CmaCh11G008320 (gene) Cucurbita maxima (Rimu) v1.1

Overview
NameCmaCh11G008320
Typegene
OrganismCucurbita maxima (Cucurbita maxima (Rimu) v1.1)
DescriptionSelenoprotein O
LocationCma_Chr11: 4166477 .. 4182512 (+)
RNA-Seq ExpressionCmaCh11G008320
SyntenyCmaCh11G008320
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGAGAAGACTGCCGGTGATAAGCCGGAGGAAGGCTTTCGCAGCTTCCCCGCGTTTCTCTCCTCCGCCATCGCCACCGTCTCGGCTTAGTTCGCCGTCGTTCCACTCTTCTCATTCGCCGTCCTTCTACTTCTCTCGTCTATTTCCTTCCCCACTCGCTGGCTGCTCTCGCCACGGCCTCCGGAGAGTTTCCATGGACTCTACTTCACCGGAGGTTTCGGCGTCGGTCGACTCCGTGGCGGAGGGTTTGAAGAATCAGAGCTTGAACAGCGACGATCGTGGCGTTGGAGGAAGTAGCGTCGAGCATCAGGCCAAAAAGAAGCTCGAAGATCTGAAATGGGACAATTCCTTTGTCAGAGAACTGCCTGGCGATCCCCTTACCGATATCATTCCTCGAGAGGTATTACATGCATGCTACTCAAATGTGTTGCCATCCGTGGAAGTAGATAGTCCTCAGCTTGTTGCTTGGTCAGAATCCGTTGCCAATTTGCTAGATTTGGATCCTCAAGAATTTCAAAGGCCAGATTTCCCCCTCTTGTTCTCTGGCGCATCTTCATTAGTTGGAGTGTCGCCTTACGCTCAATGTTATGGAGGCCATCAGTTTGGCATGTGGGCTGGACAGTTGGGTGATGGTCGAGCAATAACGCTTGGAGAGATACTTAATTCCCGTTCTGAAAGGTGGGAGTTGCAGCTAAAAGGTGCTGGGAAGACTCCATATAGTCGGTCTGCAGATGGCTTGGCTGTGCTACGAAGTAGCGTCAGGGAGTTCCTTTGTAGTGAAGCAATGCACAGTCTTGGAATACCAACAACTCGTGCACTTTGTCTTCTGACCACAGGAACATTGGTTACCCGAGATATGTTCTATGATGGGAATCCAAAAGAAGAGCCTGGTGCAATTATATGCAGGGTGGCTCAATCCTTTTTGCGTTTTGGATCATACCAAATTCATACCTCTAGAGGGAAAGATGATTATAAAATTGTTCGGGCTTTAGCAGACTATGTGATCCGCCACCATTTTCCTCACATAGAGAATATGAGCAGCAGTCAGAGTTTATCTTTCAGCACAGATGACAAAGATAGTTCAGTTATCGATCTCACTTTAAACAAATATGCAGCTTGGACCGTAGAAGTCGCTGAGCGAACAGCTTCCTTAATAGCAAGATGGCAGGGGGTTGGGTTCACACACGGCGTACTCAACACTGACAATATGAGTATCTTGGGTCTTACCATTGATTATGGTCCATTTGGATTTTTGGATGCTTTTGATCCTAGTTTTACGCCTAATACAACTGATCTTCCGGGCAGAAGATATTGTTTTGCAAATCAGCCAGATATAGGCTTATGGAATATAGCCCAGTTTGCCTCGACTCTCTCAGCCGCTGGATTAATAAATGATAAAGAAGCCAACTATGCCATGGAAAGATATGGAGACAAATTTATGGATGACTATCAATCAATAATGACCAAGAAACTTGGTTTGCCAAAGTACAATAAGCAGTTAATCGGCAAGCTTCTCAACAACATGGCTGTTGACAAGGTTGATTACACAAATTTCTTTAGATTACTTTCCAATGTCAAAGCTGATCCTAGCATCCCAGAGAAGGAGCTGCTGGTCCCTCTGAAGGCAGTTCTATTAGATATTGGGAAGGAACGTAAGGAAGCTTGGGCTAGCTGGGTCAAGACCTACATAGAGGAGCTTGCTGGAAGCGGCATTTCAGATGAGGAAAGGAAGGCCTCTATGGATGCAGTAAATCCTAAATATATCCTGAGGAACTACCTATGCCAGAGTGCCATAGATGCGGCTGAACAGGGTGATTTTGGAGAGGTTCGTCGGCTGCTGAAGATAATGGAACGGCCATATGATGAGCAGCCAGGAATGGAGAAATATGCACGGCTACCCCCAGCCTGGGCGTATCGGCCAGGTGTTCTGCATTGCTGTTGTTTGAGAGAAGATACGAAAGATGGCATTCTGTTTTTTGGCGAGTTTTTTGTTTATGCTTGTCCTGCGGCTGTAGAGGATCGTTCTTGGCCGATACGTGAAGAAGTTGCAGAAGAGCAATGGTTCGCCCCGAGCCCACCCGAGTTCATTTTCTACGTCGTTGGAGAAACACAGCTCGGCCCTCTCTCGGAGACGTGGGGATTCACTCACTGTAATGGCTTCTTTCCATTGATTCGTATGGCCTTCGTTTCTTATCAGGTTTCTTTTATTTCTCTGCTTTTTCTTCGCTCTGAACTTGAATTTGTTTGTCGATCAACTCTTCTTATTGCTCTAATCTTGCTTTCCGCCTTTCCGATTCTGCTGGTGGCCATCTGTTGCGTGATTTTTTTCGTTCTTGGAGTTCTTAAAAAGAGGATGGGTAGAGGTCGAGGAAAGGGGAGGAAGTTGACCGTTACAAATCATGACGATGCTGGAAGTGGTGAGGAAGAGAAGATTCCTGCGCAAAAGCGAAGGGGAAGGCCACAAAAGCCATTGAAGGACGAGATCGACGAGGAAGAAGCTGAAAAGATAGAAGACGACGACATCGAGAACCTGAAAGGCAATGAAATTGTGAGCAAGGAGATGAAAAGCAGCAGCAGCCCAGCTGCAGCAGCAGAGAATGGGAAAAGGAGGAGGAGAAGCTCACAAGTGAAAGAAAAGCTCGATCCAGTCAAAGACGAAAATGGAGACGGAACACGATCAAGCACCGATGAATCAACCAGATCGAATGGATTTCGCCACAACGGAAGCAGGAGAAAAAGCAAGCCCCGTCGAGCTGCTGAAGCAGGCGTTAACTGCAAGTGAAACAACTCTGAAAGAATCTAGTTTTTCAAGGTAGAAAATGAGGCATAGTGAGTGAGTGATCTTCCAGATTACACCATATTTTGTGTTCTCAATCTCCTCCTCTTCATATAACTATTTCCCATCATCATCATTCCTTTGTTATTTCTAAAAAAAAATGTTGAATTCAGGATTCACTCTGCTGGTTTTAATATTCTTTTCTTCTTCTTCTTCTGTTCTTCTCTTCTTTTCCATTACAACATGATCTAACTAAGAATCAATATTCTTTAATGTCTTCATTTCTTCTTCATTTGATCTGTTATCACTGGTAAAAAATGCTTCAATTCTGTTCAAATTAGGGTTCTTGAGAAGGGTTGAAGAACTGAAGCATGATGAGGGTGTTGAATAAAGTGAG

