Sgr025016 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr025016
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionGlutathione peroxidase
Locationtig00002854: 1323760 .. 1336839 (-)
RNA-Seq ExpressionSgr025016
SyntenySgr025016
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGCGCCTGCACCCCCTCCGCCTCCGCAACGATCTCCTCTCCCGTCGAGCTCGCGCTTTCATCCGTTACCGTCCGATCTTCAAACCCGATCTGACGAATTTCTCTGTAACACTCCTCCTCCTCCTCTTCCTCTTCCTCTTCCTCGCTGTTGGCTCTGTCTTCTTCCGAGGACAGAGGAACAAGCCAACAAGAGCCATGCAAATGCCCGTTCACACACACGAAATATTCCAAACCTCCATCGTGCGTCCCAAGCCGCCTAGCCGCGCTCTTCGGTACGAGCCGAGCCGATGTCATGCTCCACACCCGAGCCCCACAGTATGGGCATCTCGTTCTCTCTTCCAACCTCACTTGTCGTCTGATCAAGAATGCCCTAGTCTTCGATCTCATAAATCCCCGAAATACCCCTCTGTAGATCCCCAAATCGTCTTCATCGCTCCCGTTGGAATGCTCGCAGGGATCGCTCACGTACAGCAAATCTCCTCGACATTTCTTCGTGAGAAAGCTTCGGCCAGATGTTTTGGAGAAGCGAGACTCGTGGACAAAGGCGTGCCATCCACCGCCGACTCGGGCATTGGGCGCTCCGCTTGTCAATGCGGCCAACATCCGCGGAGCTCGATTGAAACAGAGTTGCCGCCAGAGCAGTCTTTCAGCTATGGCTCGAAGCTTCCGATTGAGGGAGGCGGTGGTGCAGAGCATCTGCAAGTCCCACTTGATGGTCTGGAAGACGAGAAGAAGTATGCGCTCGTTGAGGATGCCGGAGTCGGAACTCTGAGAGGGGGAGGAGCCTGCGATCCTGAAGAAACGTGTGGGGAAGTAATTGGAGGAGGGGACACGCGTCGAGAGGACATTGCCCAATTTGAGAAGGGAATCCAGGAGAAGCGTCAGCGGTTGAGGAGGAAAGAACACGTGTCCAATTGGGCTTTAGCAAATATCTATCTAGCTATCTCGTGGCTGCAAAAATATCTGCGGTTGTACGCGTCCGTTTCTGATCTGATCAAAACGTTTGACGCGAGTCCCTCCACTGCCACTACAAAGTTACAAACAACATCAAAGAAAGGAAAACATCTCTCTCTACTCCCGCCTTCTTCTGGTAATGGATGGTCTTTTGGTCTTGACCGCGCCCGAATATGTTGCTTGCTTCAAACGTGGCCTCCTCTCATCTCGACACCTGGCCCTGCCATCTCAAAGTCTATTTTATTTAAATCTGAGTTCATGTCATGTCTCGGAAATTTTCTTTTCGAAAACGACAACGTACGGGGAACAGAAGCGGATACACAGAAACAGAGGAAAAGAGAGAAGAAAATGGGTGCTTCTCAATCAGTCTCTGAGAAGTCCATTCATGAATTCGTGGTCAAGGATGCCAGAGGACAAGACGTGGACCTAGGCGTTTACAGGGGAAAGGTCCTTCTTGTGGTTAATGTTGCTTCCAAATGTGGTTACACAGACTCGAATTATACCCAGCTGACGGAGCTTTACAGCAAATACAAGGACAACGGATTCGAGATCCTGGCTTTTCCATGTAATCAGTTTTTGAATCAAGAACCTGGATCGAGTCAGGAGGCACAGGAATTTGCCTGTACAAGATTCAAAGCTGAGTATCCAATATTCCAAAAGGTAAGTGTGAATGGCCCTGACACGGCACCCCTCTATAAGTTCCTTAAAGCTAGTAAAACTGGATTTTTGGGGTCCAGAATAAAGTGGAATTTCACCAAGTTCTTAGTTAACAAAGAAGGTCATGCCATCAAACGCTATGGCACGATGACTACCCCCCTGGCAATTGAGGCCGATATCAAGGAAGCACTAGGAGAGAGTTCGAAATTGTATAATCTTATCTTTGTTTGGGTTGACAGAAGTAAGCAGATGGAGCTGTTCAGGGAGTCGGATGATCCACTCAGGAAAGGAGCAAAAACGAAGAGGAAAGTGGAAGGGTTTGAGGAGTGGTTTTCTGTCACGGATGGCAATGATAGTTCTTCTTTCATTCACAATGAGGAGTTCAAAGATCTGGTCATGGCAGCAATGTTCAAAGCAAATCAGAGAGCAGAGGGCAAGGCTTTATATCATATGGAGATGTGCTGTGATGCTTCTATGCTGGCATGA

Coding sequence (CDS)

