Spo17682.1 (mRNA)

Overview
NameSpo17682.1
TypemRNA
OrganismSpinacia oleracea (Spinach)
DescriptionDihydroorotase
Locationchr5 : 593517 .. 610579 (-)
Sequence length3461
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTCTCTGACCGTTTTTGGCTGTTGCAACATTCATTCCGTCGGAGTTGCGCTAATCCTGGAGGGCGACCGCATTCTGTTCTACCGCATTCTGTTCTTCGTTCAGTTCATCGAATCAGATAAGTTTGTTCTAATTTTCGCTTTAATCGCAACACAATCAACCTCCCAAAAAGGCGGGTTCTTCGGGCTTGGGCTCGAAGAACCCGCCCATAGAGTGATAAACTCCTTAGGAAAATTCCATGACAGGAATTTCCTTAGCATATTTAGGTTCAAAACATGGTGGTCTACTCAATGGGTAGGAAAATGTGGGTCGGATTTACAAATGGAAACTCAATGGTTGTTACTTGAAATTCCTGAAATTAAGTTATATGCTCTTATTGTGCCCTTAATTGAGGGTGGGTTTAGGGCTGCCCTTAAACCTGGGGATGATGATGATCATGTAATGGATGCATTTTACTTGAGTGTTGAACCTAAGGGTGTGTTTTATGGGGTGGATGAATTTGTACAAGGAGGGTTTTCGGTTCGATTTTTGATTATTGATGATGGGTGGCAAAGTGTTAATTGTGATGAAGATGAGCTAAATGAAGATAGGAATGGCCTTGTTTTAGGTGGTGAGCAAATGAATGCAAGGCTTCATAGGTTTGATGAAGGAGAAAAGTTTAGGAAATACAAAGGTGGTTTGTTGTTAGGGCCTAACCCTCCTCCCCTTAAAGATGGTCAGTTGATCGGATCTGAACCAGCCCATCCTGACACAACACATAATGGATCATGTGGGTCAGATCCACTTATGACCCATAATTCGACCCACCTTGAGTTAACTAAGGCAGGCCGTGTGTCAAATATCTTCAACCCACAACCCACCAAATTCACCCATGACCTACCTTACCCGCCACGTTGGCCATCTCTATCTCCCCCTTATAACCCTCTGAAGCCAAAGTTGCTCATCTCGAAAGCTATCGAGATCGAGCAGGCTCAGAAGGACCTTAAGAGGTTTGTTCAAAAGGGACTTGAGGCTGATTTCTCTTCCCTCGAAGAGAAGATCCAAGTGTTAAAGCATGAGTTAGATGAGTTGATGGAAGCTGGAACAATGGATGATCTTGCTGTGGATAAACTTGTGGAAGGTGGAATTGGATTAGTTCATCCTGATCAAGCTGGTGAATTCTATGATTCAATGCATTCCTACCTTTCTAGTGTTGGAATTACTGGTGTTAAAGTTGATGTTATTCAAACACTTGAATATGTCTCGGAGCAATTTGGAGGTAGGGTGGAGCTTGCAAAGAAATATTATGATGGATTATCCAAATCTTTGGAGAAGAACTTCAAAGGCACTAACCTCCTTTCAAGTATGGAACAATGCAATGACTTCTTATTGCTTGGAACTAAACAAATATCCATGGGAAGAGTAGGTGATGATTTTTGGTTCCAAGATCCAAATGGAGACCCAAATGGGGTGTTTTGGCTACAAGGTGTGCATATGATACATTGTTCATATAACAGTTTATGGATGGGTCAGATAGTCCACCCTGATTGGGATATGTTCCAGAGTGATCATGTTTGTGCTAAGTTTCATGCCGGCTCTCGCGCCATTTGTGGTGGACCGATCTATTATGGAGCTGTTATTGGAGCATTTAATTGCCAAGGAGCAGGGTGGGACAAAAAAGAGAGAAGGATCAAAGGCTACAAGGAATGTTACAAAACTATGGAAGGTTCCATACATGTAAAGGACATAGAATGGGATCAAACATTAGAAGATACAATCTTAAACCCAATTCAAAATTCAGCAATCAAGAGGTCGTGTGCTAGTATTCGTTGCAGGCAATTCCAGATGATAAACACTTCAATTTTGTCATACAATGCATCAAATTTGCCTATTCCAGGGATAAAGAGGTTTAACAAGATAAATATCATCAATGCGGTAAAGATGGAACTGACTCTGACACGCCCTGATGATTGGCATCTTCATCTCCGCGATGGGGATCTTCTTGCTGCTGTTGCTCCCTACAGTGCAAGACATTTTGGAAGAGCAATTGTTATGCCAAATCTAAGGCCTCCTGTTACTACTACAGCTGCTGCTATTGCTTACCGGGAGTCTATTATGGAAGTATTGCCTGCTGATAGCGACTTCAATCCTCTCATGACACTGTATTTGACTGATACAACAAGCCCTAATGAGATCAAGCTTGCCAGAAAAAGTGAAGTGGTGTATGCCGTAAAATTGTACCCTGCAGGCGCGACAACTAATTCACAGGATGGCGTCACTGATCTTCTTGGAAAGTGCTTACCTGTGCTTCAAGAGATGGCTGAGCAAAACATGCCTCTATTGGTTCACGGTGAGGTTACAGATCCCGACGTAGATATATTTGATCGTGAAAAAGTTTTTATTGAGACGGTTTTAAGACCTTTAATTCAGAAACTACCACAACTAAAAGTTGTAATGGAGCATATCACTACGGCAGATGCTGTTAACTTCATTGAATCATGCAATGAAGGAACCGTAGCAGCCACTGTGACTCCGCAGCACATTATTTTGAATAGAAACTCTCTCTTCCAAGGAGGGTTACAGCCTCATAACTATTGTCTTCCAGTGCTCAAAAGAGAAATCCATAGAAAGACAATTCTATCCGCAGTAACGAGTGGGAGTAAGCAATATTTTCTCGGGACTGATAGTGCTCCTCACGAGAGGCAACGGAAAGAGAGTTCCTGTGGATGTGCTGGAATCTTCAACTCCCCTGTTGCTCTATCACTATATGCTAAAATATTTGAAGAGGCAGGTGCCCTCGACAAGTTAGAGGCATTTACAAGCTTCAACGGACCTGATTTTTACGGTCTTCCAAGGAATACATCAAAGATCAAGTTGAAAAAAGAACCATGGAAAGTTCCAGAACATTTATCTTTCCCTTTCGGAGAAATCATCCCAATGTCTGCTGGACAAACACTTGACTGGAAACCATCTTTTTGATACAGTATGATCCCTCATTTATCTTAAACTTGGTCTTTCTGTTTCAAAATCTCAGGTTTCTGAATGTGTTTGCTTCATATTGATGATAAGTATATTGCAGTTTTGTAAGAGCCCCTTCGCATTTTAGTTGGTCTAAATTTGGGAAAAGATTATGAATTCTTTTTATTCATTTTTGTAATCTGAGACCAGTATAATCTTAAACTATGATTTTAACAGCTAATTTTCACTTGAAAAAGGGGATTTTCATCATTCTGTCCACGAATTTGTGATTGTTTTTCGTTTTTATGCAAAATCCACCCTTTGTTGTTGTATTCTGAATTTTGGGTTTAAGCCGAGGAACAGCACCTTCTGAAAGAGACCAGACCAGTTCAAGTGGCTCGTCTGATGTACTCTGACGTACTTAATAGGAGTTTAACTTTTAAGCATTTTAAGGTAACTTTACTTCTGTTTTACCTTGTTTTATTGTACAACTGTCTTAATTAAGAGTTTGTGATCAAATTGAA

Coding sequence (CDS)