Coding sequence (CDS)

ATGAGAAGACTGCCGGTGATAAGCCGGAGGAAGGCTTTCGCAGCTTCCCCGCGTTTCTCTCCTCCGCCATCGCCACCGTCTCGGCTTAGTTCGCCGTCGTTCCACTCTTCTCATTCGCCGTCCTTCTACTTCTCTCGTCTATTTCCTTCCCCACTCGCTGGCTGCTCTCGCCACGGCCTCCGGAGAGTTTCCATGGACTCTACTTCACCGGAGGTTTCGGCGTCGGTCGACTCCGTGGCGGAGGGTTTGAAGAATCAGAGCTTGAACAGCGACGATCGTGGCGTTGGAGGAAGTAGCGTCGAGCATCAGGCCAAAAAGAAGCTCGAAGATCTGAAATGGGACAATTCCTTTGTCAGAGAACTGCCTGGCGATCCCCTTACCGATATCATTCCTCGAGAGGTATTACATGCATGCTACTCAAATGTGTTGCCATCCGTGGAAGTAGATAGTCCTCAGCTTGTTGCTTGGTCAGAATCCGTTGCCAATTTGCTAGATTTGGATCCTCAAGAATTTCAAAGGCCAGATTTCCCCCTCTTGTTCTCTGGCGCATCTTCATTAGTTGGAGTGTCGCCTTACGCTCAATGTTATGGAGGCCATCAGTTTGGCATGTGGGCTGGACAGTTGGGTGATGGTCGAGCAATAACGCTTGGAGAGATACTTAATTCCCGTTCTGAAAGGTGGGAGTTGCAGCTAAAAGGTGCTGGGAAGACTCCATATAGTCGGTCTGCAGATGGCTTGGCTGTGCTACGAAGTAGCGTCAGGGAGTTCCTTTGTAGTGAAGCAATGCACAGTCTTGGAATACCAACAACTCGTGCACTTTGTCTTCTGACCACAGGAACATTGGTTACCCGAGATATGTTCTATGATGGGAATCCAAAAGAAGAGCCTGGTGCAATTATATGCAGGGTGGCTCAATCCTTTTTGCGTTTTGGATCATACCAAATTCATACCTCTAGAGGGAAAGATGATTATAAAATTGTTCGGGCTTTAGCAGACTATGTGATCCGCCACCATTTTCCTCACATAGAGAATATGAGCAGCAGTCAGAGTTTATCTTTCAGCACAGATGACAAAGATAGTTCAGTTATCGATCTCACTTTAAACAAATATGCAGCTTGGACCGTAGAAGTCGCTGAGCGAACAGCTTCCTTAATAGCAAGATGGCAGGGGGTTGGGTTCACACACGGCGTACTCAACACTGACAATATGAGTATCTTGGGTCTTACCATTGATTATGGTCCATTTGGATTTTTGGATGCTTTTGATCCTAGTTTTACGCCTAATACAACTGATCTTCCGGGCAGAAGATATTGTTTTGCAAATCAGCCAGATATAGGCTTATGGAATATAGCCCAGTTTGCCTCGACTCTCTCAGCCGCTGGATTAATAAATGATAAAGAAGCCAACTATGCCATGGAAAGATATGGAGACAAATTTATGGATGACTATCAATCAATAATGACCAAGAAACTTGGTTTGCCAAAGTACAATAAGCAGTTAATCGGCAAGCTTCTCAACAACATGGCTGTTGACAAGGTTGATTACACAAATTTCTTTAGATTACTTTCCAATGTCAAAGCTGATCCTAGCATCCCAGAGAAGGAGCTGCTGGTCCCTCTGAAGGCAGTTCTATTAGATATTGGGAAGGAACGTAAGGAAGCTTGGGCTAGCTGGGTCAAGACCTACATAGAGGAGCTTGCTGGAAGCGGCATTTCAGATGAGGAAAGGAAGGCCTCTATGGATGCAGTAAATCCTAAATATATCCTGAGGAACTACCTATGCCAGAGTGCCATAGATGCGGCTGAACAGGGTGATTTTGGAGAGGTTCGTCGGCTGCTGAAGATAATGGAACGGCCATATGATGAGCAGCCAGGAATGGAGAAATATGCACGGCTACCCCCAGCCTGGGCGTATCGGCCAGGTGTTCTGCATTGCTGTTGTTTGAGAGAAGATACGAAAGATGGCATTCTGTTTTTTGGCGAGTTTTTTGTTTATGCTTGTCCTGCGGCTGTAGAGGATCGTTCTTGGCCGATACGTGAAGAAGTTGCAGAAGAGCAATGGTTCGCCCCGAGCCCACCCGAGTTCATTTTCTACGTCGTTGGAGAAACACAGCTCGGCCCTCTCTCGGAGACGTGGGGATTCACTCACTGTAATGGCTTCTTTCCATTGATTCGTATGGCCTTCGTTTCTTATCAGGTTTCTTTTATTTCTCTGCTTTTTCTTCGCTCTGAACTTGAATTTGTTTGTCGATCAACTCTTCTTATTGCTCTAATCTTGCTTTCCGCCTTTCCGATTCTGCTGGTGGCCATCTGTTGCGTGATTTTTTTCGTTCTTGGAGTTCTTAAAAAGAGGATGGGTAGAGGTCGAGGAAAGGGGAGGAAGTTGACCGTTACAAATCATGACGATGCTGGAAGTGGTGAGGAAGAGAAGATTCCTGCGCAAAAGCGAAGGGGAAGGCCACAAAAGCCATTGAAGGACGAGATCGACGAGGAAGAAGCTGAAAAGATAGAAGACGACGACATCGAGAACCTGAAAGGCAATGAAATTGTGAGCAAGGAGATGAAAAGCAGCAGCAGCCCAGCTGCAGCAGCAGAGAATGGGAAAAGGAGGAGGAGAAGCTCACAAGTGAAAGAAAAGCTCGATCCAGTCAAAGACGAAAATGGAGACGGAACACGATCAAGCACCGATGAATCAACCAGATCGAATGGATTTCGCCACAACGGAAGCAGGAGAAAAAGCAAGCCCCGTCGAGCTGCTGAAGCAGGCGTTAACTGCAAGTGA

