Spo01967 (gene)

Overview
NameSpo01967
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionDehydroascorbate reductase
LocationSpoScf_01034 : 165426 .. 184833 (+)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

CGGGAGATTGGATTGGTTTCCGCTTTCCACTTTCCAGAAGTAAGAGGCCGAGGCGAAATGTCGACCGTTAAAATAACACCAGTCGCGTATTCACTTTCATCATCGACCCTCAAACGCCAGCTAATCCCAAATCCCCAATTCCACCGCCGCAATCGCACCATTTTCACCCAGCATTTCAAGAACGGAACCCAAAGAAACCTTACTGTGTCCATGTCTAGTTCGGACCCACTCCAAATATGCGTCAAGGAATCTGTCACCACCCCCAACAAGCTTGGCGATTGTCCATTTTGCCAAAGAGTGTTGTTGACTTTAGAAGAAAAGCATCTCCCTTATGATATGAAGCTGGTAGACTTAAGTAACAAGCCAGAGTGGTTTACAAATATCAATCCAGATGGTAAAGTACCTGTGGTGAAATTCGATGAAAATTGGGTTGCAGATTCAGATATCATCGCAAAGTCCCTAGAAGAGAGATACCCAAATCCACCTTTGGCAACACCTGACGAGAAGAGTTCAGTTGGCTCAAAAATCTTTCCTGCATTTGTTGGTTTTATTAAAAGCAAGGACCCCAGCGATGGAAAAGAGCAGGGATTACTGAACGAGCTCAGTTCCTTCAATGATTACCTGAAAGAAAATGGACCTTTTATCAACGGGGAGAAGATCTCTGCTGCGGACCTAGCTCTTGGACCAAAGCTTTACCATATGGAGATTGCATTGGGACATTACAAGAATTGGTCAGTTCCAGAGTCACTTCCGTATGTGAAGTCTTATATGAAGAATATATTTTCCAGGGATTCATTTGTGAAAACAATTGCATCAACAGAGGATGTGATTGCCGGCTGGGCAAAGCACACAAGCTGAAGCTGTCCAAGATATATGGGCACTTTGATTCCCTGCAGGAAGACTACCCTTGGTGTGAATGGTTGGGTCTTAAGATATCAAAATGATTTTGGCAACTTGCAATGGCTTGAATGTAAATTAAGCATCCTAATTGTGTAGTGTTGTAAAGACTTGTATACTTACAAAATCCATGAAAAGTGTTCAGTGTGAAAATATTAAATGTCGGGTAATCCATGGTCACATTAACATCAATCCTTGAGTGAAACTTTTCATTATAATTCTTTTTTTTTGGGACAAGGAGTTCATTAAACGAAGAATGTATTACAACATATATATAGGAAAACAGAAGGGAACTAACATACAAACTACACGTTGAAAGAAATTACAAACATTGGAAACCAAACCACAACCGGATTGCAAGACCAAAACCTTACTGATTTGCAGCTCCAAACCACAAACTCGAACCCTGCAAAACAAACTACTTACCAAAACTTCTGCCAAATTTTTTGAGAGGATGAATATTAGGGGCACTTAAAACAGAGCAAAGAAGGGACAATGACGTCGGTAAAGGGGCCTAAACCACGCAAAAGCAACGTAACTAAACTTTGATGGAGGATTATGAGAGATCGCACTAGAATGCCATACCCTAACCACTCCTAGGGATCGAATTGCACTTCTTGAGAGTCTTGAGACATTGCCAAGGGAGCCACATTACTTAGTGGCTCCTCGATGGATACACCTGCATCAAAAGTGCAGGACATCCTGCATCCCACGACAAAAGAAAACAGGAAACTTGAGGGCTTTGCTT

Coding sequence (CDS)

ATGTCGACCGTTAAAATAACACCAGTCGCGTATTCACTTTCATCATCGACCCTCAAACGCCAGCTAATCCCAAATCCCCAATTCCACCGCCGCAATCGCACCATTTTCACCCAGCATTTCAAGAACGGAACCCAAAGAAACCTTACTGTGTCCATGTCTAGTTCGGACCCACTCCAAATATGCGTCAAGGAATCTGTCACCACCCCCAACAAGCTTGGCGATTGTCCATTTTGCCAAAGAGTGTTGTTGACTTTAGAAGAAAAGCATCTCCCTTATGATATGAAGCTGGTAGACTTAAGTAACAAGCCAGAGTGGTTTACAAATATCAATCCAGATGGTAAAGTACCTGTGGTGAAATTCGATGAAAATTGGGTTGCAGATTCAGATATCATCGCAAAGTCCCTAGAAGAGAGATACCCAAATCCACCTTTGGCAACACCTGACGAGAAGAGTTCAGTTGGCTCAAAAATCTTTCCTGCATTTGTTGGTTTTATTAAAAGCAAGGACCCCAGCGATGGAAAAGAGCAGGGATTACTGAACGAGCTCAGTTCCTTCAATGATTACCTGAAAGAAAATGGACCTTTTATCAACGGGGAGAAGATCTCTGCTGCGGACCTAGCTCTTGGACCAAAGCTTTACCATATGGAGATTGCATTGGGACATTACAAGAATTGGTCAGTTCCAGAGTCACTTCCGTATGTGAAGTCTTATATGAAGAATATATTTTCCAGGGATTCATTTGTGAAAACAATTGCATCAACAGAGGATGTGATTGCCGGCTGGGCAAAGCACACAAGCTGA

Protein sequence

MSTVKITPVAYSLSSSTLKRQLIPNPQFHRRNRTIFTQHFKNGTQRNLTVSMSSSDPLQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPVVKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKEQGLLNELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVKSYMKNIFSRDSFVKTIASTEDVIAGWAKHTS
Relationships

