHSFHNSHCF- 120
           NGNL  HVHASLTS+FL QSTYNFS+  N+ K  SGLD+WSL  G  FHS SF  SH   
Sbjct: 61  NGNLRPHVHASLTSNFLQQSTYNFSQSRNVYK-SSGLDLWSLNWGRRFHSQSFQKSHWLS 120

Query: 121 SPPTRHIGKCSFMHNIQRSYSKASIEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQA 180
           SP TR+IG+CS M+NIQR YSKASIE+KSK MLLYLVALVFAMVGCSYAAVPLYRRFCQA
Sbjct: 121 SPSTRYIGRCSSMYNIQRCYSKASIERKSKNMLLYLVALVFAMVGCSYAAVPLYRRFCQA 180

Query: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240
           TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE
Sbjct: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240

Query: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300
           SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI
Sbjct: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300

Query: 301 DPEFETDPKMDGINNLILSYTFFKVSEE 328
           DPEFETDPKMDGINNLILSYTFFKVSEE
Sbjct: 301 DPEFETDPKMDGINNLILSYTFFKVSEE 327

[Close]
BLAST of Sed0013521 vs. ExPASy TrEMBL
Match: A0A1S4E012 (cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 OS=Cucumis melo OX=3656 GN=LOC103494414 PE=3 SV=1)

HSP 1 Score: 567.8 bits (1462), Expect = 3.0e-158
Identity = 285/331 (86.10%), Postives = 298/331 (90.03%), Query Frame = 0 

Query: 1   MAGGGMIGQLLRRNLKTQST---SFGARAFVGGGASEHLSSAIVASCYEADHGLQCPGYI 60
           MAGGGMIGQLLRR LKTQST   SFGA +F+G GA EHLS A VASCYEADHGLQCP YI
Sbjct: 7   MAGGGMIGQLLRRKLKTQSTVRMSFGALSFLGDGAPEHLSFATVASCYEADHGLQCPSYI 66

Query: 61  WPRNGNLSSHVHASLTSSFLLQSTYNFSRVHNICKRRSGLDIWSLKLGCGFHSHSFHNSH 120
           W RNGNLSSHVHASLTS+FLLQSTY+ SR  N+ KR  GLD+  LK+GCGFHS SF  SH
Sbjct: 67  WSRNGNLSSHVHASLTSNFLLQSTYSLSRTCNVYKRGYGLDVCGLKMGCGFHSQSFQKSH 126

Query: 121 CFSP-PTRHIGKCSFMHNIQRSYSKASIEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRF 180
            FSP  TR+IG+ S +HNIQRSY  A+IE+KSK ML YLVALV  MVGCSYAAVPLYRRF
Sbjct: 127 WFSPLSTRYIGRYSSLHNIQRSYCTAAIERKSKNMLFYLVALVLTMVGCSYAAVPLYRRF 186

Query: 181 CQATGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVK 240
           CQATGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVK
Sbjct: 187 CQATGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVK 246

Query: 241 PGESALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVF 300
           PGESALAFYTAEN+SSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVF
Sbjct: 247 PGESALAFYTAENKSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVF 306

Query: 301 FYIDPEFETDPKMDGINNLILSYTFFKVSEE 328
           FYIDPEFETDPKMDGINNLILSYTFFKVSEE
Sbjct: 307 FYIDPEFETDPKMDGINNLILSYTFFKVSEE 337

[Close]
BLAST of Sed0013521 vs. ExPASy TrEMBL
Match: A0A6J1C4S2 (cytochrome c oxidase assembly protein COX11, mitochondrial OS=Momordica charantia OX=3673 GN=LOC111008471 PE=3 SV=1)

HSP 1 Score: 566.2 bits (1458), Expect = 8.7e-158
Identity = 284/328 (86.59%), Postives = 294/328 (89.63%), Query Frame = 0 

Query: 1   MAGGGMIGQLLRRNLKTQSTSFGARAFVGGGASEHLSSAIVASCYEADHGLQCPGYIWPR 60
           MAGG MI QLLRR LKTQSTSFGA  F+GGGASEHLS A VASC EAD GLQCP Y+W R
Sbjct: 1   MAGGVMISQLLRRKLKTQSTSFGAFPFLGGGASEHLSLATVASCCEADRGLQCPSYLWSR 60

Query: 61  NGNLSSHVHASLTSSFLLQSTYNFSRVHNICKRRSGLDIWSLKLGCGFHSHSFHNSHCFS 120
           NGNLSSHVHAS TS+FL QS YNFSR    CKR S LD+W LKLG GFHS SFH SH FS
Sbjct: 61  NGNLSSHVHASFTSNFLRQSVYNFSRA---CKRGSDLDVWGLKLGRGFHSQSFHKSHWFS 120