ATGTCTCTGACCGTTTTTGGCTGTTGCAACATTCATTCCGTCGGAGTTGCGCTAATCCTGGAGGGCGACCGCATTCTGTTCTACCGCATTCTGTTCTTCGTTCAGTTCATCGAATCAGATAAGTTTGTTCTAATTTTCGCTTTAATCGCAACACAATCAACCTCCCAAAAAGGCGGGTTCTTCGGGCTTGGGCTCGAAGAACCCGCCCATAGAGTGATAAACTCCTTAGGAAAATTCCATGACAGGAATTTCCTTAGCATATTTAGGTTCAAAACATGGTGGTCTACTCAATGGGTAGGAAAATGTGGGTCGGATTTACAAATGGAAACTCAATGGTTGTTACTTGAAATTCCTGAAATTAAGTTATATGCTCTTATTGTGCCCTTAATTGAGGGTGGGTTTAGGGCTGCCCTTAAACCTGGGGATGATGATGATCATGTAATGGATGCATTTTACTTGAGTGTTGAACCTAAGGGTGTGTTTTATGGGGTGGATGAATTTGTACAAGGAGGGTTTTCGGTTCGATTTTTGATTATTGATGATGGGTGGCAAAGTGTTAATTGTGATGAAGATGAGCTAAATGAAGATAGGAATGGCCTTGTTTTAGGTGGTGAGCAAATGAATGCAAGGCTTCATAGGTTTGATGAAGGAGAAAAGTTTAGGAAATACAAAGGTGGTTTGTTGTTAGGGCCTAACCCTCCTCCCCTTAAAGATGGTCAGTTGATCGGATCTGAACCAGCCCATCCTGACACAACACATAATGGATCATGTGGGTCAGATCCACTTATGACCCATAATTCGACCCACCTTGAGTTAACTAAGGCAGGCCGTGTGTCAAATATCTTCAACCCACAACCCACCAAATTCACCCATGACCTACCTTACCCGCCACGTTGGCCATCTCTATCTCCCCCTTATAACCCTCTGAAGCCAAAGTTGCTCATCTCGAAAGCTATCGAGATCGAGCAGGCTCAGAAGGACCTTAAGAGGTTTGTTCAAAAGGGACTTGAGGCTGATTTCTCTTCCCTCGAAGAGAAGATCCAAGTGTTAAAGCATGAGTTAGATGAGTTGATGGAAGCTGGAACAATGGATGATCTTGCTGTGGATAAACTTGTGGAAGGTGGAATTGGATTAGTTCATCCTGATCAAGCTGGTGAATTCTATGATTCAATGCATTCCTACCTTTCTAGTGTTGGAATTACTGGTGTTAAAGTTGATGTTATTCAAACACTTGAATATGTCTCGGAGCAATTTGGAGGTAGGGTGGAGCTTGCAAAGAAATATTATGATGGATTATCCAAATCTTTGGAGAAGAACTTCAAAGGCACTAACCTCCTTTCAAGTATGGAACAATGCAATGACTTCTTATTGCTTGGAACTAAACAAATATCCATGGGAAGAGTAGGTGATGATTTTTGGTTCCAAGATCCAAATGGAGACCCAAATGGGGTGTTTTGGCTACAAGGTGTGCATATGATACATTGTTCATATAACAGTTTATGGATGGGTCAGATAGTCCACCCTGATTGGGATATGTTCCAGAGTGATCATGTTTGTGCTAAGTTTCATGCCGGCTCTCGCGCCATTTGTGGTGGACCGATCTATTATGGAGCTGTTATTGGAGCATTTAATTGCCAAGGAGCAGGGTGGGACAAAAAAGAGAGAAGGATCAAAGGCTACAAGGAATGTTACAAAACTATGGAAGGTTCCATACATGTAAAGGACATAGAATGGGATCAAACATTAGAAGATACAATCTTAAACCCAATTCAAAATTCAGCAATCAAGAGGTCGTGTGCTAGTATTCGTTGCAGGCAATTCCAGATGATAAACACTTCAATTTTGTCATACAATGCATCAAATTTGCCTATTCCAGGGATAAAGAGGTTTAACAAGATAAATATCATCAATGCGGTAAAGATGGAACTGACTCTGACACGCCCTGATGATTGGCATCTTCATCTCCGCGATGGGGATCTTCTTGCTGCTGTTGCTCCCTACAGTGCAAGACATTTTGGAAGAGCAATTGTTATGCCAAATCTAAGGCCTCCTGTTACTACTACAGCTGCTGCTATTGCTTACCGGGAGTCTATTATGGAAGTATTGCCTGCTGATAGCGACTTCAATCCTCTCATGACACTGTATTTGACTGATACAACAAGCCCTAATGAGATCAAGCTTGCCAGAAAAAGTGAAGTGGTGTATGCCGTAAAATTGTACCCTGCAGGCGCGACAACTAATTCACAGGATGGCGTCACTGATCTTCTTGGAAAGTGCTTACCTGTGCTTCAAGAGATGGCTGAGCAAAACATGCCTCTATTGGTTCACGGTGAGGTTACAGATCCCGACGTAGATATATTTGATCGTGAAAAAGTTTTTATTGAGACGGTTTTAAGACCTTTAATTCAGAAACTACCACAACTAAAAGTTGTAATGGAGCATATCACTACGGCAGATGCTGTTAACTTCATTGAATCATGCAATGAAGGAACCGTAGCAGCCACTGTGACTCCGCAGCACATTATTTTGAATAGAAACTCTCTCTTCCAAGGAGGGTTACAGCCTCATAACTATTGTCTTCCAGTGCTCAAAAGAGAAATCCATAGAAAGACAATTCTATCCGCAGTAACGAGTGGGAGTAAGCAATATTTTCTCGGGACTGATAGTGCTCCTCACGAGAGGCAACGGAAAGAGAGTTCCTGTGGATGTGCTGGAATCTTCAACTCCCCTGTTGCTCTATCACTATATGCTAAAATATTTGAAGAGGCAGGTGCCCTCGACAAGTTAGAGGCATTTACAAGCTTCAACGGACCTGATTTTTACGGTCTTCCAAGGAATACATCAAAGATCAAGTTGAAAAAAGAACCATGGAAAGTTCCAGAACATTTATCTTTCCCTTTCGGAGAAATCATCCCAATGTCTGCTGGACAAACACTTGACTGGAAACCATCTTTTTGA

Protein sequence

MSLTVFGCCNIHSVGVALILEGDRILFYRILFFVQFIESDKFVLIFALIATQSTSQKGGFFGLGLEEPAHRVINSLGKFHDRNFLSIFRFKTWWSTQWVGKCGSDLQMETQWLLLEIPEIKLYALIVPLIEGGFRAALKPGDDDDHVMDAFYLSVEPKGVFYGVDEFVQGGFSVRFLIIDDGWQSVNCDEDELNEDRNGLVLGGEQMNARLHRFDEGEKFRKYKGGLLLGPNPPPLKDGQLIGSEPAHPDTTHNGSCGSDPLMTHNSTHLELTKAGRVSNIFNPQPTKFTHDLPYPPRWPSLSPPYNPLKPKLLISKAIEIEQAQKDLKRFVQKGLEADFSSLEEKIQVLKHELDELMEAGTMDDLAVDKLVEGGIGLVHPDQAGEFYDSMHSYLSSVGITGVKVDVIQTLEYVSEQFGGRVELAKKYYDGLSKSLEKNFKGTNLLSSMEQCNDFLLLGTKQISMGRVGDDFWFQDPNGDPNGVFWLQGVHMIHCSYNSLWMGQIVHPDWDMFQSDHVCAKFHAGSRAICGGPIYYGAVIGAFNCQGAGWDKKERRIKGYKECYKTMEGSIHVKDIEWDQTLEDTILNPIQNSAIKRSCASIRCRQFQMINTSILSYNASNLPIPGIKRFNKINIINAVKMELTLTRPDDWHLHLRDGDLLAAVAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEVLPADSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLPVLQEMAEQNMPLLVHGEVTDPDVDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADAVNFIESCNEGTVAATVTPQHIILNRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGSKQYFLGTDSAPHERQRKESSCGCAGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDFYGLPRNTSKIKLKKEPWKVPEHLSFPFGEIIPMSAGQTLDWKPSF
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameType
Spo17682Spo17682gene


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameType
Spo17682.1Spo17682.1-proteinpolypeptide


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

Feature NameUnique NameType
Spo17682.1.CDS.15Spo17682.1.CDS.15CDS
Spo17682.1.CDS.14Spo17682.1.CDS.14CDS
Spo17682.1.CDS.13Spo17682.1.CDS.13CDS
Spo17682.1.CDS.12Spo17682.1.CDS.12CDS
Spo17682.1.CDS.11Spo17682.1.CDS.11CDS
Spo17682.1.CDS.10Spo17682.1.CDS.10CDS
Spo17682.1.CDS.9Spo17682.1.CDS.9CDS
Spo17682.1.CDS.8Spo17682.1.CDS.8CDS
Spo17682.1.CDS.7Spo17682.1.CDS.7CDS
Spo17682.1.CDS.6Spo17682.1.CDS.6CDS
Spo17682.1.CDS.5Spo17682.1.CDS.5CDS
Spo17682.1.CDS.4Spo17682.1.CDS.4CDS
Spo17682.1.CDS.3Spo17682.1.CDS.3CDS
Spo17682.1.CDS.2Spo17682.1.CDS.2CDS
Spo17682.1.CDS.1Spo17682.1.CDS.1CDS


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

Feature NameUnique NameType
Spo17682.1.utr3p.1Spo17682.1.utr3p.1three_prime_UTR


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

Feature NameUnique NameType
Spo17682.1.exon.15Spo17682.1.exon.15exon
Spo17682.1.exon.14Spo17682.1.exon.14exon
Spo17682.1.exon.13Spo17682.1.exon.13exon
Spo17682.1.exon.12Spo17682.1.exon.12exon
Spo17682.1.exon.11Spo17682.1.exon.11exon
Spo17682.1.exon.10Spo17682.1.exon.10exon
Spo17682.1.exon.9Spo17682.1.exon.9exon
Spo17682.1.exon.8Spo17682.1.exon.8exon
Spo17682.1.exon.7Spo17682.1.exon.7exon
Spo17682.1.exon.6Spo17682.1.exon.6exon
Spo17682.1.exon.5Spo17682.1.exon.5exon
Spo17682.1.exon.4Spo17682.1.exon.4exon
Spo17682.1.exon.3Spo17682.1.exon.3exon
Spo17682.1.exon.2Spo17682.1.exon.2exon
Spo17682.1.exon.1Spo17682.1.exon.1exon


Homology
[Close]
BLAST of Spo17682.1 vs. NCBI nr
Match: gi|902188463|gb|KNA11157.1| (hypothetical protein SOVF_137810 [Spinacia oleracea])

