Spo25340 (gene)

Overview
NameSpo25340
Typegene
OrganismSpinacia oleracea (Spinach)
Descriptionthioredoxin O1
LocationSpoScf_01897 : 43253 .. 60381 (-)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ACCCGACCTATTGCAAAAACCCGTGTTAACCTCAAACGAAACACGATTTACTTAGCAGAACATCTAGCGGACGATGGCGGCGAGATTCTCTGCTCTTCGGTCATCTGTGCTCCAACCGCTACTTCGCCGCCACCAACTCCGGCCAATCATTCCTCGATCATCGTCATCACCGGTTTCTACCCAGAGTGCGCTCCCTTCTCCTACTCAATTTACCTCCCCCATGCCACTTTCTACCCTTACCATTCCCACTGCTGCCTGTGTCTTCTCATCCTTCTCTTTCGGTTCTAGAAGCTACTCTTCCGATTCAGAGTTGCCTTCAAATGTGGTCCTGGTCCAGTCTGATGATCAATTGACTGCCTCTCTACGGAAGGCTGAAGATGAATCTTCTCAAGCAATCTTCTACTTCACAGCAGTTTGGTGTGGTCCATGTCAATTTTTGTGGCCAGATATGAAGAAATTGAGTGAACGTTTTCCTGATGTAAAATTTTACAAGATTGATATTGATGAGGTGGGAACTGGACCTACAATAAGCAAATTAAATATATGCTCCGTGCCAACTCTCCACTTTTTCAAGAATGGGAAAAAGGCTGCAGAAGTGGTTGGTGCTGATGTGAAGAGGATCAAGGATATATCGTCTACATTGTACAAGAATGAGTAGAAAAGGTCCTCCCGCTGTGTGGAAATTGGAAATGTATCCTTGACATTAGTGTAGACAATAGATCGGATTGTCTTGTTATACGAAGTATATATATATTTTTAATTCTAATAGATTTCGAATTTTATGTCATTTTTGATGATCTCTTTTGCAAACGAATATGTTTGTTGATTGAACATTAACTACATACGGAGTAATATTTTTGTGGTTGACAGATTTGATTGCATCCTCTGTTTTGTTTACATTGGTAGACATATAGATATATTGTTATTAAAGGGTGCAATAAGTCAGTTTCTCAAATGTTATATAGTTTGATCCTACTAAGCATAGAAGGCCTCAAGCAATGGTTTGGTATTACATTGGCACGGCAGCATCAACTAATTTTTAAAGGAAAGGCCAAAGTCTCCTATCCTTTCGTGTTCTTAATAAGTGGTTGTCATGGAATTAAAGTTGTACGTAAATTGTAAGGTATGTCATATGTGTACACTTATGGTAATGCTAGTTTATCACAGAAGTGTTCAACTATTAATAGGGAGTTGATATTGAATGGTAATGGAATTATGGAAGTATAGGAATGGAATTTACAACTTTGTAATAAAAATGGGCATGAATAGAAGTTAATGTTAATCAAGTTGAGCAATTGGAACTCGACTCAATCAACTCTGTCGGTCAAAACTTGACTCAAGTTAGCTCTACTTGAAACCTTATAACGAGATAGTTTAATCAAGGACAACTTGCCAATGTAGAATTTTAAACTTCAAGTTGAATGGTGTAAGTAGTCTCTTTAAAATTTGCATAATATCATAGATTAGGTACATTACAAAAGGCACAGCATACCACATGAAATAACAATGAATAAGCTTCCTAATAGATAATATCCTAATATAATACACACCATAACCAAAATGATAAAAGTATACCAATAACTTCTTACTTCATAGCCATTTTTCTCGTTTAACTCCATAAAATAACCTAATTAGCC

Coding sequence (CDS)

ATGGCGGCGAGATTCTCTGCTCTTCGGTCATCTGTGCTCCAACCGCTACTTCGCCGCCACCAACTCCGGCCAATCATTCCTCGATCATCGTCATCACCGGTTTCTACCCAGAGTGCGCTCCCTTCTCCTACTCAATTTACCTCCCCCATGCCACTTTCTACCCTTACCATTCCCACTGCTGCCTGTGTCTTCTCATCCTTCTCTTTCGGTTCTAGAAGCTACTCTTCCGATTCAGAGTTGCCTTCAAATGTGGTCCTGGTCCAGTCTGATGATCAATTGACTGCCTCTCTACGGAAGGCTGAAGATGAATCTTCTCAAGCAATCTTCTACTTCACAGCAGTTTGGTGTGGTCCATGTCAATTTTTGTGGCCAGATATGAAGAAATTGAGTGAACGTTTTCCTGATGTAAAATTTTACAAGATTGATATTGATGAGGTGGGAACTGGACCTACAATAAGCAAATTAAATATATGCTCCGTGCCAACTCTCCACTTTTTCAAGAATGGGAAAAAGGCTGCAGAAGTGGTTGGTGCTGATGTGAAGAGGATCAAGGATATATCGTCTACATTGTACAAGAATGAGTAG