ATGCGCCTGCACCCCCTCCGCCTCCGCAACGATCTCCTCTCCCGTCGAGCTCGCGCTTTCATCCGTTACCGTCCGATCTTCAAACCCGATCTGACGAATTTCTCTGTAACACTCCTCCTCCTCCTCTTCCTCTTCCTCTTCCTCGCTGTTGGCTCTGTCTTCTTCCGAGGACAGAGGAACAAGCCAACAAGAGCCATGCAAATGCCCGTTCACACACACGAAATATTCCAAACCTCCATCGTGCGTCCCAAGCCGCCTAGCCGCGCTCTTCGGTACGAGCCGAGCCGATGTCATGCTCCACACCCGAGCCCCACAGTATGGGCATCTCGTTCTCTCTTCCAACCTCACTTGTCGTCTGATCAAGAATGCCCTAGTCTTCGATCTCATAAATCCCCGAAATACCCCTCTGTAGATCCCCAAATCGTCTTCATCGCTCCCGTTGGAATGCTCGCAGGGATCGCTCACGTACAGCAAATCTCCTCGACATTTCTTCGTGAGAAAGCTTCGGCCAGATGTTTTGGAGAAGCGAGACTCGTGGACAAAGGCGTGCCATCCACCGCCGACTCGGGCATTGGGCGCTCCGCTTGTCAATGCGGCCAACATCCGCGGAGCTCGATTGAAACAGAGTTGCCGCCAGAGCAGTCTTTCAGCTATGGCTCGAAGCTTCCGATTGAGGGAGGCGGTGGTGCAGAGCATCTGCAAGTCCCACTTGATGGTCTGGAAGACGAGAAGAAGTATGCGCTCGTTGAGGATGCCGGAGTCGGAACTCTGAGAGGGGGAGGAGCCTGCGATCCTGAAGAAACGTGTGGGGAAGTAATTGGAGGAGGGGACACGCGTCGAGAGGACATTGCCCAATTTGAGAAGGGAATCCAGGAGAAGCGTCAGCGGTTGAGGAGGAAAGAACACGTGTCCAATTGGGCTTTAGCAAATATCTATCTAGCTATCTCGTGGCTGCAAAAATATCTGCGGTTGTACGCGTCCGTTTCTGATCTGATCAAAACGTTTGACGCGAGTCCCTCCACTGCCACTACAAAGTTACAAACAACATCAAAGAAAGGAAAACATCTCTCTCTACTCCCGCCTTCTTCTGGTAATGGATGGTCTTTTGGTCTTGACCGCGCCCGAATATGTTGCTTGCTTCAAACGTGGCCTCCTCTCATCTCGACACCTGGCCCTGCCATCTCAAAGTCTATTTTATTTAAATCTGAGTTCATGTCATGTCTCGGAAATTTTCTTTTCGAAAACGACAACGTACGGGGAACAGAAGCGGATACACAGAAACAGAGGAAAAGAGAGAAGAAAATGGGTGCTTCTCAATCAGTCTCTGAGAAGTCCATTCATGAATTCGTGGTCAAGGATGCCAGAGGACAAGACGTGGACCTAGGCGTTTACAGGGGAAAGGTCCTTCTTGTGGTTAATGTTGCTTCCAAATGTGGTTACACAGACTCGAATTATACCCAGCTGACGGAGCTTTACAGCAAATACAAGGACAACGGATTCGAGATCCTGGCTTTTCCATGTAATCAGTTTTTGAATCAAGAACCTGGATCGAGTCAGGAGGCACAGGAATTTGCCTGTACAAGATTCAAAGCTGAGTATCCAATATTCCAAAAGGTAAGTGTGAATGGCCCTGACACGGCACCCCTCTATAAGTTCCTTAAAGCTAGTAAAACTGGATTTTTGGGGTCCAGAATAAAGTGGAATTTCACCAAGTTCTTAGTTAACAAAGAAGGTCATGCCATCAAACGCTATGGCACGATGACTACCCCCCTGGCAATTGAGGCCGATATCAAGGAAGCACTAGGAGAGAGTTCGAAATTGTATAATCTTATCTTTGTTTGGGTTGACAGAAGTAAGCAGATGGAGCTGTTCAGGGAGTCGGATGATCCACTCAGGAAAGGAGCAAAAACGAAGAGGAAAGTGGAAGGGTTTGAGGAGTGGTTTTCTGTCACGGATGGCAATGATAGTTCTTCTTTCATTCACAATGAGGAGTTCAAAGATCTGGTCATGGCAGCAATGTTCAAAGCAAATCAGAGAGCAGAGGGCAAGGCTTTATATCATATGGAGATGTGCTGTGATGCTTCTATGCTGGCATGA