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

Feature NameUnique NameType
Spo01967.1Spo01967.1mRNA


Homology
[Close]
BLAST of Spo01967.1 vs. NCBI nr
Match: gi|10952512|gb|AAG24945.1|AF195783_1 (dehydroascorbate reductase [Spinacia oleracea])

HSP 1 Score: 544.3 bits (1401), Expect = 1.200e-151
Identity = 266/266 (100.00%), Postives = 266/266 (100.00%), Query Frame = 1 

		  

Query: 1   MSTVKITPVAYSLSSSTLKRQLIPNPQFHRRNRTIFTQHFKNGTQRNLTVSMSSSDPLQI 60
           MSTVKITPVAYSLSSSTLKRQLIPNPQFHRRNRTIFTQHFKNGTQRNLTVSMSSSDPLQI
Sbjct: 1   MSTVKITPVAYSLSSSTLKRQLIPNPQFHRRNRTIFTQHFKNGTQRNLTVSMSSSDPLQI 60

Query: 61  CVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPVVKF 120
           CVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPVVKF
Sbjct: 61  CVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPVVKF 120

Query: 121 DENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKEQGLLN 180
           DENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKEQGLLN
Sbjct: 121 DENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKEQGLLN 180

Query: 181 ELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVKSYMKN 240
           ELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVKSYMKN
Sbjct: 181 ELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVKSYMKN 240

Query: 241 IFSRDSFVKTIASTEDVIAGWAKHTS 267
           IFSRDSFVKTIASTEDVIAGWAKHTS
Sbjct: 241 IFSRDSFVKTIASTEDVIAGWAKHTS 266
[Close]
BLAST of Spo01967.1 vs. NCBI nr
Match: gi|731319214|ref|XP_010670140.1| (PREDICTED: glutathione S-transferase DHAR3, chloroplastic [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 426.0 bits (1094), Expect = 4.800e-116
Identity = 217/271 (80.07%), Postives = 236/271 (87.08%), Query Frame = 1 

		  

Query: 1   MSTVKITP----VAYSLSS--STLKRQLI-PNPQFHRRNRTIFTQHFKNGTQRNLTVSMS 60
           MSTVKITP     AYSLSS  ST KR ++  NPQF   NRT    +F++   R L VSMS
Sbjct: 1   MSTVKITPPASAAAYSLSSISSTFKRPVVFCNPQFQHCNRT----NFRHTPTRALAVSMS 60

Query: 61  SSDPLQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDG 120
           S  PLQ+CVKES+TTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDL+NKP+WFT +NP+G
Sbjct: 61  SQ-PLQVCVKESITTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLTNKPDWFTKMNPEG 120

Query: 121 KVPVVKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDG 180
           KVPV+KFDE WV DSD+IAKSLEERYP+PPLAT  EKSSVGSK+FPAFVGF+KSKDPSDG
Sbjct: 121 KVPVMKFDEKWVPDSDVIAKSLEERYPDPPLATLPEKSSVGSKVFPAFVGFLKSKDPSDG 180

Query: 181 KEQGLLNELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPY 240
           KEQ LLNELSSFND LKENGP INGEKISAADL+LGPKLYHMEIALGHYKNWSVP+SLPY
Sbjct: 181 KEQELLNELSSFNDNLKENGPLINGEKISAADLSLGPKLYHMEIALGHYKNWSVPDSLPY 240

Query: 241 VKSYMKNIFSRDSFVKTIASTEDVIAGWAKH 265
           VKSYMKNIFSRDSF KTIAS EDV+AGWAKH
Sbjct: 241 VKSYMKNIFSRDSFQKTIASYEDVVAGWAKH 266
[Close]
BLAST of Spo01967.1 vs. NCBI nr
Match: gi|870866241|gb|KMT17237.1| (hypothetical protein BVRB_2g039390 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 397.9 bits (1021), Expect = 1.400e-107
Identity = 186/211 (88.15%), Postives = 200/211 (94.79%), Query Frame = 1 

		  

Query: 54  SSDPLQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDG 113
           SS PLQ+CVKES+TTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDL+NKP+WFT +NP+G
Sbjct: 2   SSQPLQVCVKESITTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLTNKPDWFTKMNPEG 61

Query: 114 KVPVVKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDG 173
           KVPV+KFDE WV DSD+IAKSLEERYP+PPLAT  EKSSVGSK+FPAFVGF+KSKDPSDG
Sbjct: 62  KVPVMKFDEKWVPDSDVIAKSLEERYPDPPLATLPEKSSVGSKVFPAFVGFLKSKDPSDG 121

Query: 174 KEQGLLNELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPY 233
           KEQ LLNELSSFND LKENGP INGEKISAADL+LGPKLYHMEIALGHYKNWSVP+SLPY
Sbjct: 122 KEQELLNELSSFNDNLKENGPLINGEKISAADLSLGPKLYHMEIALGHYKNWSVPDSLPY 181

Query: 234 VKSYMKNIFSRDSFVKTIASTEDVIAGWAKH 265
           VKSYMKNIFSRDSF KTIAS EDV+AGWAKH
Sbjct: 182 VKSYMKNIFSRDSFQKTIASYEDVVAGWAKH 212
[Close]
BLAST of Spo01967.1 vs. NCBI nr
Match: gi|595333702|gb|AHM26862.1| (dehydroascorbate reductase [Siraitia grosvenorii])

HSP 1 Score: 375.2 bits (962), Expect = 9.700e-101
Identity = 184/266 (69.17%), Postives = 221/266 (83.08%), Query Frame = 1 

		  

Query: 1   MSTVKITPVAYSLSSSTLKRQLIPNPQFHRRNRTIFTQHF-----KNGTQRNLTVSMSSS 60
           +S+ +I P A+ LSSS   +QL  N  + R N  +   H      ++G +R L+VSMS++
Sbjct: 5   LSSSRIQPAAFVLSSSI--KQLGIN-SYPRSNFLVSPHHSSLCLRRSGARRTLSVSMSAT 64