Query: 121 P-PTRHIGKCSFMHNIQRSYSKASIEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQA 180
           P  TR+ G+CS  HNIQRSYSK + E+KS+ MLLYLVALVF MVGCSYAAVPLYRRFCQA
Sbjct: 121 PLSTRYTGRCSSSHNIQRSYSKVARERKSQNMLLYLVALVFVMVGCSYAAVPLYRRFCQA 180

Query: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240
           TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE
Sbjct: 181 TGYGGTVQRRESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGE 240

Query: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300
           SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI
Sbjct: 241 SALAFYTAENRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYI 300

Query: 301 DPEFETDPKMDGINNLILSYTFFKVSEE 328
           DPEFETDPKMDGINN+ILSYTFFKVSEE
Sbjct: 301 DPEFETDPKMDGINNIILSYTFFKVSEE 325

[Close]
BLAST of Sed0013521 vs. TAIR 10
Match: AT1G02410.1 (cytochrome c oxidase assembly protein CtaG / Cox11 family )

HSP 1 Score: 335.1 bits (858), Expect = 6.3e-92
Identity = 165/199 (82.91%), Postives = 178/199 (89.45%), Query Frame = 0 

Query: 130 SFMHNIQRSYSKAS-IEQKSKKMLLYLVALVFAMVGCSYAAVPLYRRFCQATGYGGTVQR 189
           S + +  R YS  S  E KS+KML YL A+VF MVG +YAAVPLYR FCQATGYGGTVQR
Sbjct: 71  SMLDSAHRQYSTHSPSETKSQKMLYYLTAVVFGMVGLTYAAVPLYRTFCQATGYGGTVQR 130

Query: 190 RESVEEKIARHAKDGTVTTRDIVVQFNADVADGMPWKFIPTQREVRVKPGESALAFYTAE 249
           +E+VEEKIARH++ GTVT R+IVVQFNADVADGM WKF PTQREVRVKPGESALAFYTAE
Sbjct: 131 KETVEEKIARHSESGTVTEREIVVQFNADVADGMQWKFTPTQREVRVKPGESALAFYTAE 190

Query: 250 NRSSTPITGVSTYNVTPMKAAIYFNKIQCFCFEEQRLLPGEQIDMPVFFYIDPEFETDPK 309
           N+SS PITGVSTYNVTPMKA +YFNKIQCFCFEEQRLLPGEQIDMPVFFYIDPEFETDP+
Sbjct: 191 NKSSAPITGVSTYNVTPMKAGVYFNKIQCFCFEEQRLLPGEQIDMPVFFYIDPEFETDPR 250

Query: 310 MDGINNLILSYTFFKVSEE 328
           MDGINNLILSYTFFKVSEE
Sbjct: 251 MDGINNLILSYTFFKVSEE 269

[Close]
BLAST of Sed0013521 vs. TAIR 10
Match: AT5G40810.1 (Cytochrome C1 family )

HSP 1 Score: 67.8 bits (164), Expect = 1.9e-11
Identity = 42/92 (45.65%), Postives = 51/92 (55.43%), Query Frame = 0 

Query: 1  MAGGGMIGQLLRRNLKTQST------------------SFGARAF--VGGGASEHLSSAI 60
          M GGG+I QLLRR L +QS                   S G RAF  +G G +  LS + 
Sbjct: 1  MVGGGVIRQLLRRKLHSQSVATPVLSWLSSKKANEDAGSAGLRAFALMGAGITGLLSFST 60

Query: 61 VASCYEADHGLQCPGYIWPRNGNLSSHVHASL 73
          VAS  EA+HGL+CP Y WP  G LSS+ HAS+
Sbjct: 61 VASADEAEHGLECPNYPWPHEGILSSYDHASI 92

[Close]
BLAST of Sed0013521 vs. TAIR 10
Match: AT3G27240.1 (Cytochrome C1 family )

HSP 1 Score: 60.8 bits (146), Expect = 2.3e-09
Identity = 39/92 (42.39%), Postives = 50/92 (54.35%), Query Frame = 0 

Query: 1  MAGGGMIGQLLRRNLKTQST------------------SFGAR--AFVGGGASEHLSSAI 60
          M GGG+I Q+LRR L +QS                   S G R  A +G G +  LS + 
Sbjct: 1  MVGGGVIQQILRRKLHSQSLATPVLSWFSSKKAHEDAGSSGVRALALLGAGVTGLLSFST 60

Query: 61 VASCYEADHGLQCPGYIWPRNGNLSSHVHASL 73
          VAS  EA+HGL+ P Y WP +G LSS+ HAS+
Sbjct: 61 VASADEAEHGLESPEYPWPHDGILSSYDHASI 92