Protein sequence

MAARFSALRSSVLQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTAACVFSSFSFGSRSYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFLWPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVKRIKDISSTLYKNE
Relationships

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

Feature NameUnique NameType
Spo25340.1Spo25340.1mRNA


Homology
[Close]
BLAST of Spo25340.1 vs. NCBI nr
Match: gi|902131353|gb|KNA04264.1| (hypothetical protein SOVF_201300, partial [Spinacia oleracea])

HSP 1 Score: 375.2 bits (962), Expect = 7.100e-101
Identity = 191/191 (100.00%), Postives = 191/191 (100.00%), Query Frame = 1 

		  

Query: 1   MAARFSALRSSVLQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTA 60
           MAARFSALRSSVLQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTA
Sbjct: 1   MAARFSALRSSVLQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTA 60

Query: 61  ACVFSSFSFGSRSYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQ 120
           ACVFSSFSFGSRSYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQ
Sbjct: 61  ACVFSSFSFGSRSYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQ 120

Query: 121 FLWPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADV 180
           FLWPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADV
Sbjct: 121 FLWPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADV 180

Query: 181 KRIKDISSTLY 192
           KRIKDISSTLY
Sbjct: 181 KRIKDISSTLY 191
[Close]
BLAST of Spo25340.1 vs. NCBI nr
Match: gi|731346099|ref|XP_010684276.1| (PREDICTED: thioredoxin O2, mitochondrial-like isoform X4 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 271.2 bits (692), Expect = 1.400e-69
Identity = 146/191 (76.44%), Postives = 155/191 (81.15%), Query Frame = 1 

		  

Query: 3   ARFSALRSSV-LQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTAA 62
           ARF  +RS + LQ  L RH     +    S     + AL SP+Q T  +PLSTLTIPTAA
Sbjct: 2   ARFWFVRSGLQLQRSLLRHHEELTLSSLCSLISPPKYALFSPSQITPSIPLSTLTIPTAA 61

Query: 63  CVFSSFSFGSRSYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQF 122
           CVFSS SF SRSYSSDSELPSN+VLVQSDDQL  SL+KAED+SSQAIFYFTA WCGPCQF
Sbjct: 62  CVFSSSSFASRSYSSDSELPSNIVLVQSDDQLNDSLQKAEDDSSQAIFYFTAAWCGPCQF 121

Query: 123 LWPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVK 182
           LWPDMKKLSER PDVKFYKIDIDEVG GPTI KLNI SVPTLHFFKNGKKAAEVVGADVK
Sbjct: 122 LWPDMKKLSERLPDVKFYKIDIDEVGAGPTIGKLNIFSVPTLHFFKNGKKAAEVVGADVK 181

Query: 183 RIKDISSTLYK 193
           RIKDISS LYK
Sbjct: 182 RIKDISSELYK 192
[Close]
BLAST of Spo25340.1 vs. NCBI nr
Match: gi|731346097|ref|XP_010684275.1| (PREDICTED: thioredoxin O2, mitochondrial-like isoform X3 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 271.2 bits (692), Expect = 1.400e-69
Identity = 146/191 (76.44%), Postives = 155/191 (81.15%), Query Frame = 1 

		  

Query: 3   ARFSALRSSV-LQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTAA 62
           ARF  +RS + LQ  L RH     +    S     + AL SP+Q T  +PLSTLTIPTAA
Sbjct: 2   ARFWFVRSGLQLQRSLLRHHEELTLSSLCSLISPPKYALFSPSQITPSIPLSTLTIPTAA 61

Query: 63  CVFSSFSFGSRSYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQF 122
           CVFSS SF SRSYSSDSELPSN+VLVQSDDQL  SL+KAED+SSQAIFYFTA WCGPCQF
Sbjct: 62  CVFSSSSFASRSYSSDSELPSNIVLVQSDDQLNDSLQKAEDDSSQAIFYFTAAWCGPCQF 121

Query: 123 LWPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVK 182
           LWPDMKKLSER PDVKFYKIDIDEVG GPTI KLNI SVPTLHFFKNGKKAAEVVGADVK
Sbjct: 122 LWPDMKKLSERLPDVKFYKIDIDEVGAGPTIGKLNIFSVPTLHFFKNGKKAAEVVGADVK 181

Query: 183 RIKDISSTLYK 193
           RIKDISS LYK
Sbjct: 182 RIKDISSELYK 192
[Close]
BLAST of Spo25340.1 vs. NCBI nr
Match: gi|731346101|ref|XP_010684277.1| (PREDICTED: thioredoxin O2, mitochondrial-like isoform X5 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 269.2 bits (687), Expect = 5.500e-69
Identity = 145/190 (76.32%), Postives = 154/190 (81.05%), Query Frame = 1 