Query: 61  DPLQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKV 120
            PL+ CVK S+T PN+LGDCPFCQRVLLTLEEKHLPYD+KLVDL+NKPEWF  IN +GKV
Sbjct: 65  -PLETCVKASITVPNRLGDCPFCQRVLLTLEEKHLPYDLKLVDLANKPEWFLKINSEGKV 124

Query: 121 PVVKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKE 180
           PV+KFDE WVADSD+I ++LEE+YPNPPLATP +KSSVGSKIF  F+ F+KSKDP+DG E
Sbjct: 125 PVIKFDEQWVADSDVITQTLEEKYPNPPLATPPDKSSVGSKIFSTFIAFVKSKDPNDGTE 184

Query: 181 QGLLNELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVK 240
           Q LL+ELSSFNDY+KENGPFING++ISAADL+LGPKLYH+EIALGHYKNWSVP+SLPYVK
Sbjct: 185 QALLSELSSFNDYIKENGPFINGKEISAADLSLGPKLYHLEIALGHYKNWSVPDSLPYVK 244

Query: 241 SYMKNIFSRDSFVKTIASTEDVIAGW 262
           SYMK+IFSR+SF KT A  EDVIAGW
Sbjct: 245 SYMKSIFSRESFAKTRALPEDVIAGW 266
[Close]
BLAST of Spo01967.1 vs. NCBI nr
Match: gi|694412206|ref|XP_009334436.1| (PREDICTED: glutathione S-transferase DHAR3, chloroplastic-like [Pyrus x bretschneideri])

HSP 1 Score: 372.5 bits (955), Expect = 6.300e-100
Identity = 183/263 (69.58%), Postives = 211/263 (80.23%), Query Frame = 1 

		  

Query: 1   MSTVKITPVAYSLSSSTLKRQLI--PNPQFHRRNRTIFTQHFKNGTQRNLTVSMSSSDPL 60
           ++T KI P A ++ SST+K  L   PN    R N        + GT R LTV+M +  PL
Sbjct: 2   LTTAKIHPAASAVLSSTIKHHLRSPPNAVVFRTNPNSLR---RRGTTRTLTVAMVA--PL 61

Query: 61  QICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPVV 120
            +C K S T PNKLGDCPFCQRVLLTLEEKHLPYD+KLVDL NKPEWF  IN +GKVPVV
Sbjct: 62  DVCAKASTTVPNKLGDCPFCQRVLLTLEEKHLPYDLKLVDLGNKPEWFLKINSEGKVPVV 121

Query: 121 KFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKEQGL 180
           K DE WVADSDII ++LEE+YP PPLATP EK+SVGSKIF  F+GF+KSKDP DG EQ L
Sbjct: 122 KLDEKWVADSDIITQALEEKYPEPPLATPPEKASVGSKIFSTFIGFLKSKDPKDGTEQAL 181

Query: 181 LNELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVKSYM 240
           LNELSSFNDYLK+NGPFING+++SAADL+LGPKLYH+EIALGH+K+WS+P+SLPYVKSYM
Sbjct: 182 LNELSSFNDYLKDNGPFINGKEVSAADLSLGPKLYHLEIALGHFKDWSIPDSLPYVKSYM 241

Query: 241 KNIFSRDSFVKTIASTEDVIAGW 262
           K+IFS DSFVKT A  EDVIAGW
Sbjct: 242 KSIFSLDSFVKTSALKEDVIAGW 259
[Close]
BLAST of Spo01967.1 vs. UniProtKB/TrEMBL
Match: Q9FVE4_SPIOL (Dehydroascorbate reductase OS=Spinacia oleracea GN=DHAR PE=2 SV=1)

HSP 1 Score: 544.3 bits (1401), Expect = 8.400e-152
Identity = 266/266 (100.00%), Postives = 266/266 (100.00%), Query Frame = 1 

		  

Query: 1   MSTVKITPVAYSLSSSTLKRQLIPNPQFHRRNRTIFTQHFKNGTQRNLTVSMSSSDPLQI 60
           MSTVKITPVAYSLSSSTLKRQLIPNPQFHRRNRTIFTQHFKNGTQRNLTVSMSSSDPLQI
Sbjct: 1   MSTVKITPVAYSLSSSTLKRQLIPNPQFHRRNRTIFTQHFKNGTQRNLTVSMSSSDPLQI 60

Query: 61  CVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPVVKF 120
           CVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPVVKF
Sbjct: 61  CVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPVVKF 120

Query: 121 DENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKEQGLLN 180
           DENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKEQGLLN
Sbjct: 121 DENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKEQGLLN 180

Query: 181 ELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVKSYMKN 240
           ELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVKSYMKN
Sbjct: 181 ELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVKSYMKN 240

Query: 241 IFSRDSFVKTIASTEDVIAGWAKHTS 267
           IFSRDSFVKTIASTEDVIAGWAKHTS
Sbjct: 241 IFSRDSFVKTIASTEDVIAGWAKHTS 266
[Close]
BLAST of Spo01967.1 vs. UniProtKB/TrEMBL
Match: A0A0J8CUE4_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_2g039390 PE=4 SV=1)

HSP 1 Score: 397.9 bits (1021), Expect = 9.700e-108
Identity = 186/211 (88.15%), Postives = 200/211 (94.79%), Query Frame = 1 

		  

Query: 54  SSDPLQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDG 113
           SS PLQ+CVKES+TTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDL+NKP+WFT +NP+G
Sbjct: 2   SSQPLQVCVKESITTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLTNKPDWFTKMNPEG 61

Query: 114 KVPVVKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDG 173
           KVPV+KFDE WV DSD+IAKSLEERYP+PPLAT  EKSSVGSK+FPAFVGF+KSKDPSDG
Sbjct: 62  KVPVMKFDEKWVPDSDVIAKSLEERYPDPPLATLPEKSSVGSKVFPAFVGFLKSKDPSDG 121

