Tan0018205 (gene) Snake gourd v1

Overview


Name	Tan0018205
Type	gene
Organism	Trichosanthes anguina (Snake gourd v1)
Description	Peroxidase
Location	LG05: 3713821 .. 3740496 (+)
RNA-Seq Expression	Tan0018205
Synteny	Tan0018205

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: exonCDSpolypeptide

Hold the cursor over a type above to highlight its positions in the sequence below.

ATGGCTATGGCTTTAGCATTAGCCTTATTGGCAATGTTCATGGGGAGCTCCTCAGCTCAGCTCTCTACCGACTTCTACTACTATAGCTGCCCCAAGCTCCTCGACACCGTTAGAGCCGGTATTCAATCCGCCGTCGCTAAGGAAGCTCGCATGGGCGCTTCCCTTCTCCGCCTCCACTTTCATGACTGCTTCGTTAACGTATAAAAACCTTTTTTTTCTCTCTTATATTCTCATGTCACTTATGTCCTATACATTTACTATAAAAATTAATTTTGAATGATTAAAGCATGTTCTAGTGTGATTTATTAAATACGAAAAAACTGATTTTAATTCTTCGGACAAATGATCTTTATCTATTAGGGTTGTGATGGATCGATTCTTCTCGAAGACACTCCTACGTTTACAGGAGAGCAAACAGCAGCTCCCAACAACAGATCTGTTAGAGGGTTCGAAGTGATTGAGAGTATAAAGAAAAACGTTGAAAAAATTTGTCCTGGTGTTGTCTCTTGTGCTGATATTTTGACTCTTTCTGCTCGTGACTCGGTGGTAGCTGTGAGTTTATAAACCTCGTACACATTACAGTATTTATTTTAGTTTGATATTCTGATGATGTTATGTCGTTGAATGTTATATTTTTTTTTATATATATAATTTAATAAATTAAATTAATATGTTACAGCTTGGAGGGCCAAGTTGGAAGGTGAAATTGGGAAGAAGAGACTCTGTAACAGCCAGCTTCTCCGACGTGACCGGAGCCATTCCGCCGCCAACCTCCACACTTGACACCCTCATCGACCGGTTCAATACTAAAGGCCTTTCCCCTCGAGATTTGGTTGCTTTATCTGGTATTATCATTTATCATCCTCTACTGCTTTCTCCCATTGTCTCATAACTTCTCTACAACAAATTTCATCTAACATTTGAATTCTTAGACAAATTCTAAAAACAAATACAAATTTTTAAAAACAAATCTTTTTAGTTTTCAAAACTTGACTTGATTTTTTAAAATGTAGGTAAAAAGTAACATTATGGATTGTCCTAATGGTCAAATAAGAGCTATGAAAAAATAAGGGGCTTAGAGAGAATGAGTTCAATCCATGGTGGCCACTTACCTAGAATTTAATATTATCCTATGTGTTTTACAACATCAAAATATAATAAGATCAGTCGACGGCTATCCCATGAGATTAACCGAGGTACACGGAAGCTAACCCAGATACTCACGAATGTAAAGAAAAACATATATAAAAAGTAGATAACAAAACAAGAAAATCTATAGGTAGAAGTCTCATTCGACATAAAATTCAAATTTATATGCAATATAAATCATTAATTTTCAAAAATTTTAAAATTTTCAAGAACTTATTAGACATAAAATTGAAATTTTAAAGATTTATTAAACACATCCGAATGTTTAGAAATGAAATAAATACAAACTTCAAATTTCAAAAGCTAAACAAGTAATTTAACAAAAAAAAAAAATTCTTTTTAAGACAATATTACTACGAGTTTATGACAGTTGGATATAAACTCGAGGTACCCTCCTTCCTTCATTACAATAAAAAACTGTCTCTAAATAGTTTTCCATTTTGATGAGATGACGTTGCATATTGCAGGGGCCCACACGATCGGACAAGCAAAGTGTTTGTTTTTCAAGAACCGTATATACAACGAGACGAACATCGACGAGTCGTTCGCGGAGGAGAGACAGAGGAATTGTCCAGTAAATGGAGGAGACGACAATCGGGCGCCATTGGACTTTAGAACTCCGAATCTTTTTGACAACTATTATTACAAGAACCTTATGGATCAAAAGGCTCTACTCCGGTCCGATCAAGTGCTACACGACGGCGGATCCACCGATTCCTTGGTTGAACTTTACAGCCACGACAGTGACGCCTTCGAGTCTGACTTTGTCGCGGCCATGATCAAGATGGCCGACATCCAGCCGCTCACTGGCTCCCAAGGCCAAATTCGAAAGCTCTGCAGCCGACCCAACTGAATCAACATTTAATTTCCATTATCATGATCATTAAATTTTTTTTTTCTTTTTGTTTTTTCCTGTTTCAAATTCGTTTCACCAAATAATAAGCGTTTGCAGGTGTGGTTTTTTTTTTTTTTTTGTAGGGTAAGTGTGGATGATGTTTTCTAATTTTTAAATTATTTAATATTATTGTTTAATCTTGACTTAGGTCCTTTTTGTCAAACTTGACAGATTCTATTTTTTTTTTCTTTTAATAATATAGAGATAAGCCATAGTAGGATCTATCTTGAGCTGCAATCATCTTTTTGCATCTGACTCTAATCATATAATAGAAAAAATATTAAAATATATTTTAAAAAACTAGTTTATTGCGTGACAAATTGTGGATGGACAATTGGAATAGACGTAAACAGATGAGTGCAACTCAAGATGCACCCAAGTTTTTTAGTATATAGATTTTTCTATTTAAGGTAGAAAATGTCCTATTTATTTATTATAATTATTATAATTTTTTTATTCATATTTCGATCCATTGTATCAATCATGAAGGTAAAACGTTGATGATTATTATTTAAAATAATAATTAAGTAGATGGATATTTAAAATAAAAAATCAATTAGGTTGAACTAGTTATGCTTTATCGTTCCATAGTTGAACTAAAAAAAATATATTTATTCGATGTAAGTTGAATGTGTCCACAATCCCACATTAATTAGAATAACGAAAAAGATGCAATATATATATGAAAAGAATACATTCGAACTAATATAAGATGTTTTGGATGAAACTAAACATATAAAGTCATGTAGACTTAAGTTTAAAACGAATAACTTTACACGCCCATTATAAAATTATGAACAATATTGTCCTAACAACTATTATCAAAGTCGAGTCCTAGATAGTTGTATCAACGCATAGGATTCCTCGAGTACTGAACTATAAGATAAAGATCACAAGAGGGCTTAGTGGAAAAAAAGATCCTAAAATTATAAGAGTAAACTCTTGATGAATTAGAAAGTAGATGATGAATATAACTATTTGACGGGAAAATTTGTAAAAAACTTAGAAGTCAATTGTCATCGTTGTCCATTTAAAAAAATTGAAAACAAAAAATCGATGTTAGTGAGTTAATTAATGGCTAAGAAACATTAAAGAAATCTATATTAATAATTACTTGAGAAAAAAACTACCAAAACTTTTTCACGATTCATTTCACACCATTATTTAGTAGAAATCGTTATTGTCTTGAAGGAGACAAAGGGATAACTTTGACCCTTTCTTTTATTTAGGTTTATGTTTTTATATTTTTGGATATTAGAATTGATAAAAATTTAAACCTAAAATCTCTTACCTAATCATCAGAATTATAAGTTGATAAACTATCATAAATTTAAATTTTCAAGAACTATATTCTGAATTTTCAAAAGCTGTCGGCTAAATAATGTTCGAATTGCCCAGGTTGCCGGGAAATACGTCGCCGACGAAAAGACGGCGCTTTCTTTTTGTATCACCAAGCAAATAAAAATGAACGGTTTAAAATAGTCCAATATGAACCAAAAAAAAAAAAATGAAGATAATAAAATAAATAAACCTTCAAATTTGACTCATTTGATCAAATAAATTGTAATCCCATATTCCACCTGCCCAAGGCAACTCATCTAAAGAGCATCTTCATGCAATTCAAATATTGAATTTAAACTCTTCTTTGGGATATTCATAATTTCTATATGTTGAAAATTTCTAAAAAAATATTTTTATAGGTTAGATCACAAGTTCAGTTAGTAAATTTTTATGATTGTGTCTAATAAGTCTCTAAATTTTAAAAAGTATCTAATAGATTTCTAAACTTAATAGATACAAAATAAAAAATTCAGGAACTTATTAGACATTTGTTAAAGTTTAGGAACTTATTACACAGAAAATCAAAAATTCAAATGCATATTAGAAACTTTTTAAAAATTAAGGATCTATATGATACAAACCTGAAAGTTCATGCACTAAACTTTTATTATAACCAAAAATATATATCCCAACAATTTTACTAAGTCACATAATGAATTTTCTATTAGATAAATATGAGGTTTTATCTTAAAATTAATTGGCAATCAAATGAATAATTTATTTATCTTATAAAGATGGTGAGGTTTCTACATATTTTCGATGTGGAATCATCAACATTTCAGACCATATATACTAACTAATACTAAATTTCTCCAATCTCCTATCCACAACAACATTTCTCCCTTTTTCCTATAAATAGCCCTCTCTGTTTCAAATTTCGGTAATCTCTTTAATTTAATTTAGTTTTTATAGTTTTAAAATTCTCATTTTTTTTCTCTATTTGATTCAATCAAATTTTGTAAGTTAAAAAGATTATTTTGGTCTCTATACTTTGAGTCCAATTCTCTAATAAAAGGGCACCATGAATATATGTTACCAAAATTTATAAAAAGAGTGCTAATAGAGTCTTTTTTTTTTTTTTTAAGAAAAGATATACAATAAACACTAATTTTATGATTGATTGAAGGTATATATTTAATATTAATTTTGAACAGAATTAAAGTATAAAAAATCTTAGAGTAGTGGAACACTAACTCTAACATTTTTATTAATCCTATATTTGACACATTTTTTGTAAACAACAATAAATTTATGTTTTTAATTTATCTTTAACTCATGTTGACTTTATTCAACATTTGCTTAATTACTTGCCTCTTACACAAAGTTTGTTTTATGCTTTTATTGCGTAAAGCCATTTTATCGGTTGACTCAATCCCTGCTTCTGCGTGAACTATCAGTCAAATTCGAATCTCTGTAAATAAAAGTTGATTACTGGTAGGTAAGTAAATAAAGAGTTTCTTTTTCTTAGAGAAAATATACATTATTATGAAAGTTTCTATATGACGTAGGATGAATGGTTGGTTAATTAGTTTAATTTAATTGTTATTAATTTAGTGTTAATTTTAGATTAATTTGTATTAGGTTTTTTTTATTGTAAGCCTATAAATAGGCATTTTTGAGATTTGTAATGGAACTTTTTTGGAATCATTTTGAATAAAACATTTGAGTTCTTTTAGAGAGTTTCCTCTCTTTTGGGATGGTTTTCCTTGATTTGGCCATGGATTTGGCCTAATCCTTGAATCAGCTACGTCAATTAGTATCAGAGCCTCAGACGAACCTCGATGTTCCCGAAAAGCTACAAAACCATGGGCGGAGATCGGAGCCAACGTCTACGACACCATGAGTATGTTTATTCATCCAGGTATTTACCAACTACACCAACTTGTTTTCCATATTCATCAACCTCTCATCCCCCTATATTTCGATTTCATTGTCAATTATCAAAATACTTTATTAGAATTATACCGTGATGTTGTCCTTAACAATGGTATTAAAGTCATATCTTAGTTGTATCAATACATAATTATACCGGATTATTATGTATCGATACAACTAAATTAAGACATTACCTTAATGAGGTATAACATGCATGATAAGTAATAATTTGATGGTTAATAAATCAAAGAATTGTTGGTCAACTTAACCATTACTCAATTGGTTAAGAGATTACAACCTCAATCAATAGATCATATAGGTTCGAATCTCTCATCCTCACACGTTATTGAACTAAACAAATAAACTAATTTTTGGTTCTTCCCCCAAAACGTCTCATACCAATGGAGATAATATTACTCACTTATATATACCCATAATCTTCTCTTTATTTATGACAAATCTCCTCAATGATATGGTATCACTAATACAATTTCAGGATTTAATGACATTGAAAAATTGTCATAAACACATTTTATGACTTTTTCTTTTTCAGTCGTAGAAGCCACCATCAAGAAAACTTTATACATGACACATTCAAAAATCTGACATATTTAACTATTTTATGACAATTAATGGTTGTAAAAAAAAAACGTATTCAAGACATTTGTTAAAAGTCATGGAAAACTTTTTATGACAATTAAACATTATCAATAAATACCTCATAAAACCAACGTTTCCGTCAAGAGATATATATTAACGACAATTTTTAAACGTCATAGAAATTCTGTTTATGACAGAATTTCAGTGTCAAGTATGTTGTTTCTATGACAACAAAAAAAATGTTAATGACAATATTCTTGTGTTAAGTATTTGTTTTCTATGATAGTTTGTAGTTGCCAACAAAAAAAATTACTTAAGGTCCAATTTACTTAAGCTAAATAAACCCAGTAAGAAACCCATGTTAACTTGATGCTAAAATGAATAAGGGAGAGACATTTTATAGGAGAAGATGGTTGTCCAAAACACAAAATTTTCGATGTGGTCAGGCAAATGGAGTTTTTATGACGTTGGAAAACTGTCATGAATTTATGATGTTGAAAAACTGTTATAAATTTATGATGTTGAAAAATTGTCATAAATTTTCGAAAATACGAGAAATCTCAGTTTTTTCCTGCCAAGTTTTTTTCTCCCTCCCTCTTATTTGGCTTAGCTATGGTGTCATAGAATATCAAAATTGTAGTGTATTGTCTATTTTGGGCATAAACCCTCATGGTTTTGCTTTTGATACCCACCAAAAGGCTTCATCCAATAGAAATAATGTCCCTTACTTATATATCCATAATCTTCCTTTTATCCAGTCGATGAGGGACTTTGGTCGCACTCCCAACAATAAAATGGTTCATTGATGAGGTTAGGACGATGTGACAATTTTGCACCACTGGATGTAGGAGAGAGAAATTGTAAAAGTGTTTTTCTTTTTGTATCTAATAGTTATTAGTAGACAAACATATTTTTGGACCTACATCGTCCGACGATTATTAATAATTAGATGCAACCATGATAAGCTCATTAAATAATTTATCCAATAAAATAGTATCGAAACTTTTTCCACTATTTATCTCCCAACATATTTCATTATTTTGGGGAAGACTTTTTTTTTTTTTTTTTGGAGTACATCTTTTTGGACAAATGAGACCACTACAATGTAGTTGTCTCATAATAATCGTTAGATATTAGTTCAATGATTTTTTATGTATGTTAATAATAACGGCATGTAAATTCAAGATAATTTCTCTCCCTTTAATATCCAACGGTCCGTCAGCTACATTTGTGACATCCTCACCGAATTATTTGAACCCTTCTTCACCAAATAACTTTTTCTAATATTTATCTCACAACATGTTTATCATTTTGTAGAACTTTTTTTGGAGTACGACATCTTGTTGTTCAAAATATTCAATGAAGCCGCCACAATGTAGTTGTCTCATAATAATCATTGGATATTAATTCAATGTTTTTTTATGTCTGTTAATAACAATTGGTTGTAAATTCGAGATATTTCTCTCTCTTTAATATCCAACGGTGAAAAATTATCAGCCACATTATGACGATTTCACCCAATAATTTCTCATCGATTGCCTTGGACCCTTTCTCTTATACAGATTTTGAGAAAATCCGCCACAAACACAATTTTAACACTGGACTTCATTCGATAAAAATTAAAAACTAAAATCATCACAATTAGAAGTTGATAAAGTATCATAAATTTAATTTTTTAAAAACTCTCTATTCTGAATTTTTAAAATTTGTCAGGCTAAATAATTGTTCGAAACTTCGAATTCATCTTCCAAAGTGGCTGGCTTAATGCTTATTATTGATAATCCCTGCATTAAATACATCATGGACAAAAAGACGGCGGCTTTTAGTTCACCAATCAAATAATCCGAGGAGCCAAAAACAAAAGGACAATAAAATAAATAAAATAAAATAAACCTTCAAATTTGACTCAATTTTAATCATAATAATAATCCACCTGTTCACGGCAACCCATCCAAAAATCTACTTCTTACAATCCAAATACATCTTGTATAATAAATAGAGCCCTTTGATGTTCTTCAAACTTCAATAATCATCATCTTCAACAATAATAATCATATCAATGGCGATTATTACAACTTCTTCTCCTAACAAAATGACCATAATGGCTTTAGCATTATTAGCCTCATTGGCAATGCTCATGGGGACCTCCTCGGCTCAGCTTTCTCCCAACTTCTACTACAAGAGCTGCCCCAAGCTCCTCACCATCGTCAGAGCCGGTGTTCGCTCTGCCGTCGCCAAGGAAGCTCGCATGGGCGCTTCCCTTCTCCGCCTCCACTTTCACGACTGCTTTGTTAATGTATGAATTGCTCCTCTTTTTTCCAGAACAGTTATATTTTTTCTCTTTTGAGTTCATCATTGTATCAGAGTAGGAGATCTTGTGTTCAAACTCCACTGATATCAATTTATCTTTCAATTAATATTGATATCCCCACTCGTTGGGTCTTTATACAAATTTACCATAATGTTCACCTATCAACATTAACTAAGTTTTTGAGTTGACGGACGATTTAACAAAATGATCATCTTTTAGGGTTGCGACGGATCGATTCTTCTGGAAGATACTCCAACATTTACAGGAGAGCAAACAGCGGCTCCAAACAACAGATCTGTTAGAGGGTTCAACGTGATTGAAAGTATAAAGAAAAATATAGAAAAAGTTTGTCCTGGTGTTGTGTCTTGTGCTGATATTTTGACTCTTTCTGCTCGTGACTCTGTGGTAGCTGTGAGTTTATAAACCTCGTACACATTATAATATTTGTTTTGGTTTGATATTCTGATGATGTTACGTGGTTGAATGTTACATATTTTATTTTTTTTATATATATAATTAATAAATTAAATTAATTTGTTACAGCTTGGAGGGCCAAGTTGGAAGGTGAAATTGGGAAGAAGAGATTCTGTAACAGCCAGCTTCTCTGATGTCACCGGTGCCATTCCTCCGCCAACCTCCACCCTCGAAACCCTCATTAATCGGTTTAACACCAAAGGCCTCTCCCCTCGAGATTTGGTTGCTTTATCTGGTATTATTATTTTCATTCTTCCCTCACTCTATATTTTCTCTCTCTACAAAAAAAAAAATAAATTATTCTAACATATTATTCAATCATGTAGATGCCTCGTAATAACAATTCGTTCAATCTAATCAAAGTCCATTAAATTCAAATGGATATTTGGTCCAAAAAATTAAAATTAGGATTCAATCCAAAAATGGTGAATGAGAGACACCATCTTAGAGACAAATTATTTATTGAGGCCGCCTCATAATAACCCGTTGGATATGAATCAAATCCTTTTCATGTCCCCTCGTATTTTTTGATATAAATTCGAGGTACTTCTCTCTCTTCATCCAACGGTTTAAAACTGTCGACCACATTGTGGCTAAGAGGACAACACATTAACCATTAGATATGAATTCAAAATATTTCTCAGTATCTATCTAACGATAAAAAATTGTCAATTAGGGGCGCACACAATTGGAAAAGCAAGGTGTTTGTTTTTCAAGAATCGGATATACAACGAAACGAGCATCGAGAAATCATTCGCAAAAGAAAGACAAAGGAAGTGTCCAAGAAATGGAGGAGACGAGAATCGTGAGGCTTTCGATTTCAGAACTCCAAATCTATTCGACAACAATTACTACAAGAACCTTATCGACAAAAAGGCTTTGCTCCGCTCCGATCAGGTGCTCCACGACGGCGGCTCCACCGATTCCTTAGTCGAACTCTACGGCCGTGATTCCGATGCCTTTGAATCTGACTTTGTCGCGGCCATCATCAAGATGGCTGACATTCAGCCGCTCACTGGCTCCCAAGGCCAAATTCGAAACATTTGCAGCCGACCCAATTAATATATATATATATATTCTCCCATTTCGAAATTTGTTTAATATAATAAGCCTTTGTAACTTTGGTTGCTTCTTTTTTTTTATTTGTTGAACTACTCTATTTGTAACTTTTTTAATTATTTGTTTTTCTCATCAATGATTTCATTTTATTGTTTAACCTTGACCTGTGTCCTTTAATAATCATGGACTAATTTTGAAGATAATGATGTTTAAATAAATAATGATAAATTTATGGTAGTTTTGAACTTAAAAATTTTTAAAATGTAAAAAAAAAAAAAATTATAAATGTAAAGATGTTACCGAAAACCGACACGACCGACCGAAACCGACCGAAACGAGGGCGGTCGGTCGGTTTTGTGAAGAAGTCGGTCGGGGTCGGTTTTGGTAATCCCAAAACCGATTGATCGAAAGATCGGTTTAAATGAGCCCCAAACCGAATCGAAATTTTAAAAAAATATATATATATATAATAATAATAATAATAATAATAAATTAATAATAATAATAATTATTATTAAAAAAATAAAAAACTAAAAAATTTTCTCAAAATAATTAAATAATAATTAAAAAATTATTAAAAATTATTAAATAATAATAAAATAATAATTATAAATATTTAATATTTAATTAAATAAATATTTATATATATATATATAAACCGACCAAATCGACTTAATCGCATTTGGTGGTTGGTTTTGGTAAGGATTTTTTTTTTAAAAAATCGAACCGACAACCGACCACCTCTCGGTTAGGTTGAAATCGGTTAAGTCGAAAACCGACCCCGACCGACCGATGCTCACCCCTACTCGAAACTAATGTGTAAAATAGGGTACTTACATCGTGTATCCTGTACACGTTTTACACGGGCAGCCATGGTGGAGTGGGATGGACACTGGACACGAGGAAATCGTGTACCGTGTACGCGATTTCCATTGTTGAAGAACTGTTAGTGACGTCAACACTCCGCACCATGTCGCTATGACCTTCCATTCTCAATTAGCTTCAAACAAATATGGAGGTTTCAGACCAAATAAGCTAGATTATGAACATCAATGGTAAAATTTATACTAAACAACAGAAAAGGAAGAGATAAGAGAGAGGGAGAGCTCTATTCTGTTGGAACAAAAGCAGAGTTTTTCTTGTTGCTCTGCCTAAACATATTGATCTTGATCTGTGATTCAATATTTCTAATTGGCTCTTCGTACAATAGTTTTGAATAGCAGAATATAAAACTTTTGAGTCATAGAAAAGTACAGAAACCCACCCACTCATAACCATGGTTTAAAAATTAAAACAACGATTGAGGAGCAAAATCAAAGCTCCAATGACAAAAAAATTTCATCCGAGTCTTGTTCTTAAAATTCAAGTCGACATTATTTTTTATTTTTTATTCTAGGCCACTTTGAGCTAAATTAGCCTTGAAAAAAATCTCTCATCCCACCTGCCAAAATCTCGAACTTTCTCGAGAAAATTAAAGAAAAAAATAGTTCAAACCGGAAAAAACATGGAACTTAAATCTGAGAAATGAAAGAGAGAAAGAAAGTGAAGGTGCGACGTGGAGAAAAAGAAAGAAATTTGAAACTTGTTGGTCTGCCGGCGAAGGAGAGAAAGAAAGGGAAAGTTGTGGTGGCCTGAAGATGGAAAAAGAAAAAGGAGAAGAAAAAAGAGGAAGGAGAAATCTGGCCCTCCACATGGCTGCCACGTATTTGATTGGGTCTAAAATTGTGCCACGTACATGGTTTACATAAATCGTGGCTCATGTACACGACTAATCTACCCTATTTTTAGAATTATTTTCAAAACTATCCTAGATTTGTTTTATTTTTTTTAAACTACATTATTTATAAAAAAAATCCAATAATCAGTGATTCTTTTTTTTTTTCTTTTTGAAAAGCTAATTTGCTAGCTATTTTAAAATACAAATTGTGTAATTTAAGTCCAACTTCATTTTGATGATTATACTAAAATCATTAAAATCAGAAACTCACATGGAAAAGGCTACGATCCCGTTTGATGACTATTTATTCTCGTTTGATAATTATTTGGTTTTTAATTTTAGTTTTTGAAAATTATGTCTATAAGTACTACTTCCACCAATGAATTTTCAATGTTTTCTTATCTATTATTTACATATGTTTTAAAAAATTAAGCCAAATTTTGAAATCTAAAAAAAATAGTTTTTAAAATTTTGTTTTTGTCTTTGGAATTTAACTAGGAAGCTCAAATGTTTTCTTAAGAAAAATGGGTACCATTAATTATAGACAAGATAAAAACTATATATTGTAGATAAATTGTGAGGAAACAAGCACAATTTTCAAAAACCAAAAATTAAAAACTAAATGATTATCAAACGAGGTTTTAATTTTTTTGTTTTGGCTTTTGAAAATTAAGTTTGCTTTCTCCCAATTTTTCTTTAATGGTTTTATCTCTATGAGTAAGTATTTGAATTCTTATTCAAATTCTATAAACAAATACAAGTTTTTGAAAGCTATTTTTTTTTTAATTTTCAAAACAACTTGATTTTTTAAAACAAAGATAAAAAAAATAAATAACAAAACAAGTAAATTCATAGGTAAGAGTAGTATTTATAAACTTAATTTTCGAAAACAAAAAAAAACCAAAAATAAAATGACTATAAAATGAGGACGAATGTGGAATTATATAATATTAGAAGGAATGTTGTTTCCAAAAGTTTATTTTTCATTTTCTTTTATTAGTATTGATGAGGTTATCAATGAAAATATTATTGTAATTAAAGAATATAGGAGAAATGGGAGCGCAACGAAAGGATCTTCAATGATAAATTACGTGGAGTATAAACTTTGTGGGAAAATATATTGGTCAATGTTGCTGCTTGGAGTACAAAATCCAAGCTCTTTTGTAATTATGACATGGCAACTATTGCTTTAAATTGGAGAGCTTTTCTCTAGCTCCCTTTCTTCTTGGTTTGTTTGATGTACTTCAGACTCCTTTTTTTAATATATTTTGGAGCTTGGGGATAGATGATGCGGGTGCTAATTTTGTGCCAACATAGTTGGGATGATTGGGTGCACCTACTGATTTCTTGGCTTTAGTATCTTTTTCTAAAAAAAAGAATATAGGAGAAATGAAAAATACAAGTTTGTCCTAAAACCTTAATTCAATTAGGGTTGGAAAAATGTCCCTCCTATAAATATATACTTCAGTATATGTCCATTAGAGGTAACCTAATCCACCTGCATTCTTCTGACTAGCTTGCTACACTCTAAAAACCTCTATGACTTAAAACATCGGAGTGGCTATGGCAAGCACCGCACTGGTGTGCAATTTTTTTTTCTTTGTTTTGCAGGTCATCTCTTTCTCCCAAATCAACAAATTAACTATTACCCTCACATGCAAATACCTTCTGCCTAGATTTGTGTGCATTCTGTGGGAACGAGGGGGTTTTGATCAAGAAACTTGCATACTGTTGCTAAATAGGGTGTATGGAAATTATCAATGAAACACTCCTAAGTTGTGCAAGTGTACACAGTCTATAGCAGCAAGTGATAAGTATATTTTTATCATCACCTCAGGGATTAGTTACAGGAAATTCACAAGGCTTGAGTTCGATTTAATGAACTGACAAGTAACCAACATAAAAATTGTGCAACTAAACTTAATGGAAAAGTAAACAAAATGCTCAAAGGTGATGCTTAAAAAGGGTAAACAGACAGTAAAGACAATAAATCAAAGCAGTAAAAAGGGGATTGGATTAGGGGTGAAATTATGCTCCAACAAACTTAATGTTGGAGCTCTAAATTGCTTCAGCACCCAAAACAGTTAAACTCTAGGAATCTTCCCAGATTTTCTTGTAAATTAGCTAATTAATTCCCATTAAACACTTCAATTTAGCTCATAACTGTAAACACTAGGTGAGTGACTATCCTTAGACTCCTCAATCACCTAAGAGAAAAACTCTTAATCACAACTAGTGTTATGTTTTGAAATTGGTTTACTCTTCCCTTTCCCAAGTTGGAATAAATAATGCTAAGATGAGATGGTCAAACAAATCTCAGCTAAATTGTAAAAACACAAAGCATAAAAGTGAGAAATTGCAAGAAATTACTCATTCATTAAGCTTGAATCAACATAGCATCCCTTAATCCTCACTCCAAGGGTGATTAGTTCATAATGACAAGAAAAACAAACAATAAAATAGTAAGCATAACTCTAAACATGCTTAAAAACCTAGTTAGAATATAAAAAGAGTGAGTAAAGAAAAGGAAGAAATGATAGATGGAGAATCTTCTAGGACTCTTTCTTGTTATTCCAGTTCCTTTCCAGAAGAGGAACACCTCCCAAAGTAAGTCTTCTTCTGCTTCTCGAAAATCTCCCAACGAAAATGATGTCTCCTCTCTCCTCTCTTGCCCTAAAACGGCTAAGAGAGCTTTTATAACATGTCATTCTTGAAATAAGAGTTGAATAGACAAGGTAAAGAGGTCCGACAGCTTCTTATTGGTTCTCAGCAGCTTACGTGAAAAAATTTGTCCAACTCAATTAATGAAATGTCTCACACGTGCCTAATTTGCAATCTGATACCAGAAAATGCTCCAGCAAGCTTGATCCCTCAGCAACTGCATAGCTCCAACACTTCAAAGCAGTTTTTCTACACTTAACAATTTTCAATCTTCCAAAAGCTCCTGTGAAATGGCCAAAATAACAAAATTCATTAAGGAAAAATATTTTAATGGCCTTAAGGTACTTCAAAACTAATTTATGACAATAAGCATACAAAAGTACCTAATCAAAGGGTTTCTAAAGCTAAAATAGTAAAAGAAAGCTCGAAATACCAAGAAATAATCATAATAAAAGCTTATAATCATCATAACTCTTATTCTAAGAGCTAACACATACCTGTGCTAAGGATGAATAAAAAAATCCACAAATTAAGGTCATGTCATGGAATATAATTTTTTGAATGAAGATCAAAATCCAAGGAGAACGAAAGAGGGGACTTCCCAAGCAGGGGCATCACAACAATCGAGGAAGAGCCCGCCTCGGCCTCAACTTGGGATGAGTTTGCCTCAACCTCAATCCGAGAGAAGCCAACTTGACAAGAGAGAAGCACCAAAGCGAAGGAAGAATTAGGACAGAGTCGACCAAATCGTCGAGTCAGGATCCACATCTTGCACGGATGCTGGAAGCCACAACCAGAGGAGTCGGAGCCGAGGCTGACTTGTAGTCATCCCAGCCCGAGGTTGATCTGAGGTCATCCTAGATCGAGGTCGACCCCACCATGGTTGAGGCGATGGGCACACTTATGAGACGAGCAAACACGCTGAGAGAAAACCTTCGGTTTGGTTTTTGAAAACATATGTAAAAAATAGATAAAAAAATGTAAATTCATAGATAGAAATAGTGACTCTCTAGCCCTACTCATTCTTATTATCAAATAACTCGTATTAATTTTTATATTATACTATGACTCGCCAACGGCCCCTTAAAATAAATTTTTTGAACTTCTCTCTAGTTTCAGTTAATAGTTTTACATTCGAACATCTACCATTGACATTTTCTCTCAAGTACAACTTTCCCATTTATTTTTCATTAAATTTTTTAGGTAGAATTCAAAAGTAAAAGTAAACCCAAAATGTACTTGAATCAAAACGATTAAAATCTTCGCATCTGAATCTTTCAAAGTAATTAAAAGTCTTGCAAAGTGCCAGCATTAAATTATATGTTCTTTATCCATTTTAAAAAAATAAACAAAAGTCAATAAAAAAGATATTTCTTTTATCCTTCAATACATTTACAGAGGAAGAGGAATCAAATCCAATTCAGATGAAAATTTCAAACACACAACTCAAACCCACTTCAGTCAATATAATAATACCGGCCGGTGACGGTGGCAACTGCGACGACCCAATGAGAGAGCTTTGAATTGGCTGTGATGGAATAATTAATTAATTAATCTCACTGTTTGATTATTCTAATTTAAACTCTTTAACTACTTAATCATTAATATGTTCCTAACTTTGACTTTGGCTCTACCTTCTCACCTTTTATTGCTTCTTAAGCAAGAATTTTCTTTTTCTTTTCTTTTTCTTTTTCTTTTTCTTTTTTAACTTGGCTTGTTTTTATTGGATAAAAAATGTGCTAAGTTTTCAAATTTCCTTCTTAATTAATCATTCAAACGTTTCAGTTTTAATTCTTATATATTGATTTTTTGAAAAAAGAATAAGTCCTTTGTTATTACCCGTGTTGAAACTTATTAACAAAATGATGATGTGATGTCAAAATATATAAGTAAAATTATAAAAAAAAAAATTACTCATGAAACTATATGATTGGTTTCAATTATACACCTAAATTTTGAAAAGTTTCATTCTAACTCTCGAATTTTAAAGTTTGTTTCAAAACAACTCTTAGAAATTTTGTTTCGTTAAATTTATGGACGGAAAATGTTGTGTTTACTTTTGTATTGTTGTATATGTGAACATATTTGAACATATACATTAGAAAAAAAATCAAAATATACGGAACTATGTCATTTTTCGTCCATAATTTAACAGAAAAAAAAAACTTCAAAAGTTGTTTTGAAACAATTTTCAAAATTTAAAAAAGTTAACCTGAAACTTTTCAAAATTCAAAGAGTATAATTGAAATTATTCTCATAAGTCTTTTTTATAATTTAATGAAATATATTTATTTTAGTAATAATTGAGTTGGAAATAACTCATATATTTTAGTTTGATGAAATAGACATACATATTCTTAAAATTCAAAACCAACTTGCTTCATATGATATGACATGTGCTAACTATTCTCGTTTATTATACTAAATCTCTTTAAAAATGACTTTTATATTAAGAGAAATTAAACATGATACCTAACACATGAGCAAACACCATCAACATCTAATGGTTAGACTATTGATATAATTAAATTTATCTCAAACCATCCGCTTAAATTTTGGGTTGATTGATGATTTAAAATGATATCAGAACAGGTGGTTCAAAAGGTCCTCAGAGTACCATCAGCTTAAACTTTTGGGTTAATTGATGGTTTAAGACTGAATAAATATGATAAAGATTTGAACTTGAGATCTCTTATTTTGATTTTATATTAAATTACTTGCTAAGTTTAAACTAAAAAGTTAAAAAGTATATTTAAAAATATATATATATTATTAACACTTTATAAAAGTCCAGGCACATTTTCAACAAGAGACAACAGGGTTCTATATTATACTTTTCCATTGGTCAATTTGAAAAGGCTTTAATTTTCCTTAAATTACAAGTTTGCGTAATCTTTATCCAAAAGAAAATAATATAGAAAAAGACAAATTGAGAAAAAAAAGAACCACAAAGAGCCTTGGTCTGCTTGGCTTTCTCTACTAGCAATAGGTAGATATAGTATAGGTCATCTTTTTTGAGAAAAGTTTATTTTAATTAATAATGTTTTGGGCAAAATGCACTTTTGGTCCCTCAGGTTTGGAGTTGATGTCTATTTGGTCCTGAGGTTTCAAAATATACATTTTAGTCACTCGGGTTTGTAAATCATTCTAAAAATGGTCTCGACTTAACTTTTTAATCTAACGAATCGCTTGTAGGCTGTTATCGATGACGTGGATAGAATGACAAGTCTATATTTGTTGAGGTGGATGAAATGTAATCTGATTATTTGGAAAATCAATTAAAAATATTAAATTATTAAATAAATTTAGAAAGGTTTGCCCTAATTCATTGATTCCACTTTTTTTTTGTCGCATACCTGAGGGAAGATTGAGTCGCCTTCTTCCGCCCGTCACCGTCGCATTCTTCAACCCGCCGCTGCCGCCGCCTTCTTCCGATCGTCGAAGAACGGTAACCCATGAACTAAATACTACAACCTAAATTTTTATCTCAGAAAATGAAGAACAGAAGAGGACTAGCAAGATACGTTAGCATTTACTATATCAGCTGACAAACACTGCACATAGGAAAGCAGAATCTGAAACTAAACACTCTTTAAAAAAAAATTGTTTGAATGACCAAAAAGGGAAACTACATGAATCAATGGCCAACTTCTAAGAATACACTGGCATGGGAAAACATACCAACAACGAAGAAATTTAAACAAAAACCTTTATGCATGAAACTACATTTTGTTAGCAGTTGCCAGATGTAAGGTTAGCTAAGCTAAGCAACCACAAATTCTTCGAGTATTTTCCCTGAATAGTTTAAACATGAGCTCATTTTCTTAATATGAAGTAAATTTTCATAAGAAAAAAAATCAGAAAAAAACATTTGGTTCCCATCTTAGACAGGACTAAAGCAGCATCCACTATATGATTCATGGTTCAGTCTTTTGCCCACTTCACCATTAAGTGAAGACTCGTCCATTATTTCCAACGAATATGAAGAGCTTTCGTCTGTAAAAGAATTTCCCCCCAAATTCAACGAGCTTCGACGATCGGAAGAAGGCGGCGGCAGCAGCGGACTGAAGAATGCGACGGTGACGGGCGGAAGAAGGCGACTCAATCTTCCCTCAGGTCTGCGACAAAAAAAAAGTGGAATCAATGAATTAGGGCAAACCTTTCTAAATTTATTTAATAATTTAATATTTTTAATTGATTTTTAATTAATTTTTAATTGATTTTCCAAGTAATCAGATGACATTTCATCCACCTCAACAAATATAGACTTGTCATCCTATCCACGTCAACAGATAACGGTCTAGTCAGCATTCTGTTAGATTAAAGTTAAGTCAGGGACCATTTAGAATGATTTTACAAACCTGAGGGACTAAAATGTATCTTTTGAAACCTCAGGGACCAAATAGACATCAACTCCAAACCTGAGGGACCAAAAGTGCATTTTGCCCTAATGTTTTATATAAATTTTCAAACTTATTTAATTTTACTTTAAAAAACTTGTAAATACTATATGCGATTAACATGGGTGGATTTAGTTAAGGTCCAGAACGGGCTCGAGCCCATCTTCAAATTTTTTATTGTATATAATATATATAGGAAAAATCAAATTAAAACAAAAAAAAATCTTCTGAGTTAGTGACTAGTATGTCATCAATCCCCCTCAAATCTCTTCATTAATCATTTAGCAAGAAATTTATGTATGTTTTGAAATACAATATTTGTCTTAGTTTTATCTTATTAGCTAGAAATAGAGTTTTATCTTATTAGTTAGAAATAGATTCATGCCTACTCATCAAATAGATAAATAAAATTTATGAAAAAAAAATTAAACAAGGATGAGTCTTTGTCAAATTAGTATTTAATAATTTATATAAAAAAAAAAAGTAATGGTAAAGATAAAATAAAGAGACTAAAACAAGATGAGTTAACATAAAAATTTAGAAACAAAATGAAAATTAAACTTACAGGCAAATAGTCAAAGCCCCACAATTCCAAATACATTTTAGGCGAAAGCATCCAAGTAGGTGGATATTCCTTTCATTGATAACTATTATAATCACTAAATATATTATTTTACTTTATGGGATTTTTTTTTGAAAAGTACTTTGTAACCAATTTGGTCTTATATATAGTTTGACAAAAATTAGAATTGAGCTTCTATAGTCTGAAAAGTTAGAATATTTGTGTTTTTATGGTTGGATAAAATCTTATAAATAGTCATTGTCATTAAAAGTCAAATGGATTGAGTATGTGGCCGTTAGAAGTCGCTAACAGATTAAGTACGTGACAGGATAGCTAACGATACATACTCAATCTTTTAATAACTTCAACGACGAGAACTATTTATGAAATTATATCAAACTATGAGATGAAATTTTAACTTTTATAACTATTAGAGGCTAAATTTCGACTAATTTTTTCTAACTATGGAGACTAAATTTTAACTTTCAAAACTAGATGACTAAATTACTCTAACTTTCTTCATATTATAGGAACTAAATTATAACTTTCTCAATTCTCAAAATATAGACGGCGTGAGCAAAAAAAGCTTGAAAACCGACACGATCGATCGAAACCGGTCGAACCGACGTAATCCGATTGGAATTTTCATTGTGGCGGTCAGTTTCGATTTTATGCTGTGTAAAATCGATCGGTCGGATGGTTTAAGAGAAAGCGAACCAACCGACCGAATATAATATATATAATAGATTTATTTATTATTTATTATATATAATGTATTATTAAATATTTTAAAATAATAAATTATTATTAAACTATAAAACCCTCGCATTGCACATGATCGAAAGAAGCAATCCCTCGGTCCTCGCTCCCCTCGCATCGCAATCGTCGCCAGCCATCATCCTCGGCCTCACATCGCAATCGTCGTCGCCGCCAGCCATCATCCTCGGCCTCGCATCGCAATCGCTGGCAGCCGTCGATTTTTTTCCTCAGCCTGGCACCACAATCGCATCCTCTCGAAAGACCAAACACTTGCAGTCGCCGCCTCGGAAAGCCATTGTCTTGCCTCGCCTTACTGCCGACGGTCCCTCCATGGCTCAGCTCAATCAAATAGTCCTCAGTCCTCCGGCTCAGGTACTCAGCTCGATTTTCTTTTTCAATTCGTTCCTTAGGGCCAATTTCATCATTTGGCTATTCTCCATAGATATATTCATGAGAGAGTTTTAACTGTTGGATGTCCATGTGTGTGTTTTGATTTAGGGGATAACCGATTGTAGAACCGAAAAACTGACCGACCGAACCGAAAGTCGATCGGTCGGTTTATACCTGTAAAAAAATGAAATCGGTTTTTGTTAATCAGAAACCGAGATCTGGTCGGTTCTGGTCGATTTTTCGCAAAAACCGACTCTAACCAATCGATGTTCACCCTTAAATATAGATATTAAAATTGTAATTGAACCGGTTATTCATTATAGTTGAAGAAGTATAAATAGAAAATTTTCTCAACTTTTTAGTCAAACTTTTTGGCGTCCATGGATGCAAGAAAGGAGTAAGTTTCATGGAAACTTGCTAATTAATTAAATATAGCTTAGGTTACTTTCCCGTAAAATTGCCATAATTGCTAACGACGAATTTTCAAAGTGGCTTTTAACTTTAAAAAAACATAAAAATATATATTAAAAAATAATAAATAAATGAATAAAAACGTGGCTGTTCTAATATTAAAGTCCCTGAGGAAAAGCTAGGCTGCATGCATGGTCATCGTGGTTGCTTAAGATTCGTACAAATTAACTCTTTTTTTTAAAGTAAATGCATTAACCAGAAGGAGCACAAGAGTCTCCACAAATAATACATCAAGCCCAATCGGGAAAGTCAGAAATCCAAAAGATAGGGCTATCCTCTGAATTGGAGGAAAGCGGCCAAACAGGGGGCACAAAAAAAACAGCCCTAGCTAACTCATGGGCAACACCGTTACAAGATCTAGCACAATAGGAGAAATAAACCGAAGGCCAACAAGAGGCCAAAGAACGAATATCCTCCAGAATAGAGTTCGTTTCAGAAAGGTCCTGATCGAGGGAGTTGAAAGCAGAAACAACATCCCAAGAATCTGATTCCATAAATAAGGGAGAGGAAGCAAATGAGTTCATGCTTCTGAGGGCTTTCAAACCTGCACAAATAGTTGCAGCCTCCAAAGATTTAATAGGTCATCGCCTCTTCCTGTAGCTTCGCACCAAGATGCGTCAGCGTTTAGTTTGAGAGAACCAACTGGAGGAGGGGACCACCCATTCGGACTCGGGGGGCTCTCTGATCTGCCAATAGAGATGCCACGAGAGGCTTTAGCTTCGACATCATTGAGACTTTTGTCAATAAACCTGTGAATATGATTCGAACTCATAGGTGGACCTGCACAGGAAGAACGCATAGTGAGAGTAAAGAGATTTCGAAATTTCCAAAGACTCCACAAAATAGTGATAGCCTTGGAAAGGTTTTCGATACTAAGAGTCTTTATCATCCATCCCCAAAAGTCAAGAGGGGACCAGAAATCCCTGCAAACAGAGAAAAGTTCAGTCATAATAGGAAAATAGTAAAGCCACACTTTCGAGACTCATTTGCATGTCCAGAAGGCGTGAGTGACAGACTCCACCTTTTTCCTGCAAAGCAAACAACAAATGTTAGTTGCAACCCTTTTTGTGCAAATATTAAGGGAGGTTGGGAGACCGTCGTTAAGCATCTTCCAAACACAAGTTTTCGCTCGGGGGATTGCATTAGAGCGCCAAATTTTACTCCAAATGGACTTATTGAACTGATAGTTCGAATTCGAAACCTCCTTACCATGATCGTGGTTGGAAGCAAGGTGGTAACCACTTTTCACAGAGAAAATTCCTTTTGAGTCCCCATTCCAGATGATTTCGTCATTAATGTTATTCGCGCTAAGAGGGATGTTCTTAATGTCTTCGTAGTTAGAAACTAAAAAAATCTCTTTTATTAAGTCATCTTTCCAAGCACCATTCTCATCAATAAGGTGAGAGACCCGTTTGTTTTTATGCTCATCTTTTATCCAGAGGGTGTTTTACAGCCTTCCCTCGGGATCCAAGGGTCCTTATCAATTGTAATATATTTGTCGTTGCCCACCTTCCACCTAAAACCTTTCATAAAAAGCTTTTTTCCCTATAAAATACTTCTCCAAGTTAAAGAGGGATTCTTACCTATGTTCGCCTCTAGGAAGTTTTCATCTTGAAAATAGCGCCCCTTGAGAACTTTTGCAAGTAGGCTTTCGGGGTTTCTAATGAGATTCCAACTGTGTTTCGCACGCATTGCTTGGTTAAACAGGACAATATCACGAAATCCAAGGTCTCAATTCTCTTTACTTTGACACATCTTTTTCCAACTGATCCAGTGGGCTTTCTTTTTTTCCTTTGACGAGCCCCACCAGAAATTTGCACAACAACGATTGATATCCTCATAGATAGAGAGAGGGAGGCGGAAACAACTCATCGTATAGATAGGAATGGCCTAGGCTATTGATTTAATGAGGACTTCTTTTCCCGCCTGAGAGAAGAGTTTCTCTTTCCAAGCTTGTAACACTTTCCAAACTCTATCTCTAACTTTAAAGAAAATTTTGCGCTTGTTCTTCCCATTTTAAGATGGCATACCCAGGTAGTCCCCCAGAGACTCCACTTTTTTCACTCCTAACATCCTTCCTATCTCTTCCGCTCTGGATTGGTTCACATTTTTACTGACCATGAAAGAGGACTTATCAAGGTTACTCGTCTGACCTGAAGTCTCTTCATAACTACCCAAAATGTCCCTTATAGCCCTACAGTCTTGGTTTCAGAGCTCCTCAAAGAGAAAGGTCATCGTCGGAAAAAAAGATGGTTCAACCAAGGACAGTGTTTATTCAGGCGAAAACCTTGAAAATGAGCTAAGGAACCCTCTCTATTAAGCAAAGCTGAAAAGCCTTCGGCACAAAGAAGAAAGAGATATGGGGAAAGAGGGTCATCTTGACGGAGCCCTCTTTGAGAGGGTCCATCGATTTTAAGAGGGTCCATCGATTTTAACCCTTTGGTACAAATTAACTCTTAAAAGAAAGATTCGCACAATTAAAATTTGATATTTCTTTAATATGATTATTCCAAATAATCCACTCTAAAGTTTGCTTGTGTGGACCCTTCTAATTTTGACTTAATGGATCAAGGCTTTAAATCATTCTTACAACTAATTAATTACACTCCAACCACACCCCGTCAATTCTAAACCTTCCTTTCACATCCATGTCTATTTTGGTTAAAATTCACTTTTGAATTTTTTTTAAAAAAATGACGTGGAAAAACAAGTGAAAATATAATTTTTAATATATATTACTAGGCGTTTTAGATCTTAATTTAACATTCAACATGTGAATTATATATATAATACGGTTAAAATAGTGTTTTCATATCAATTTGGTACTCAAGATTTCTCTATTTTTATAGCATATGTTCAATTAGTACTCATAGTAATTTTAGTATGGCCGATGGAAGCATGTCTTTGGAGTCTAAAAAGAATAAGTTATATAAGCTAAGTTGGTGTGTTTATGGTTTGTAAAAATAAGTACTTACGTAATATGTAGTATTTTATTATTATTTTAATAATTGTAGGAGTGAAAGATTGAATAACCGATTTTTAAAATGATAATTAGTGGTTTATATGGCTTATCTATTGAATTATATATACGATTGGTTGCATAATATATAGTATGAAATGTGAGTTTAATAAATTCATAACTTGAAAACAAATTTACATATACTAAACATAGGCTCGACTTTTTAACTTCTAAAATTATAGAAGCCTTAACCATTTGACTTATTAGCTAAACACGAAAAATCTTTATAAACTCTTAATTGAAGGATAAGTTTACTTTTCTTTAATCAATTCTTACTTTTCTTTTTGTGTTAAAATCAATTTTTATGTCATCAATCAAGCAAAAAACATCAACCAATAATTCATCAAACAAAGTCTTCTTTTTCTTCTTCTTTTTTTTCTAAAAAAAAAAATCTATTCTCTAATTTTCTAGACATACATCCAATCCATGCAATTGCAAGTCTTTGTCTTTGAAGATTAGGTAATCTACCAATCGATCGATGCCAAATTTTGGCCCCATCTTTATATTAATTAAATGCCTTTTTTTTTTCTCTTTCTATTTTATCTATTTTCCTTTTTTTTTTCCTTTCTCTGTCCTTGTTTGAAGTGTATAAATAGCCCTTAATCAAACGACAATCATGTCCACCACACTCCTCATCCTTGACCTAAAAATCTCCATTATTTTCCAAAGCAATGGCCATTTCTACTTCTCACACTCCAAAAAATATGGTGGTTTTGGTCTTAGCTTTGCATCTCTTCCTTTTCATGAGCACCTCTTCAGCCCAACTCTCCATTAACTTCTACTCCAAGACTTGCCCTAAGCTCCTCTCTACCGTCCGCTCGGGCGTCCAATCCGCCATTTCTAAGGAAACCCGCATCGGCGCTTCACTCCTTCGTCTCCACTTCCACGACTGCTTTGTTAACGTACATATTTTTTCTTCTTTTTTACTCTTGTTATAAATGTTGGAGAGAATGTATATAGAGAAACACAGAATCTCATCTTAAAACCAATTGACAATGAAAGAATCAATAACTAATGTATCTAATAAATATTGTGAGGTCTCTTCATCTTTCTGATGTAGGATCCTTAACAGGAAGTTCATAACTTTTCTCTATTTGGGATTTTTTTTTTATATAGGGATGCGATGGGTCAATTCTTTTAGCGGACACTCCAAATTTCAGAGGAGAGCAAACAGCACCTCCAAATAATAGGTCTGTTAGAGGCTTTAATGTCATAGAAGCCATCAAGAGCAACGTAGAAAAAATTTGCCCCGTGTTGTCTCATGTGCTGATATTTTGACTCTTACTGCTCGTGACTCTGTCGTCATTGTAAGTACTTTGACTTTTTCACTGTTTGATTAGATTATGATTGAAAGTGTCACTTTTACATTAGAAAGTATATATATATAAAAAAAAAAAGTTCAAATATTGTAATTATTCTAAATTAAATCACACCCTTTTAGTATTAATTATTTTTTTAATGATTATTTTAGTTGGGAGGGCCAAACTGGGAAGTGAAATTAGGAAGAAGAGATTCAAAAACAGCCAGTTTCTCTGCGGCCAGCAGTGGCGTCATCCCTCCACCGACTTCAACTCTCGACAACCTCATCAGTCGATTCGGTGCCTTAGGACTTTCTGCCAGAGACATGGTTGCTTTGTCTGGTATTATATTTCCCCCTTCACTCTCTCAATCATTTTCTAAATACAAATAAATTTATATTTTTCTTTTTTTAAAAAAAAAAAAAACTTAAAATACAAGTTAATTAGTCTATAGATCCTTCTTGATTTTGTTTGAGAGTTTCTTTACTTTACAAACTTATATTTTCAATTTGGGTCTCAATAGATATAGAATTTAATTTTATATTAGTTTTGAACATGTCAAAAGACCTATTAGATAGAATATTGAAAGTTTAAAAACTTATCAAATATTCTTAAAGTTTAGAGATACATCATATACAAAACTGAAAGTACAAGATCTTATTAGATATATTTTAAAGTTCAAAGACTAAATAGACACAAACTTCAAAATTTAGAAAGTATGATCTTGTTTGATAATCATTTGATAATGTTTTTTTTAAGATTATATTTGTTTTCTTATAATTTTTTTATACTAGTTTTAGTTCTCTACCATGGTTTCCATCTTTCTTTTAAAAAATTGTTCAAGTTTTTAGCTAAATTCCAAAAATAAAAATAAGTTTTTGAAAACTACTGTTTTTTTCAAAATTTAGTTGGTTTTTGAAAACATAGTAGAAAGTAGATAACAAAATAAGGAAATCATTGATAGAACGAATATTTATAGACTTGATTTTCAAAAACTAAAAACAAAAATTCAAATGGTTATCAAACAAAACATAAATAGTTATCAAATGTGGTATAAATTTATCGTTTAACTCAAAAAAAGTTCAAAGTACTTTCACACTTTCTCTCTCGTATATCTATTGAGAATCTCACACTGAAAAGATAGGAAGACCTCACATGTATAGGTTATTCATCTCATTACTAATTGATTTTGAAATGAAATCTCCCGTAGCTCATAAAACTTAAACGTGTATTAAAATTGAAATCCAATAAAAAAAAGACAATCTAATTTAATTTGTGGTTAATTGCCTTGATTTTTTTGGGGATGTAGGGGCTCACACGATAGGCTTAGCAAGGTGCACAGTGTTCAGGAACCGGATATACAACGAGACCAATATAAACGCTTCATTCGCTAAGCTAAGACAGAGCAGCTGCCCGAGAAGAGGAGGAGATGACAATCTTGCCCCTCTCGACGTGGCAACGCCTAAGCTTTTCGACAACTATTATTTCAAGAATCTGTTGAACAAAAAGGGCTTGCTCCACTCCGACCAGATCCTATACAACGGCGGATCCACCGATTCCTTGGTCGAACTCTACAGTAAAAATGATCGGACTTTCGACGCCGATTTCGTCGCCGCCATGATTAGAATGGGAGATATCCAGCCGCTCACCGGATCTCAGGGCCAGATCAGGAAGCTCTGCAGCAGACCCAACTGA