Protein sequence

MRRLPVISRRKAFAASPRFSPPPSPPSRLSSPSFHSSHSPSFYFSRLFPSPLAGCSRHGLRRVSMDSTSPEVSASVDSVAEGLKNQSLNSDDRGVGGSSVEHQAKKKLEDLKWDNSFVRELPGDPLTDIIPREVLHACYSNVLPSVEVDSPQLVAWSESVANLLDLDPQEFQRPDFPLLFSGASSLVGVSPYAQCYGGHQFGMWAGQLGDGRAITLGEILNSRSERWELQLKGAGKTPYSRSADGLAVLRSSVREFLCSEAMHSLGIPTTRALCLLTTGTLVTRDMFYDGNPKEEPGAIICRVAQSFLRFGSYQIHTSRGKDDYKIVRALADYVIRHHFPHIENMSSSQSLSFSTDDKDSSVIDLTLNKYAAWTVEVAERTASLIARWQGVGFTHGVLNTDNMSILGLTIDYGPFGFLDAFDPSFTPNTTDLPGRRYCFANQPDIGLWNIAQFASTLSAAGLINDKEANYAMERYGDKFMDDYQSIMTKKLGLPKYNKQLIGKLLNNMAVDKVDYTNFFRLLSNVKADPSIPEKELLVPLKAVLLDIGKERKEAWASWVKTYIEELAGSGISDEERKASMDAVNPKYILRNYLCQSAIDAAEQGDFGEVRRLLKIMERPYDEQPGMEKYARLPPAWAYRPGVLHCCCLREDTKDGILFFGEFFVYACPAAVEDRSWPIREEVAEEQWFAPSPPEFIFYVVGETQLGPLSETWGFTHCNGFFPLIRMAFVSYQVSFISLLFLRSELEFVCRSTLLIALILLSAFPILLVAICCVIFFVLGVLKKRMGRGRGKGRKLTVTNHDDAGSGEEEKIPAQKRRGRPQKPLKDEIDEEEAEKIEDDDIENLKGNEIVSKEMKSSSSPAAAAENGKRRRRSSQVKEKLDPVKDENGDGTRSSTDESTRSNGFRHNGSRRKSKPRRAAEAGVNCK
Homology
[Close]
BLAST of CmaCh11G008320 vs. ExPASy Swiss-Prot
Match: A1K5T6 (Protein adenylyltransferase SelO OS=Azoarcus sp. (strain BH72) OX=418699 GN=selO PE=3 SV=1)

HSP 1 Score: 494.2 bits (1271), Expect = 3.2e-138
Identity = 267/540 (49.44%), Postives = 335/540 (62.04%), Query Frame = 0 

Query: 108 LEDLKWDNSFVRELPGDPLTDIIPREVLHACYSNVLPSVEVDSPQLVAWSESVANLLDLD 167
           +  L +DN FVRELP DP T    R+V  A YS V P+  V +P LVA S  VA LL  D
Sbjct: 1   MRPLVFDNRFVRELPADPETGPHTRQVAGASYSRVNPT-PVAAPHLVAHSAEVAALLGWD 60

Query: 168 PQEFQRPDFPLLFSGASSLVGVSPYAQCYGGHQFGMWAGQLGDGRAITLGEILNSRSERW 227
             +   P+F  +F G   L G+ PYA CYGGHQFG WAGQLGDGRAITLGE+LN +  RW
Sbjct: 61  ESDIASPEFAEVFGGNRLLDGMEPYAACYGGHQFGNWAGQLGDGRAITLGEVLNGQGGRW 120

Query: 228 ELQLKGAGKTPYSRSADGLAVLRSSVREFLCSEAMHSLGIPTTRALCLLTTGTLVTRDMF 287
           ELQLKGAG TPYSR ADG AVLRSS+REFLCSEAMH LG+PTTRAL L+ TG  V RDMF
Sbjct: 121 ELQLKGAGPTPYSRRADGRAVLRSSIREFLCSEAMHHLGVPTTRALSLVGTGEKVVRDMF 180

Query: 288 YDGNPKEEPGAIICRVAQSFLRFGSYQIHTSRGKDDYKIVRALADYVIRHHFPHIENMSS 347
           YDGNP+ EPGAI+CRVA SF+RFG++++  +RG  D  ++  L D+ I   FP IE  + 
Sbjct: 181 YDGNPQAEPGAIVCRVAPSFIRFGNFELLAARG--DLDLLNRLIDFTIARDFPGIEGSAR 240

Query: 348 SQSLSFSTDDKDSSVIDLTLNKYAAWTVEVAERTASLIARWQGVGFTHGVLNTDNMSILG 407
                               +K A W   V  RTA+++A W  VGF HGV+NTDNMSILG
Sbjct: 241 --------------------DKRARWFETVCARTATMVAHWMRVGFVHGVMNTDNMSILG 300

Query: 408 LTIDYGPFGFLDAFDPSFTPNTTDLPGRRYCFANQPDIGLWNIAQFASTLSAAGLINDKE 467
           LTIDYGP+G++D FDP +TPNTTD  GRRY F +QP I  WN+ Q A+ L  A      E
Sbjct: 301 LTIDYGPYGWVDNFDPGWTPNTTDAGGRRYRFGHQPRIANWNLLQLANALFPA--FGSTE 360