Query: 174 KEQGLLNELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPY 233
           KEQ LLNELSSFND LKENGP INGEKISAADL+LGPKLYHMEIALGHYKNWSVP+SLPY
Sbjct: 122 KEQELLNELSSFNDNLKENGPLINGEKISAADLSLGPKLYHMEIALGHYKNWSVPDSLPY 181

Query: 234 VKSYMKNIFSRDSFVKTIASTEDVIAGWAKH 265
           VKSYMKNIFSRDSF KTIAS EDV+AGWAKH
Sbjct: 182 VKSYMKNIFSRDSFQKTIASYEDVVAGWAKH 212
[Close]
BLAST of Spo01967.1 vs. UniProtKB/TrEMBL
Match: A0A0H3U218_SIRGR (Dehydroascorbate reductase OS=Siraitia grosvenorii PE=2 SV=1)

HSP 1 Score: 375.2 bits (962), Expect = 6.700e-101
Identity = 184/266 (69.17%), Postives = 221/266 (83.08%), Query Frame = 1 

		  

Query: 1   MSTVKITPVAYSLSSSTLKRQLIPNPQFHRRNRTIFTQHF-----KNGTQRNLTVSMSSS 60
           +S+ +I P A+ LSSS   +QL  N  + R N  +   H      ++G +R L+VSMS++
Sbjct: 5   LSSSRIQPAAFVLSSSI--KQLGIN-SYPRSNFLVSPHHSSLCLRRSGARRTLSVSMSAT 64

Query: 61  DPLQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKV 120
            PL+ CVK S+T PN+LGDCPFCQRVLLTLEEKHLPYD+KLVDL+NKPEWF  IN +GKV
Sbjct: 65  -PLETCVKASITVPNRLGDCPFCQRVLLTLEEKHLPYDLKLVDLANKPEWFLKINSEGKV 124

Query: 121 PVVKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKE 180
           PV+KFDE WVADSD+I ++LEE+YPNPPLATP +KSSVGSKIF  F+ F+KSKDP+DG E
Sbjct: 125 PVIKFDEQWVADSDVITQTLEEKYPNPPLATPPDKSSVGSKIFSTFIAFVKSKDPNDGTE 184

Query: 181 QGLLNELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVK 240
           Q LL+ELSSFNDY+KENGPFING++ISAADL+LGPKLYH+EIALGHYKNWSVP+SLPYVK
Sbjct: 185 QALLSELSSFNDYIKENGPFINGKEISAADLSLGPKLYHLEIALGHYKNWSVPDSLPYVK 244

Query: 241 SYMKNIFSRDSFVKTIASTEDVIAGW 262
           SYMK+IFSR+SF KT A  EDVIAGW
Sbjct: 245 SYMKSIFSRESFAKTRALPEDVIAGW 266
[Close]
BLAST of Spo01967.1 vs. UniProtKB/TrEMBL
Match: A9PDJ0_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0005s14550g PE=2 SV=1)

HSP 1 Score: 369.8 bits (948), Expect = 2.800e-99
Identity = 183/270 (67.78%), Postives = 217/270 (80.37%), Query Frame = 1 

		  

Query: 1   MSTVKITPV--AYSLSSSTLKRQLIPNPQFHRRNRTIFTQHF----KNGTQRNLTVSMSS 60
           MST +I P   A  + SST+K        F   +  + T H     +   +RNLTVSMS+
Sbjct: 1   MSTARIQPTVTAACVLSSTIKHH------FGLTSLRLPTNHSAAFRRQRIKRNLTVSMSA 60

Query: 61  ---SDPLQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINP 120
              S+PL+ICVK S+T P+KLGDCPFCQRVLLTLEEK+LPYDMK VDL NKPEWF  +NP
Sbjct: 61  TSVSEPLEICVKASLTVPDKLGDCPFCQRVLLTLEEKNLPYDMKFVDLGNKPEWFLKLNP 120

Query: 121 DGKVPVVKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPS 180
           DGKVPV+KF+ENWV+DSD+I ++LEE++P+PPLA P EK+SVGSKIF  F+GF+KSKDP 
Sbjct: 121 DGKVPVIKFEENWVSDSDVITQALEEKFPDPPLAIPPEKASVGSKIFSTFIGFLKSKDPG 180

Query: 181 DGKEQGLLNELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESL 240
           DG EQ LL+ELS+FND++KENGPFINGEK+SAADLALGPKLYH+EIALGHYKNWSVPESL
Sbjct: 181 DGTEQALLDELSAFNDHIKENGPFINGEKVSAADLALGPKLYHLEIALGHYKNWSVPESL 240

Query: 241 PYVKSYMKNIFSRDSFVKTIASTEDVIAGW 262
           PY+KSY+K IFSRDSFV T A  EDVIAGW
Sbjct: 241 PYIKSYLKEIFSRDSFVNTRALPEDVIAGW 264
[Close]
BLAST of Spo01967.1 vs. UniProtKB/TrEMBL
Match: J9WQY6_POPTO (Dehydroascorbate reductase OS=Populus tomentosa GN=DHAR1 PE=2 SV=2)

HSP 1 Score: 369.4 bits (947), Expect = 3.700e-99
Identity = 184/270 (68.15%), Postives = 216/270 (80.00%), Query Frame = 1 

		  

Query: 1   MSTVKITPV--AYSLSSSTLKRQLIPNPQFHRRNRTIFTQHF----KNGTQRNLTVSMSS 60
           MST +I P   A  + SST+K        F   +  + T H     +   +RNLTVSMS+
Sbjct: 1   MSTARIQPTVTAACVLSSTIKHH------FGLTSLRLPTNHSAAFRRQRIKRNLTVSMSA 60

Query: 61  ---SDPLQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINP 120
              SDPL+ICVK S+T P+KLGDCPFCQRVLLTLEEK+LPYDMK VDL NKPEWF  +NP
Sbjct: 61  TSISDPLEICVKASLTVPDKLGDCPFCQRVLLTLEEKNLPYDMKFVDLGNKPEWFLKLNP 120