		  

Query: 3   ARFSALRSSV-LQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTAA 62
           ARF  +RS + LQ  L RH     +    S     + AL SP+Q T  +PLSTLTIPTAA
Sbjct: 2   ARFWFVRSGLQLQRSLLRHHEELTLSSLCSLISPPKYALFSPSQITPSIPLSTLTIPTAA 61

Query: 63  CVFSSFSFGSRSYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQF 122
           CVFSS SF SRSYSSDSELPSN+VLVQSDDQL  SL+KAED+SSQAIFYFTA WCGPCQF
Sbjct: 62  CVFSSSSFASRSYSSDSELPSNIVLVQSDDQLNDSLQKAEDDSSQAIFYFTAAWCGPCQF 121

Query: 123 LWPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVK 182
           LWPDMKKLSER PDVKFYKIDIDEVG GPTI KLNI SVPTLHFFKNGKKAAEVVGADVK
Sbjct: 122 LWPDMKKLSERLPDVKFYKIDIDEVGAGPTIGKLNIFSVPTLHFFKNGKKAAEVVGADVK 181

Query: 183 RIKDISSTLY 192
           RIKDISS LY
Sbjct: 182 RIKDISSELY 191
[Close]
BLAST of Spo25340.1 vs. NCBI nr
Match: gi|731346093|ref|XP_010684273.1| (PREDICTED: thioredoxin O2, mitochondrial-like isoform X1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 258.1 bits (658), Expect = 1.300e-65
Identity = 146/214 (68.22%), Postives = 155/214 (72.43%), Query Frame = 1 

		  

Query: 3   ARFSALRSSV-LQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTAA 62
           ARF  +RS + LQ  L RH     +    S     + AL SP+Q T  +PLSTLTIPTAA
Sbjct: 2   ARFWFVRSGLQLQRSLLRHHEELTLSSLCSLISPPKYALFSPSQITPSIPLSTLTIPTAA 61

Query: 63  CVFSSFSFGSRSYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQF 122
           CVFSS SF SRSYSSDSELPSN+VLVQSDDQL  SL+KAED+SSQAIFYFTA WCGPCQF
Sbjct: 62  CVFSSSSFASRSYSSDSELPSNIVLVQSDDQLNDSLQKAEDDSSQAIFYFTAAWCGPCQF 121

Query: 123 LWPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSV--------------------- 182
           LWPDMKKLSER PDVKFYKIDIDEVG GPTI KLNI SV                     
Sbjct: 122 LWPDMKKLSERLPDVKFYKIDIDEVGAGPTIGKLNIFSVYLSGIGLQLLISLLGGLLAQV 181

Query: 183 --PTLHFFKNGKKAAEVVGADVKRIKDISSTLYK 193
             PTLHFFKNGKKAAEVVGADVKRIKDISS LYK
Sbjct: 182 IRPTLHFFKNGKKAAEVVGADVKRIKDISSELYK 215
[Close]
BLAST of Spo25340.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QAH7_SPIOL (Uncharacterized protein (Fragment) OS=Spinacia oleracea GN=SOVF_201300 PE=4 SV=1)

HSP 1 Score: 375.2 bits (962), Expect = 4.900e-101
Identity = 191/191 (100.00%), Postives = 191/191 (100.00%), Query Frame = 1 

		  

Query: 1   MAARFSALRSSVLQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTA 60
           MAARFSALRSSVLQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTA
Sbjct: 1   MAARFSALRSSVLQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTA 60

Query: 61  ACVFSSFSFGSRSYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQ 120
           ACVFSSFSFGSRSYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQ
Sbjct: 61  ACVFSSFSFGSRSYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQ 120

Query: 121 FLWPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADV 180
           FLWPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADV
Sbjct: 121 FLWPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADV 180

Query: 181 KRIKDISSTLY 192
           KRIKDISSTLY
Sbjct: 181 KRIKDISSTLY 191
[Close]
BLAST of Spo25340.1 vs. UniProtKB/TrEMBL
Match: A0A0J8C1G1_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_7g163180 PE=4 SV=1)

HSP 1 Score: 271.2 bits (692), Expect = 1.000e-69
Identity = 146/191 (76.44%), Postives = 155/191 (81.15%), Query Frame = 1 

		  

Query: 3   ARFSALRSSV-LQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTAA 62
           ARF  +RS + LQ  L RH     +    S     + AL SP+Q T  +PLSTLTIPTAA
Sbjct: 2   ARFWFVRSGLQLQRSLLRHHEELTLSSLCSLISPPKYALFSPSQITPSIPLSTLTIPTAA 61

Query: 63  CVFSSFSFGSRSYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQF 122
           CVFSS SF SRSYSSDSELPSN+VLVQSDDQL  SL+KAED+SSQAIFYFTA WCGPCQF
Sbjct: 62  CVFSSSSFASRSYSSDSELPSNIVLVQSDDQLNDSLQKAEDDSSQAIFYFTAAWCGPCQF 121

Query: 123 LWPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVK 182
           LWPDMKKLSER PDVKFYKIDIDEVG GPTI KLNI SVPTLHFFKNGKKAAEVVGADVK
Sbjct: 122 LWPDMKKLSERLPDVKFYKIDIDEVGAGPTIGKLNIFSVPTLHFFKNGKKAAEVVGADVK 181

Query: 183 RIKDISSTLYK 193
           RIKDISS LYK
Sbjct: 182 RIKDISSELYK 192
[Close]
BLAST of Spo25340.1 vs. UniProtKB/TrEMBL
Match: K4B7I2_SOLLC (Uncharacterized protein OS=Solanum lycopersicum PE=4 SV=1)

HSP 1 Score: 152.1 bits (383), Expect = 6.800e-34
Identity = 71/122 (58.20%), Postives = 93/122 (76.23%), Query Frame = 1 

		  

Query: 72  RSYSSDSEL-PSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFLWPDMKKLS 131
           R++SS S   PSN+V ++S++Q   SLRK +DES  AIFYFTAVWCGPC+ L P + +LS
Sbjct: 73  RNFSSPSSSGPSNIVSIESEEQFNTSLRKVQDESLPAIFYFTAVWCGPCRLLSPVIGQLS 132

Query: 132 ERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVKRIKDISSTL 191
           E++P V  YK+DID+ G G  +SKLNI SVPTLHFF+NGKK +EV+GADV+ +K+    L
Sbjct: 133 EKYPHVTTYKVDIDKEGLGNALSKLNITSVPTLHFFQNGKKTSEVIGADVQLLKETMEEL 192

Query: 192 YK 193
           YK
Sbjct: 193 YK 194
[Close]
BLAST of Spo25340.1 vs. UniProtKB/TrEMBL
Match: A0A0V0HC56_SOLCH (Putative thioredoxin O1, mitochondrial-like OS=Solanum chacoense PE=4 SV=1)

HSP 1 Score: 151.0 bits (380), Expect = 1.500e-33
Identity = 69/122 (56.56%), Postives = 93/122 (76.23%), Query Frame = 1 

		  

Query: 72  RSYSSDSEL-PSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFLWPDMKKLS 131
           R++SS S   PSN+V ++S++Q   SLRK +DES  AIFYFTA WCGPC+ L P + +LS
Sbjct: 73  RNFSSPSSSGPSNIVSIESEEQFNTSLRKVQDESLPAIFYFTAAWCGPCRLLSPVIGQLS 132

Query: 132 ERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVKRIKDISSTL 191
           E++P V  YK+DID+ G G  +SKLNI +VPTLHF++NGKK +EV+GADV+R+K+    L
Sbjct: 133 EKYPHVTTYKVDIDKEGLGNALSKLNISAVPTLHFYQNGKKTSEVIGADVQRLKETMEEL 192

Query: 192 YK 193
           YK
Sbjct: 193 YK 194
[Close]
BLAST of Spo25340.1 vs. UniProtKB/TrEMBL
Match: M1AP60_SOLTU (Uncharacterized protein OS=Solanum tuberosum GN=PGSC0003DMG402010449 PE=4 SV=1)

HSP 1 Score: 151.0 bits (380), Expect = 1.500e-33
Identity = 69/122 (56.56%), Postives = 93/122 (76.23%), Query Frame = 1 

		  

Query: 72  RSYSSDSEL-PSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFLWPDMKKLS 131
           R++SS S   PSN+V ++S++Q   SLRK +DES  AIFYFTA WCGPC+ L P + +LS
Sbjct: 73  RNFSSPSSSGPSNIVSIESEEQFNTSLRKVQDESLPAIFYFTAAWCGPCRLLSPVIGQLS 132

Query: 132 ERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVKRIKDISSTL 191
           E++P V  YK+DID+ G G  +SKLNI +VPTLHF++NGKK +EV+GADV+R+K+    L
Sbjct: 133 EKYPHVTTYKVDIDKEGLGNALSKLNISAVPTLHFYQNGKKTSEVIGADVQRLKETMEEL 192

Query: 192 YK 193
           YK
Sbjct: 193 YK 194
[Close]
BLAST of Spo25340.1 vs. ExPASy Swiss-Prot
Match: TRXO1_ARATH (Thioredoxin O1, mitochondrial OS=Arabidopsis thaliana GN=At2g35010 PE=2 SV=1)