Query: 468 ANYA-MERYGDKFMDDYQSIMTKKLGLPKY---NKQLIGKLLNNMAVDKVDYTNFFRLLS 527
           A  A +  Y + +  + +++   KLGL      +  ++  L   M   +VD T FFR L+
Sbjct: 361 ALQAGLNTYAEVYDRESRAMTAAKLGLAALADADLPMVDALHGWMKRAEVDMTLFFRALA 420

Query: 528 NVKADPSIPEKELLVPLKAVLLDI------GKERKEAWASWVKTYIEELAGSGISDEERK 587
            V         +LL P  A+ LD         E  E ++ W++ Y +     G+  ++R+
Sbjct: 421 EV---------DLLKPDPALFLDAFYDDAKRLETAEEFSGWLRLYADRCRQEGLDADQRR 480

Query: 588 ASMDAVNPKYILRNYLCQSAIDAAEQGDFGEVRRLLKIMERPYDEQPGMEKYARLPPAWA 638
           A M+A NP+Y++RNYL Q AIDAAEQGD+G VR LL +M RPYDEQP    YA+  P WA
Sbjct: 481 ARMNAANPRYVMRNYLAQQAIDAAEQGDYGPVRSLLDVMRRPYDEQPERAAYAQRRPDWA 506

[Close]
BLAST of CmaCh11G008320 vs. ExPASy Swiss-Prot
Match: Q5NYD9 (Protein adenylyltransferase SelO OS=Aromatoleum aromaticum (strain EbN1) OX=76114 GN=selO PE=3 SV=1)

HSP 1 Score: 489.6 bits (1259), Expect = 7.9e-137
Identity = 259/544 (47.61%), Postives = 340/544 (62.50%), Query Frame = 0 

Query: 108 LEDLKWDNSFVRELPGDPLTDIIPREVLHACYSNVLPSVEVDSPQLVAWSESVANLLDLD 167
           +++L  DN FV ELPGDP      R+V  ACYS V+P+  V +P L+AWS  VA LL  D
Sbjct: 1   MKNLVLDNRFVHELPGDPNPSPDVRQVHGACYSRVMPT-PVSAPHLIAWSPEVAALLGFD 60

Query: 168 PQEFQRPDFPLLFSGASSLVGVSPYAQCYGGHQFGMWAGQLGDGRAITLGEILNSRSE-- 227
             + + P+F  +F+G + + G+ PYA CYGGHQFG WAGQLGDGRAITLGE + +R +  
Sbjct: 61  ESDVRSPEFAAVFAGNALMPGMEPYAACYGGHQFGNWAGQLGDGRAITLGEAVTTRGDGH 120

Query: 228 --RWELQLKGAGKTPYSRSADGLAVLRSSVREFLCSEAMHSLGIPTTRALCLLTTGTLVT 287
             RWELQLKGAG TPYSR ADG AVLRSS+REFLCSEAMH LG+PTTRALCL+ TG  V 
Sbjct: 121 TGRWELQLKGAGPTPYSRHADGRAVLRSSIREFLCSEAMHHLGVPTTRALCLVGTGEKVV 180

Query: 288 RDMFYDGNPKEEPGAIICRVAQSFLRFGSYQIHTSRGKDDYKIVRALADYVIRHHFPHIE 347
           RDMFYDG PK EPGA++CRVA SF+RFG+++I TSRG  D  ++  L D+ I   FP + 
Sbjct: 181 RDMFYDGRPKAEPGAVVCRVAPSFIRFGNFEIFTSRG--DEALLTRLVDFTIARDFPELG 240

Query: 348 NMSSSQSLSFSTDDKDSSVIDLTLNKYAAWTVEVAERTASLIARWQGVGFTHGVLNTDNM 407
              ++                    + A W  +V ERTA +IA+W  VGF HGV+NTDNM
Sbjct: 241 GEPAT--------------------RRAEWFCKVCERTARMIAQWMRVGFVHGVMNTDNM 300

Query: 408 SILGLTIDYGPFGFLDAFDPSFTPNTTDLPGRRYCFANQPDIGLWNIAQFASTL----SA 467
           SILGLTIDYGP+G++D FDP +TPNTTD  G+RY F NQP I  WN+ Q A+ L     A
Sbjct: 301 SILGLTIDYGPYGWIDNFDPGWTPNTTDAGGKRYRFGNQPHIAHWNLLQLANALYPVFGA 360

Query: 468 AGLINDKEANYAMERYGDKFMDDYQSIMTKKLGLPKYNKQ---LIGKLLNNMAVDKVDYT 527
           A  +++      ++ Y   F ++ + ++  KLG   +  +   L+  L   +   +VD T
Sbjct: 361 AEPLHE-----GLDLYARVFDEENRRMLAAKLGFEAFGDEDATLVETLHALLTRAEVDMT 420

Query: 528 NFFRLLSNVKAD-PSIPEKELLVPLKAVLLDIGKE--RKEAWASWVKTYIEELAGSGISD 587
            FFR L+++  + PSI       PL+       K    +    SW+  Y +         
Sbjct: 421 IFFRGLASLDLEAPSID------PLRDAFYSAEKAAVAEPEMNSWLAAYTKRTKQERTPG 480

Query: 588 EERKASMDAVNPKYILRNYLCQSAIDAAEQGDFGEVRRLLKIMERPYDEQPGMEKYARLP 638
           ++R+  M+AVNP+++LRNYL Q AIDAAEQG++  V  LL +M  PYDEQPG E++A   
Sbjct: 481 DQRRVRMNAVNPRFVLRNYLAQEAIDAAEQGEYALVSELLDVMRHPYDEQPGRERFAARR 510

[Close]
BLAST of CmaCh11G008320 vs. ExPASy Swiss-Prot
Match: Q1H0D2 (Protein adenylyltransferase SelO OS=Methylobacillus flagellatus (strain KT / ATCC 51484 / DSM 6875) OX=265072 GN=selO PE=3 SV=1)

HSP 1 Score: 481.5 bits (1238), Expect = 2.2e-134
Identity = 247/531 (46.52%), Postives = 335/531 (63.09%), Query Frame = 0 