Protein sequence

MRLHPLRLRNDLLSRRARAFIRYRPIFKPDLTNFSVTLLLLLFLFLFLAVGSVFFRGQRNKPTRAMQMPVHTHEIFQTSIVRPKPPSRALRYEPSRCHAPHPSPTVWASRSLFQPHLSSDQECPSLRSHKSPKYPSVDPQIVFIAPVGMLAGIAHVQQISSTFLREKASARCFGEARLVDKGVPSTADSGIGRSACQCGQHPRSSIETELPPEQSFSYGSKLPIEGGGGAEHLQVPLDGLEDEKKYALVEDAGVGTLRGGGACDPEETCGEVIGGGDTRREDIAQFEKGIQEKRQRLRRKEHVSNWALANIYLAISWLQKYLRLYASVSDLIKTFDASPSTATTKLQTTSKKGKHLSLLPPSSGNGWSFGLDRARICCLLQTWPPLISTPGPAISKSILFKSEFMSCLGNFLFENDNVRGTEADTQKQRKREKKMGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSKYKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLKASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGESSKLYNLIFVWVDRSKQMELFRESDDPLRKGAKTKRKVEGFEEWFSVTDGNDSSSFIHNEEFKDLVMAAMFKANQRAEGKALYHMEMCCDASMLA
Homology
[Close]
BLAST of Sgr025016 vs. NCBI nr
Match: XP_022155674.1 (probable glutathione peroxidase 5 [Momordica charantia])

HSP 1 Score: 329.3 bits (843), Expect = 7.9e-86
Identity = 161/169 (95.27%), Postives = 164/169 (97.04%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           MGASQSVSEKSIHEFVVKDARGQDVDL +YRGKVLLVVNVASKCGYTDSNYTQLTELYSK
Sbjct: 1   MGASQSVSEKSIHEFVVKDARGQDVDLSIYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           YKD GFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAP+YKFLK
Sbjct: 61  YKDKGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPVYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGE 604
           ASKTGFLGSRIKWNFTKFLV+KEG AIKRYGT TTPLAIEADIKE LGE
Sbjct: 121 ASKTGFLGSRIKWNFTKFLVDKEGRAIKRYGTTTTPLAIEADIKEVLGE 169

[Close]
BLAST of Sgr025016 vs. NCBI nr
Match: XP_038888023.1 (probable glutathione peroxidase 5 [Benincasa hispida])

HSP 1 Score: 326.2 bits (835), Expect = 6.7e-85
Identity = 158/169 (93.49%), Postives = 164/169 (97.04%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           MGASQSVSEKSIHEFVVKDARGQDVDL +YRGKVLLVVNVASKCGYTDSNYTQLTELY+K
Sbjct: 1   MGASQSVSEKSIHEFVVKDARGQDVDLSIYRGKVLLVVNVASKCGYTDSNYTQLTELYTK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           YK+ G EILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAP+YKFLK
Sbjct: 61  YKEKGLEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPIYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGE 604
           A KTGFLG+RIKWNFTKFLV+KEGHAIKRYGT TTPLAIEADIKEALGE
Sbjct: 121 ACKTGFLGTRIKWNFTKFLVDKEGHAIKRYGTTTTPLAIEADIKEALGE 169

[Close]
BLAST of Sgr025016 vs. NCBI nr
Match: XP_008449386.1 (PREDICTED: probable glutathione peroxidase 5 [Cucumis melo] >KAA0057378.1 putative glutathione peroxidase 5 [Cucumis melo var. makuwa] >TYK30067.1 putative glutathione peroxidase 5 [Cucumis melo var. makuwa])

HSP 1 Score: 325.5 bits (833), Expect = 1.1e-84
Identity = 157/169 (92.90%), Postives = 165/169 (97.63%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           MGASQSVSEKSIHEFVVKDARGQDVDL +YRGKVLLVVNVASKCGYTDSNYTQLTELY+K
Sbjct: 1   MGASQSVSEKSIHEFVVKDARGQDVDLSIYRGKVLLVVNVASKCGYTDSNYTQLTELYTK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           YK+ G EILAFPCNQFLNQEPGSSQ+AQEFACTRFKAEYPIFQKV+VNGPDTAP+YKFLK
Sbjct: 61  YKEKGLEILAFPCNQFLNQEPGSSQDAQEFACTRFKAEYPIFQKVNVNGPDTAPVYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGE 604
           ASKTGFLG+RIKWNFTKFLV+KEGHAIKRYGT TTPLAIEADIKEALGE
Sbjct: 121 ASKTGFLGTRIKWNFTKFLVDKEGHAIKRYGTTTTPLAIEADIKEALGE 169

[Close]
BLAST of Sgr025016 vs. NCBI nr
Match: XP_023533991.1 (probable glutathione peroxidase 5 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 321.2 bits (822), Expect = 2.1e-83
Identity = 155/170 (91.18%), Postives = 165/170 (97.06%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           MGASQSVSEKSIHEFVVKDA+G+DVDL +YRGKV+LVVNVASKCGYTDSNYTQLTELYSK
Sbjct: 1   MGASQSVSEKSIHEFVVKDAKGEDVDLSIYRGKVVLVVNVASKCGYTDSNYTQLTELYSK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           YK+ G EILAFPCNQFL+QEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAP+YKFLK
Sbjct: 61  YKERGLEILAFPCNQFLSQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPVYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGES 605
           ASKTGFLGSRIKWNFTKFLV+KEG AIKRYGT TTPL+IEADIKEALGE+
Sbjct: 121 ASKTGFLGSRIKWNFTKFLVDKEGRAIKRYGTTTTPLSIEADIKEALGEN 170