HSP 1 Score: 764.2 bits (1972), Expect = 2.700e-217
Identity = 377/377 (100.00%), Postives = 377/377 (100.00%), Query Frame = 1 

		  

Query: 609 MINTSILSYNASNLPIPGIKRFNKINIINAVKMELTLTRPDDWHLHLRDGDLLAAVAPYS 668
           MINTSILSYNASNLPIPGIKRFNKINIINAVKMELTLTRPDDWHLHLRDGDLLAAVAPYS
Sbjct: 1   MINTSILSYNASNLPIPGIKRFNKINIINAVKMELTLTRPDDWHLHLRDGDLLAAVAPYS 60

Query: 669 ARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEVLPADSDFNPLMTLYLTDTTSPNEIKLA 728
           ARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEVLPADSDFNPLMTLYLTDTTSPNEIKLA
Sbjct: 61  ARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEVLPADSDFNPLMTLYLTDTTSPNEIKLA 120

Query: 729 RKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLPVLQEMAEQNMPLLVHGEVTDPDVDIFD 788
           RKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLPVLQEMAEQNMPLLVHGEVTDPDVDIFD
Sbjct: 121 RKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLPVLQEMAEQNMPLLVHGEVTDPDVDIFD 180

Query: 789 REKVFIETVLRPLIQKLPQLKVVMEHITTADAVNFIESCNEGTVAATVTPQHIILNRNSL 848
           REKVFIETVLRPLIQKLPQLKVVMEHITTADAVNFIESCNEGTVAATVTPQHIILNRNSL
Sbjct: 181 REKVFIETVLRPLIQKLPQLKVVMEHITTADAVNFIESCNEGTVAATVTPQHIILNRNSL 240

Query: 849 FQGGLQPHNYCLPVLKREIHRKTILSAVTSGSKQYFLGTDSAPHERQRKESSCGCAGIFN 908
           FQGGLQPHNYCLPVLKREIHRKTILSAVTSGSKQYFLGTDSAPHERQRKESSCGCAGIFN
Sbjct: 241 FQGGLQPHNYCLPVLKREIHRKTILSAVTSGSKQYFLGTDSAPHERQRKESSCGCAGIFN 300

Query: 909 SPVALSLYAKIFEEAGALDKLEAFTSFNGPDFYGLPRNTSKIKLKKEPWKVPEHLSFPFG 968
           SPVALSLYAKIFEEAGALDKLEAFTSFNGPDFYGLPRNTSKIKLKKEPWKVPEHLSFPFG
Sbjct: 301 SPVALSLYAKIFEEAGALDKLEAFTSFNGPDFYGLPRNTSKIKLKKEPWKVPEHLSFPFG 360

Query: 969 EIIPMSAGQTLDWKPSF 986
           EIIPMSAGQTLDWKPSF
Sbjct: 361 EIIPMSAGQTLDWKPSF 377
[Close]
BLAST of Spo17682.1 vs. NCBI nr
Match: gi|731325160|ref|XP_010673365.1| (PREDICTED: dihydroorotase, mitochondrial isoform X1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 655.6 bits (1690), Expect = 1.400e-184
Identity = 318/345 (92.17%), Postives = 332/345 (96.23%), Query Frame = 1 

		  

Query: 641 MELTLTRPDDWHLHLRDGDLLAAVAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIME 700
           MELTLTRPDDWHLHLRDGDLLAAVAP+SARHFGRAIVMPNLRPPVTTT AAIAYR+SIME
Sbjct: 1   MELTLTRPDDWHLHLRDGDLLAAVAPHSARHFGRAIVMPNLRPPVTTTGAAIAYRKSIME 60

Query: 701 VLPADSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL 760
           VLP DSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL
Sbjct: 61  VLPDDSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL 120

Query: 761 PVLQEMAEQNMPLLVHGEVTDPDVDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADA 820
           PVL+EMAEQ+MPLLVHGEVTDPDVDIFDREKVFIE+VLRPLIQKLPQLKVVMEHITTADA
Sbjct: 121 PVLEEMAEQDMPLLVHGEVTDPDVDIFDREKVFIESVLRPLIQKLPQLKVVMEHITTADA 180

Query: 821 VNFIESCNEGTVAATVTPQHIILNRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGS 880
           V FIESCN G VAATVTPQH++LNRNSLFQGGLQPHNYCLPVLKREIHR+ ++SAVTSGS
Sbjct: 181 VKFIESCNGGNVAATVTPQHLVLNRNSLFQGGLQPHNYCLPVLKREIHRQALVSAVTSGS 240

Query: 881 KQYFLGTDSAPHERQRKESSCGCAGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDF 940
           KQYFLGTDSAPHER+RKE SCGCAGI+NSPVALSLYAK+FEEAGALDKLEAFTSFNGPDF
Sbjct: 241 KQYFLGTDSAPHERRRKECSCGCAGIYNSPVALSLYAKVFEEAGALDKLEAFTSFNGPDF 300

Query: 941 YGLPRNTSKIKLKKEPWKVPEHLSFPFGEIIPMSAGQTLDWKPSF 986
           YGLPRNTSKIKLKKEPWKV E + FP GEIIPM AGQ LDWKPSF
Sbjct: 301 YGLPRNTSKIKLKKEPWKVLERIPFPSGEIIPMFAGQMLDWKPSF 345
[Close]
BLAST of Spo17682.1 vs. NCBI nr
Match: gi|902146310|gb|KNA05052.1| (hypothetical protein SOVF_193990 [Spinacia oleracea])

HSP 1 Score: 629.4 bits (1622), Expect = 1.100e-176
Identity = 305/344 (88.66%), Postives = 326/344 (94.77%), Query Frame = 1 

		  

Query: 641 MELTLTRPDDWHLHLRDGDLLAAVAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIME 700
           MELTLTRPDDWHLHLRDG+LLAAVAP+SARHFGRAIVMPNLRPPVTTTAAAIAYRESI++
Sbjct: 1   MELTLTRPDDWHLHLRDGNLLAAVAPFSARHFGRAIVMPNLRPPVTTTAAAIAYRESILK 60

Query: 701 VLPADSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL 760
           V+P+ S F PLMTLYLTDTTSPNEIKLAR+S VVYAVKLYPAGATTNSQDGVTDL GKCL
Sbjct: 61  VMPSGSQFVPLMTLYLTDTTSPNEIKLARESGVVYAVKLYPAGATTNSQDGVTDLFGKCL 120

Query: 761 PVLQEMAEQNMPLLVHGEVTDPDVDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADA 820
           PVLQEMAEQNMPLLVHGEVTDP VDIFDREKVFIETVL PL+QKLPQLKVVMEHITTADA
Sbjct: 121 PVLQEMAEQNMPLLVHGEVTDPAVDIFDREKVFIETVLGPLVQKLPQLKVVMEHITTADA 180

Query: 821 VNFIESCNEGTVAATVTPQHIILNRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGS 880
           V FI+SC+EGTVAATVTPQH+ILNRNSLFQGGLQPHNYCLPVLKREIHR+ I+SAVTSGS
Sbjct: 181 VKFIDSCSEGTVAATVTPQHLILNRNSLFQGGLQPHNYCLPVLKREIHRQAIVSAVTSGS 240

Query: 881 KQYFLGTDSAPHERQRKESSCGCAGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDF 940
            +YFLGTDSAPHE+ +KE SCGCAGIFN+PVA+SLYAKIFEEA ALDKLEAFTSFNGPDF
Sbjct: 241 NKYFLGTDSAPHEKWKKECSCGCAGIFNAPVAISLYAKIFEEANALDKLEAFTSFNGPDF 300

Query: 941 YGLPRNTSKIKLKKEPWKVPEHLSFPFGEIIPMSAGQTLDWKPS 985
           YGLPRNTSKIKL KEPWKVPE +SFPFGEI+PM AGQ LDW+ S
Sbjct: 301 YGLPRNTSKIKLIKEPWKVPECISFPFGEIVPMFAGQMLDWQTS 344
[Close]
BLAST of Spo17682.1 vs. NCBI nr
Match: gi|731408785|ref|XP_010656978.1| (PREDICTED: dihydroorotase, mitochondrial isoform X1 [Vitis vinifera])

HSP 1 Score: 618.2 bits (1593), Expect = 2.400e-173
Identity = 297/381 (77.95%), Postives = 333/381 (87.40%), Query Frame = 1 

		  

Query: 604 CRQFQMINTSILSYNASNLPIPGIKRFNKINIINAVKMELTLTRPDDWHLHLRDGDLLAA 663
           C  F MI        AS LP   I+  N++ +  A +MEL+LT+PDDWHLHLRDGDLL A
Sbjct: 28  CSAFGMIKAVAFPCKASILPFARIEVPNQVKVKGA-RMELSLTQPDDWHLHLRDGDLLEA 87

Query: 664 VAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEVLPADSDFNPLMTLYLTDTTSPN 723
           V  +SA HFGR IVMPNL+PP+TTTAAA+AYRESI++ LPA+ DF PLMTLYLTD TSPN
Sbjct: 88  VVSHSASHFGRGIVMPNLKPPITTTAAAVAYRESILKALPANCDFTPLMTLYLTDKTSPN 147