Query: 121 DGKVPVVKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPS 180
           DGKVPV+KF+ENWV+DSD+I ++LEE++P+PPLA P EK+SVGSKIF  F+GF+KSKDP 
Sbjct: 121 DGKVPVIKFEENWVSDSDVITQALEEKFPDPPLAIPPEKASVGSKIFSTFIGFLKSKDPG 180

Query: 181 DGKEQGLLNELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESL 240
           DG EQ LL+ELS+ ND++KENGPFINGE++SAADLALGPKLYH+EIALGHYKNWSVPESL
Sbjct: 181 DGTEQALLDELSALNDHIKENGPFINGERVSAADLALGPKLYHLEIALGHYKNWSVPESL 240

Query: 241 PYVKSYMKNIFSRDSFVKTIASTEDVIAGW 262
           PYVKSYMK IFSRDSFV T A  EDVIAGW
Sbjct: 241 PYVKSYMKEIFSRDSFVNTRALPEDVIAGW 264
[Close]
BLAST of Spo01967.1 vs. ExPASy Swiss-Prot
Match: DHAR3_ARATH (Glutathione S-transferase DHAR3, chloroplastic OS=Arabidopsis thaliana GN=DHAR3 PE=1 SV=1)

HSP 1 Score: 354.0 bits (907), Expect = 1.400e-96
Identity = 161/221 (72.85%), Postives = 191/221 (86.43%), Query Frame = 1 

		  

Query: 41  KNGTQRNLTVSMSSSDPLQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLS 100
           K G         +++ PL+ICVK S+TTPNKLGDCPFCQ+VLLT+EEK++PYDMK+VDLS
Sbjct: 32  KPGRVGRFVTMATAASPLEICVKASITTPNKLGDCPFCQKVLLTMEEKNVPYDMKMVDLS 91

Query: 101 NKPEWFTNINPDGKVPVVKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPA 160
           NKPEWF  I+P+GKVPVVKFDE WV DSD+I ++LEE+YP PPLATP EK+SVGSKIF  
Sbjct: 92  NKPEWFLKISPEGKVPVVKFDEKWVPDSDVITQALEEKYPEPPLATPPEKASVGSKIFST 151

Query: 161 FVGFIKSKDPSDGKEQGLLNELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALG 220
           FVGF+KSKD  DG EQ LL+EL++FNDY+K+NGPFINGEKISAADL+L PKLYHM+IALG
Sbjct: 152 FVGFLKSKDSGDGTEQVLLDELTTFNDYIKDNGPFINGEKISAADLSLAPKLYHMKIALG 211

Query: 221 HYKNWSVPESLPYVKSYMKNIFSRDSFVKTIASTEDVIAGW 262
           HYKNWSVP+SLP+VKSYM+N+FSR+SF  T A TEDVIAGW
Sbjct: 212 HYKNWSVPDSLPFVKSYMENVFSRESFTNTRAETEDVIAGW 252
[Close]
BLAST of Spo01967.1 vs. ExPASy Swiss-Prot
Match: DHAR2_ARATH (Glutathione S-transferase DHAR2 OS=Arabidopsis thaliana GN=DHAR2 PE=1 SV=1)

HSP 1 Score: 269.6 bits (688), Expect = 3.600e-71
Identity = 128/205 (62.44%), Postives = 160/205 (78.05%), Query Frame = 1 

		  

Query: 58  LQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPV 117
           L ICVK +V  P+ LGDCPF QRVLLTLEEK LPY   L+++S+KP+WF +I+P+GKVPV
Sbjct: 3   LDICVKVAVGAPDVLGDCPFSQRVLLTLEEKKLPYKTHLINVSDKPQWFLDISPEGKVPV 62

Query: 118 VKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKEQG 177
           VK D  WVADSD+I   LEE+YP P L TP E +SVGSKIF AFV F+KSKD +DG E+ 
Sbjct: 63  VKLDGKWVADSDVIVGLLEEKYPEPSLKTPPEFASVGSKIFGAFVTFLKSKDANDGSEKA 122

Query: 178 LLNELSSFNDYLK-ENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVKS 237
           L++EL +  ++LK  +GPF+ GEKI+A DL+L PKLYH+E+ALGHYKNWSVPESL  V++
Sbjct: 123 LVDELEALENHLKTHSGPFVAGEKITAVDLSLAPKLYHLEVALGHYKNWSVPESLTSVRN 182

Query: 238 YMKNIFSRDSFVKTIASTEDVIAGW 262
           Y K +FSR+SF  T A  E V+AGW
Sbjct: 183 YAKALFSRESFENTKAKKEIVVAGW 207
[Close]
BLAST of Spo01967.1 vs. ExPASy Swiss-Prot
Match: DHAR1_ARATH (Glutathione S-transferase DHAR1, mitochondrial OS=Arabidopsis thaliana GN=DHAR1 PE=1 SV=1)

HSP 1 Score: 261.5 bits (667), Expect = 9.800e-69
Identity = 122/206 (59.22%), Postives = 157/206 (76.21%), Query Frame = 1 

		  

Query: 58  LQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPV 117
           L+ICVK +V  P+ LGDCPF QR LLTLEEK L Y + L++LS+KP+WF +I+P GKVPV
Sbjct: 3   LEICVKAAVGAPDHLGDCPFSQRALLTLEEKSLTYKIHLINLSDKPQWFLDISPQGKVPV 62

Query: 118 VKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKEQG 177
           +K D+ WV DSD+I   LEE+YP+PPL TP E +SVGS IF  F  F+KSKD +DG E  
Sbjct: 63  LKIDDKWVTDSDVIVGILEEKYPDPPLKTPAEFASVGSNIFGTFGTFLKSKDSNDGSEHA 122