[Close]
BLAST of Sgr025016 vs. NCBI nr
Match: XP_004140088.1 (probable glutathione peroxidase 5 [Cucumis sativus] >KGN47873.1 hypothetical protein Csa_003111 [Cucumis sativus])

HSP 1 Score: 321.2 bits (822), Expect = 2.1e-83
Identity = 154/169 (91.12%), Postives = 165/169 (97.63%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           MG+SQSVSEKSIHEFVVKDARGQD+DL +YRGKVLLVVNVASKCGYTDSNYTQLTELY+K
Sbjct: 1   MGSSQSVSEKSIHEFVVKDARGQDLDLSIYRGKVLLVVNVASKCGYTDSNYTQLTELYTK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           YK+ G EILAFPCNQFLNQEPGSSQ+AQEFACTRFKAEYPIFQKV+VNGP+TAP+YKFLK
Sbjct: 61  YKEKGLEILAFPCNQFLNQEPGSSQDAQEFACTRFKAEYPIFQKVNVNGPNTAPVYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGE 604
           ASKTGFLG+RIKWNFTKFLV+KEGHAIKRYGT TTPLAIEADIKEALGE
Sbjct: 121 ASKTGFLGTRIKWNFTKFLVDKEGHAIKRYGTTTTPLAIEADIKEALGE 169

[Close]
BLAST of Sgr025016 vs. ExPASy Swiss-Prot
Match: Q8L910 (Probable glutathione peroxidase 4 OS=Arabidopsis thaliana OX=3702 GN=GPX4 PE=2 SV=1)

HSP 1 Score: 265.8 bits (678), Expect = 1.4e-69
Identity = 124/170 (72.94%), Postives = 147/170 (86.47%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           MGAS SV E+S+H+F VKD+ G+D+++ +Y+GKVLL+VNVASKCG+T++NYTQLTELY K
Sbjct: 1   MGASASVPERSVHQFTVKDSSGKDLNMSIYQGKVLLIVNVASKCGFTETNYTQLTELYRK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           YKD  FEILAFPCNQFL QEPG+SQEA EFAC RFKAEYP+FQKV VNG + AP+YKFLK
Sbjct: 61  YKDQDFEILAFPCNQFLYQEPGTSQEAHEFACERFKAEYPVFQKVRVNGQNAAPIYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGES 605
           ASK  FLGSRIKWNFTKFLV K+G  I RYGTM TPL+IE DIK+AL ++
Sbjct: 121 ASKPTFLGSRIKWNFTKFLVGKDGLVIDRYGTMVTPLSIEKDIKKALEDA 170

[Close]
BLAST of Sgr025016 vs. ExPASy Swiss-Prot
Match: Q9LYB4 (Probable glutathione peroxidase 5 OS=Arabidopsis thaliana OX=3702 GN=GPX5 PE=1 SV=1)

HSP 1 Score: 261.9 bits (668), Expect = 2.0e-68
Identity = 124/171 (72.51%), Postives = 147/171 (85.96%), Query Frame = 0 

Query: 435 MGA--SQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELY 494
           MGA  S SVSEKSIH+F VKD+ G++VDL VY+GKVLLVVNVASKCG+T+SNYTQLTELY
Sbjct: 1   MGASSSSSVSEKSIHQFTVKDSSGKEVDLSVYQGKVLLVVNVASKCGFTESNYTQLTELY 60

Query: 495 SKYKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKF 554
            KYKD GF +LAFPCNQFL+QEPG+S+EA +FACTRFKAEYP+FQKV VNG + AP+YKF
Sbjct: 61  RKYKDQGFVVLAFPCNQFLSQEPGTSEEAHQFACTRFKAEYPVFQKVRVNGQNAAPVYKF 120

Query: 555 LKASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGE 604
           LK+ K  FLGSRIKWNFTKFLV K+G  I RYGT  +PL+I+ DI++AL +
Sbjct: 121 LKSKKPSFLGSRIKWNFTKFLVGKDGQVIDRYGTTVSPLSIQKDIEKALAQ 171

[Close]
BLAST of Sgr025016 vs. ExPASy Swiss-Prot
Match: O23814 (Probable phospholipid hydroperoxide glutathione peroxidase OS=Spinacia oleracea OX=3562 PE=2 SV=1)

HSP 1 Score: 242.7 bits (618), Expect = 1.3e-62
Identity = 110/168 (65.48%), Postives = 136/168 (80.95%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           M +  S   KS+HEFVV+DARG DVDL +Y+GKVLL+VNVAS+CG T+SNYT++TELY K
Sbjct: 1   MASDSSAQPKSVHEFVVRDARGNDVDLSIYKGKVLLIVNVASQCGLTNSNYTEMTELYEK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           Y++ G EILAFPCNQF NQEPGS++E  EFACTRFKAEYPIF KV VNG + AP+YKFLK
Sbjct: 61  YRELGLEILAFPCNQFGNQEPGSNEEVLEFACTRFKAEYPIFDKVDVNGSNAAPIYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALG 603
           +SK G  G  +KWNFTKFLV+K+G+ + RY   T+P +IE D+K+ LG
Sbjct: 121 SSKGGLFGDGLKWNFTKFLVDKDGNVVDRYAPTTSPKSIEKDVKKLLG 168