Query: 724 EIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLPVLQEMAEQNMPLLVHGEVTDPD 783
           EIKLAR S VV+AVKLYPAGATTNSQDGVTDL GKCLPVL+EM EQNMPLLVHGEVT+P+
Sbjct: 148 EIKLARNSGVVFAVKLYPAGATTNSQDGVTDLFGKCLPVLEEMVEQNMPLLVHGEVTNPE 207

Query: 784 VDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADAVNFIESCNEGTVAATVTPQHIIL 843
           VD+FDREKVFIETVLRPLIQK P+LKVVMEHITT DAV F+ESCNEG+VAATVTPQH++L
Sbjct: 208 VDVFDREKVFIETVLRPLIQKFPRLKVVMEHITTMDAVRFVESCNEGSVAATVTPQHLVL 267

Query: 844 NRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGSKQYFLGTDSAPHERQRKESSCGC 903
           NRNSLFQGGLQPHNYCLPVLKRE HR+ I+SAVTSGS+++FLGTDSAPHER+RKE  CGC
Sbjct: 268 NRNSLFQGGLQPHNYCLPVLKRETHRQAIVSAVTSGSRKFFLGTDSAPHERRRKECPCGC 327

Query: 904 AGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDFYGLPRNTSKIKLKKEPWKVPEHL 963
           AGI+N+PVALSLYAK+FEEAGALDKLEAFTSFNGPDFYGLPRNTSKIKL K PWKVPE  
Sbjct: 328 AGIYNAPVALSLYAKVFEEAGALDKLEAFTSFNGPDFYGLPRNTSKIKLSKTPWKVPESY 387

Query: 964 SFPFGEIIPMSAGQTLDWKPS 985
           SF FG+I+PM AG+TLDW PS
Sbjct: 388 SFSFGDIVPMFAGETLDWLPS 407
[Close]
BLAST of Spo17682.1 vs. NCBI nr
Match: gi|703080712|ref|XP_010091494.1| (Dihydroorotase [Morus notabilis])

HSP 1 Score: 617.5 bits (1591), Expect = 4.100e-173
Identity = 290/345 (84.06%), Postives = 321/345 (93.04%), Query Frame = 1 

		  

Query: 641 MELTLTRPDDWHLHLRDGDLLAAVAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIME 700
           MELT+TRPDDWHLHLRDGDLL AV P+S+ HFGR IVMPNL+PPVTTTAAA+AYRESI++
Sbjct: 1   MELTITRPDDWHLHLRDGDLLKAVIPHSSNHFGRGIVMPNLKPPVTTTAAAVAYRESILK 60

Query: 701 VLPADSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL 760
            LPA SDF PLMTLYLTDTTSPNEIKLARKS  ++ VKLYPAGATTNSQDGVTDL GKCL
Sbjct: 61  ALPAGSDFTPLMTLYLTDTTSPNEIKLARKSGAIFGVKLYPAGATTNSQDGVTDLFGKCL 120

Query: 761 PVLQEMAEQNMPLLVHGEVTDPDVDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADA 820
           PVL+EM EQNMPLLVHGEVTDP VD+FDREKVFI+TVL+PLI++LP LKVVMEHITTADA
Sbjct: 121 PVLEEMIEQNMPLLVHGEVTDPSVDVFDREKVFIDTVLQPLIERLPLLKVVMEHITTADA 180

Query: 821 VNFIESCNEGTVAATVTPQHIILNRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGS 880
           V F+ESC EG VAATVTPQH++LNRNSLFQGGLQPHNYCLPVLKREIHR+ I+SAVTSGS
Sbjct: 181 VRFVESCKEGFVAATVTPQHLLLNRNSLFQGGLQPHNYCLPVLKREIHRQAIVSAVTSGS 240

Query: 881 KQYFLGTDSAPHERQRKESSCGCAGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDF 940
           +++FLGTDSAPHE++ KE SCGCAGIFN+PVALSLYAK+FEEAGALDKLEAFTSFNGPDF
Sbjct: 241 RRFFLGTDSAPHEKRNKECSCGCAGIFNAPVALSLYAKVFEEAGALDKLEAFTSFNGPDF 300

Query: 941 YGLPRNTSKIKLKKEPWKVPEHLSFPFGEIIPMSAGQTLDWKPSF 986
           YGLPRNTSKIKL+K PWKVP+  SF FGEI+PMSAGQTL+WKPSF
Sbjct: 301 YGLPRNTSKIKLRKTPWKVPDSYSFSFGEIVPMSAGQTLEWKPSF 345
[Close]
BLAST of Spo17682.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QV58_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_137810 PE=3 SV=1)

HSP 1 Score: 764.2 bits (1972), Expect = 1.900e-217
Identity = 377/377 (100.00%), Postives = 377/377 (100.00%), Query Frame = 1 

		  

Query: 609 MINTSILSYNASNLPIPGIKRFNKINIINAVKMELTLTRPDDWHLHLRDGDLLAAVAPYS 668
           MINTSILSYNASNLPIPGIKRFNKINIINAVKMELTLTRPDDWHLHLRDGDLLAAVAPYS
Sbjct: 1   MINTSILSYNASNLPIPGIKRFNKINIINAVKMELTLTRPDDWHLHLRDGDLLAAVAPYS 60

Query: 669 ARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEVLPADSDFNPLMTLYLTDTTSPNEIKLA 728
           ARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEVLPADSDFNPLMTLYLTDTTSPNEIKLA
Sbjct: 61  ARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEVLPADSDFNPLMTLYLTDTTSPNEIKLA 120

Query: 729 RKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLPVLQEMAEQNMPLLVHGEVTDPDVDIFD 788
           RKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLPVLQEMAEQNMPLLVHGEVTDPDVDIFD
Sbjct: 121 RKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLPVLQEMAEQNMPLLVHGEVTDPDVDIFD 180

Query: 789 REKVFIETVLRPLIQKLPQLKVVMEHITTADAVNFIESCNEGTVAATVTPQHIILNRNSL 848
           REKVFIETVLRPLIQKLPQLKVVMEHITTADAVNFIESCNEGTVAATVTPQHIILNRNSL
Sbjct: 181 REKVFIETVLRPLIQKLPQLKVVMEHITTADAVNFIESCNEGTVAATVTPQHIILNRNSL 240

Query: 849 FQGGLQPHNYCLPVLKREIHRKTILSAVTSGSKQYFLGTDSAPHERQRKESSCGCAGIFN 908
           FQGGLQPHNYCLPVLKREIHRKTILSAVTSGSKQYFLGTDSAPHERQRKESSCGCAGIFN
Sbjct: 241 FQGGLQPHNYCLPVLKREIHRKTILSAVTSGSKQYFLGTDSAPHERQRKESSCGCAGIFN 300

Query: 909 SPVALSLYAKIFEEAGALDKLEAFTSFNGPDFYGLPRNTSKIKLKKEPWKVPEHLSFPFG 968
           SPVALSLYAKIFEEAGALDKLEAFTSFNGPDFYGLPRNTSKIKLKKEPWKVPEHLSFPFG
Sbjct: 301 SPVALSLYAKIFEEAGALDKLEAFTSFNGPDFYGLPRNTSKIKLKKEPWKVPEHLSFPFG 360

Query: 969 EIIPMSAGQTLDWKPSF 986
           EIIPMSAGQTLDWKPSF
Sbjct: 361 EIIPMSAGQTLDWKPSF 377
[Close]
BLAST of Spo17682.1 vs. UniProtKB/TrEMBL
Match: A0A0J8FG47_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_3g065270 PE=3 SV=1)

HSP 1 Score: 655.6 bits (1690), Expect = 9.600e-185
Identity = 318/345 (92.17%), Postives = 332/345 (96.23%), Query Frame = 1 

		  

Query: 641 MELTLTRPDDWHLHLRDGDLLAAVAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIME 700
           MELTLTRPDDWHLHLRDGDLLAAVAP+SARHFGRAIVMPNLRPPVTTT AAIAYR+SIME
Sbjct: 1   MELTLTRPDDWHLHLRDGDLLAAVAPHSARHFGRAIVMPNLRPPVTTTGAAIAYRKSIME 60

Query: 701 VLPADSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL 760
           VLP DSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL
Sbjct: 61  VLPDDSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL 120

Query: 761 PVLQEMAEQNMPLLVHGEVTDPDVDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADA 820
           PVL+EMAEQ+MPLLVHGEVTDPDVDIFDREKVFIE+VLRPLIQKLPQLKVVMEHITTADA
Sbjct: 121 PVLEEMAEQDMPLLVHGEVTDPDVDIFDREKVFIESVLRPLIQKLPQLKVVMEHITTADA 180

Query: 821 VNFIESCNEGTVAATVTPQHIILNRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGS 880
           V FIESCN G VAATVTPQH++LNRNSLFQGGLQPHNYCLPVLKREIHR+ ++SAVTSGS
Sbjct: 181 VKFIESCNGGNVAATVTPQHLVLNRNSLFQGGLQPHNYCLPVLKREIHRQALVSAVTSGS 240

Query: 881 KQYFLGTDSAPHERQRKESSCGCAGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDF 940
           KQYFLGTDSAPHER+RKE SCGCAGI+NSPVALSLYAK+FEEAGALDKLEAFTSFNGPDF
Sbjct: 241 KQYFLGTDSAPHERRRKECSCGCAGIYNSPVALSLYAKVFEEAGALDKLEAFTSFNGPDF 300

