Spo16861 (gene)

Overview
NameSpo16861
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionEnoyl-CoA hydratase 2, peroxisomal protein
LocationSpoScf_00585 : 162637 .. 179415 (+)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

TTTCAGTTTTTCACCATTTCAAAATAGCAATCGCATAATCTCACTTCACTCATCTCGTAGAGGAAACCTCTCTTTTAGCTTTATCAATTTGGGTTTTCATCAATGGCGGATCATACTAATCTAGCGATCGATCCTGAGCTCGTCCTCGCTTACAAATTTCCCGAGACGACATATCAGTATTCTGAGAGAGACTCGGCTTTATATGCGCTTGGTGTCGGAGCATGTGGGACTAATGCAGTTGATGCCGATGAACTCAAGTATGTTTACCATAATGATGGTCAAGAATTCATCAAGTCATCAGAAGATTTTAACTTTTCCCCAATCGATTTGTATCTTTCCTGTATACTCTGGAAATACGGACACGCCAACCTAAAGCACAAGGCTCTCACCTTTGTGATCCTTTGTGATGATACGATAAGAAACACAGCAAAAGTTGCTGGGTTGCATGACAAAGGTAAAGCAGCTATCCTGGAAATAGAAATGACAAGTTTTGATGAGGAGTCCAAGGAACCACTTTGCATGAACAGGACCACAGTCTATTTGAGGGGTGCTGGTGGTTTTTCAAGGTCTTCACATCCCTATTCTTTCACAAATTATTCAGGGAGCCAGTTTCCAGCCATTAAACTCCCCAGAACTCAACCTTTTGCATCATTTGAGGATGTTACTCGACCATCTCAGGCATTGCTATACAGACTCTCTGGTGATTATAATCCGTTGCATTCCGATCCTGTGGTTGCAGAGACAGCAGGTTTCCCTCGTCCGATATTGCATGGACTCTGCAGTCTTGGGTTTGCAGTCAGGGCTGTTATTAAATGTATTTGCAAAGGGAATTCAGACATGGTCAAAAGCTTATCAGGTCGGTTTCTTTTACATGTCTTCCCTGGTGAAACTTTGATCACAGAAATGTGGCTAGAGGGTTTGAGGAATTCCATTAAAGCAGCATATGGGAATGGCATAACTGGAAAATTATAG

Coding sequence (CDS)

ATGGCGGATCATACTAATCTAGCGATCGATCCTGAGCTCGTCCTCGCTTACAAATTTCCCGAGACGACATATCAGTATTCTGAGAGAGACTCGGCTTTATATGCGCTTGGTGTCGGAGCATGTGGGACTAATGCAGTTGATGCCGATGAACTCAAGTATGTTTACCATAATGATGGTCAAGAATTCATCAAGTCATCAGAAGATTTTAACTTTTCCCCAATCGATTTGTATCTTTCCTGTATACTCTGGAAATACGGACACGCCAACCTAAAGCACAAGGCTCTCACCTTTGTGATCCTTTGTGATGATACGATAAGAAACACAGCAAAAGTTGCTGGGTTGCATGACAAAGGTAAAGCAGCTATCCTGGAAATAGAAATGACAAGTTTTGATGAGGAGTCCAAGGAACCACTTTGCATGAACAGGACCACAGTCTATTTGAGGGGTGCTGGTGGTTTTTCAAGGTCTTCACATCCCTATTCTTTCACAAATTATTCAGGGAGCCAGTTTCCAGCCATTAAACTCCCCAGAACTCAACCTTTTGCATCATTTGAGGATGTTACTCGACCATCTCAGGCATTGCTATACAGACTCTCTGGTGATTATAATCCGTTGCATTCCGATCCTGTGGTTGCAGAGACAGCAGGTTTCCCTCGTCCGATATTGCATGGACTCTGCAGTCTTGGGTTTGCAGTCAGGGCTGTTATTAAATGTATTTGCAAAGGGAATTCAGACATGGTCAAAAGCTTATCAGGTCGGTTTCTTTTACATGTCTTCCCTGGTGAAACTTTGATCACAGAAATGTGGCTAGAGGGTTTGAGGAATTCCATTAAAGCAGCATATGGGAATGGCATAACTGGAAAATTATAG

Protein sequence

MADHTNLAIDPELVLAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKSSEDFNFSPIDLYLSCILWKYGHANLKHKALTFVILCDDTIRNTAKVAGLHDKGKAAILEIEMTSFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPFASFEDVTRPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICKGNSDMVKSLSGRFLLHVFPGETLITEMWLEGLRNSIKAAYGNGITGKL
Relationships

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

Feature NameUnique NameType
Spo16861.1Spo16861.1mRNA


Homology
[Close]
BLAST of Spo16861.1 vs. NCBI nr
Match: gi|902234597|gb|KNA23507.1| (hypothetical protein SOVF_024050 [Spinacia oleracea])

HSP 1 Score: 426.0 bits (1094), Expect = 5.200e-116
Identity = 219/265 (82.64%), Postives = 226/265 (85.28%), Query Frame = 1 

		  

Query: 22  TTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKSSEDFN----------- 81
           TTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIK    F            
Sbjct: 272 TTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKVLPTFAAIFSLGSNRNL 331

Query: 82  FSPIDLYLSCILWKYGHANLK-HKALTFVILCDDTIRNTAKVAGLHDKGKAAILEIEMTS 141
           F+   +     L  +G   ++ +K L      +  IRNTAKVAGLHDKGKAAILEIEMTS
Sbjct: 332 FNIPGMEFDPRLLLHGQQYIEIYKPLP----SNSCIRNTAKVAGLHDKGKAAILEIEMTS 391

Query: 142 FDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPFASFEDVTR 201
           FDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPFASFEDVTR
Sbjct: 392 FDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPFASFEDVTR 451

Query: 202 PSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICKGNSDMVKS 261
           PSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICKGNSDMVKS
Sbjct: 452 PSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICKGNSDMVKS 511

Query: 262 LSGRFLLHVFPGETLITEMWLEGLR 275
           LSGRFLLHVFPGETLITEMWLEGLR
Sbjct: 512 LSGRFLLHVFPGETLITEMWLEGLR 532
[Close]
BLAST of Spo16861.1 vs. NCBI nr
Match: gi|731375733|ref|XP_010667349.1| (PREDICTED: enoyl-CoA hydratase 2, peroxisomal [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 398.3 bits (1022), Expect = 1.200e-107
Identity = 202/274 (73.72%), Postives = 223/274 (81.39%), Query Frame = 1 

		  

Query: 9   IDPELVLAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKSSED 68
           I+PELV+A++FPETTY+YSERD+ALYALGVGACGTNAVD+ ELKYVYH+DGQ+FIK    
Sbjct: 6   INPELVVAHRFPETTYRYSERDAALYALGVGACGTNAVDSSELKYVYHDDGQQFIKVLPT 65

Query: 69  F----NFSPIDLYLSCILWKYGHANLKHKALTFVIL----CDDTIRNTAKVAGLHDKGKA 128
           F    + S I         K+    L H      I      +  I+N A+VAGLHDKGKA
Sbjct: 66  FAALFSLSSIPNLFYVPGMKFDPRLLLHGQQYIEIYKPLPSNSCIKNKARVAGLHDKGKA 125

Query: 129 AILEIEMTSFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQP 188
           AILEIEMTSFDE S EPLCMNRTT YLRGAGGFS  SHPYSFTNYSGSQ PAIK+P++QP
Sbjct: 126 AILEIEMTSFDE-SGEPLCMNRTTAYLRGAGGFSSPSHPYSFTNYSGSQLPAIKIPKSQP 185

Query: 189 FASFEDVTRPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCIC 248
           FASFED+TRPSQALLYRLSGDYNPLHSDP VAE AGF RPILHGLC+LGFAVRAVI+CIC
Sbjct: 186 FASFEDITRPSQALLYRLSGDYNPLHSDPTVAEIAGFSRPILHGLCTLGFAVRAVIRCIC 245

Query: 249 KGNSDMVKSLSGRFLLHVFPGETLITEMWLEGLR 275
            G+SD VKSLSGRFLLHVFPGETLITEMWLEGLR
Sbjct: 246 NGDSDRVKSLSGRFLLHVFPGETLITEMWLEGLR 278
[Close]
BLAST of Spo16861.1 vs. NCBI nr
Match: gi|743895997|ref|XP_011041277.1| (PREDICTED: enoyl-CoA hydratase 2, peroxisomal [Populus euphratica])

HSP 1 Score: 354.0 bits (907), Expect = 2.500e-94
Identity = 177/283 (62.54%), Postives = 218/283 (77.03%), Query Frame = 1 

		  

Query: 1   MADHTNLAIDPELVLAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQ 60
           MAD  N   D +LVLA+KFPETT+ Y+ERD+A+YALGVGACG NA+D+DELKYVYH +GQ
Sbjct: 1   MAD--NSRFDHDLVLAHKFPETTFTYTERDAAVYALGVGACGRNAIDSDELKYVYHENGQ 60

Query: 61  EFIKSSEDFN--FSPIDLYLSCI---LWKYGHANLKHKALTFVIL----CDDTIRNTAKV 120
           +F++    F   FS   L    I     +Y    L H      I        ++ N   +
Sbjct: 61  QFVQVLPTFAALFSLGSLTNGSIDLPGLQYDPRLLLHGQQYIQIYKPFPSSASLINKVSL 120

Query: 121 AGLHDKGKAAILEIEMTSFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFP 180
           AGLHDKGKAAILE+E  S++++S E LCMNR+T+YLRGAGGFS SSHPYS++NY  +Q P
Sbjct: 121 AGLHDKGKAAILELETKSYEKQSGELLCMNRSTIYLRGAGGFSNSSHPYSYSNYRENQAP 180

Query: 181 AIKLPRTQPFASFEDVTRPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFA 240
           A+K+P +QPFA FED T+PSQALLYRLSGDYNPLHSDP++AE AGFPRPILHGLCSLGFA
Sbjct: 181 ALKIPESQPFAVFEDCTQPSQALLYRLSGDYNPLHSDPMIAEVAGFPRPILHGLCSLGFA 240

Query: 241 VRAVIKCICKGNSDMVKSLSGRFLLHVFPGETLITEMWLEGLR 275
           VRAVIKCIC+G+++++ ++SGRFLLHV+PGETLITEMWLEG R
Sbjct: 241 VRAVIKCICRGDANIITTISGRFLLHVYPGETLITEMWLEGSR 281
[Close]
BLAST of Spo16861.1 vs. NCBI nr
Match: gi|224085982|ref|XP_002307764.1| (maoC-like dehydratase domain-containing family protein [Populus trichocarpa])