[Close]
BLAST of Sgr025016 vs. ExPASy Swiss-Prot
Match: P30708 (Probable phospholipid hydroperoxide glutathione peroxidase OS=Nicotiana sylvestris OX=4096 PE=2 SV=1)

HSP 1 Score: 238.8 bits (608), Expect = 1.8e-61
Identity = 111/166 (66.87%), Postives = 132/166 (79.52%), Query Frame = 0 

Query: 437 ASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSKYK 496
           ASQS   +SI++F VKDA+G DVDL +Y+GKVL++VNVAS+CG T+SNYT LTE+Y KYK
Sbjct: 2   ASQSSKPQSIYDFTVKDAKGNDVDLSIYKGKVLIIVNVASQCGLTNSNYTDLTEIYKKYK 61

Query: 497 DNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLKAS 556
           D G EILAFPCNQF  QEPGS +E Q   CTRFKAEYPIF KV VNG + APLYKFLK+S
Sbjct: 62  DQGLEILAFPCNQFGGQEPGSIEEIQNMVCTRFKAEYPIFDKVDVNGDNAAPLYKFLKSS 121

Query: 557 KTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALG 603
           K GF G  IKWNF+KFLV+KEG+ + RY   TTP ++E DIK+ LG
Sbjct: 122 KGGFFGDSIKWNFSKFLVDKEGNVVDRYSPTTTPASMEKDIKKLLG 167

[Close]
BLAST of Sgr025016 vs. ExPASy Swiss-Prot
Match: Q9FXS3 (Probable phospholipid hydroperoxide glutathione peroxidase OS=Nicotiana tabacum OX=4097 PE=2 SV=1)

HSP 1 Score: 238.0 bits (606), Expect = 3.1e-61
Identity = 110/166 (66.27%), Postives = 132/166 (79.52%), Query Frame = 0 

Query: 437 ASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSKYK 496
           ASQS   +SI++F VKDA+G DVDL +Y+GKVL++VNVAS+CG T+SNYT +TE+Y KYK
Sbjct: 2   ASQSSKPQSIYDFTVKDAKGNDVDLSIYKGKVLIIVNVASQCGLTNSNYTDMTEIYKKYK 61

Query: 497 DNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLKAS 556
           D G EILAFPCNQF  QEPGS +E Q   CTRFKAEYPIF KV VNG + APLYKFLK+S
Sbjct: 62  DQGLEILAFPCNQFGGQEPGSIEEIQNMVCTRFKAEYPIFDKVDVNGDNAAPLYKFLKSS 121

Query: 557 KTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALG 603
           K GF G  IKWNF+KFLV+KEG+ + RY   TTP ++E DIK+ LG
Sbjct: 122 KGGFFGDSIKWNFSKFLVDKEGNVVDRYSPTTTPASMEKDIKKLLG 167

[Close]
BLAST of Sgr025016 vs. ExPASy TrEMBL
Match: A0A6J1DQY9 (Glutathione peroxidase OS=Momordica charantia OX=3673 GN=LOC111022751 PE=3 SV=1)

HSP 1 Score: 329.3 bits (843), Expect = 3.8e-86
Identity = 161/169 (95.27%), Postives = 164/169 (97.04%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           MGASQSVSEKSIHEFVVKDARGQDVDL +YRGKVLLVVNVASKCGYTDSNYTQLTELYSK
Sbjct: 1   MGASQSVSEKSIHEFVVKDARGQDVDLSIYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           YKD GFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAP+YKFLK
Sbjct: 61  YKDKGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPVYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGE 604
           ASKTGFLGSRIKWNFTKFLV+KEG AIKRYGT TTPLAIEADIKE LGE
Sbjct: 121 ASKTGFLGSRIKWNFTKFLVDKEGRAIKRYGTTTTPLAIEADIKEVLGE 169

[Close]
BLAST of Sgr025016 vs. ExPASy TrEMBL
Match: A0A5A7UQH6 (Glutathione peroxidase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold216G00400 PE=3 SV=1)

HSP 1 Score: 325.5 bits (833), Expect = 5.5e-85
Identity = 157/169 (92.90%), Postives = 165/169 (97.63%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           MGASQSVSEKSIHEFVVKDARGQDVDL +YRGKVLLVVNVASKCGYTDSNYTQLTELY+K
Sbjct: 1   MGASQSVSEKSIHEFVVKDARGQDVDLSIYRGKVLLVVNVASKCGYTDSNYTQLTELYTK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           YK+ G EILAFPCNQFLNQEPGSSQ+AQEFACTRFKAEYPIFQKV+VNGPDTAP+YKFLK
Sbjct: 61  YKEKGLEILAFPCNQFLNQEPGSSQDAQEFACTRFKAEYPIFQKVNVNGPDTAPVYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGE 604
           ASKTGFLG+RIKWNFTKFLV+KEGHAIKRYGT TTPLAIEADIKEALGE
Sbjct: 121 ASKTGFLGTRIKWNFTKFLVDKEGHAIKRYGTTTTPLAIEADIKEALGE 169