Query: 178 LLNELSSFNDYLK-ENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVKS 237
           LL EL +  ++LK  +GPFI GE++SA DL+L PKLYH+++ALGH+K+WSVPES P+V +
Sbjct: 123 LLVELEALENHLKSHDGPFIAGERVSAVDLSLAPKLYHLQVALGHFKSWSVPESFPHVHN 182

Query: 238 YMKNIFSRDSFVKTIASTEDVIAGWA 263
           YMK +FS DSF KT    + VI+GWA
Sbjct: 183 YMKTLFSLDSFEKTKTEEKYVISGWA 208
[Close]
BLAST of Spo01967.1 vs. ExPASy Swiss-Prot
Match: DHAR4_ARATH (Putative glutathione S-transferase DHAR4 OS=Arabidopsis thaliana GN=DHAR4 PE=5 SV=1)

HSP 1 Score: 232.6 bits (592), Expect = 4.900e-60
Identity = 115/210 (54.76%), Postives = 153/210 (72.86%), Query Frame = 1 

		  

Query: 58  LQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPV 117
           +++CVK +   P+ LGDCPF QR+LLTLE+K LPY   L+D+S KP+WF  I+P GK+P+
Sbjct: 3   IEVCVKAASGAPDVLGDCPFGQRILLTLEDKKLPYKTHLIDVSLKPDWFLAISPKGKLPL 62

Query: 118 VKF--DENWVADSDIIAKSLEERYPNPPLAT-PDEKSSVGSKIFPAFVGFIKSKD-PSDG 177
           VKF  DENWVADSD+I   +EE+YP P L T P E +SVGSKI  AFV F+ SKD  +DG
Sbjct: 63  VKFDEDENWVADSDLIVGIIEEKYPEPSLVTFPPEFASVGSKIIGAFVMFLTSKDHANDG 122

Query: 178 KEQGLLNELSSFNDYLKEN-GPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLP 237
            +  LL+EL + + +LK + GPF+ G+K++  DL+L PKLYH+E  LGH+ +W VPESL 
Sbjct: 123 SDMALLDELEALDHHLKTHVGPFVAGDKVTVVDLSLAPKLYHLETTLGHFMDWCVPESLT 182

Query: 238 YVKSYMKNIFSRDSFVKTIASTEDVIAGWA 263
            V+ YMK +FS +SF KT A+ E +IA WA
Sbjct: 183 NVRDYMKVLFSLESFEKTKAAKEYLIASWA 212
[Close]
BLAST of Spo01967.1 vs. ExPASy Swiss-Prot
Match: CLIC6_RAT (Chloride intracellular channel protein 6 OS=Rattus norvegicus GN=Clic6 PE=1 SV=1)

HSP 1 Score: 97.8 bits (242), Expect = 1.900e-19
Identity = 62/210 (29.52%), Postives = 101/210 (48.10%), Query Frame = 1 

		  

Query: 72  LGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPVVKFDENWVADSDII 131
           +G+CPF QR+ + L  K + +++  VDL  KP    N+ P    P + FD     D + I
Sbjct: 392 IGNCPFSQRLFMILWLKGVIFNVTTVDLKRKPADLQNLAPGTNPPFMTFDGEVKTDVNKI 451

Query: 132 AKSLEE-----RYPNPPLATPDEKSSVGSKIFPAFVGFIKS--KDPSDGKEQGLLNELSS 191
            + LEE     RYP      P E +S G+ +F  F  FIK+  KD +D  E+ LL  L  
Sbjct: 452 EEFLEEKLVPPRYPKLGTQHP-ESNSAGNDVFAKFSAFIKNTKKDANDIYEKNLLRALKK 511

Query: 192 FNDYLKENGP-----------------FINGEKISAADLALGPKLYHMEIALGHYKNWSV 251
            + YL    P                 F++G++++ AD  L PKL+ ++I    Y+ +  
Sbjct: 512 LDSYLNSPLPDEIDAYSTEDVTVSQRKFLDGDELTLADCNLLPKLHIIKIVAKKYRGFEF 571

Query: 252 PESLPYVKSYMKNIFSRDSFVKTIASTEDV 258
           P  +  +  Y+ N ++RD F  T  + +++
Sbjct: 572 PSEMTGIWRYLNNAYARDEFTNTCPADQEI 600
[Close]
BLAST of Spo01967.1 vs. TAIR (Arabidopsis)
Match: AT5G16710.1 (dehydroascorbate reductase 1)

HSP 1 Score: 354.0 bits (907), Expect = 8.100e-98
Identity = 161/221 (72.85%), Postives = 191/221 (86.43%), Query Frame = 1 

		  

Query: 41  KNGTQRNLTVSMSSSDPLQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLS 100
           K G         +++ PL+ICVK S+TTPNKLGDCPFCQ+VLLT+EEK++PYDMK+VDLS
Sbjct: 32  KPGRVGRFVTMATAASPLEICVKASITTPNKLGDCPFCQKVLLTMEEKNVPYDMKMVDLS 91

Query: 101 NKPEWFTNINPDGKVPVVKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPA 160
           NKPEWF  I+P+GKVPVVKFDE WV DSD+I ++LEE+YP PPLATP EK+SVGSKIF  
Sbjct: 92  NKPEWFLKISPEGKVPVVKFDEKWVPDSDVITQALEEKYPEPPLATPPEKASVGSKIFST 151

Query: 161 FVGFIKSKDPSDGKEQGLLNELSSFNDYLKENGPFINGEKISAADLALGPKLYHMEIALG 220
           FVGF+KSKD  DG EQ LL+EL++FNDY+K+NGPFINGEKISAADL+L PKLYHM+IALG
Sbjct: 152 FVGFLKSKDSGDGTEQVLLDELTTFNDYIKDNGPFINGEKISAADLSLAPKLYHMKIALG 211