Query: 941 YGLPRNTSKIKLKKEPWKVPEHLSFPFGEIIPMSAGQTLDWKPSF 986
           YGLPRNTSKIKLKKEPWKV E + FP GEIIPM AGQ LDWKPSF
Sbjct: 301 YGLPRNTSKIKLKKEPWKVLERIPFPSGEIIPMFAGQMLDWKPSF 345
[Close]
BLAST of Spo17682.1 vs. UniProtKB/TrEMBL
Match: Q8VXS9_BETVU (Dihydroorotase OS=Beta vulgaris GN=dhoase PE=2 SV=1)

HSP 1 Score: 655.6 bits (1690), Expect = 9.600e-185
Identity = 318/345 (92.17%), Postives = 332/345 (96.23%), Query Frame = 1 

		  

Query: 641 MELTLTRPDDWHLHLRDGDLLAAVAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIME 700
           MELTLTRPDDWHLHLRDGDLLAAVAP+SARHFGRAIVMPNLRPPVTTT AAIAYR+SIME
Sbjct: 1   MELTLTRPDDWHLHLRDGDLLAAVAPHSARHFGRAIVMPNLRPPVTTTGAAIAYRKSIME 60

Query: 701 VLPADSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL 760
           VLP DSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL
Sbjct: 61  VLPDDSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL 120

Query: 761 PVLQEMAEQNMPLLVHGEVTDPDVDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADA 820
           PVL+EMAEQ+MPLLVHGEVTDPDVDIFDREKVFIE+VLRPLIQKLPQLKVVMEHITTADA
Sbjct: 121 PVLEEMAEQDMPLLVHGEVTDPDVDIFDREKVFIESVLRPLIQKLPQLKVVMEHITTADA 180

Query: 821 VNFIESCNEGTVAATVTPQHIILNRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGS 880
           V FIESCN G VAATVTPQH++LNRNSLFQGGLQPHNYCLPVLKREIHR+ ++SAVTSGS
Sbjct: 181 VKFIESCNGGNVAATVTPQHLVLNRNSLFQGGLQPHNYCLPVLKREIHRQALVSAVTSGS 240

Query: 881 KQYFLGTDSAPHERQRKESSCGCAGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDF 940
           KQYFLGTDSAPHER+RKE SCGCAGI+NSPVALSLYAK+FEEAGALDKLEAFTSFNGPDF
Sbjct: 241 KQYFLGTDSAPHERRRKECSCGCAGIYNSPVALSLYAKVFEEAGALDKLEAFTSFNGPDF 300

Query: 941 YGLPRNTSKIKLKKEPWKVPEHLSFPFGEIIPMSAGQTLDWKPSF 986
           YGLPRNTSKIKLKKEPWKV E + FP GEIIPM AGQ LDWKPSF
Sbjct: 301 YGLPRNTSKIKLKKEPWKVLERIPFPSGEIIPMFAGQMLDWKPSF 345
[Close]
BLAST of Spo17682.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QCQ5_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_193990 PE=3 SV=1)

HSP 1 Score: 629.4 bits (1622), Expect = 7.300e-177
Identity = 305/344 (88.66%), Postives = 326/344 (94.77%), Query Frame = 1 

		  

Query: 641 MELTLTRPDDWHLHLRDGDLLAAVAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIME 700
           MELTLTRPDDWHLHLRDG+LLAAVAP+SARHFGRAIVMPNLRPPVTTTAAAIAYRESI++
Sbjct: 1   MELTLTRPDDWHLHLRDGNLLAAVAPFSARHFGRAIVMPNLRPPVTTTAAAIAYRESILK 60

Query: 701 VLPADSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL 760
           V+P+ S F PLMTLYLTDTTSPNEIKLAR+S VVYAVKLYPAGATTNSQDGVTDL GKCL
Sbjct: 61  VMPSGSQFVPLMTLYLTDTTSPNEIKLARESGVVYAVKLYPAGATTNSQDGVTDLFGKCL 120

Query: 761 PVLQEMAEQNMPLLVHGEVTDPDVDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADA 820
           PVLQEMAEQNMPLLVHGEVTDP VDIFDREKVFIETVL PL+QKLPQLKVVMEHITTADA
Sbjct: 121 PVLQEMAEQNMPLLVHGEVTDPAVDIFDREKVFIETVLGPLVQKLPQLKVVMEHITTADA 180

Query: 821 VNFIESCNEGTVAATVTPQHIILNRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGS 880
           V FI+SC+EGTVAATVTPQH+ILNRNSLFQGGLQPHNYCLPVLKREIHR+ I+SAVTSGS
Sbjct: 181 VKFIDSCSEGTVAATVTPQHLILNRNSLFQGGLQPHNYCLPVLKREIHRQAIVSAVTSGS 240

Query: 881 KQYFLGTDSAPHERQRKESSCGCAGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDF 940
            +YFLGTDSAPHE+ +KE SCGCAGIFN+PVA+SLYAKIFEEA ALDKLEAFTSFNGPDF
Sbjct: 241 NKYFLGTDSAPHEKWKKECSCGCAGIFNAPVAISLYAKIFEEANALDKLEAFTSFNGPDF 300

Query: 941 YGLPRNTSKIKLKKEPWKVPEHLSFPFGEIIPMSAGQTLDWKPS 985
           YGLPRNTSKIKL KEPWKVPE +SFPFGEI+PM AGQ LDW+ S
Sbjct: 301 YGLPRNTSKIKLIKEPWKVPECISFPFGEIVPMFAGQMLDWQTS 344
[Close]
BLAST of Spo17682.1 vs. UniProtKB/TrEMBL
Match: W9QNF3_9ROSA (Dihydroorotase OS=Morus notabilis GN=L484_010336 PE=3 SV=1)

HSP 1 Score: 617.5 bits (1591), Expect = 2.900e-173
Identity = 290/345 (84.06%), Postives = 321/345 (93.04%), Query Frame = 1 

		  

Query: 641 MELTLTRPDDWHLHLRDGDLLAAVAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIME 700
           MELT+TRPDDWHLHLRDGDLL AV P+S+ HFGR IVMPNL+PPVTTTAAA+AYRESI++
Sbjct: 1   MELTITRPDDWHLHLRDGDLLKAVIPHSSNHFGRGIVMPNLKPPVTTTAAAVAYRESILK 60

Query: 701 VLPADSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCL 760
            LPA SDF PLMTLYLTDTTSPNEIKLARKS  ++ VKLYPAGATTNSQDGVTDL GKCL
Sbjct: 61  ALPAGSDFTPLMTLYLTDTTSPNEIKLARKSGAIFGVKLYPAGATTNSQDGVTDLFGKCL 120

Query: 761 PVLQEMAEQNMPLLVHGEVTDPDVDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADA 820
           PVL+EM EQNMPLLVHGEVTDP VD+FDREKVFI+TVL+PLI++LP LKVVMEHITTADA
Sbjct: 121 PVLEEMIEQNMPLLVHGEVTDPSVDVFDREKVFIDTVLQPLIERLPLLKVVMEHITTADA 180

Query: 821 VNFIESCNEGTVAATVTPQHIILNRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGS 880
           V F+ESC EG VAATVTPQH++LNRNSLFQGGLQPHNYCLPVLKREIHR+ I+SAVTSGS
Sbjct: 181 VRFVESCKEGFVAATVTPQHLLLNRNSLFQGGLQPHNYCLPVLKREIHRQAIVSAVTSGS 240

Query: 881 KQYFLGTDSAPHERQRKESSCGCAGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDF 940
           +++FLGTDSAPHE++ KE SCGCAGIFN+PVALSLYAK+FEEAGALDKLEAFTSFNGPDF
Sbjct: 241 RRFFLGTDSAPHEKRNKECSCGCAGIFNAPVALSLYAKVFEEAGALDKLEAFTSFNGPDF 300

Query: 941 YGLPRNTSKIKLKKEPWKVPEHLSFPFGEIIPMSAGQTLDWKPSF 986
           YGLPRNTSKIKL+K PWKVP+  SF FGEI+PMSAGQTL+WKPSF
Sbjct: 301 YGLPRNTSKIKLRKTPWKVPDSYSFSFGEIVPMSAGQTLEWKPSF 345
[Close]
BLAST of Spo17682.1 vs. ExPASy Swiss-Prot
Match: PYRC_ARATH (Dihydroorotase, mitochondrial OS=Arabidopsis thaliana GN=PYR4 PE=1 SV=1)

HSP 1 Score: 595.5 bits (1534), Expect = 1.100e-168
Identity = 282/375 (75.20%), Postives = 328/375 (87.47%), Query Frame = 1 

		  

Query: 609 MINTSILSYNASNLPIPGIKRFNKINIINAVKMELTLTRPDDWHLHLRDGDLLAAVAPYS 668
           MI T +  Y+          R ++     AV+MELT+T+PDDWHLHLRDGDLL AV P+S
Sbjct: 1   MIKTLVSPYSGFGSQKLKFDRSSEKVKTRAVRMELTITQPDDWHLHLRDGDLLHAVVPHS 60

Query: 669 ARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEVLPADSDFNPLMTLYLTDTTSPNEIKLA 728
           A +F RAIVMPNL+PPVT+TAAAI YR+ IM+ LP++S F+PLMTLYLTD T P EI+LA
Sbjct: 61  ASNFKRAIVMPNLKPPVTSTAAAIIYRKFIMKALPSESSFDPLMTLYLTDKTLPEEIRLA 120