HSP 1 Score: 348.6 bits (893), Expect = 1.100e-92
Identity = 176/283 (62.19%), Postives = 217/283 (76.68%), Query Frame = 1 

		  

Query: 1   MADHTNLAIDPELVLAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQ 60
           MAD  N   D +LVLA+KFPETT+ Y+ERD+A+YALGVGACG NA+D+DELKYVYH +GQ
Sbjct: 1   MAD--NSRFDHDLVLAHKFPETTFTYTERDAAVYALGVGACGRNAIDSDELKYVYHENGQ 60

Query: 61  EFIKSSEDFN--FSPIDLYLSCI---LWKYGHANLKHKALTFVIL----CDDTIRNTAKV 120
           +F++    F   FS   L    I     +Y    L H      I        ++ N   +
Sbjct: 61  QFVQVLPTFAALFSLGSLTNGSIDLPGLQYDPRLLLHGQQYIQIYKPFPSSASLINKVSL 120

Query: 121 AGLHDKGKAAILEIEMTSFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFP 180
           AGLHDKGKAAILE+E  S++++S E LCMNR+T+YLRGAGGFS SSHPYS++NY  +Q  
Sbjct: 121 AGLHDKGKAAILELETKSYEKQSGELLCMNRSTIYLRGAGGFSNSSHPYSYSNYPVNQAA 180

Query: 181 AIKLPRTQPFASFEDVTRPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFA 240
           A K+P++QPFA FED T+PSQALLYRLSGDYNPLHSDP++AE AGF RPILHGLCSLGFA
Sbjct: 181 APKIPKSQPFAVFEDCTQPSQALLYRLSGDYNPLHSDPMIAEVAGFSRPILHGLCSLGFA 240

Query: 241 VRAVIKCICKGNSDMVKSLSGRFLLHVFPGETLITEMWLEGLR 275
           VRAVIKCIC+G+++++K++SGRFLLHV+PGETLITEMWLEG R
Sbjct: 241 VRAVIKCICRGDANIIKTISGRFLLHVYPGETLITEMWLEGSR 281
[Close]
BLAST of Spo16861.1 vs. NCBI nr
Match: gi|629102558|gb|KCW68027.1| (hypothetical protein EUGRSUZ_F01710 [Eucalyptus grandis])

HSP 1 Score: 342.8 bits (878), Expect = 5.800e-91
Identity = 164/266 (61.65%), Postives = 207/266 (77.82%), Query Frame = 1 

		  

Query: 10  DPELVLAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKS-SED 69
           DP+L+L+++FPET + Y+ERD+ALYALG+GACG + +DADELKYVYH +GQ+FIK+  E 
Sbjct: 9   DPQLILSHRFPETAFAYTERDAALYALGIGACGRDPLDADELKYVYHENGQQFIKALPEG 68

Query: 70  FNFSPIDLYLSCILWKYGHANLKHKALTFVILCDDTIRNTAKVAGLHDKGKAAILEIEMT 129
             F  +      +L    +  L     +   L     ++   +AGLHDKGKAA+LE+E  
Sbjct: 69  LRFPGLQYDPRLLLHGQQYIELYKPFPSSAHL-----QHKVSLAGLHDKGKAAVLEVETK 128

Query: 130 SFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPFASFEDVT 189
           SFD+ S E LCMNR TVYLRGAGGFS+SS P+S++NY  +Q  A+K+P+ +PF+ FED T
Sbjct: 129 SFDQASGELLCMNRMTVYLRGAGGFSKSSQPFSYSNYPPNQVQAVKIPKDRPFSVFEDCT 188

Query: 190 RPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICKGNSDMVK 249
           +PSQALLYRLSGDYNPLHSDP++A+ AGF RPILHGLC+LGFAVRAVIKCICKG+ DMVK
Sbjct: 189 QPSQALLYRLSGDYNPLHSDPMIAKVAGFSRPILHGLCTLGFAVRAVIKCICKGDPDMVK 248

Query: 250 SLSGRFLLHVFPGETLITEMWLEGLR 275
           S+SGRFLLHV+PGETL TEMW+EG R
Sbjct: 249 SISGRFLLHVYPGETLATEMWVEGSR 269
[Close]
BLAST of Spo16861.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RXB5_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_024050 PE=4 SV=1)

HSP 1 Score: 426.0 bits (1094), Expect = 3.600e-116
Identity = 219/265 (82.64%), Postives = 226/265 (85.28%), Query Frame = 1 

		  

Query: 22  TTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKSSEDFN----------- 81
           TTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIK    F            
Sbjct: 272 TTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKVLPTFAAIFSLGSNRNL 331

Query: 82  FSPIDLYLSCILWKYGHANLK-HKALTFVILCDDTIRNTAKVAGLHDKGKAAILEIEMTS 141
           F+   +     L  +G   ++ +K L      +  IRNTAKVAGLHDKGKAAILEIEMTS
Sbjct: 332 FNIPGMEFDPRLLLHGQQYIEIYKPLP----SNSCIRNTAKVAGLHDKGKAAILEIEMTS 391

Query: 142 FDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPFASFEDVTR 201
           FDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPFASFEDVTR
Sbjct: 392 FDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPFASFEDVTR 451

Query: 202 PSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICKGNSDMVKS 261
           PSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICKGNSDMVKS
Sbjct: 452 PSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICKGNSDMVKS 511