[Close]
BLAST of Sgr025016 vs. ExPASy TrEMBL
Match: A0A1S3BLX5 (Glutathione peroxidase OS=Cucumis melo OX=3656 GN=LOC103491282 PE=3 SV=1)

HSP 1 Score: 325.5 bits (833), Expect = 5.5e-85
Identity = 157/169 (92.90%), Postives = 165/169 (97.63%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           MGASQSVSEKSIHEFVVKDARGQDVDL +YRGKVLLVVNVASKCGYTDSNYTQLTELY+K
Sbjct: 1   MGASQSVSEKSIHEFVVKDARGQDVDLSIYRGKVLLVVNVASKCGYTDSNYTQLTELYTK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           YK+ G EILAFPCNQFLNQEPGSSQ+AQEFACTRFKAEYPIFQKV+VNGPDTAP+YKFLK
Sbjct: 61  YKEKGLEILAFPCNQFLNQEPGSSQDAQEFACTRFKAEYPIFQKVNVNGPDTAPVYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGE 604
           ASKTGFLG+RIKWNFTKFLV+KEGHAIKRYGT TTPLAIEADIKEALGE
Sbjct: 121 ASKTGFLGTRIKWNFTKFLVDKEGHAIKRYGTTTTPLAIEADIKEALGE 169

[Close]
BLAST of Sgr025016 vs. ExPASy TrEMBL
Match: A0A0A0KE99 (Glutathione peroxidase OS=Cucumis sativus OX=3659 GN=Csa_6G408810 PE=3 SV=1)

HSP 1 Score: 321.2 bits (822), Expect = 1.0e-83
Identity = 154/169 (91.12%), Postives = 165/169 (97.63%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           MG+SQSVSEKSIHEFVVKDARGQD+DL +YRGKVLLVVNVASKCGYTDSNYTQLTELY+K
Sbjct: 1   MGSSQSVSEKSIHEFVVKDARGQDLDLSIYRGKVLLVVNVASKCGYTDSNYTQLTELYTK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           YK+ G EILAFPCNQFLNQEPGSSQ+AQEFACTRFKAEYPIFQKV+VNGP+TAP+YKFLK
Sbjct: 61  YKEKGLEILAFPCNQFLNQEPGSSQDAQEFACTRFKAEYPIFQKVNVNGPNTAPVYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGE 604
           ASKTGFLG+RIKWNFTKFLV+KEGHAIKRYGT TTPLAIEADIKEALGE
Sbjct: 121 ASKTGFLGTRIKWNFTKFLVDKEGHAIKRYGTTTTPLAIEADIKEALGE 169

[Close]
BLAST of Sgr025016 vs. ExPASy TrEMBL
Match: A0A6J1ESJ2 (Glutathione peroxidase OS=Cucurbita moschata OX=3662 GN=LOC111437382 PE=3 SV=1)

HSP 1 Score: 320.1 bits (819), Expect = 2.3e-83
Identity = 154/170 (90.59%), Postives = 165/170 (97.06%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           MGASQSVSEKSIHEFVVKDA+G+DVDL +YRGKV+LVVNVASKCGYTDSNYTQLT+LYSK
Sbjct: 1   MGASQSVSEKSIHEFVVKDAKGEDVDLSIYRGKVVLVVNVASKCGYTDSNYTQLTQLYSK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           YK+ G EILAFPCNQFL+QEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAP+YKFLK
Sbjct: 61  YKERGLEILAFPCNQFLSQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPVYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGES 605
           ASKTGFLGSRIKWNFTKFLV+KEG AIKRYGT TTPL+IEADIKEALGE+
Sbjct: 121 ASKTGFLGSRIKWNFTKFLVDKEGRAIKRYGTTTTPLSIEADIKEALGEN 170

[Close]
BLAST of Sgr025016 vs. TAIR 10
Match: AT2G48150.1 (glutathione peroxidase 4 )

HSP 1 Score: 265.8 bits (678), Expect = 1.0e-70
Identity = 124/170 (72.94%), Postives = 147/170 (86.47%), Query Frame = 0 

Query: 435 MGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSK 494
           MGAS SV E+S+H+F VKD+ G+D+++ +Y+GKVLL+VNVASKCG+T++NYTQLTELY K
Sbjct: 1   MGASASVPERSVHQFTVKDSSGKDLNMSIYQGKVLLIVNVASKCGFTETNYTQLTELYRK 60

Query: 495 YKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLK 554
           YKD  FEILAFPCNQFL QEPG+SQEA EFAC RFKAEYP+FQKV VNG + AP+YKFLK
Sbjct: 61  YKDQDFEILAFPCNQFLYQEPGTSQEAHEFACERFKAEYPVFQKVRVNGQNAAPIYKFLK 120

Query: 555 ASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGES 605
           ASK  FLGSRIKWNFTKFLV K+G  I RYGTM TPL+IE DIK+AL ++
Sbjct: 121 ASKPTFLGSRIKWNFTKFLVGKDGLVIDRYGTMVTPLSIEKDIKKALEDA 170

[Close]
BLAST of Sgr025016 vs. TAIR 10
Match: AT3G63080.1 (glutathione peroxidase 5 )