Query: 729 RKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLPVLQEMAEQNMPLLVHGEVTDPDVDIFD 788
           R+S VVYAVKLYPAGATTNSQDGVTDL GKCLPVL+EM +QNMPLLVHGEVTDP +D+FD
Sbjct: 121 RESGVVYAVKLYPAGATTNSQDGVTDLFGKCLPVLEEMVKQNMPLLVHGEVTDPSIDVFD 180

Query: 789 REKVFIETVLRPLIQKLPQLKVVMEHITTADAVNFIESCNEGTVAATVTPQHIILNRNSL 848
           REK+FIETVL+PLIQ+LPQLKVVMEHITT DAVNF+ESC EG+V ATVTPQH++LNRN+L
Sbjct: 181 REKIFIETVLQPLIQRLPQLKVVMEHITTMDAVNFVESCKEGSVGATVTPQHLLLNRNAL 240

Query: 849 FQGGLQPHNYCLPVLKREIHRKTILSAVTSGSKQYFLGTDSAPHERQRKESSCGCAGIFN 908
           FQGGLQPHNYCLPVLKREIHR+ I+ AVTSGSK++FLGTDSAPHER RKESSCGCAGI++
Sbjct: 241 FQGGLQPHNYCLPVLKREIHREAIVKAVTSGSKKFFLGTDSAPHERSRKESSCGCAGIYS 300

Query: 909 SPVALSLYAKIFEEAGALDKLEAFTSFNGPDFYGLPRNTSKIKLKKEPWKVPEHLSFPFG 968
           +P+ALSLYAK+F+EAGALDKLEAFTSFNGPDFYGLPRN+SKI LKK PWKVP+  +FPFG
Sbjct: 301 APIALSLYAKVFDEAGALDKLEAFTSFNGPDFYGLPRNSSKITLKKSPWKVPDVFNFPFG 360

Query: 969 EIIPMSAGQTLDWKP 984
           EI+PM AG+TL W+P
Sbjct: 361 EIVPMFAGETLQWQP 375
[Close]
BLAST of Spo17682.1 vs. ExPASy Swiss-Prot
Match: PYRC_ORYSJ (Dihydroorotase, mitochondrial OS=Oryza sativa subsp. japonica GN=PYRC PE=2 SV=1)

HSP 1 Score: 572.8 bits (1475), Expect = 7.300e-162
Identity = 269/343 (78.43%), Postives = 305/343 (88.92%), Query Frame = 1 

		  

Query: 642 ELTLTRPDDWHLHLRDGDLLAAVAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEV 701
           ELT+TRPDDWHLHLR+GD+LAAV P+SA HFGRAIVMPNL+PPVTTTA A+ YRE I+  
Sbjct: 59  ELTITRPDDWHLHLREGDVLAAVLPHSAMHFGRAIVMPNLKPPVTTTARALEYREEILRA 118

Query: 702 LPADSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLP 761
           LP  S+F PLMTLYLTD TSP EIKLA+KS VV+AVKLYP+GATTNSQDGVTD+ GKCLP
Sbjct: 119 LPPGSNFVPLMTLYLTDNTSPEEIKLAKKSGVVFAVKLYPSGATTNSQDGVTDIFGKCLP 178

Query: 762 VLQEMAEQNMPLLVHGEVTDPDVDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADAV 821
           VL+EMA Q MPLLVHGEVTD  VD FDREKVFIE +L PL+Q+LPQLK+VMEHITT DAV
Sbjct: 179 VLEEMARQEMPLLVHGEVTDQHVDTFDREKVFIEKILAPLVQRLPQLKIVMEHITTMDAV 238

Query: 822 NFIESCNEGTVAATVTPQHIILNRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGSK 881
           NF+ESC EG VAATVTPQH++LNRN+LFQGGLQPHNYCLPVLKRE HR+ I+SAVTSGSK
Sbjct: 239 NFVESCKEGHVAATVTPQHLLLNRNALFQGGLQPHNYCLPVLKRETHRQAIVSAVTSGSK 298

Query: 882 QYFLGTDSAPHERQRKESSCGCAGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDFY 941
           QYFLGTDSAPH+++RKE SCGCAGI+++PVALSLYAK+FE+AGALDKLEAFTSFNGPDFY
Sbjct: 299 QYFLGTDSAPHDKRRKECSCGCAGIYSAPVALSLYAKVFEQAGALDKLEAFTSFNGPDFY 358

Query: 942 GLPRNTSKIKLKKEPWKVPEHLSFPFGEIIPMSAGQTLDWKPS 985
           GLPRNTSKI L+K  WKVP+  S+  GEI+PM  G TL+W PS
Sbjct: 359 GLPRNTSKIVLRKSAWKVPDTYSYSSGEIVPMFTGNTLEWLPS 401
[Close]
BLAST of Spo17682.1 vs. ExPASy Swiss-Prot
Match: PYRC_LARHH (Dihydroorotase OS=Laribacter hongkongensis (strain HLHK9) GN=pyrC PE=3 SV=1)

HSP 1 Score: 451.4 bits (1160), Expect = 2.500e-125
Identity = 221/341 (64.81%), Postives = 262/341 (76.83%), Query Frame = 1 

		  

Query: 643 LTLTRPDDWHLHLRDGDLLAAVAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEVL 702
           LTLTRPDDWHLHLRDG+ LAAVA YSAR F RAIVMPNL+PPVTT   A AYRE I+  L
Sbjct: 4   LTLTRPDDWHLHLRDGEALAAVAAYSAREFARAIVMPNLKPPVTTVVQAAAYRERILAAL 63

Query: 703 PADSD-FNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLP 762
           P     F PLMTLYLTD T P EI    +S  V+A+KLYPAGATTNS  GVT L G CLP
Sbjct: 64  PPGGPAFEPLMTLYLTDNTPPAEIDRVAESGFVHALKLYPAGATTNSDAGVTSLSG-CLP 123

Query: 763 VLQEMAEQNMPLLVHGEVTDPDVDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADAV 822
            L  MAE  +PLLVHGEVTDP +D+FDRE VFI+TVL+PL+ +LP L+VVMEHITT  A 
Sbjct: 124 TLTRMAELGVPLLVHGEVTDPQIDVFDREAVFIDTVLQPLLAELPTLRVVMEHITTRQAA 183

Query: 823 NFIESCNEGTVAATVTPQHIILNRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGSK 882
            F+ +  +  +AATVTPQH+++NRN+LF GGL+PH+YCLPVLKRE HR  I  AVTSGS 
Sbjct: 184 EFVLAAPDN-IAATVTPQHMLMNRNALFTGGLRPHHYCLPVLKREEHRAAIARAVTSGST 243

Query: 883 QYFLGTDSAPHERQRKESSCGCAGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDFY 942
           ++FLGTDSAPH R  KE++CGCAGIF++  AL LYA+ FE+AGALD+LEAF SFNGPDFY
Sbjct: 244 RFFLGTDSAPHARHAKEAACGCAGIFSAHAALPLYAEAFEDAGALDRLEAFASFNGPDFY 303

Query: 943 GLPRNTSKIKLKKEPWKVPEHLSFPFGEIIPMSAGQTLDWK 983
            LPRNT  + LK+E W VP  L +    ++P+ AG+TL W+
Sbjct: 304 RLPRNTGTVTLKREEWTVPASLPYGNDTLVPLRAGETLRWQ 342
[Close]
BLAST of Spo17682.1 vs. ExPASy Swiss-Prot
Match: PYRC_SYNP2 (Dihydroorotase OS=Synechococcus sp. (strain ATCC 27264 / PCC 7002 / PR-6) GN=pyrC PE=3 SV=1)

HSP 1 Score: 441.4 bits (1134), Expect = 2.500e-122
Identity = 212/341 (62.17%), Postives = 259/341 (75.95%), Query Frame = 1 

		  

Query: 642 ELTLTRPDDWHLHLRDGDLLAAVAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEV 701
           ++TLTRPDDWHLHLRDG+ L AV P + R F RAIVMPNL+PPV T A A AY + I+  
Sbjct: 3   KITLTRPDDWHLHLRDGEALKAVLPDTVRQFARAIVMPNLKPPVRTVAEAAAYHDRILAA 62

Query: 702 LPADSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLP 761
           +P    F PLMTLYLTD TSP EI+ A++S  V AVK YPAGATTNS  GVTD+  KC  
Sbjct: 63  IPPGRTFEPLMTLYLTDNTSPAEIQAAKESGFVKAVKYYPAGATTNSDLGVTDIR-KCDA 122

Query: 762 VLQEMAEQNMPLLVHGEVTDPDVDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADAV 821
           V + M   ++PLL+HGEVTD  VD+FDREKVFIET LRPL ++ PQL++V+EHITT DAV
Sbjct: 123 VFEAMQTVDLPLLLHGEVTDHRVDVFDREKVFIETYLRPLKERFPQLRIVLEHITTKDAV 182

Query: 822 NFIESCNEGTVAATVTPQHIILNRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGSK 881
            F+ + +E  VAAT+TPQH++ NRNS+FQGG++PH YCLP+LKRE HR+ +L A TSG+ 
Sbjct: 183 EFVLASDE-KVAATITPQHLLFNRNSIFQGGIRPHFYCLPILKRETHREALLEAATSGNP 242