Query: 262 LSGRFLLHVFPGETLITEMWLEGLR 275
           LSGRFLLHVFPGETLITEMWLEGLR
Sbjct: 512 LSGRFLLHVFPGETLITEMWLEGLR 532
[Close]
BLAST of Spo16861.1 vs. UniProtKB/TrEMBL
Match: A0A0J8B6M6_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_008210 PE=4 SV=1)

HSP 1 Score: 398.3 bits (1022), Expect = 8.100e-108
Identity = 202/274 (73.72%), Postives = 223/274 (81.39%), Query Frame = 1 

		  

Query: 9   IDPELVLAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKSSED 68
           I+PELV+A++FPETTY+YSERD+ALYALGVGACGTNAVD+ ELKYVYH+DGQ+FIK    
Sbjct: 6   INPELVVAHRFPETTYRYSERDAALYALGVGACGTNAVDSSELKYVYHDDGQQFIKVLPT 65

Query: 69  F----NFSPIDLYLSCILWKYGHANLKHKALTFVIL----CDDTIRNTAKVAGLHDKGKA 128
           F    + S I         K+    L H      I      +  I+N A+VAGLHDKGKA
Sbjct: 66  FAALFSLSSIPNLFYVPGMKFDPRLLLHGQQYIEIYKPLPSNSCIKNKARVAGLHDKGKA 125

Query: 129 AILEIEMTSFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQP 188
           AILEIEMTSFDE S EPLCMNRTT YLRGAGGFS  SHPYSFTNYSGSQ PAIK+P++QP
Sbjct: 126 AILEIEMTSFDE-SGEPLCMNRTTAYLRGAGGFSSPSHPYSFTNYSGSQLPAIKIPKSQP 185

Query: 189 FASFEDVTRPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCIC 248
           FASFED+TRPSQALLYRLSGDYNPLHSDP VAE AGF RPILHGLC+LGFAVRAVI+CIC
Sbjct: 186 FASFEDITRPSQALLYRLSGDYNPLHSDPTVAEIAGFSRPILHGLCTLGFAVRAVIRCIC 245

Query: 249 KGNSDMVKSLSGRFLLHVFPGETLITEMWLEGLR 275
            G+SD VKSLSGRFLLHVFPGETLITEMWLEGLR
Sbjct: 246 NGDSDRVKSLSGRFLLHVFPGETLITEMWLEGLR 278
[Close]
BLAST of Spo16861.1 vs. UniProtKB/TrEMBL
Match: B9H5E2_POPTR (MaoC-like dehydratase domain-containing family protein OS=Populus trichocarpa GN=POPTR_0005s26890g PE=4 SV=1)

HSP 1 Score: 348.6 bits (893), Expect = 7.300e-93
Identity = 176/283 (62.19%), Postives = 217/283 (76.68%), Query Frame = 1 

		  

Query: 1   MADHTNLAIDPELVLAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQ 60
           MAD  N   D +LVLA+KFPETT+ Y+ERD+A+YALGVGACG NA+D+DELKYVYH +GQ
Sbjct: 1   MAD--NSRFDHDLVLAHKFPETTFTYTERDAAVYALGVGACGRNAIDSDELKYVYHENGQ 60

Query: 61  EFIKSSEDFN--FSPIDLYLSCI---LWKYGHANLKHKALTFVIL----CDDTIRNTAKV 120
           +F++    F   FS   L    I     +Y    L H      I        ++ N   +
Sbjct: 61  QFVQVLPTFAALFSLGSLTNGSIDLPGLQYDPRLLLHGQQYIQIYKPFPSSASLINKVSL 120

Query: 121 AGLHDKGKAAILEIEMTSFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFP 180
           AGLHDKGKAAILE+E  S++++S E LCMNR+T+YLRGAGGFS SSHPYS++NY  +Q  
Sbjct: 121 AGLHDKGKAAILELETKSYEKQSGELLCMNRSTIYLRGAGGFSNSSHPYSYSNYPVNQAA 180

Query: 181 AIKLPRTQPFASFEDVTRPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFA 240
           A K+P++QPFA FED T+PSQALLYRLSGDYNPLHSDP++AE AGF RPILHGLCSLGFA
Sbjct: 181 APKIPKSQPFAVFEDCTQPSQALLYRLSGDYNPLHSDPMIAEVAGFSRPILHGLCSLGFA 240

Query: 241 VRAVIKCICKGNSDMVKSLSGRFLLHVFPGETLITEMWLEGLR 275
           VRAVIKCIC+G+++++K++SGRFLLHV+PGETLITEMWLEG R
Sbjct: 241 VRAVIKCICRGDANIIKTISGRFLLHVYPGETLITEMWLEGSR 281
[Close]
BLAST of Spo16861.1 vs. UniProtKB/TrEMBL
Match: A0A059BPC1_EUCGR (Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_F01710 PE=4 SV=1)

HSP 1 Score: 342.8 bits (878), Expect = 4.000e-91
Identity = 164/266 (61.65%), Postives = 207/266 (77.82%), Query Frame = 1 

		  

Query: 10  DPELVLAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKS-SED 69
           DP+L+L+++FPET + Y+ERD+ALYALG+GACG + +DADELKYVYH +GQ+FIK+  E 
Sbjct: 9   DPQLILSHRFPETAFAYTERDAALYALGIGACGRDPLDADELKYVYHENGQQFIKALPEG 68

Query: 70  FNFSPIDLYLSCILWKYGHANLKHKALTFVILCDDTIRNTAKVAGLHDKGKAAILEIEMT 129
             F  +      +L    +  L     +   L     ++   +AGLHDKGKAA+LE+E  
Sbjct: 69  LRFPGLQYDPRLLLHGQQYIELYKPFPSSAHL-----QHKVSLAGLHDKGKAAVLEVETK 128

Query: 130 SFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPFASFEDVT 189
           SFD+ S E LCMNR TVYLRGAGGFS+SS P+S++NY  +Q  A+K+P+ +PF+ FED T
Sbjct: 129 SFDQASGELLCMNRMTVYLRGAGGFSKSSQPFSYSNYPPNQVQAVKIPKDRPFSVFEDCT 188

Query: 190 RPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICKGNSDMVK 249
           +PSQALLYRLSGDYNPLHSDP++A+ AGF RPILHGLC+LGFAVRAVIKCICKG+ DMVK
Sbjct: 189 QPSQALLYRLSGDYNPLHSDPMIAKVAGFSRPILHGLCTLGFAVRAVIKCICKGDPDMVK 248

Query: 250 SLSGRFLLHVFPGETLITEMWLEGLR 275
           S+SGRFLLHV+PGETL TEMW+EG R
Sbjct: 249 SISGRFLLHVYPGETLATEMWVEGSR 269
[Close]
BLAST of Spo16861.1 vs. UniProtKB/TrEMBL
Match: A0A0S3RAM1_PHAAN (Uncharacterized protein OS=Vigna angularis var. angularis GN=Vigan.02G023000 PE=4 SV=1)

HSP 1 Score: 340.9 bits (873), Expect = 1.500e-90
Identity = 165/278 (59.35%), Postives = 211/278 (75.90%), Query Frame = 1 

		  

Query: 10  DPELVLAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIK----- 69
           DPEL +++KFP+TTY Y+ERD+ALYALGVG C ++AVDADELKYVY+ +GQEFIK     
Sbjct: 8   DPELAISHKFPDTTYSYTERDAALYALGVGVCLSDAVDADELKYVYNENGQEFIKVLPTF 67

Query: 70  --------SSEDFNFSPIDLYLSCILWKYGHANLKHKALTFVILCDDTIRNTAKVAGLHD 129
                    +  FN   ++     +L    +  L      F   C   I N   +AGLHD
Sbjct: 68  ATLLIRISGASSFNLPGLEYDPRLLLHGQQYIELYKP---FPSSCQ--IHNKISLAGLHD 127

Query: 130 KGKAAILEIEMTSFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLP 189
           KGKAAILEIE  S++++S + LCMNRTTV+LRGAGGFS+SS P+S+TNY  +Q  A+K+P
Sbjct: 128 KGKAAILEIETKSYEKDSGDLLCMNRTTVFLRGAGGFSKSSKPFSYTNYPSNQTSAVKIP 187

Query: 190 RTQPFASFEDVTRPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVI 249
            + PF+ FED T+PSQALLYRLSGD+NPLHSDP++A+ AGF +PILHGLC+LGFAVRA+I
Sbjct: 188 ESIPFSVFEDRTQPSQALLYRLSGDHNPLHSDPIIAKVAGFSQPILHGLCTLGFAVRAII 247

Query: 250 KCICKGNSDMVKSLSGRFLLHVFPGETLITEMWLEGLR 275
           KCIC+G+ D++KS++GRFLLHV+PGETL+TEMWLEGLR
Sbjct: 248 KCICRGDQDLIKSIAGRFLLHVYPGETLVTEMWLEGLR 280
[Close]
BLAST of Spo16861.1 vs. ExPASy Swiss-Prot
Match: ECH2_ARATH (Enoyl-CoA hydratase 2, peroxisomal OS=Arabidopsis thaliana GN=ECH2 PE=1 SV=1)

HSP 1 Score: 314.3 bits (804), Expect = 1.400e-84
Identity = 157/271 (57.93%), Postives = 197/271 (72.69%), Query Frame = 1 

		  

Query: 12  ELVLAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKS----SE 71
           +L+LA+K PET Y Y+ERD A+YALG+GACG +AVD+DELK+VYH +GQ+ I+     + 
Sbjct: 11  DLLLAHKLPETRYTYNERDVAIYALGIGACGQDAVDSDELKFVYHRNGQDLIQVLPTFAS 70

Query: 72  DFNFSPIDLYLSCILWKYGHANLKHKALTFVIL----CDDTIRNTAKVAGLHDKGKAAIL 131
            F    +   L    +KY  + L H      I        ++ N   +AGL DKGKAAIL
Sbjct: 71  LFTLGSLTEGLDLPGFKYDPSLLLHGQQYIEIYRPLPSKASLINKVSLAGLQDKGKAAIL 130

Query: 132 EIEMTSFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPFAS 191
           E+E  S++E S E LCMNRTTV+LRGAGGFS SS P+S+ NY  +Q  A+K+P+ QP   
Sbjct: 131 ELETRSYEEGSGELLCMNRTTVFLRGAGGFSNSSQPFSYKNYPSNQGLAVKIPQRQPLTV 190

Query: 192 FEDVTRPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICKGN 251
            E+ T+PSQALLYRLSGDYNPLHSDP  A+ AGFPRPILHGLC+LGFA++A+IKC+CKG+
Sbjct: 191 CEERTQPSQALLYRLSGDYNPLHSDPEFAKLAGFPRPILHGLCTLGFAIKAIIKCVCKGD 250