Query: 221 HYKNWSVPESLPYVKSYMKNIFSRDSFVKTIASTEDVIAGW 262
           HYKNWSVP+SLP+VKSYM+N+FSR+SF  T A TEDVIAGW
Sbjct: 212 HYKNWSVPDSLPFVKSYMENVFSRESFTNTRAETEDVIAGW 252
[Close]
BLAST of Spo01967.1 vs. TAIR (Arabidopsis)
Match: AT1G75270.1 (dehydroascorbate reductase 2)

HSP 1 Score: 269.6 bits (688), Expect = 2.000e-72
Identity = 128/205 (62.44%), Postives = 160/205 (78.05%), Query Frame = 1 

		  

Query: 58  LQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPV 117
           L ICVK +V  P+ LGDCPF QRVLLTLEEK LPY   L+++S+KP+WF +I+P+GKVPV
Sbjct: 3   LDICVKVAVGAPDVLGDCPFSQRVLLTLEEKKLPYKTHLINVSDKPQWFLDISPEGKVPV 62

Query: 118 VKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKEQG 177
           VK D  WVADSD+I   LEE+YP P L TP E +SVGSKIF AFV F+KSKD +DG E+ 
Sbjct: 63  VKLDGKWVADSDVIVGLLEEKYPEPSLKTPPEFASVGSKIFGAFVTFLKSKDANDGSEKA 122

Query: 178 LLNELSSFNDYLK-ENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVKS 237
           L++EL +  ++LK  +GPF+ GEKI+A DL+L PKLYH+E+ALGHYKNWSVPESL  V++
Sbjct: 123 LVDELEALENHLKTHSGPFVAGEKITAVDLSLAPKLYHLEVALGHYKNWSVPESLTSVRN 182

Query: 238 YMKNIFSRDSFVKTIASTEDVIAGW 262
           Y K +FSR+SF  T A  E V+AGW
Sbjct: 183 YAKALFSRESFENTKAKKEIVVAGW 207
[Close]
BLAST of Spo01967.1 vs. TAIR (Arabidopsis)
Match: AT1G19570.1 (dehydroascorbate reductase)

HSP 1 Score: 261.5 bits (667), Expect = 5.500e-70
Identity = 122/206 (59.22%), Postives = 157/206 (76.21%), Query Frame = 1 

		  

Query: 58  LQICVKESVTTPNKLGDCPFCQRVLLTLEEKHLPYDMKLVDLSNKPEWFTNINPDGKVPV 117
           L+ICVK +V  P+ LGDCPF QR LLTLEEK L Y + L++LS+KP+WF +I+P GKVPV
Sbjct: 3   LEICVKAAVGAPDHLGDCPFSQRALLTLEEKSLTYKIHLINLSDKPQWFLDISPQGKVPV 62

Query: 118 VKFDENWVADSDIIAKSLEERYPNPPLATPDEKSSVGSKIFPAFVGFIKSKDPSDGKEQG 177
           +K D+ WV DSD+I   LEE+YP+PPL TP E +SVGS IF  F  F+KSKD +DG E  
Sbjct: 63  LKIDDKWVTDSDVIVGILEEKYPDPPLKTPAEFASVGSNIFGTFGTFLKSKDSNDGSEHA 122

Query: 178 LLNELSSFNDYLK-ENGPFINGEKISAADLALGPKLYHMEIALGHYKNWSVPESLPYVKS 237
           LL EL +  ++LK  +GPFI GE++SA DL+L PKLYH+++ALGH+K+WSVPES P+V +
Sbjct: 123 LLVELEALENHLKSHDGPFIAGERVSAVDLSLAPKLYHLQVALGHFKSWSVPESFPHVHN 182

Query: 238 YMKNIFSRDSFVKTIASTEDVIAGWA 263
           YMK +FS DSF KT    + VI+GWA
Sbjct: 183 YMKTLFSLDSFEKTKTEEKYVISGWA 208
[Close]
BLAST of Spo01967.1 vs. TAIR (Arabidopsis)
Match: AT1G19550.1 (Glutathione S-transferase family protein)

HSP 1 Score: 166.0 bits (419), Expect = 3.100e-41
Identity = 84/171 (49.12%), Postives = 108/171 (63.16%), Query Frame = 1 

		  

Query: 94  MKLVDLSNKP--EWFTNINPDGKVPVVKFDENWVADSDIIAKSLEERYPNPPLATPDEKS 153
           M +V + + P  E F +I+P GKVPV+K D+ WV DSD     LEE+YP+PPL TP E +
Sbjct: 1   MLVVQICSSPSHEMFWDISPQGKVPVLKIDDKWVTDSDATVGILEEKYPDPPLKTPAEFA 60

Query: 154 SVGSKIFPAFVGFIKSKDPSDGKEQGLLNELSSFNDYLKENGPFINGEKISAADLALGPK 213
           SVGS IF A    +KS D                       GPFI GE++SA DL+L PK
Sbjct: 61  SVGSNIFEALENHLKSHD-----------------------GPFIAGERVSAVDLSLAPK 120