HSP 1 Score: 261.9 bits (668), Expect = 1.4e-69
Identity = 124/171 (72.51%), Postives = 147/171 (85.96%), Query Frame = 0 

Query: 435 MGA--SQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELY 494
           MGA  S SVSEKSIH+F VKD+ G++VDL VY+GKVLLVVNVASKCG+T+SNYTQLTELY
Sbjct: 1   MGASSSSSVSEKSIHQFTVKDSSGKEVDLSVYQGKVLLVVNVASKCGFTESNYTQLTELY 60

Query: 495 SKYKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKF 554
            KYKD GF +LAFPCNQFL+QEPG+S+EA +FACTRFKAEYP+FQKV VNG + AP+YKF
Sbjct: 61  RKYKDQGFVVLAFPCNQFLSQEPGTSEEAHQFACTRFKAEYPVFQKVRVNGQNAAPVYKF 120

Query: 555 LKASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGE 604
           LK+ K  FLGSRIKWNFTKFLV K+G  I RYGT  +PL+I+ DI++AL +
Sbjct: 121 LKSKKPSFLGSRIKWNFTKFLVGKDGQVIDRYGTTVSPLSIQKDIEKALAQ 171

[Close]
BLAST of Sgr025016 vs. TAIR 10
Match: AT4G11600.1 (glutathione peroxidase 6 )

HSP 1 Score: 231.1 bits (588), Expect = 2.7e-60
Identity = 108/191 (56.54%), Postives = 140/191 (73.30%), Query Frame = 0 

Query: 412 LFENDNVRGTEADTQKQRKREKKMGASQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLV 471
           LF +  +      T   +    +   + S   KS+++F VKDA+G DVDL +Y+GKVLL+
Sbjct: 39  LFNSHRIISLPISTTGAKLSRSEHSMAASSEPKSLYDFTVKDAKGNDVDLSIYKGKVLLI 98

Query: 472 VNVASKCGYTDSNYTQLTELYSKYKDNGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKA 531
           VNVAS+CG T+SNYT+L +LY KYK +GFEILAFPCNQF NQEPG+++E  +FACTRFKA
Sbjct: 99  VNVASQCGLTNSNYTELAQLYEKYKGHGFEILAFPCNQFGNQEPGTNEEIVQFACTRFKA 158

Query: 532 EYPIFQKVSVNGPDTAPLYKFLKASKTGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPL 591
           EYPIF KV VNG   AP+YKFLK+SK G  G  IKWNF KFLV+K+G+ + R+   T+PL
Sbjct: 159 EYPIFDKVDVNGDKAAPVYKFLKSSKGGLFGDGIKWNFAKFLVDKDGNVVDRFAPTTSPL 218

Query: 592 AIEADIKEALG 603
           +IE D+K+ LG
Sbjct: 219 SIEKDVKKLLG 229

[Close]
BLAST of Sgr025016 vs. TAIR 10
Match: AT4G31870.1 (glutathione peroxidase 7 )

HSP 1 Score: 221.9 bits (564), Expect = 1.7e-57
Identity = 101/164 (61.59%), Postives = 130/164 (79.27%), Query Frame = 0 

Query: 438 SQSVSEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSKYKD 497
           +++ +EKS+H+F VKD  G DV L  ++GK LL+VNVAS+CG T SNY++L++LY KYK+
Sbjct: 68  ARAAAEKSVHDFTVKDIDGNDVSLDKFKGKPLLIVNVASRCGLTSSNYSELSQLYEKYKN 127

Query: 498 NGFEILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLKASK 557
            GFEILAFPCNQF  QEPGS+ E ++FACTRFKAE+PIF KV VNGP TAP+YKFLK++ 
Sbjct: 128 QGFEILAFPCNQFGGQEPGSNPEIKQFACTRFKAEFPIFDKVDVNGPSTAPIYKFLKSNA 187

Query: 558 TGFLGSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEAL 602
            GFLG  IKWNF KFLV+K+G  ++RY   T+P  IE DI++ L
Sbjct: 188 GGFLGDIIKWNFEKFLVDKKGKVVERYPPTTSPFQIEKDIQKLL 231

[Close]
BLAST of Sgr025016 vs. TAIR 10
Match: AT2G31570.1 (glutathione peroxidase 2 )

HSP 1 Score: 219.9 bits (559), Expect = 6.3e-57
Identity = 104/164 (63.41%), Postives = 125/164 (76.22%), Query Frame = 0 

Query: 442 SEKSIHEFVVKDARGQDVDLGVYRGKVLLVVNVASKCGYTDSNYTQLTELYSKYKDNGFE 501
           S KSI++F VKD  G DV L  Y+GK LLVVNVASKCG TD+NY +L  LY KYK+ G E
Sbjct: 5   SPKSIYDFTVKDIGGNDVSLDQYKGKTLLVVNVASKCGLTDANYKELNVLYEKYKEQGLE 64