Query: 252 SDMVKSLSGRFLLHVFPGETLITEMWLEGLR 275
              VK++SGRFL  VFPGETLITEMWLEGLR
Sbjct: 251 PTAVKTISGRFLTTVFPGETLITEMWLEGLR 281
[Close]
BLAST of Spo16861.1 vs. ExPASy Swiss-Prot
Match: FOX2_NEUCR (Peroxisomal hydratase-dehydrogenase-epimerase OS=Neurospora crassa (strain ATCC 24698 / 74-OR23-1A / CBS 708.71 / DSM 1257 / FGSC 987) GN=fox-2 PE=1 SV=1)

HSP 1 Score: 149.4 bits (376), Expect = 5.900e-35
Identity = 98/261 (37.55%), Postives = 135/261 (51.72%), Query Frame = 1 

		  

Query: 22  TTYQYSERDSALYALGVGACGTNAVDADELKYVYH-NDGQEFI---------KSSEDFNF 81
           T Y ++ERD  LY LG+GA  T      ++KY++  N+  E +          +   F+F
Sbjct: 626 TEYTFTERDVCLYNLGIGAKRT------DIKYIFEGNEDFEVVPTFGVIPPFNTEMPFSF 685

Query: 82  SPIDLYLSCILWKYGHANLKHKALTFVILCDDTIRNTAKVAGLHDKGKAAILEIEMTSFD 141
             I    S ++  +G   L+ +   + I     + +  K+  + DKG AAI++  +T+F+
Sbjct: 686 DDIVPNFSPMMLLHGEQYLEVRK--YPIPTSGRLVSKGKLLEVVDKGSAAIVKQGITTFN 745

Query: 142 EESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPFASFEDVTRPS 201
            E+ E L  N  TV+LRG GGF     P       G+   A K P   P A  E  T   
Sbjct: 746 AETGEELFYNEMTVFLRGCGGFGGQKKPAD----RGASTAANKPPARSPDAVVEVQTTEE 805

Query: 202 QALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICKGNSDMVKSLS 261
           QA +YRLSGDYNPLH DP  A+  GF  PILHGLCS G A +AV +   K      K++ 
Sbjct: 806 QAAIYRLSGDYNPLHVDPAFAKVGGFKVPILHGLCSFGIAGKAVYEKYGK-----FKNIK 865

Query: 262 GRFLLHVFPGETLITEMWLEG 273
            RF   V PG+TL+TEMW EG
Sbjct: 866 VRFAGTVNPGQTLVTEMWKEG 869
[Close]
BLAST of Spo16861.1 vs. ExPASy Swiss-Prot
Match: DHB4_HUMAN (Peroxisomal multifunctional enzyme type 2 OS=Homo sapiens GN=HSD17B4 PE=1 SV=3)

HSP 1 Score: 146.4 bits (368), Expect = 5.000e-34
Identity = 95/291 (32.65%), Postives = 144/291 (49.48%), Query Frame = 1 

		  

Query: 2   ADHTNLAIDPEL-----VLAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYH 61
           A+HT+ A           +  K P  +Y Y+E ++ +YALGVGA   +  D  +LK++Y 
Sbjct: 310 ANHTSRATSTATSGFAGAIGQKLPPFSYAYTELEAIMYALGVGA---SIKDPKDLKFIYE 369

Query: 62  ND-------------GQEFIKSSEDFNFSPIDLYLSCILWKYGHANLKHKALTFVILCDD 121
                          GQ+ +          + +  + +L    +  L +K L        
Sbjct: 370 GSSDFSCLPTFGVIIGQKSMMGGGLAEIPGLSINFAKVLHGEQYLEL-YKPLPRA----G 429

Query: 122 TIRNTAKVAGLHDKGKAAILEIEMTSFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFT 181
            ++  A VA + DKG   ++ +++ S+ E  KE +C N+ +++L G+GGF          
Sbjct: 430 KLKCEAVVADVLDKGSGVVIIMDVYSYSE--KELICHNQFSLFLVGSGGFGGK------- 489

Query: 182 NYSGSQFPAIKLPRTQPFASFEDVTRPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILH 241
             S     A+ +P   P A   D T  +QA LYRLSGD+NPLH DP  A  AGF +PILH
Sbjct: 490 RTSDKVKVAVAIPNRPPDAVLTDTTSLNQAALYRLSGDWNPLHIDPNFASLAGFDKPILH 549

Query: 242 GLCSLGFAVRAVIKCICKGNSDMVKSLSGRFLLHVFPGETLITEMWLEGLR 275
           GLC+ GF+ R V++     +    K++  RF   V+PG+TL TEMW EG R
Sbjct: 550 GLCTFGFSARRVLQQFADNDVSRFKAIKARFAKPVYPGQTLQTEMWKEGNR 583
[Close]
BLAST of Spo16861.1 vs. ExPASy Swiss-Prot
Match: DHB4_DROME (Peroxisomal multifunctional enzyme type 2 OS=Drosophila melanogaster GN=Mfe2 PE=1 SV=1)

HSP 1 Score: 146.0 bits (367), Expect = 6.500e-34
Identity = 94/273 (34.43%), Postives = 133/273 (48.72%), Query Frame = 1 

		  

Query: 21  ETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKSSEDFNFSPIDLYLSC 80
           E  ++++ ++   YALG+GA   NA D   ++++Y ND         DF   P    L  
Sbjct: 315 EDAFEFNSKELITYALGIGASVKNAKD---MRFLYENDA--------DFAAIPTFFVLPG 374