mRNA sequence

ATGGCTATGGCTTTAGCATTAGCCTTATTGGCAATGTTCATGGGGAGCTCCTCAGCTCAGCTCTCTACCGACTTCTACTACTATAGCTGCCCCAAGCTCCTCGACACCGTTAGAGCCGGTATTCAATCCGCCGTCGCTAAGGAAGCTCGCATGGGCGCTTCCCTTCTCCGCCTCCACTTTCATGACTGCTTCGTTAACGGTTGTGATGGATCGATTCTTCTCGAAGACACTCCTACGTTTACAGGAGAGCAAACAGCAGCTCCCAACAACAGATCTGTTAGAGGGTTCGAAGTGATTGAGAGTATAAAGAAAAACGTTGAAAAAATTTGTCCTGGTGTTGTCTCTTGTGCTGATATTTTGACTCTTTCTGCTCGTGACTCGGTGGTAGCTCTTGGAGGGCCAAGTTGGAAGGTGAAATTGGGAAGAAGAGACTCTGTAACAGCCAGCTTCTCCGACGTGACCGGAGCCATTCCGCCGCCAACCTCCACACTTGACACCCTCATCGACCGGTTCAATACTAAAGGCCTTTCCCCTCGAGATTTGGTTGCTTTATCTGGGGCCCACACGATCGGACAAGCAAAGTGTTTGTTTTTCAAGAACCGTATATACAACGAGACGAACATCGACGAGTCGTTCGCGGAGGAGAGACAGAGGAATTGTCCAGTAAATGGAGGAGACGACAATCGGGCGCCATTGGACTTTAGAACTCCGAATCTTTTTGACAACTATTATTACAAGAACCTTATGGATCAAAAGGCTCTACTCCGGTCCGATCAAGTGCTACACGACGGCGGATCCACCGATTCCTTGGTTGAACTTTACAGCCACGACAGTGACGCCTTCGAGTCTGACTTTGTCGCGGCCATGATCAAGATGGCCGACATCCAGCCGCTCACTGGCTCCCAAGGCCAAATTCGAAAGCTCTGCAGAAGAACGCATAGTGAGAGTAAAGAGATTTCGAAATTTCCAAAGACTCCACAAAATAGTGATAGCCTTGGAAAGGTTTTCGATACTAAGAGTCTTTATCATCCATCCCCAAAAGTCAAGAGGGGACCAGAAATCCCTGCAAACAGAGAAAAGTTCAGTCATAATAGGAAAATAGTAAAGCCACACTTTCGAGACTCATTTGCATGTCCAGAAGGCGTGACAATGGCCATTTCTACTTCTCACACTCCAAAAAATATGGTGGTTTTGGTCTTAGCTTTGCATCTCTTCCTTTTCATGAGCACCTCTTCAGCCCAACTCTCCATTAACTTCTACTCCAAGACTTGCCCTAAGCTCCTCTCTACCGTCCGCTCGGGCGTCCAATCCGCCATTTCTAAGGAAACCCGCATCGGCGCTTCACTCCTTCGTCTCCACTTCCACGACTGCTTTGTTAACGGATGCGATGGGTCAATTCTTTTAGCGGACACTCCAAATTTCAGAGGAGAGCAAACAGCACCTCCAAATAATAGGTCTGTTAGAGGCTTTAATGTCATAGAAGCCATCAAGAGCAACGTAGAAAAAATTTGCCCCGTGTTGTCTCATTTGGGAGGGCCAAACTGGGAAGTGAAATTAGGAAGAAGAGATTCAAAAACAGCCAGTTTCTCTGCGGCCAGCAGTGGCGTCATCCCTCCACCGACTTCAACTCTCGACAACCTCATCAGTCGATTCGGTGCCTTAGGACTTTCTGCCAGAGACATGGTTGCTTTGTCTGGGGCTCACACGATAGGCTTAGCAAGGTGCACAGTGTTCAGGAACCGGATATACAACGAGACCAATATAAACGCTTCATTCGCTAAGCTAAGACAGAGCAGCTGCCCGAGAAGAGGAGGAGATGACAATCTTGCCCCTCTCGACGTGGCAACGCCTAAGCTTTTCGACAACTATTATTTCAAGAATCTGTTGAACAAAAAGGGCTTGCTCCACTCCGACCAGATCCTATACAACGGCGGATCCACCGATTCCTTGGTCGAACTCTACAGTAAAAATGATCGGACTTTCGACGCCGATTTCGTCGCCGCCATGATTAGAATGGGAGATATCCAGCCGCTCACCGGATCTCAGGGCCAGATCAGGAAGCTCTGCAGCAGACCCAACTGA