Query: 502 ILAFPCNQFLNQEPGSSQEAQEFACTRFKAEYPIFQKVSVNGPDTAPLYKFLKASKTGFL 561
           ILAFPCNQFL QEPG+++E Q+  CTRFKAE+PIF KV VNG +TAPLYK+LKA K G L
Sbjct: 65  ILAFPCNQFLGQEPGNNEEIQQTVCTRFKAEFPIFDKVDVNGKNTAPLYKYLKAEKGGLL 124

Query: 562 GSRIKWNFTKFLVNKEGHAIKRYGTMTTPLAIEADIKEALGESS 606
              IKWNFTKFLV+ +G  ++RY   T+PL  E DI+ ALG++S
Sbjct: 125 IDAIKWNFTKFLVSPDGKVLQRYSPRTSPLQFEKDIQTALGQAS 168

The following BLAST results are available for this feature:
BLAST of Sgr025016 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022155674.17.9e-8695.27probable glutathione peroxidase 5 [Momordica charantia][more]
XP_038888023.16.7e-8593.49probable glutathione peroxidase 5 [Benincasa hispida][more]
XP_008449386.11.1e-8492.90PREDICTED: probable glutathione peroxidase 5 [Cucumis melo] >KAA0057378.1 putati... [more]
XP_023533991.12.1e-8391.18probable glutathione peroxidase 5 [Cucurbita pepo subsp. pepo][more]
XP_004140088.12.1e-8391.12probable glutathione peroxidase 5 [Cucumis sativus] >KGN47873.1 hypothetical pro... [more]
BLAST of Sgr025016 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q8L9101.4e-6972.94Probable glutathione peroxidase 4 OS=Arabidopsis thaliana OX=3702 GN=GPX4 PE=2 S... [more]
Q9LYB42.0e-6872.51Probable glutathione peroxidase 5 OS=Arabidopsis thaliana OX=3702 GN=GPX5 PE=1 S... [more]
O238141.3e-6265.48Probable phospholipid hydroperoxide glutathione peroxidase OS=Spinacia oleracea ... [more]
P307081.8e-6166.87Probable phospholipid hydroperoxide glutathione peroxidase OS=Nicotiana sylvestr... [more]
Q9FXS33.1e-6166.27Probable phospholipid hydroperoxide glutathione peroxidase OS=Nicotiana tabacum ... [more]
BLAST of Sgr025016 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1DQY93.8e-8695.27Glutathione peroxidase OS=Momordica charantia OX=3673 GN=LOC111022751 PE=3 SV=1[more]
A0A5A7UQH65.5e-8592.90Glutathione peroxidase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold2... [more]
A0A1S3BLX55.5e-8592.90Glutathione peroxidase OS=Cucumis melo OX=3656 GN=LOC103491282 PE=3 SV=1[more]
A0A0A0KE991.0e-8391.12Glutathione peroxidase OS=Cucumis sativus OX=3659 GN=Csa_6G408810 PE=3 SV=1[more]
A0A6J1ESJ22.3e-8390.59Glutathione peroxidase OS=Cucurbita moschata OX=3662 GN=LOC111437382 PE=3 SV=1[more]
BLAST of Sgr025016 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G48150.11.0e-7072.94glutathione peroxidase 4 [more]
AT3G63080.11.4e-6972.51glutathione peroxidase 5 [more]
AT4G11600.12.7e-6056.54glutathione peroxidase 6 [more]
AT4G31870.11.7e-5761.59glutathione peroxidase 7 [more]
AT2G31570.16.3e-5763.41glutathione peroxidase 2 [more]
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR000889Glutathione peroxidasePRINTSPR01011GLUTPROXDASEcoord: 500..516
score: 70.96
coord: 464..481
score: 68.61
coord: 565..574
score: 82.86
IPR000889Glutathione peroxidasePFAMPF00255GSHPxcoord: 446..554
e-value: 2.2E-38
score: 130.1
IPR000889Glutathione peroxidasePANTHERPTHR11592GLUTATHIONE PEROXIDASEcoord: 435..602
IPR000889Glutathione peroxidasePROSITEPS51355GLUTATHIONE_PEROXID_3coord: 436..607
score: 68.311554
IPR000889Glutathione peroxidaseCDDcd00340GSH_Peroxidasecoord: 445..597
e-value: 1.50252E-84
score: 261.296
NoneNo IPR availableGENE3D3.40.30.10Glutaredoxincoord: 437..603
e-value: 8.7E-71
score: 238.7
NoneNo IPR availablePANTHERPTHR11592:SF17GLUTATHIONE PEROXIDASE 5-RELATEDcoord: 435..602
IPR029760Glutathione peroxidase conserved sitePROSITEPS00763GLUTATHIONE_PEROXID_2coord: 503..510
IPR029759Glutathione peroxidase active sitePROSITEPS00460GLUTATHIONE_PEROXID_1coord: 466..481
IPR036249Thioredoxin-like superfamilySUPERFAMILY52833Thioredoxin-likecoord: 445..602

Relationships

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

Feature NameUnique NameType
Sgr025016.1Sgr025016.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0098869 cellular oxidant detoxification
biological_process GO:0006397 mRNA processing
biological_process GO:0006979 response to oxidative stress
cellular_component GO:0005829 cytosol
molecular_function GO:0004602 glutathione peroxidase activity