Query: 111 LKWDNSFVRELPGDPLTDIIPREVLHACYSNVLPSVEVDSPQLVAWSESVANLLDLDPQE 170
           L +DN F+RELPGDP T    R+V  AC+S V+P+  V SP+L+A+S  +   L+L  +E
Sbjct: 2   LTFDNRFLRELPGDPETSNQLRQVYGACWSRVMPT-SVSSPKLLAYSHEMLEALELSEEE 61

Query: 171 FQRPDFPLLFSGASSLVGVSPYAQCYGGHQFGMWAGQLGDGRAITLGEILNSRSERWELQ 230
            + P +    +G   + G+ PYA CYGGHQFG WAGQLGDGRAI+LGE++N + +RWELQ
Sbjct: 62  IRSPAWVDALAGNGLMPGMEPYAACYGGHQFGHWAGQLGDGRAISLGEVVNRQGQRWELQ 121

Query: 231 LKGAGKTPYSRSADGLAVLRSSVREFLCSEAMHSLGIPTTRALCLLTTGTLVTRDMFYDG 290
           LKGAG TPYSR ADG AVLRSSVREFLCSEAMH LGIPTTRAL L+ TG +V RDMFYDG
Sbjct: 122 LKGAGVTPYSRMADGRAVLRSSVREFLCSEAMHHLGIPTTRALSLVQTGDVVIRDMFYDG 181

Query: 291 NPKEEPGAIICRVAQSFLRFGSYQIHTSRGKDDYKIVRALADYVIRHHFPHIENMSSSQS 350
           +P+ E GAI+CRV+ SF+RFG+++I   R  DD + ++ L D+ I   FP + N    + 
Sbjct: 182 HPQAEKGAIVCRVSPSFIRFGNFEIFAMR--DDKQTLQKLVDFTIDRDFPELRNYPEEER 241

Query: 351 LSFSTDDKDSSVIDLTLNKYAAWTVEVAERTASLIARWQGVGFTHGVLNTDNMSILGLTI 410
           L                   A W   +  RTA LIA+W  VGF HGV+NTDNMSILGLTI
Sbjct: 242 L-------------------AEWFAIICVRTARLIAQWMRVGFVHGVMNTDNMSILGLTI 301

Query: 411 DYGPFGFLDAFDPSFTPNTTDLPGRRYCFANQPDIGLWNIAQFASTLSAAGLINDKEA-N 470
           DYGP+G++D FDP +TPNTTD  GRRYCF  QPDI  WN+ + A  L    L  ++E  +
Sbjct: 302 DYGPYGWVDNFDPGWTPNTTDAAGRRYCFGRQPDIARWNLERLAQALYT--LKPEREIYD 361

Query: 471 YAMERYGDKFMDDYQSIMTKKLGLPKYNKQ---LIGKLLNNMAVDKVDYTNFFRLLSNVK 530
             +  Y   + +++ +++  K G   +  +   L+ ++   M   ++D T FFR L+ V 
Sbjct: 362 EGLMLYDQAYNNEWGAVLAAKFGFSAWRDEYEPLLNEVFGLMTQAEIDMTEFFRKLALV- 421

Query: 531 ADPSIPEKELLVPLKAVLLDIGKERKEAWASWVKTYIEELAGSGISDEERKASMDAVNPK 590
            D + P+  +L    A    + +  K  ++ W+  Y +     G    ER+ +M+ VNP+
Sbjct: 422 -DAAQPDLGIL-QSAAYSPALWETFKPRFSDWLGQYAQATLADGRDPAERREAMNRVNPR 481

Query: 591 YILRNYLCQSAIDAAEQGDFGEVRRLLKIMERPYDEQPGMEKYARLPPAWA 638
           Y+LRNYL Q AID A+ GD   +  L+ ++ +PYDEQPG E++A L P WA
Sbjct: 482 YVLRNYLAQQAIDLADTGDTSMIEALMDVLRKPYDEQPGKERFAALRPDWA 505

[Close]
BLAST of CmaCh11G008320 vs. ExPASy Swiss-Prot
Match: C4LAV8 (Protein adenylyltransferase SelO OS=Tolumonas auensis (strain DSM 9187 / TA4) OX=595494 GN=selO PE=3 SV=1)

HSP 1 Score: 470.7 bits (1210), Expect = 3.8e-131
Identity = 250/541 (46.21%), Postives = 335/541 (61.92%), Query Frame = 0 

Query: 111 LKWDNSFVRELPGDPLTDIIPREVLHACYSNVLPSVEVDSPQLVAWSESVANLLDLDPQE 170
           L +DN F+RELPGDPLT   PR+V HA + + +    V  PQL+A S  VA LL +   E
Sbjct: 4   LHFDNRFIRELPGDPLTLNQPRQV-HAAFWSAVTPAPVPQPQLIASSAEVAALLGISLAE 63

Query: 171 FQRPDFPLLFSGASSLVGVSPYAQCYGGHQFGMWAGQLGDGRAITLGEILNSRSERWELQ 230
            Q+P +    SG   L G+SP+A CYGGHQFG WAGQLGDGRAI+LGE++++   RWELQ
Sbjct: 64  LQQPAWVAALSGNGLLDGMSPFATCYGGHQFGNWAGQLGDGRAISLGELIHN-DLRWELQ 123

Query: 231 LKGAGKTPYSRSADGLAVLRSSVREFLCSEAMHSLGIPTTRALCLLTTGTLVTRDMFYDG 290
           LKGAG TPYSR  DG AVLRSS+REFLCSEAM  LG+PTTRAL L+ TG  + RDMFYDG
Sbjct: 124 LKGAGVTPYSRRGDGKAVLRSSIREFLCSEAMFHLGVPTTRALSLVLTGEQIWRDMFYDG 183

Query: 291 NPKEEPGAIICRVAQSFLRFGSYQIHTSRGKDDYKIVRALADYVIRHHFPHIENMSSSQS 350
           NP++EPGAI+CRVA SF+RFG +Q+   RG+ D  ++  L D+ I   FPH+    S+Q 
Sbjct: 184 NPQQEPGAIVCRVAPSFIRFGHFQLPAMRGESD--LLNQLIDFTIDRDFPHL----SAQP 243

Query: 351 LSFSTDDKDSSVIDLTLNKYAAWTVEVAERTASLIARWQGVGFTHGVLNTDNMSILGLTI 410
            +                +   W  EV   TA L+  W  VGF HGV+NTDNMSILGLTI
Sbjct: 244 ATV---------------RRGVWFSEVCITTAKLMVEWTRVGFVHGVMNTDNMSILGLTI 303