HSP 1 Score: 136.0 bits (341), Expect = 4.500e-31
Identity = 83/190 (43.68%), Postives = 119/190 (62.63%), Query Frame = 1 

		  

Query: 4   RFSALRSSVLQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTAACV 63
           +FS LRSS     L    +RP++     +P S  S +   + FT+    S +  P+    
Sbjct: 15  QFSTLRSSTPSSRLST-SIRPLV----LAPNSISSLIARNSLFTA----SNIG-PSIDFN 74

Query: 64  FSSFSFGSR-SYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFL 123
           FS+ S   R S  S++   + VVLV+S+++   ++ KA+D S  ++FYFTA WCGPC+F+
Sbjct: 75  FSNTSLPHRRSLCSEAGGENGVVLVKSEEEFINAMSKAQDGSLPSVFYFTAAWCGPCRFI 134

Query: 124 WPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVKR 183
            P + +LS+++PDV  YK+DIDE G   TISKLNI +VPTLHFFK G K  EVVGADV +
Sbjct: 135 SPVIVELSKQYPDVTTYKVDIDEGGISNTISKLNITAVPTLHFFKGGSKKGEVVGADVTK 194

Query: 184 IKDISSTLYK 193
           +K++   LYK
Sbjct: 195 LKNLMEQLYK 194
[Close]
BLAST of Spo25340.1 vs. ExPASy Swiss-Prot
Match: TRXO2_ARATH (Thioredoxin O2, mitochondrial OS=Arabidopsis thaliana GN=At1g31020 PE=2 SV=1)

HSP 1 Score: 124.8 bits (312), Expect = 1.000e-27
Identity = 55/111 (49.55%), Postives = 77/111 (69.37%), Query Frame = 1 

		  

Query: 82  SNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFLWPDMKKLSERFPDVKFYKI 141
           S+ V+++S+ +  ++L KA D S  ++FYFTA WCGPC+ + P + +LS ++PDV  YK+
Sbjct: 49  SSFVVLKSEAEFNSALSKARDGSLPSVFYFTAAWCGPCRLISPVILELSNKYPDVTTYKV 108

Query: 142 DIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVKRIKDISSTLYK 193
           DIDE G    I KLN+ +VPTL FFK G K AE+VG DV R+K +   LYK
Sbjct: 109 DIDEGGLSNAIGKLNVSAVPTLQFFKGGVKKAEIVGVDVVRLKSVMEQLYK 159
[Close]
BLAST of Spo25340.1 vs. ExPASy Swiss-Prot
Match: TRXO_ORYSJ (Thioredoxin O, mitochondrial OS=Oryza sativa subsp. japonica GN=Os06g0665900 PE=2 SV=2)

HSP 1 Score: 110.9 bits (276), Expect = 1.600e-23
Identity = 65/173 (37.57%), Postives = 101/173 (58.38%), Query Frame = 1 

		  

Query: 21  QLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLT-IPTAACVFSSFSFGSRSYSSDSE 80
           +L  ++P ++++  S +  LP       P PLS+    P+ + +FS+    + S S DS 
Sbjct: 9   RLPRLLPLAAAAAAS-KPYLPGKPSPAPPPPLSSPPPFPSLSRLFST----TPSSSGDSS 68

Query: 81  LPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFLWPDMKKLSERFPDVKFY 140
           +    V+V S +  T+ + K E E   A+FY+TAVWCGPC+ + P + KLS R+P +  Y
Sbjct: 69  M----VVVGSAESFTSIMSKVEAEKLPAVFYYTAVWCGPCRAMAPVISKLSSRYPKIPIY 128

Query: 141 KIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVKRIKDISSTLYK 193
           K+DID  G G  +S L I SVPT HF+  G+K  EVVGA+  +++    +L+K
Sbjct: 129 KVDIDMDGVGSKLSDLKIFSVPTFHFYYQGRKTGEVVGANATKLESTMESLHK 172
[Close]
BLAST of Spo25340.1 vs. ExPASy Swiss-Prot
Match: TDX_ORYSJ (TPR repeat-containing thioredoxin TDX OS=Oryza sativa subsp. japonica GN=Os09g0401200 PE=2 SV=1)

HSP 1 Score: 89.0 bits (219), Expect = 6.300e-17
Identity = 40/97 (41.24%), Postives = 60/97 (61.86%), Query Frame = 1 

		  

Query: 83  NVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFLWPDMKKLSERFPDVKFYKID 142
           +V+ + S  +L   L+ A   S   + YFTA WCGPC+F+ P  K L+E+  +V F K+D
Sbjct: 209 DVIAIHSSSELDTKLKAASSLSRLVVLYFTAAWCGPCRFIGPVCKSLAEKHRNVVFLKVD 268