[Close]
BLAST of Sed0013521 vs. TAIR 10
Match: AT5G40810.2 (Cytochrome C1 family )

HSP 1 Score: 52.4 bits (124), Expect = 8.1e-07
Identity = 24/45 (53.33%), Postives = 31/45 (68.89%), Query Frame = 0 

Query: 28 VGGGASEHLSSAIVASCYEADHGLQCPGYIWPRNGNLSSHVHASL 73
          +G G +  LS + VAS  EA+HGL+CP Y WP  G LSS+ HAS+
Sbjct: 1  MGAGITGLLSFSTVASADEAEHGLECPNYPWPHEGILSSYDHASI 45

The following BLAST results are available for this feature:
BLAST of Sed0013521 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008453793.11.5e-15986.89PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X2... [more]
XP_022981835.11.2e-15887.80cytochrome c oxidase assembly protein COX11, mitochondrial [Cucurbita maxima] >X... [more]
XP_008453787.16.2e-15886.10PREDICTED: cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1... [more]
XP_022136891.11.8e-15786.59cytochrome c oxidase assembly protein COX11, mitochondrial [Momordica charantia][more]
XP_023527454.11.8e-15787.80cytochrome c oxidase assembly protein COX11, mitochondrial [Cucurbita pepo subsp... [more]
BLAST of Sed0013521 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q8GWR08.8e-9182.91Cytochrome c oxidase assembly protein COX11, mitochondrial OS=Arabidopsis thalia... [more]
O212436.8e-5155.80Cytochrome c oxidase assembly protein ctaG OS=Reclinomonas americana OX=48483 GN... [more]
Q86ZU71.1e-4847.95Rsm22-cox11 tandem protein 2, mitochondrial OS=Schizosaccharomyces pombe (strain... [more]
A3KMZ61.9e-4852.15Cytochrome c oxidase assembly protein COX11, mitochondrial OS=Bos taurus OX=9913... [more]
Q6P8I64.1e-4852.15Cytochrome c oxidase assembly protein COX11, mitochondrial OS=Mus musculus OX=10... [more]
BLAST of Sed0013521 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1S3BXX37.1e-16086.89cytochrome c oxidase assembly protein COX11, mitochondrial isoform X2 OS=Cucumis... [more]
A0A5D3D0J07.1e-16086.89Cytochrome c oxidase assembly protein COX11 OS=Cucumis melo var. makuwa OX=11946... [more]
A0A6J1J0Q56.0e-15987.80cytochrome c oxidase assembly protein COX11, mitochondrial OS=Cucurbita maxima O... [more]
A0A1S4E0123.0e-15886.10cytochrome c oxidase assembly protein COX11, mitochondrial isoform X1 OS=Cucumis... [more]
A0A6J1C4S28.7e-15886.59cytochrome c oxidase assembly protein COX11, mitochondrial OS=Momordica charanti... [more]
BLAST of Sed0013521 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G02410.16.3e-9282.91cytochrome c oxidase assembly protein CtaG / Cox11 family [more]
AT5G40810.11.9e-1145.65Cytochrome C1 family [more]
AT3G27240.12.3e-0942.39Cytochrome C1 family [more]
AT5G40810.28.1e-0753.33Cytochrome C1 family [more]
InterPro
Analysis Name: InterPro Annotations of Chayote (edule) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR023471Cytochrome c oxidase assembly protein CtaG/Cox11, domain superfamilyGENE3D2.60.370.10Ctag/Cox11coord: 199..327
e-value: 3.5E-61
score: 206.9
IPR023471Cytochrome c oxidase assembly protein CtaG/Cox11, domain superfamilySUPERFAMILY110111Ctag/Cox11coord: 204..326
IPR007533Cytochrome c oxidase assembly protein CtaG/Cox11PFAMPF04442CtaG_Cox11coord: 169..323
e-value: 4.3E-60
score: 202.0
IPR007533Cytochrome c oxidase assembly protein CtaG/Cox11HAMAPMF_00155CtaGcoord: 144..327
score: 37.096901
NoneNo IPR availablePANTHERPTHR21320:SF7BNAA08G27140D PROTEINcoord: 134..327
NoneNo IPR availablePANTHERPTHR21320CYTOCHROME C OXIDASE ASSEMBLY PROTEIN COX11-RELATEDcoord: 134..327

Relationships

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

Feature NameUnique NameType
Sed0013521.1Sed0013521.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009846 pollen germination
biological_process GO:1904960 positive regulation of cytochrome-c oxidase activity
biological_process GO:0010101 post-embryonic root morphogenesis
cellular_component GO:0032592 integral component of mitochondrial membrane
cellular_component GO:0031304 intrinsic component of mitochondrial inner membrane
molecular_function GO:0005507 copper ion binding
molecular_function GO:0043621 protein self-association