Query: 81  ILWKYGHANLKHKALT--------------FVILCDD-----TIRNTAKVAGLHDKGKAA 140
           +L +     L  KAL               ++ + DD     T+    KV  + DKG  A
Sbjct: 375 LLLQMSTDKLLSKALPNSQVDFSNILHGEQYLEIVDDLPTSGTLLTNGKVFDVMDKGSGA 434

Query: 141 ILEIEMTSFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPF 200
           ++     SFDE  +  L  N++T ++ GAG F     P +         P    P  QP 
Sbjct: 435 VVVTNSESFDESGRL-LVRNQSTTFIVGAGKFGGKKDPIA------GVVPLQPAPNRQPD 494

Query: 201 ASFEDVTRPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICK 260
           A+ +  T   QA LYRLSGD NPLH DP +A  AGF  PILHGLC+LGF+VRAV+     
Sbjct: 495 ATVQYTTSEDQAALYRLSGDKNPLHIDPQMALLAGFKTPILHGLCTLGFSVRAVLAQFAD 554

Query: 261 GNSDMVKSLSGRFLLHVFPGETLITEMWLEGLR 275
            N  + K++  RF   V PG+TL  ++W +G R
Sbjct: 555 NNPALFKAVKVRFSGPVIPGQTLRVDLWKQGTR 569
[Close]
BLAST of Spo16861.1 vs. ExPASy Swiss-Prot
Match: DHB4_MOUSE (Peroxisomal multifunctional enzyme type 2 OS=Mus musculus GN=Hsd17b4 PE=1 SV=3)

HSP 1 Score: 142.9 bits (359), Expect = 5.500e-33
Identity = 92/276 (33.33%), Postives = 135/276 (48.91%), Query Frame = 1 

		  

Query: 15  LAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKSSEDFNFSPI 74
           + +K P  +  Y+E  S +YALGVGA   N  D   LK+VY        + S DF+  P 
Sbjct: 327 VGHKLPSFSSSYTELQSIMYALGVGASVKNPKD---LKFVY--------EGSADFSCLPT 386

Query: 75  D--LYLSCILWKYGHANLKHKALTFV--------------ILCDDTIRNTAKVAGLHDKG 134
              +     +   G A +   +  F               +     ++  A +A + DKG
Sbjct: 387 FGVIVAQKSMMNGGLAEVPGLSFNFAKALHGEQYLELYKPLPRSGELKCEAVIADILDKG 446

Query: 135 KAAILEIEMTSFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRT 194
              ++ +++ S+    KE +C N+ +V++ G+GGF            S     A+ +P  
Sbjct: 447 SGVVIVMDVYSYS--GKELICYNQFSVFVVGSGGFGGK-------RTSEKLKAAVAVPNR 506

Query: 195 QPFASFEDVTRPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKC 254
            P A   D T  +QA LYRLSGD+NPLH DP  A  AGF +PILHGLC+ GF+ R V++ 
Sbjct: 507 PPDAVLRDATSLNQAALYRLSGDWNPLHIDPDFASVAGFEKPILHGLCTFGFSARHVLQQ 566

Query: 255 ICKGNSDMVKSLSGRFLLHVFPGETLITEMWLEGLR 275
               +    K++  RF   V+PG+TL TEMW EG R
Sbjct: 567 FADNDVSRFKAIKVRFAKPVYPGQTLQTEMWKEGNR 582
[Close]
BLAST of Spo16861.1 vs. TAIR (Arabidopsis)
Match: AT1G76150.1 (enoyl-CoA hydratase 2)

HSP 1 Score: 314.3 bits (804), Expect = 7.800e-86
Identity = 157/271 (57.93%), Postives = 197/271 (72.69%), Query Frame = 1 

		  

Query: 12  ELVLAYKFPETTYQYSERDSALYALGVGACGTNAVDADELKYVYHNDGQEFIKS----SE 71
           +L+LA+K PET Y Y+ERD A+YALG+GACG +AVD+DELK+VYH +GQ+ I+     + 
Sbjct: 11  DLLLAHKLPETRYTYNERDVAIYALGIGACGQDAVDSDELKFVYHRNGQDLIQVLPTFAS 70

Query: 72  DFNFSPIDLYLSCILWKYGHANLKHKALTFVIL----CDDTIRNTAKVAGLHDKGKAAIL 131
            F    +   L    +KY  + L H      I        ++ N   +AGL DKGKAAIL
Sbjct: 71  LFTLGSLTEGLDLPGFKYDPSLLLHGQQYIEIYRPLPSKASLINKVSLAGLQDKGKAAIL 130

Query: 132 EIEMTSFDEESKEPLCMNRTTVYLRGAGGFSRSSHPYSFTNYSGSQFPAIKLPRTQPFAS 191
           E+E  S++E S E LCMNRTTV+LRGAGGFS SS P+S+ NY  +Q  A+K+P+ QP   
Sbjct: 131 ELETRSYEEGSGELLCMNRTTVFLRGAGGFSNSSQPFSYKNYPSNQGLAVKIPQRQPLTV 190

Query: 192 FEDVTRPSQALLYRLSGDYNPLHSDPVVAETAGFPRPILHGLCSLGFAVRAVIKCICKGN 251
            E+ T+PSQALLYRLSGDYNPLHSDP  A+ AGFPRPILHGLC+LGFA++A+IKC+CKG+
Sbjct: 191 CEERTQPSQALLYRLSGDYNPLHSDPEFAKLAGFPRPILHGLCTLGFAIKAIIKCVCKGD 250