Query: 143 IDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGAD 180
           IDE+ +     + N+ SVP+  F +NGK+  +VVGAD
Sbjct: 269 IDELNS--VAYRWNVSSVPSFFFVRNGKEIDKVVGAD 303
[Close]
BLAST of Spo25340.1 vs. ExPASy Swiss-Prot
Match: TRXH1_ORYSJ (Thioredoxin H1 OS=Oryza sativa subsp. japonica GN=TRXH PE=1 SV=1)

HSP 1 Score: 81.3 bits (199), Expect = 1.300e-14
Identity = 39/110 (35.45%), Postives = 64/110 (58.18%), Query Frame = 1 

		  

Query: 84  VVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFLWPDMKKLSERFPDVKFYKIDI 143
           V+   + D+  A + KA++     I  FTA WCGPC+F+ P   + +++FP   F K+D+
Sbjct: 8   VIACHNKDEFDAQMTKAKEAGKVVIIDFTASWCGPCRFIAPVFAEYAKKFPGAVFLKVDV 67

Query: 144 DEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVKRIKDISSTLYKN 194
           DE+       K N+ ++PT  F K+G +A +VVGA   R  D+ +T+ K+
Sbjct: 68  DEL--KEVAEKYNVEAMPTFLFIKDGAEADKVVGA---RKDDLQNTIVKH 112
[Close]
BLAST of Spo25340.1 vs. TAIR (Arabidopsis)
Match: AT2G35010.1 (thioredoxin O1)

HSP 1 Score: 136.0 bits (341), Expect = 2.500e-32
Identity = 83/190 (43.68%), Postives = 119/190 (62.63%), Query Frame = 1 

		  

Query: 4   RFSALRSSVLQPLLRRHQLRPIIPRSSSSPVSTQSALPSPTQFTSPMPLSTLTIPTAACV 63
           +FS LRSS     L    +RP++     +P S  S +   + FT+    S +  P+    
Sbjct: 15  QFSTLRSSTPSSRLST-SIRPLV----LAPNSISSLIARNSLFTA----SNIG-PSIDFN 74

Query: 64  FSSFSFGSR-SYSSDSELPSNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFL 123
           FS+ S   R S  S++   + VVLV+S+++   ++ KA+D S  ++FYFTA WCGPC+F+
Sbjct: 75  FSNTSLPHRRSLCSEAGGENGVVLVKSEEEFINAMSKAQDGSLPSVFYFTAAWCGPCRFI 134

Query: 124 WPDMKKLSERFPDVKFYKIDIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVKR 183
            P + +LS+++PDV  YK+DIDE G   TISKLNI +VPTLHFFK G K  EVVGADV +
Sbjct: 135 SPVIVELSKQYPDVTTYKVDIDEGGISNTISKLNITAVPTLHFFKGGSKKGEVVGADVTK 194

Query: 184 IKDISSTLYK 193
           +K++   LYK
Sbjct: 195 LKNLMEQLYK 194
[Close]
BLAST of Spo25340.1 vs. TAIR (Arabidopsis)
Match: AT1G31020.1 (thioredoxin O2)

HSP 1 Score: 124.8 bits (312), Expect = 5.900e-29
Identity = 55/111 (49.55%), Postives = 77/111 (69.37%), Query Frame = 1 

		  

Query: 82  SNVVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFLWPDMKKLSERFPDVKFYKI 141
           S+ V+++S+ +  ++L KA D S  ++FYFTA WCGPC+ + P + +LS ++PDV  YK+
Sbjct: 49  SSFVVLKSEAEFNSALSKARDGSLPSVFYFTAAWCGPCRLISPVILELSNKYPDVTTYKV 108

Query: 142 DIDEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVKRIKDISSTLYK 193
           DIDE G    I KLN+ +VPTL FFK G K AE+VG DV R+K +   LYK
Sbjct: 109 DIDEGGLSNAIGKLNVSAVPTLQFFKGGVKKAEIVGVDVVRLKSVMEQLYK 159
[Close]
BLAST of Spo25340.1 vs. TAIR (Arabidopsis)
Match: AT3G17880.1 (tetraticopeptide domain-containing thioredoxin)

HSP 1 Score: 78.6 bits (192), Expect = 4.800e-15
Identity = 38/96 (39.58%), Postives = 55/96 (57.29%), Query Frame = 1 

		  

Query: 84  VVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFLWPDMKKLSERFPDVKFYKIDI 143
           V+ + S  +L A  + A+  S   I YFTA WCGPC+++ P    L+ +   V F K+DI
Sbjct: 272 VISIHSTSELEAKTKAAKKASRLLILYFTATWCGPCRYMSPLYSNLATQHSRVVFLKVDI 331