Query: 882 QYFLGTDSAPHERQRKESSCGCAGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDFY 941
           ++FLGTDSAPH R RKES CGCAG +++  AL LYA +FE A ALDKLE F SF GPDFY
Sbjct: 243 KFFLGTDSAPHGRDRKESDCGCAGCYSALHALELYATVFEAADALDKLEGFASFYGPDFY 302

Query: 942 GLPRNTSKIKLKKEPWKVPEHLSFPFGEIIPMSAGQTLDWK 983
            LPRNT KI L K PW++P+ L FP   ++P+ AGQ L WK
Sbjct: 303 QLPRNTEKITLTKTPWQIPDALPFPESSLVPLWAGQELSWK 341
[Close]
BLAST of Spo17682.1 vs. ExPASy Swiss-Prot
Match: PYRC_NITOC (Dihydroorotase OS=Nitrosococcus oceani (strain ATCC 19707 / NCIMB 11848) GN=pyrC PE=3 SV=1)

HSP 1 Score: 434.5 bits (1116), Expect = 3.100e-120
Identity = 206/340 (60.59%), Postives = 258/340 (75.88%), Query Frame = 1 

		  

Query: 643 LTLTRPDDWHLHLRDGDLLAAVAPYSARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEVL 702
           L LTRPDDWHLHLRDG +L  + P + R F RAI+MPNLRPP+TTT  A+AYR+ I+   
Sbjct: 5   LQLTRPDDWHLHLRDGKMLTDIVPATGRRFARAIIMPNLRPPITTTTQALAYRKRILAAQ 64

Query: 703 PADSDFNPLMTLYLTDTTSPNEIKLARKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLPV 762
           P + DF PLMTLYLTD T P EI  AR S  +YAVKLYPAGATTN+  GVT  L K  PV
Sbjct: 65  PKNLDFEPLMTLYLTDNTIPEEITRARDSGHIYAVKLYPAGATTNADFGVT-CLHKLYPV 124

Query: 763 LQEMAEQNMPLLVHGEVTDPDVDIFDREKVFIETVLRPLIQKLPQLKVVMEHITTADAVN 822
           L+ + +Q +PLL+HGEVTDP VDIFDRE+VFIE+ L PL+   P L+VV+EHITT +AV+
Sbjct: 125 LEALQQQQLPLLIHGEVTDPAVDIFDRERVFIESHLIPLLHDFPALRVVLEHITTQEAVD 184

Query: 823 FIESCNEGTVAATVTPQHIILNRNSLFQGGLQPHNYCLPVLKREIHRKTILSAVTSGSKQ 882
           FIE+     +AAT+TP H++ NRN+L  GG+QPH YCLPVLKREIHR+ +++A TSG+ +
Sbjct: 185 FIEAAPPN-IAATITPHHLLFNRNALLAGGIQPHYYCLPVLKREIHRQALVAAATSGNPK 244

Query: 883 YFLGTDSAPHERQRKESSCGCAGIFNSPVALSLYAKIFEEAGALDKLEAFTSFNGPDFYG 942
           +FLGTDSAPH +  KE++CGCAGI++S  AL LYA+ FEEA AL+KLEAF SF+GPDFYG
Sbjct: 245 FFLGTDSAPHAKTAKETACGCAGIYSSHAALELYAEAFEEASALEKLEAFASFHGPDFYG 304

Query: 943 LPRNTSKIKLKKEPWKVPEHLSFPFGEIIPMSAGQTLDWK 983
           LPRN   + L K PW+VPE L +    +IP+  G T+ W+
Sbjct: 305 LPRNQDTVTLIKTPWQVPESLPYGDDALIPLRGGTTVAWR 342
[Close]
BLAST of Spo17682.1 vs. TAIR (Arabidopsis)
Match: AT4G22930.1 (pyrimidin 4)

HSP 1 Score: 595.5 bits (1534), Expect = 5.900e-170
Identity = 282/375 (75.20%), Postives = 328/375 (87.47%), Query Frame = 1 

		  

Query: 609 MINTSILSYNASNLPIPGIKRFNKINIINAVKMELTLTRPDDWHLHLRDGDLLAAVAPYS 668
           MI T +  Y+          R ++     AV+MELT+T+PDDWHLHLRDGDLL AV P+S
Sbjct: 1   MIKTLVSPYSGFGSQKLKFDRSSEKVKTRAVRMELTITQPDDWHLHLRDGDLLHAVVPHS 60

Query: 669 ARHFGRAIVMPNLRPPVTTTAAAIAYRESIMEVLPADSDFNPLMTLYLTDTTSPNEIKLA 728
           A +F RAIVMPNL+PPVT+TAAAI YR+ IM+ LP++S F+PLMTLYLTD T P EI+LA
Sbjct: 61  ASNFKRAIVMPNLKPPVTSTAAAIIYRKFIMKALPSESSFDPLMTLYLTDKTLPEEIRLA 120

Query: 729 RKSEVVYAVKLYPAGATTNSQDGVTDLLGKCLPVLQEMAEQNMPLLVHGEVTDPDVDIFD 788
           R+S VVYAVKLYPAGATTNSQDGVTDL GKCLPVL+EM +QNMPLLVHGEVTDP +D+FD
Sbjct: 121 RESGVVYAVKLYPAGATTNSQDGVTDLFGKCLPVLEEMVKQNMPLLVHGEVTDPSIDVFD 180

Query: 789 REKVFIETVLRPLIQKLPQLKVVMEHITTADAVNFIESCNEGTVAATVTPQHIILNRNSL 848
           REK+FIETVL+PLIQ+LPQLKVVMEHITT DAVNF+ESC EG+V ATVTPQH++LNRN+L
Sbjct: 181 REKIFIETVLQPLIQRLPQLKVVMEHITTMDAVNFVESCKEGSVGATVTPQHLLLNRNAL 240

Query: 849 FQGGLQPHNYCLPVLKREIHRKTILSAVTSGSKQYFLGTDSAPHERQRKESSCGCAGIFN 908
           FQGGLQPHNYCLPVLKREIHR+ I+ AVTSGSK++FLGTDSAPHER RKESSCGCAGI++
Sbjct: 241 FQGGLQPHNYCLPVLKREIHREAIVKAVTSGSKKFFLGTDSAPHERSRKESSCGCAGIYS 300

Query: 909 SPVALSLYAKIFEEAGALDKLEAFTSFNGPDFYGLPRNTSKIKLKKEPWKVPEHLSFPFG 968
           +P+ALSLYAK+F+EAGALDKLEAFTSFNGPDFYGLPRN+SKI LKK PWKVP+  +FPFG
Sbjct: 301 APIALSLYAKVFDEAGALDKLEAFTSFNGPDFYGLPRNSSKITLKKSPWKVPDVFNFPFG 360

Query: 969 EIIPMSAGQTLDWKP 984
           EI+PM AG+TL W+P
Sbjct: 361 EIVPMFAGETLQWQP 375
[Close]
BLAST of Spo17682.1 vs. TAIR (Arabidopsis)
Match: AT4G01970.1 (stachyose synthase)

HSP 1 Score: 301.2 bits (770), Expect = 2.300e-81
Identity = 136/199 (68.34%), Postives = 167/199 (83.92%), Query Frame = 1 

		  

Query: 343 LEEKIQVLKHELDELMEAGTMDDLAVDKLVEGGIGLVHPDQAGEFYDSMHSYLSSVGITG 402
           ++ K +V   EL   + A TM DLAVDK+VE GIGLVHP +A EFYDSMHSYL+SVG+TG
Sbjct: 435 MDLKAKVAPFELSPSLGA-TMADLAVDKVVEAGIGLVHPSKAHEFYDSMHSYLASVGVTG 494

Query: 403 VKVDVIQTLEYVSEQFGGRVELAKKYYDGLSKSLEKNFKGTNLLSSMEQCNDFLLLGTKQ 462
            K+DV QTLE ++E+ GGRVELAK YYDGL++S+ KNF GT++++SM+QCN+F  L TKQ
Sbjct: 495 AKIDVFQTLESLAEEHGGRVELAKAYYDGLTESMIKNFNGTDVIASMQQCNEFFFLATKQ 554

Query: 463 ISMGRVGDDFWFQDPNGDPNGVFWLQGVHMIHCSYNSLWMGQIVHPDWDMFQSDHVCAKF 522
           IS+GRVGDDFW+QDP GDP GV+WLQGVHMIHCSYNS+WMGQ++ PDWDMFQSDHVCA++
Sbjct: 555 ISIGRVGDDFWWQDPYGDPQGVYWLQGVHMIHCSYNSIWMGQMIQPDWDMFQSDHVCAEY 614

Query: 523 HAGSRAICGGPIYYGAVIG 542
           HA SRAICGGP+Y    +G
Sbjct: 615 HAASRAICGGPVYLSDHLG 632
[Close]
BLAST of Spo17682.1 vs. TAIR (Arabidopsis)
Match: AT5G40390.1 (Raffinose synthase family protein)

HSP 1 Score: 261.2 bits (666), Expect = 2.700e-69
Identity = 112/180 (62.22%), Postives = 140/180 (77.78%), Query Frame = 1 

		  