Query: 252 SDMVKSLSGRFLLHVFPGETLITEMWLEGLR 275
              VK++SGRFL  VFPGETLITEMWLEGLR
Sbjct: 251 PTAVKTISGRFLTTVFPGETLITEMWLEGLR 281
The following BLAST results are available for this feature:
BLAST of Spo16861.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902234597|gb|KNA23507.1|5.2e-11682.6hypothetical protein SOVF_0240... [more]
gi|731375733|ref|XP_010667349.1|1.2e-10773.7PREDICTED: enoyl-CoA hydratase... [more]
gi|743895997|ref|XP_011041277.1|2.5e-9462.5PREDICTED: enoyl-CoA hydratase... [more]
gi|224085982|ref|XP_002307764.1|1.1e-9262.1maoC-like dehydratase domain-c... [more]
gi|629102558|gb|KCW68027.1|5.8e-9161.6hypothetical protein EUGRSUZ_F... [more]
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BLAST of Spo16861.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9RXB5_SPIOL3.6e-11682.6Uncharacterized protein OS=Spi... [more]
A0A0J8B6M6_BETVU8.1e-10873.7Uncharacterized protein OS=Bet... [more]
B9H5E2_POPTR7.3e-9362.1MaoC-like dehydratase domain-c... [more]
A0A059BPC1_EUCGR4.0e-9161.6Uncharacterized protein OS=Euc... [more]
A0A0S3RAM1_PHAAN1.5e-9059.3Uncharacterized protein OS=Vig... [more]
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BLAST of Spo16861.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 5
Match NameE-valueIdentityDescription
ECH2_ARATH1.4e-8457.9Enoyl-CoA hydratase 2, peroxis... [more]
FOX2_NEUCR5.9e-3537.5Peroxisomal hydratase-dehydrog... [more]
DHB4_HUMAN5.0e-3432.6Peroxisomal multifunctional en... [more]
DHB4_DROME6.5e-3434.4Peroxisomal multifunctional en... [more]
DHB4_MOUSE5.5e-3333.3Peroxisomal multifunctional en... [more]
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BLAST of Spo16861.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 1
Match NameE-valueIdentityDescription
AT1G76150.17.8e-8657.9enoyl-CoA hydratase 2[more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR002539MaoC-like domainPFAMPF01575MaoC_dehydratascoord: 185..276
score: 2.8
NoneNo IPR availablePANTHERPTHR13078FAMILY NOT NAMEDcoord: 9..274
score: 1.4E

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0016043 cellular component organization
biological_process GO:0015996 chlorophyll catabolic process
biological_process GO:0006631 fatty acid metabolic process
biological_process GO:0006744 ubiquinone biosynthetic process
biological_process GO:0009069 serine family amino acid metabolic process
biological_process GO:0006468 protein phosphorylation
biological_process GO:0007064 mitotic sister chromatid cohesion
biological_process GO:0006281 DNA repair
biological_process GO:0000023 maltose metabolic process
biological_process GO:0043085 positive regulation of catalytic activity
biological_process GO:0006470 protein dephosphorylation
biological_process GO:0019252 starch biosynthetic process
biological_process GO:0005983 starch catabolic process
biological_process GO:0008152 metabolic process
biological_process GO:0006508 proteolysis
biological_process GO:0006629 lipid metabolic process
biological_process GO:0009626 plant-type hypersensitive response
biological_process GO:0009966 regulation of signal transduction
biological_process GO:0030048 actin filament-based movement
biological_process GO:0009827 plant-type cell wall modification
biological_process GO:0006810 transport
biological_process GO:0009860 pollen tube growth
biological_process GO:0006635 fatty acid beta-oxidation
cellular_component GO:0009569 chloroplast starch grain
cellular_component GO:0009570 chloroplast stroma
cellular_component GO:0005622 intracellular
cellular_component GO:0005777 peroxisome
cellular_component GO:0005634 nucleus
cellular_component GO:0019013 viral nucleocapsid
cellular_component GO:0008278 cohesin complex
cellular_component GO:0009507 chloroplast
cellular_component GO:0016020 membrane
cellular_component GO:0000785 chromatin
cellular_component GO:0080008 Cul4-RING E3 ubiquitin ligase complex
cellular_component GO:1990904 ribonucleoprotein complex
molecular_function GO:0019203 carbohydrate phosphatase activity
molecular_function GO:0005544 calcium-dependent phospholipid binding
molecular_function GO:0016836 hydro-lyase activity
molecular_function GO:0005515 protein binding
molecular_function GO:0004672 protein kinase activity
molecular_function GO:0008270 zinc ion binding
molecular_function GO:0008138 protein tyrosine/serine/threonine phosphatase activity
molecular_function GO:0004674 protein serine/threonine kinase activity
molecular_function GO:0004190 aspartic-type endopeptidase activity
molecular_function GO:0042802 identical protein binding
molecular_function GO:0005524 ATP binding
molecular_function GO:0008026 ATP-dependent helicase activity
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0005215 transporter activity
molecular_function GO:0003682 chromatin binding
molecular_function GO:0008756 o-succinylbenzoate-CoA ligase activity
molecular_function GO:0003677 DNA binding
molecular_function GO:0005509 calcium ion binding
RNA-Seq Expression