Query: 144 DEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGAD 180
           D+       +  NI SVPT  F ++GK+  +VVGAD
Sbjct: 332 DK--ANDVAASWNISSVPTFCFIRDGKEVDKVVGAD 365
[Close]
BLAST of Spo25340.1 vs. TAIR (Arabidopsis)
Match: AT3G51030.1 (thioredoxin H-type 1)

HSP 1 Score: 70.5 bits (171), Expect = 1.300e-12
Identity = 37/110 (33.64%), Postives = 61/110 (55.45%), Query Frame = 1 

		  

Query: 84  VVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFLWPDMKKLSERFPDVKFYKIDI 143
           V+   + +     L+KA +  +  +  FTA WCGPC+F+ P    L+++ P+V F K+D 
Sbjct: 8   VIACHTVETWNEQLQKANESKTLVVVDFTASWCGPCRFIAPFFADLAKKLPNVLFLKVDT 67

Query: 144 DEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVKRIKDISSTLYKN 194
           DE+ +    S   I ++PT  F K GK   +VVGA   +  ++ ST+ K+
Sbjct: 68  DELKS--VASDWAIQAMPTFMFLKEGKILDKVVGA---KKDELQSTIAKH 112
[Close]
BLAST of Spo25340.1 vs. TAIR (Arabidopsis)
Match: AT1G69880.1 (thioredoxin H-type 8)

HSP 1 Score: 69.3 bits (168), Expect = 2.900e-12
Identity = 31/101 (30.69%), Postives = 60/101 (59.41%), Query Frame = 1 

		  

Query: 84  VVLVQSDDQLTASLRKAEDESSQAIFYFTAVWCGPCQFLWPDMKKLSERFPDVKFYKIDI 143
           +V +++ +Q  + L   +D +   +  FTA WCGPC+ L P +++L+ ++ DV+F KID+
Sbjct: 39  IVEIKNMNQWKSRLNALKDTNKLLVIEFTAKWCGPCKTLEPKLEELAAKYTDVEFVKIDV 98

Query: 144 DEVGTGPTISKLNICSVPTLHFFKNGKKAAEVVGADVKRIK 185
           D + +     + N+ ++P + F K G++   VVG  V  ++
Sbjct: 99  DVLMS--VWMEFNLSTLPAIVFMKRGREVDMVVGVKVDELE 137
The following BLAST results are available for this feature:
BLAST of Spo25340.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902131353|gb|KNA04264.1|7.1e-101100.hypothetical protein SOVF_2013... [more]
gi|731346099|ref|XP_010684276.1|1.4e-6976.4PREDICTED: thioredoxin O2, mit... [more]
gi|731346097|ref|XP_010684275.1|1.4e-6976.4PREDICTED: thioredoxin O2, mit... [more]
gi|731346101|ref|XP_010684277.1|5.5e-6976.3PREDICTED: thioredoxin O2, mit... [more]
gi|731346093|ref|XP_010684273.1|1.3e-6568.2PREDICTED: thioredoxin O2, mit... [more]
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BLAST of Spo25340.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9QAH7_SPIOL4.9e-101100.Uncharacterized protein (Fragm... [more]
A0A0J8C1G1_BETVU1.0e-6976.4Uncharacterized protein OS=Bet... [more]
K4B7I2_SOLLC6.8e-3458.2Uncharacterized protein OS=Sol... [more]
A0A0V0HC56_SOLCH1.5e-3356.5Putative thioredoxin O1, mitoc... [more]
M1AP60_SOLTU1.5e-3356.5Uncharacterized protein OS=Sol... [more]
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BLAST of Spo25340.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 5
Match NameE-valueIdentityDescription
TRXO1_ARATH4.5e-3143.6Thioredoxin O1, mitochondrial ... [more]
TRXO2_ARATH1.0e-2749.5Thioredoxin O2, mitochondrial ... [more]
TRXO_ORYSJ1.6e-2337.5Thioredoxin O, mitochondrial O... [more]
TDX_ORYSJ6.3e-1741.2TPR repeat-containing thioredo... [more]
TRXH1_ORYSJ1.3e-1435.4Thioredoxin H1 OS=Oryza sativa... [more]
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BLAST of Spo25340.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 5
Match NameE-valueIdentityDescription
AT2G35010.12.5e-3243.6thioredoxin O1[more]
AT1G31020.15.9e-2949.5thioredoxin O2[more]
AT3G17880.14.8e-1539.5tetraticopeptide domain-contai... [more]
AT3G51030.11.3e-1233.6thioredoxin H-type 1[more]
AT1G69880.12.9e-1230.6thioredoxin H-type 8[more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR005746ThioredoxinPANTHERPTHR10438THIOREDOXINcoord: 14..194
score: 3.4
IPR012336Thioredoxin-like foldGENE3D3.40.30.10coord: 78..185
score: 4.2
IPR012336Thioredoxin-like foldunknownSSF52833Thioredoxin-likecoord: 81..179
score: 4.77
IPR013766Thioredoxin domainPFAMPF00085Thioredoxincoord: 101..181
score: 1.0
IPR013766Thioredoxin domainPROFILEPS51352THIOREDOXIN_2coord: 74..194
score: 10
NoneNo IPR availablePANTHERPTHR10438:SF275THIOREDOXIN O1, MITOCHONDRIAL-RELATEDcoord: 14..194
score: 3.4