Query: 411 DYGPFGFLDAFDPSFTPNTTDLPGRRYCFANQPDIGLWNIAQFASTLSAAGLINDKEANY 470
           DYGP+G++D FD ++TPNTTD  G RYCF  QP I  WN+ + A  L    + +      
Sbjct: 304 DYGPYGWVDNFDLNWTPNTTDAEGLRYCFGRQPAIARWNLERLAEALGTV-MTDHAILAQ 363

Query: 471 AMERYGDKFMDDYQSIMTKKLGLPKY---NKQLIGKLLNNMAVDKVDYTNFFRLLSNVKA 530
            +E + + F  +  +++  KLG  ++   + +L+ +L + +   +VD T FFR L+ V  
Sbjct: 364 GIEMFDETFAQEMAAMLAAKLGWQQWLPEDSELVNRLFDLLQQAEVDMTLFFRRLALV-- 423

Query: 531 DPSIPEKELLVPLKAVLLDIGKERKEAWASWVKTYIEELAGSGISDEERKASMDAVNPKY 590
           D S P+  +L        D+  + + A+  W+  Y + +   G+   ER A M+ VNP Y
Sbjct: 424 DVSAPDLTVLAD-AFYRDDLFCQHQPAFTQWLTNYSQRVLSEGVLPAERAARMNQVNPVY 483

Query: 591 ILRNYLCQSAIDAAEQGDFGEVRRLLKIMERPYDEQPGMEKYARLPPAWA-YRPGVLHCC 648
           +LRNYL Q  IDAAEQG++  +  LL+++ +PY EQ G E YA+  P WA ++PG     
Sbjct: 484 VLRNYLAQQVIDAAEQGNYQPIAELLEVLRQPYTEQSGKEAYAQKRPDWARHKPGCSMLS 517

[Close]
BLAST of CmaCh11G008320 vs. ExPASy Swiss-Prot
Match: Q2Y8V8 (Protein adenylyltransferase SelO OS=Nitrosospira multiformis (strain ATCC 25196 / NCIMB 11849 / C 71) OX=323848 GN=selO PE=3 SV=1)

HSP 1 Score: 466.5 bits (1199), Expect = 7.2e-130
Identity = 255/574 (44.43%), Postives = 341/574 (59.41%), Query Frame = 0 

Query: 108 LEDLKWDNSFVRELPGDPLTDIIPREVLHACYSNVLPSVEVDSPQLVAWSESVANLLDLD 167
           L D ++DN FVR+LPGDP T  +PR+V +A Y+ V P+  V SP+L+AW++ V  +L + 
Sbjct: 18  LFDARFDNRFVRQLPGDPETRNVPRQVRNAGYTQVSPT-PVRSPRLLAWADEVGEMLGI- 77

Query: 168 PQEFQRPDFPL-----LFSGASSLVGVSPYAQCYGGHQFGMWAGQLGDGRAITLGEILNS 227
                RP  P+     + +G   L  + PYA  YGGHQFG WAGQLGDGRAITLGE+++ 
Sbjct: 78  ----ARPASPVSPAVEVLAGNRILPSMQPYAARYGGHQFGHWAGQLGDGRAITLGELISP 137

Query: 228 RSERWELQLKGAGKTPYSRSADGLAVLRSSVREFLCSEAMHSLGIPTTRALCLLTTGTLV 287
             +R+ELQLKGAGKTPYSR+ADG AVLRSSVREFLCSEAMHSLG+PTTRAL L+ TG  V
Sbjct: 138 NDKRYELQLKGAGKTPYSRTADGRAVLRSSVREFLCSEAMHSLGVPTTRALSLVATGEAV 197

Query: 288 TRDMFYDGNPKEEPGAIICRVAQSFLRFGSYQIHTSRGKDDYKIVRALADYVIRHHFPHI 347
            RDMFYDG+P  EPGAI+CRV+ SFLRFG+++I  ++ + +  ++R LAD+VI  HFP +
Sbjct: 198 IRDMFYDGHPGAEPGAIVCRVSPSFLRFGNFEILAAQKEPE--LLRQLADFVIGEHFPEL 257

Query: 348 ENMSSSQSLSFSTDDKDSSVIDLTLNKYAAWTVEVAERTASLIARWQGVGFTHGVLNTDN 407
            +      +                  YA W  EV  RT  L+A W  VGF HGV+NTDN
Sbjct: 258 ASSHRPPEV------------------YAKWFEEVCRRTGILVAHWMRVGFVHGVMNTDN 317

Query: 408 MSILGLTIDYGPFGFLDAFDPSFTPNTTDLPGRRYCFANQPDIGLWNIAQFASTLSAAGL 467
           MSILGLTIDYGP+G+L+ FD  +TPNTTD  GRRYC+ NQP I  WN+ + A  L+   L
Sbjct: 318 MSILGLTIDYGPYGWLEGFDLHWTPNTTDAQGRRYCYGNQPKIAQWNLTRLAGALTP--L 377

Query: 468 INDKEA-NYAMERYGDKFMDDYQSIMTKKLGLPKY----NKQLIGKLLNNMAVDKVDYTN 527
           I D  A  + +  +G+ F + +  ++  KLGL       +  L+  L   +   + D T 
Sbjct: 378 IEDDAALEHGLAVFGETFNNTWSGMLAAKLGLASLEHSDDDSLLSDLFETLQQVETDMTL 437

Query: 528 FFRLLSNVKADPSIPEKELLVPLKAVLLDIGK---------------ERKEAW------- 587
           FFR L N+  +P    +    P    L  + +               +  +A+       
Sbjct: 438 FFRCLMNIPLNPISGNRATTFPAPENLESVDQMNDHGLVELFRPAFYDAHQAFSHAHLTR 497

Query: 588 -ASWVKTYIEELAGSGISDEERKASMDAVNPKYILRNYLCQSAIDAAEQGDFGEVRRLLK 647
            A W++ YI  +   G  +  R   M   NPKY+LRNYL Q AI+A E+GD   + RL++
Sbjct: 498 LAGWLRRYIARVRQEGEPEGLRYHRMSRANPKYVLRNYLAQQAIEALERGDDSVIIRLME 557