Query: 362 TMDDLAVDKLVEGGIGLVHPDQAGEFYDSMHSYLSSVGITGVKVDVIQTLEYVSEQFGGR 421
           TM+DLAVDK++E GIG   PD A EFY+ +HS+L + GI GVKVDVI  LE + +++GGR
Sbjct: 369 TMEDLAVDKIIETGIGFASPDLAKEFYEGLHSHLQNAGIDGVKVDVIHILEMLCQKYGGR 428

Query: 422 VELAKKYYDGLSKSLEKNFKGTNLLSSMEQCNDFLLLGTKQISMGRVGDDFWFQDPNGDP 481
           V+LAK Y+  L+ S+ K+F G  +++SME CNDF+ LGT+ IS+GRVGDDFW  DP+GDP
Sbjct: 429 VDLAKAYFKALTSSVNKHFNGNGVIASMEHCNDFMFLGTEAISLGRVGDDFWCTDPSGDP 488

Query: 482 NGVFWLQGVHMIHCSYNSLWMGQIVHPDWDMFQSDHVCAKFHAGSRAICGGPIYYGAVIG 541
           NG FWLQG HM+HC+YNSLWMG  + PDWDMFQS H CA+FHA SRAI GGPIY    +G
Sbjct: 489 NGTFWLQGCHMVHCAYNSLWMGNFIQPDWDMFQSTHPCAEFHAASRAISGGPIYISDCVG 548
[Close]
BLAST of Spo17682.1 vs. TAIR (Arabidopsis)
Match: AT1G55740.1 (seed imbibition 1)

HSP 1 Score: 141.4 bits (355), Expect = 3.100e-33
Identity = 68/168 (40.48%), Postives = 103/168 (61.31%), Query Frame = 1 

		  

Query: 368 VDKLVEGGIGLVHPDQAGEFYDSMHSYLSSVGITGVKVDVIQTLEYVSEQFGGRVELAKK 427
           ++ + + G+GLV+P++   FY+ +HSYL+SVG+ GVKVDV   LE +    GGRV+LAKK
Sbjct: 351 LESITKNGLGLVNPEKVFSFYNDLHSYLASVGVDGVKVDVQNILETLGAGHGGRVKLAKK 410

Query: 428 YYDGLSKSLEKNFKGTNLLSSMEQCNDFLLLGTKQISMGRVGDDFWFQDPNGDPNGVFWL 487
           Y+  L  S+ +NF    ++S M    D  L   K+ ++ R  DDFW +DP          
Sbjct: 411 YHQALEASISRNFPDNGIISCMSHNTDG-LYSAKKTAVIRASDDFWPRDPAS-------- 470

Query: 488 QGVHMIHCSYNSLWMGQIVHPDWDMFQSDHVCAKFHAGSRAICGGPIY 536
             +H+   +YN+L++G+ + PDWDMF S H  A++HA +RA+ G  IY
Sbjct: 471 HTIHIASVAYNTLFLGEFMQPDWDMFHSLHPMAEYHAAARAVGGCAIY 509
[Close]
BLAST of Spo17682.1 vs. TAIR (Arabidopsis)
Match: AT3G57520.1 (seed imbibition 2)

HSP 1 Score: 135.2 bits (339), Expect = 2.200e-31
Identity = 75/210 (35.71%), Postives = 109/210 (51.90%), Query Frame = 1 

		  

Query: 335 GLEADFSSLEEKIQVLKHELDELMEAGTMDDLAVDKLVEGGIGLVHPDQAGEFYDSMHSY 394
           G++   S +E     L + +      G   D+ +D L   G+GLV+P +   FY+ +HSY
Sbjct: 314 GVKPAASGMEHYDSALAYPVQSPGVLGNQPDIVMDSLAVHGLGLVNPKKVFNFYNELHSY 373

Query: 395 LSSVGITGVKVDVIQTLEYVSEQFGGRVELAKKYYDGLSKSLEKNFKGTNLLSSMEQCND 454
           L+S GI GVKVDV   +E +    GGRV L + Y   L  S+ +NF     +S M    D
Sbjct: 374 LASCGIDGVKVDVQNIIETLGAGLGGRVSLTRSYQQALEASIARNFTDNGCISCMCHNTD 433

Query: 455 FLLLGTKQISMGRVGDDFWFQDPNGDPNGVFWLQGVHMIHCSYNSLWMGQIVHPDWDMFQ 514
             L   KQ ++ R  DDF+ +DP            +H+   +YNSL++G+ + PDWDMF 
Sbjct: 434 G-LYSAKQTAIVRASDDFYPRDPAS--------HTIHIASVAYNSLFLGEFMQPDWDMFH 493

Query: 515 SDHVCAKFHAGSRAICGGPIYYGAVIGAFN 545
           S H  A++HA +RA+ G  IY     G  N
Sbjct: 494 SLHPTAEYHAAARAVGGCAIYVSDKPGNHN 514
The following BLAST results are available for this feature:
BLAST of Spo17682.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902188463|gb|KNA11157.1|2.7e-217100.hypothetical protein SOVF_1378... [more]
gi|731325160|ref|XP_010673365.1|1.4e-18492.1PREDICTED: dihydroorotase, mit... [more]
gi|902146310|gb|KNA05052.1|1.1e-17688.6hypothetical protein SOVF_1939... [more]
gi|731408785|ref|XP_010656978.1|2.4e-17377.9PREDICTED: dihydroorotase, mit... [more]
gi|703080712|ref|XP_010091494.1|4.1e-17384.0Dihydroorotase [Morus notabili... [more]
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BLAST of Spo17682.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9QV58_SPIOL1.9e-217100.Uncharacterized protein OS=Spi... [more]
A0A0J8FG47_BETVU9.6e-18592.1Uncharacterized protein OS=Bet... [more]
Q8VXS9_BETVU9.6e-18592.1Dihydroorotase OS=Beta vulgari... [more]
A0A0K9QCQ5_SPIOL7.3e-17788.6Uncharacterized protein OS=Spi... [more]
W9QNF3_9ROSA2.9e-17384.0Dihydroorotase OS=Morus notabi... [more]
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BLAST of Spo17682.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 5
Match NameE-valueIdentityDescription
PYRC_ARATH1.1e-16875.2Dihydroorotase, mitochondrial ... [more]
PYRC_ORYSJ7.3e-16278.4Dihydroorotase, mitochondrial ... [more]
PYRC_LARHH2.5e-12564.8Dihydroorotase OS=Laribacter h... [more]
PYRC_SYNP22.5e-12262.1Dihydroorotase OS=Synechococcu... [more]
PYRC_NITOC3.1e-12060.5Dihydroorotase OS=Nitrosococcu... [more]
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BLAST of Spo17682.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 5
Match NameE-valueIdentityDescription
AT4G22930.15.9e-17075.2pyrimidin 4[more]
AT4G01970.12.3e-8168.3stachyose synthase[more]
AT5G40390.12.7e-6962.2Raffinose synthase family prot... [more]
AT1G55740.13.1e-3340.4seed imbibition 1[more]
AT3G57520.12.2e-3135.7seed imbibition 2[more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR002195Dihydroorotase, conserved sitePROSITEPS00482DIHYDROOROTASE_1coord: 650..658
scor
IPR002195Dihydroorotase, conserved sitePROSITEPS00483DIHYDROOROTASE_2coord: 886..897
scor
IPR004721Dihydroorotase homodimeric typeHAMAPMF_00219PyrC_type1coord: 641..984
score: 46
IPR004721Dihydroorotase homodimeric typeTIGRFAMsTIGR00856TIGR00856coord: 642..982
score: 5.7E
IPR006680Amidohydrolase-relatedPFAMPF01979Amidohydro_1coord: 650..959
score: 5.8
IPR008811Glycosyl hydrolases 36PFAMPF05691Raffinose_syncoord: 536..584
score: 5.4E-14coord: 52..145
score: 5.3E-31coord: 148..535
score: 2.0E
IPR013785Aldolase-type TIM barrelGENE3D3.20.20.70coord: 323..334
score: 1.7E-31coord: 375..541
score: 1.7E-31coord: 149..192
score: 1.7
IPR017853Glycoside hydrolase superfamilyunknownSSF51445(Trans)glycosidasescoord: 150..188
score: 2.34E-28coord: 376..544
score: 2.34
NoneNo IPR availableunknownCoilCoilcoord: 333..360
scor
NoneNo IPR availableGENE3D3.20.20.140coord: 641..982
score: 1.3E
NoneNo IPR availablePANTHERPTHR31268FAMILY NOT NAMEDcoord: 58..229
score: 1.0E-225coord: 317..583
score: 1.0E
NoneNo IPR availablePANTHERPTHR31268:SF8GALACTINOL--SUCROSE GALACTOSYLTRANSFERASE 4-RELATEDcoord: 58..229
score: 1.0E-225coord: 317..583
score: 1.0E

GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0019856 pyrimidine nucleobase biosynthetic process
biological_process GO:0044205 'de novo' UMP biosynthetic process
cellular_component GO:0009507 chloroplast
cellular_component GO:0005739 mitochondrion
molecular_function GO:0003824 catalytic activity
molecular_function GO:0004151 dihydroorotase activity
molecular_function GO:0016787 hydrolase activity
molecular_function GO:0016812 hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, in cyclic amides
molecular_function GO:0046872 metal ion binding