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0045454 cell redox homeostasis
biological_process GO:0006120 mitochondrial electron transport, NADH to ubiquinone
biological_process GO:0034976 response to endoplasmic reticulum stress
biological_process GO:0042254 ribosome biogenesis
biological_process GO:0010103 stomatal complex morphogenesis
biological_process GO:0009627 systemic acquired resistance
biological_process GO:0006412 translation
biological_process GO:0006662 glycerol ether metabolic process
biological_process GO:0006354 DNA-templated transcription, elongation
biological_process GO:0009853 photorespiration
biological_process GO:0080129 proteasome core complex assembly
biological_process GO:0051788 response to misfolded protein
biological_process GO:0006511 ubiquitin-dependent protein catabolic process
biological_process GO:1902600 proton transmembrane transport
biological_process GO:0010143 cutin biosynthetic process
biological_process GO:0006814 sodium ion transport
biological_process GO:0006744 ubiquinone biosynthetic process
biological_process GO:0016556 mRNA modification
biological_process GO:0055114 oxidation-reduction process
biological_process GO:0019447 D-cysteine catabolic process
biological_process GO:0009693 ethylene biosynthetic process
biological_process GO:0006094 gluconeogenesis
biological_process GO:0006096 glycolytic process
biological_process GO:0042744 hydrogen peroxide catabolic process
biological_process GO:0019288 isopentenyl diphosphate biosynthetic process, methylerythritol 4-phosphate pathway
biological_process GO:0032880 regulation of protein localization
biological_process GO:0009651 response to salt stress
biological_process GO:0001676 long-chain fatty acid metabolic process
biological_process GO:0010025 wax biosynthetic process
biological_process GO:0016192 vesicle-mediated transport
biological_process GO:0042967 obsolete acyl-carrier-protein biosynthetic process
biological_process GO:0009086 methionine biosynthetic process
biological_process GO:0019761 glucosinolate biosynthetic process
biological_process GO:0019344 cysteine biosynthetic process
biological_process GO:0006635 fatty acid beta-oxidation
biological_process GO:0016573 histone acetylation
biological_process GO:0071806 protein transmembrane transport
biological_process GO:0000394 RNA splicing, via endonucleolytic cleavage and ligation
biological_process GO:0016558 protein import into peroxisome matrix
biological_process GO:0006626 protein targeting to mitochondrion
biological_process GO:0015031 protein transport
biological_process GO:0006914 autophagy
cellular_component GO:0005783 endoplasmic reticulum
cellular_component GO:0005742 mitochondrial outer membrane translocase complex
cellular_component GO:0005774 vacuolar membrane
cellular_component GO:0005747 mitochondrial respiratory chain complex I
cellular_component GO:0016020 membrane
cellular_component GO:0031972 chloroplast intermembrane space
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0009507 chloroplast
cellular_component GO:0009941 chloroplast envelope
cellular_component GO:0005739 mitochondrion
cellular_component GO:0000123 histone acetyltransferase complex
cellular_component GO:0015934 large ribosomal subunit
cellular_component GO:0009570 chloroplast stroma
cellular_component GO:0005829 cytosol
cellular_component GO:0005777 peroxisome
cellular_component GO:0005778 peroxisomal membrane
cellular_component GO:0005840 ribosome
cellular_component GO:0080008 Cul4-RING E3 ubiquitin ligase complex
molecular_function GO:0016740 transferase activity
molecular_function GO:0019148 D-cysteine desulfhydrase activity
molecular_function GO:0050897 cobalt ion binding
molecular_function GO:0008660 1-aminocyclopropane-1-carboxylate deaminase activity
molecular_function GO:0005515 protein binding
molecular_function GO:0015035 protein disulfide oxidoreductase activity
molecular_function GO:0004402 histone acetyltransferase activity
molecular_function GO:0005524 ATP binding
molecular_function GO:0003723 RNA binding
molecular_function GO:0004467 long-chain fatty acid-CoA ligase activity
molecular_function GO:0016491 oxidoreductase activity
molecular_function GO:0003735 structural constituent of ribosome
molecular_function GO:0015450 P-P-bond-hydrolysis-driven protein transmembrane transporter activity
molecular_function GO:0008137 NADH dehydrogenase (ubiquinone) activity
molecular_function GO:0031957 very long-chain fatty acid-CoA ligase activity
molecular_function GO:0005509 calcium ion binding
RNA-Seq Expression