[Close]
BLAST of CmaCh11G008320 vs. TAIR 10
Match: AT5G13030.1 (unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biological_process unknown; LOCATED IN: chloroplast; EXPRESSED IN: 23 plant structures; EXPRESSED DURING: 13 growth stages; CONTAINS InterPro DOMAIN/s: Uncharacterised protein family UPF0061 (InterPro:IPR003846); Has 5046 Blast hits to 4997 proteins in 1211 species: Archae - 8; Bacteria - 2327; Metazoa - 120; Fungi - 134; Plants - 48; Viruses - 0; Other Eukaryotes - 2409 (source: NCBI BLink). )

HSP 1 Score: 963.4 bits (2489), Expect = 1.3e-280
Identity = 462/602 (76.74%), Postives = 514/602 (85.38%), Query Frame = 0 

Query: 46  RLFPSPLAGCSRHGLRRVSMDSTSPEVSASVDSVAEGLKNQSLNSDDRGVGGSSVEHQAK 105
           RL PS  +   R      S  S +P   +S DS+A+ L+NQSL + D GV       + K
Sbjct: 37  RLSPSRSSSFRRMESSPASSSSPTPVTDSSADSLAKDLQNQSLGAVDEGV-------KIK 96

Query: 106 KKLEDLKWDNSFVRELPGDPLTDIIPREVLHACYSNVLPSVEVDSPQLVAWSESVANLLD 165
           KKLED  WD+SFV+ELPGDP TD+I REVLHACYS V PSVEVD PQLVAWS SVA LLD
Sbjct: 97  KKLEDFNWDHSFVKELPGDPRTDVISREVLHACYSKVSPSVEVDDPQLVAWSVSVAELLD 156

Query: 166 LDPQEFQRPDFPLLFSGASSLVGVSPYAQCYGGHQFGMWAGQLGDGRAITLGEILNSRSE 225
           LDP+EF+RPDFPL+ SGA  L G   YAQCYGGHQFGMWAGQLGDGRAITLGE+LNS+ E
Sbjct: 157 LDPKEFERPDFPLMLSGAKPLPGAMSYAQCYGGHQFGMWAGQLGDGRAITLGEVLNSKGE 216

Query: 226 RWELQLKGAGKTPYSRSADGLAVLRSSVREFLCSEAMHSLGIPTTRALCLLTTGTLVTRD 285
           RWELQLKGAG+TPYSR ADGLAVLRSS+REFLCSE MH LGIPTTRALCLLTTG  VTRD
Sbjct: 217 RWELQLKGAGRTPYSRFADGLAVLRSSIREFLCSETMHCLGIPTTRALCLLTTGQNVTRD 276

Query: 286 MFYDGNPKEEPGAIICRVAQSFLRFGSYQIHTSRGKDDYKIVRALADYVIRHHFPHIENM 345
           MFYDGNPKEEPGAI+CRV+QSFLRFGSYQIH SRGK+D  IVR LADY I+HHFPHIE+M
Sbjct: 277 MFYDGNPKEEPGAIVCRVSQSFLRFGSYQIHASRGKEDLDIVRKLADYAIKHHFPHIESM 336

Query: 346 SSSQSLSFSTDDKDSSVIDLTLNKYAAWTVEVAERTASLIARWQGVGFTHGVLNTDNMSI 405
             S SLSF T D+D SV+DLT NKYAAW VE+AERTA+L+ARWQGVGFTHGVLNTDNMSI
Sbjct: 337 DRSDSLSFKTGDEDDSVVDLTSNKYAAWIVEIAERTATLVARWQGVGFTHGVLNTDNMSI 396

Query: 406 LGLTIDYGPFGFLDAFDPSFTPNTTDLPGRRYCFANQPDIGLWNIAQFASTLSAAGLIND 465
           LG TIDYGPFGFLDAFDPS+TPNTTDLPGRRYCFANQPDIGLWNIAQF+ TL+ A LIN 
Sbjct: 397 LGQTIDYGPFGFLDAFDPSYTPNTTDLPGRRYCFANQPDIGLWNIAQFSKTLAVAQLINQ 456

Query: 466 KEANYAMERYGDKFMDDYQSIMTKKLGLPKYNKQLIGKLLNNMAVDKVDYTNFFRLLSNV 525
           KEANYAMERYGDKFMD+YQ+IM+KKLGL KYNK++I KLLNNM+VDKVDYTNFFRLL+NV
Sbjct: 457 KEANYAMERYGDKFMDEYQAIMSKKLGLTKYNKEVISKLLNNMSVDKVDYTNFFRLLANV 516

Query: 526 KADPSIPEKELLVPLKAVLLDIGKERKEAWASWVKTYIEELAGSGISDEERKASMDAVNP 585
           KA+P+ PE ELL PLKAVLLDIGKERKEAW  W+++YI+E+ GS +SDEERKA MD+VNP
Sbjct: 517 KANPNTPENELLKPLKAVLLDIGKERKEAWIKWMRSYIQEVGGSEVSDEERKARMDSVNP 576

Query: 586 KYILRNYLCQSAIDAAEQGDFGEVRRLLKIMERPYDEQPGMEKYARLPPAWAYRPGVLHC 645
           KYILRNYLCQSAIDAAEQGDF EV  L+++M+RPY+EQPGMEKYARLPPAWAYRPGV   
Sbjct: 577 KYILRNYLCQSAIDAAEQGDFSEVNNLIRLMKRPYEEQPGMEKYARLPPAWAYRPGVCML 631

Query: 646 CC 648
            C
Sbjct: 637 SC 631

[Close]
BLAST of CmaCh11G008320 vs. TAIR 10
Match: AT2G42190.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT3G57930.2); Has 1381 Blast hits to 1230 proteins in 175 species: Archae - 3; Bacteria - 25; Metazoa - 672; Fungi - 135; Plants - 127; Viruses - 30; Other Eukaryotes - 389 (source: NCBI BLink). )

HSP 1 Score: 107.8 bits (268), Expect = 4.6e-23
Identity = 72/143 (50.35%), Postives = 95/143 (66.43%), Query Frame = 0 

Query: 785 MGRGRGKGRKLTVTNHDDAGSGEEEKIPAQKRRGRPQKPLKDEIDEEEAEKIEDDDIENL 844
           M RGRGKG+K   +  +D GSG+EEKIPA +RRGRPQKP+KD+ +EEE    E+DD E +
Sbjct: 1   MRRGRGKGKKQNASAREDRGSGDEEKIPAYRRRGRPQKPMKDDFEEEE----EEDDEEMV 60