Query: 214 LYHMEIALGHYKNWSVPESLPYVKSYMKNIFSRDSFVKTIASTEDVIAGWA 263
           LYH+++ALGH+K+WSVPES P+V +YMK +FS DSF KT    + VI+GWA
Sbjct: 121 LYHLQVALGHFKSWSVPESFPHVHNYMKTLFSLDSFEKTKTEEKCVISGWA 148
The following BLAST results are available for this feature:
BLAST of Spo01967.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|10952512|gb|AAG24945.1|AF195783_11.2e-151100.dehydroascorbate reductase [Sp... [more]
gi|731319214|ref|XP_010670140.1|4.8e-11680.0PREDICTED: glutathione S-trans... [more]
gi|870866241|gb|KMT17237.1|1.4e-10788.1hypothetical protein BVRB_2g03... [more]
gi|595333702|gb|AHM26862.1|9.7e-10169.1dehydroascorbate reductase [Si... [more]
gi|694412206|ref|XP_009334436.1|6.3e-10069.5PREDICTED: glutathione S-trans... [more]
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BLAST of Spo01967.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
Q9FVE4_SPIOL8.4e-152100.Dehydroascorbate reductase OS=... [more]
A0A0J8CUE4_BETVU9.7e-10888.1Uncharacterized protein OS=Bet... [more]
A0A0H3U218_SIRGR6.7e-10169.1Dehydroascorbate reductase OS=... [more]
A9PDJ0_POPTR2.8e-9967.7Uncharacterized protein OS=Pop... [more]
J9WQY6_POPTO3.7e-9968.1Dehydroascorbate reductase OS=... [more]
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BLAST of Spo01967.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 5
Match NameE-valueIdentityDescription
DHAR3_ARATH1.4e-9672.8Glutathione S-transferase DHAR... [more]
DHAR2_ARATH3.6e-7162.4Glutathione S-transferase DHAR... [more]
DHAR1_ARATH9.8e-6959.2Glutathione S-transferase DHAR... [more]
DHAR4_ARATH4.9e-6054.7Putative glutathione S-transfe... [more]
CLIC6_RAT1.9e-1929.5Chloride intracellular channel... [more]
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BLAST of Spo01967.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 4
Match NameE-valueIdentityDescription
AT5G16710.18.1e-9872.8dehydroascorbate reductase 1[more]
AT1G75270.12.0e-7262.4dehydroascorbate reductase 2[more]
AT1G19570.15.5e-7059.2dehydroascorbate reductase[more]
AT1G19550.13.1e-4149.1Glutathione S-transferase fami... [more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR004045Glutathione S-transferase, N-terminalPFAMPF13417GST_N_3coord: 74..143
score: 2.0
IPR004045Glutathione S-transferase, N-terminalPROFILEPS50404GST_NTERcoord: 65..143
score: 14
IPR010987Glutathione S-transferase, C-terminal-likeGENE3D1.20.1050.10coord: 147..264
score: 5.9
IPR010987Glutathione S-transferase, C-terminal-likePROFILEPS50405GST_CTERcoord: 129..266
score: 10
IPR010987Glutathione S-transferase, C-terminal-likeunknownSSF47616GST C-terminal domain-likecoord: 138..262
score: 3.0
IPR012336Thioredoxin-like foldGENE3D3.40.30.10coord: 54..146
score: 4.9
IPR012336Thioredoxin-like foldunknownSSF52833Thioredoxin-likecoord: 74..142
score: 2.17
NoneNo IPR availablePANTHERPTHR11260GLUTATHIONE S-TRANSFERASE, GST, SUPERFAMILY, GST DOMAIN CONTAININGcoord: 40..261
score: 1.5E
NoneNo IPR availablePANTHERPTHR11260:SF171GLUTATHIONE S-TRANSFERASE DHAR3, CHLOROPLASTICcoord: 40..261
score: 1.5E
NoneNo IPR availablePFAMPF13410GST_C_2coord: 175..239
score: 3.

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006749 glutathione metabolic process
biological_process GO:0006508 proteolysis
biological_process GO:0055114 oxidation-reduction process
biological_process GO:0010731 protein glutathionylation
biological_process GO:0010583 response to cyclopentenone
biological_process GO:0009636 response to toxic substance
biological_process GO:0010027 thylakoid membrane organization
biological_process GO:0009407 toxin catabolic process
biological_process GO:0019852 L-ascorbic acid metabolic process
cellular_component GO:0009534 chloroplast thylakoid
cellular_component GO:0009840 chloroplastic endopeptidase Clp complex
cellular_component GO:0009570 chloroplast stroma
cellular_component GO:0009941 chloroplast envelope
molecular_function GO:0005515 protein binding
molecular_function GO:0004364 glutathione transferase activity
molecular_function GO:0045174 glutathione dehydrogenase (ascorbate) activity
molecular_function GO:0005524 ATP binding
molecular_function GO:0004252 serine-type endopeptidase activity
RNA-Seq Expression
   



Co-expression
Gener valueExpression
Spo255030.88Barchart | Table
Spo005380.85Barchart | Table
Spo108170.81Barchart | Table
Spo113360.79Barchart | Table
Spo218270.78Barchart | Table
Spo217160.78Barchart | Table
Spo108200.78Barchart | Table
Spo194070.77Barchart | Table
Spo093210.76Barchart | Table
Spo116290.75Barchart | Table
Spo030060.75Barchart | Table
Spo043870.75Barchart | Table
Spo084970.75Barchart | Table
Spo243070.74Barchart | Table
Spo007540.74Barchart | Table
Spo153430.74Barchart | Table
Spo164360.73Barchart | Table
Spo152440.73Barchart | Table
Spo053650.73Barchart | Table
Spo163920.73Barchart | Table
Spo094600.73Barchart | Table
Spo230670.73Barchart | Table
Spo238740.72Barchart | Table
Spo075490.71Barchart | Table
Spo027510.71Barchart | Table
Spo058100.71Barchart | Table
Spo123790.70Barchart | Table
Spo272360.70Barchart | Table
Spo259950.70Barchart | Table
Spo032130.70Barchart | Table
Spo134280.69Barchart | Table
Spo118040.69Barchart | Table
Spo116820.69Barchart | Table
Spo103000.69Barchart | Table
Spo239210.69Barchart | Table
Spo187840.68Barchart | Table
Spo193050.68Barchart | Table
Spo213000.68Barchart | Table
Spo250030.68Barchart | Table
Spo251750.68Barchart | Table
Spo269070.68Barchart | Table
Spo182320.68Barchart | Table
Spo040370.67Barchart | Table
Spo138360.67Barchart | Table
Spo259900.67Barchart | Table
Spo057080.67Barchart | Table
Spo043710.67Barchart | Table
Spo140510.66Barchart | Table
Spo150920.66Barchart | Table
Spo247710.66Barchart | Table
Spo093840.65Barchart | Table
Spo020490.65Barchart | Table
Spo081980.65Barchart | Table