Query: 845 KGNEIVSKEMKSSSSPAAAAENGKRRRRSSQVKEKLDPVKDENGDGTRSSTDESTRSN-- 904
           +  E V  E +     +  +++ K R+R        D  ++ENG G++ +TD+STRS   
Sbjct: 61  EKME-VEDEDEEIDDGSVTSKDLKERKRKMSNGSNTDLTEEENGLGSKPNTDDSTRSTSI 120

Query: 905 GFRHNGSRRKSKPRRAAEAGVNC 926
           GFR NGSRRKSKPRRAAEA V C
Sbjct: 121 GFRQNGSRRKSKPRRAAEAVVEC 138

[Close]
BLAST of CmaCh11G008320 vs. TAIR 10
Match: AT3G57930.1 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G42190.1); Has 1519 Blast hits to 1241 proteins in 182 species: Archae - 0; Bacteria - 60; Metazoa - 576; Fungi - 133; Plants - 127; Viruses - 30; Other Eukaryotes - 593 (source: NCBI BLink). )

HSP 1 Score: 105.5 bits (262), Expect = 2.3e-22
Identity = 72/144 (50.00%), Postives = 99/144 (68.75%), Query Frame = 0 

Query: 785 MGRGRGKGRKLTVTNHDDAGSGEEEKIPAQKRRGRPQKPLKDEIDEEEAEKIEDDDIENL 844
           M RGRGKG++   T  +D GSGEEEKIPA ++RGRPQKP+KDE +EEE E ++  D E  
Sbjct: 1   MRRGRGKGKRQNATAREDRGSGEEEKIPAFRKRGRPQKPVKDE-EEEEEELVKKTDEEED 60

Query: 845 KGNEIVSKEMKSSSSPAAAAENGKRRRRSSQVKEKLDPVKDENGDGTRSSTDESTRSN-- 904
           K ++       S +S     ENG++R++  + KE  +  ++ENG G++SST++S +S+  
Sbjct: 61  KDDDTNG----SVTSKENVTENGRKRKKPVESKES-NITEEENGVGSKSSTEDSMKSSSS 120

Query: 905 -GFRHNGSRRKSKPRRAAEAGVNC 926
            GFR NGSRRK+KPRRAAEA V C
Sbjct: 121 IGFRQNGSRRKNKPRRAAEAVVEC 138

[Close]
BLAST of CmaCh11G008320 vs. TAIR 10
Match: AT3G57930.2 (unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT2G42190.1); Has 35333 Blast hits to 34131 proteins in 2444 species: Archae - 798; Bacteria - 22429; Metazoa - 974; Fungi - 991; Plants - 531; Viruses - 0; Other Eukaryotes - 9610 (source: NCBI BLink). )

HSP 1 Score: 105.5 bits (262), Expect = 2.3e-22
Identity = 72/144 (50.00%), Postives = 99/144 (68.75%), Query Frame = 0 

Query: 785 MGRGRGKGRKLTVTNHDDAGSGEEEKIPAQKRRGRPQKPLKDEIDEEEAEKIEDDDIENL 844
           M RGRGKG++   T  +D GSGEEEKIPA ++RGRPQKP+KDE +EEE E ++  D E  
Sbjct: 1   MRRGRGKGKRQNATAREDRGSGEEEKIPAFRKRGRPQKPVKDE-EEEEEELVKKTDEEED 60

Query: 845 KGNEIVSKEMKSSSSPAAAAENGKRRRRSSQVKEKLDPVKDENGDGTRSSTDESTRSN-- 904
           K ++       S +S     ENG++R++  + KE  +  ++ENG G++SST++S +S+  
Sbjct: 61  KDDDTNG----SVTSKENVTENGRKRKKPVESKES-NITEEENGVGSKSSTEDSMKSSSS 120

Query: 905 -GFRHNGSRRKSKPRRAAEAGVNC 926
            GFR NGSRRK+KPRRAAEA V C
Sbjct: 121 IGFRQNGSRRKNKPRRAAEAVVEC 138

The following BLAST results are available for this feature:
BLAST of CmaCh11G008320 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
A1K5T63.2e-13849.44Protein adenylyltransferase SelO OS=Azoarcus sp. (strain BH72) OX=418699 GN=selO... [more]
Q5NYD97.9e-13747.61Protein adenylyltransferase SelO OS=Aromatoleum aromaticum (strain EbN1) OX=7611... [more]
Q1H0D22.2e-13446.52Protein adenylyltransferase SelO OS=Methylobacillus flagellatus (strain KT / ATC... [more]
C4LAV83.8e-13146.21Protein adenylyltransferase SelO OS=Tolumonas auensis (strain DSM 9187 / TA4) OX... [more]
Q2Y8V87.2e-13044.43Protein adenylyltransferase SelO OS=Nitrosospira multiformis (strain ATCC 25196 ... [more]
BLAST of CmaCh11G008320 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G13030.11.3e-28076.74unknown protein; FUNCTIONS IN: molecular_function unknown; INVOLVED IN: biologic... [more]
AT2G42190.14.6e-2350.35unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... [more]
AT3G57930.12.3e-2250.00unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... [more]
AT3G57930.22.3e-2250.00unknown protein; BEST Arabidopsis thaliana protein match is: unknown protein (TA... [more]
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR003846Protein adenylyltransferase SelOPFAMPF02696UPF0061coord: 136..615
e-value: 6.1E-133
score: 444.0
IPR003846Protein adenylyltransferase SelOPANTHERPTHR32057PROTEIN ADENYLYLTRANSFERASE SELO, MITOCHONDRIALcoord: 42..647
IPR003846Protein adenylyltransferase SelOHAMAPMF_00692SelOcoord: 111..641
score: 36.307495
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 81..101
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 81..96
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 794..829
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 865..893
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 790..926
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..36
NoneNo IPR availablePANTHERPTHR32057:SF15UPF0061 PROTEIN AZO1574-LIKEcoord: 42..647

Relationships

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

Feature NameUnique NameType
CmaCh11G008320.1CmaCh11G008320.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
molecular_function GO:0005524 ATP binding
molecular_function GO:0046872 metal ion binding
molecular_function GO:0016779 nucleotidyltransferase activity