Coding sequence (CDS)

ATGGCTATGGCTTTAGCATTAGCCTTATTGGCAATGTTCATGGGGAGCTCCTCAGCTCAGCTCTCTACCGACTTCTACTACTATAGCTGCCCCAAGCTCCTCGACACCGTTAGAGCCGGTATTCAATCCGCCGTCGCTAAGGAAGCTCGCATGGGCGCTTCCCTTCTCCGCCTCCACTTTCATGACTGCTTCGTTAACGGTTGTGATGGATCGATTCTTCTCGAAGACACTCCTACGTTTACAGGAGAGCAAACAGCAGCTCCCAACAACAGATCTGTTAGAGGGTTCGAAGTGATTGAGAGTATAAAGAAAAACGTTGAAAAAATTTGTCCTGGTGTTGTCTCTTGTGCTGATATTTTGACTCTTTCTGCTCGTGACTCGGTGGTAGCTCTTGGAGGGCCAAGTTGGAAGGTGAAATTGGGAAGAAGAGACTCTGTAACAGCCAGCTTCTCCGACGTGACCGGAGCCATTCCGCCGCCAACCTCCACACTTGACACCCTCATCGACCGGTTCAATACTAAAGGCCTTTCCCCTCGAGATTTGGTTGCTTTATCTGGGGCCCACACGATCGGACAAGCAAAGTGTTTGTTTTTCAAGAACCGTATATACAACGAGACGAACATCGACGAGTCGTTCGCGGAGGAGAGACAGAGGAATTGTCCAGTAAATGGAGGAGACGACAATCGGGCGCCATTGGACTTTAGAACTCCGAATCTTTTTGACAACTATTATTACAAGAACCTTATGGATCAAAAGGCTCTACTCCGGTCCGATCAAGTGCTACACGACGGCGGATCCACCGATTCCTTGGTTGAACTTTACAGCCACGACAGTGACGCCTTCGAGTCTGACTTTGTCGCGGCCATGATCAAGATGGCCGACATCCAGCCGCTCACTGGCTCCCAAGGCCAAATTCGAAAGCTCTGCAGAAGAACGCATAGTGAGAGTAAAGAGATTTCGAAATTTCCAAAGACTCCACAAAATAGTGATAGCCTTGGAAAGGTTTTCGATACTAAGAGTCTTTATCATCCATCCCCAAAAGTCAAGAGGGGACCAGAAATCCCTGCAAACAGAGAAAAGTTCAGTCATAATAGGAAAATAGTAAAGCCACACTTTCGAGACTCATTTGCATGTCCAGAAGGCGTGACAATGGCCATTTCTACTTCTCACACTCCAAAAAATATGGTGGTTTTGGTCTTAGCTTTGCATCTCTTCCTTTTCATGAGCACCTCTTCAGCCCAACTCTCCATTAACTTCTACTCCAAGACTTGCCCTAAGCTCCTCTCTACCGTCCGCTCGGGCGTCCAATCCGCCATTTCTAAGGAAACCCGCATCGGCGCTTCACTCCTTCGTCTCCACTTCCACGACTGCTTTGTTAACGGATGCGATGGGTCAATTCTTTTAGCGGACACTCCAAATTTCAGAGGAGAGCAAACAGCACCTCCAAATAATAGGTCTGTTAGAGGCTTTAATGTCATAGAAGCCATCAAGAGCAACGTAGAAAAAATTTGCCCCGTGTTGTCTCATTTGGGAGGGCCAAACTGGGAAGTGAAATTAGGAAGAAGAGATTCAAAAACAGCCAGTTTCTCTGCGGCCAGCAGTGGCGTCATCCCTCCACCGACTTCAACTCTCGACAACCTCATCAGTCGATTCGGTGCCTTAGGACTTTCTGCCAGAGACATGGTTGCTTTGTCTGGGGCTCACACGATAGGCTTAGCAAGGTGCACAGTGTTCAGGAACCGGATATACAACGAGACCAATATAAACGCTTCATTCGCTAAGCTAAGACAGAGCAGCTGCCCGAGAAGAGGAGGAGATGACAATCTTGCCCCTCTCGACGTGGCAACGCCTAAGCTTTTCGACAACTATTATTTCAAGAATCTGTTGAACAAAAAGGGCTTGCTCCACTCCGACCAGATCCTATACAACGGCGGATCCACCGATTCCTTGGTCGAACTCTACAGTAAAAATGATCGGACTTTCGACGCCGATTTCGTCGCCGCCATGATTAGAATGGGAGATATCCAGCCGCTCACCGGATCTCAGGGCCAGATCAGGAAGCTCTGCAGCAGACCCAACTGA

Protein sequence

MAMALALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFHDCFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADILTLSARDSVVALGGPSWKVKLGRRDSVTASFSDVTGAIPPPTSTLDTLIDRFNTKGLSPRDLVALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCPVNGGDDNRAPLDFRTPNLFDNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPLTGSQGQIRKLCRRTHSESKEISKFPKTPQNSDSLGKVFDTKSLYHPSPKVKRGPEIPANREKFSHNRKIVKPHFRDSFACPEGVTMAISTSHTPKNMVVLVLALHLFLFMSTSSAQLSINFYSKTCPKLLSTVRSGVQSAISKETRIGASLLRLHFHDCFVNGCDGSILLADTPNFRGEQTAPPNNRSVRGFNVIEAIKSNVEKICPVLSHLGGPNWEVKLGRRDSKTASFSAASSGVIPPPTSTLDNLISRFGALGLSARDMVALSGAHTIGLARCTVFRNRIYNETNINASFAKLRQSSCPRRGGDDNLAPLDVATPKLFDNYYFKNLLNKKGLLHSDQILYNGGSTDSLVELYSKNDRTFDADFVAAMIRMGDIQPLTGSQGQIRKLCSRPN

Homology

[Close]

BLAST of Tan0018205 vs. ExPASy Swiss-Prot
Match: A7NY33 (Peroxidase 4 OS=Vitis vinifera OX=29760 GN=GSVIVT00023967001 PE=1 SV=1)

HSP 1 Score: 421.8 bits (1083), Expect = 1.5e-116
Identity = 206/313 (65.81%), Postives = 248/313 (79.23%), Query Frame = 0


Query: 3   MALALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFHD 62
           + +AL +LA+F GSSSAQLST+FY  +CPK+ DTV++G+QSAV+KE RMGASLLRL FHD
Sbjct: 9   VVVALGVLALFAGSSSAQLSTNFYSKTCPKVFDTVKSGVQSAVSKERRMGASLLRLFFHD 68

Query: 63  CFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADILTL 122
           CFVNGCD S+LL+DT +FTGEQTA PN  S+RG  VI++IK  VE +CPGVVSCADI+ +
Sbjct: 69  CFVNGCDASVLLDDTSSFTGEQTAVPNKNSIRGLNVIDNIKSQVESVCPGVVSCADIIAI 128

Query: 123 SARDSVVALGGPSWKVKLGRRDSVTASFSDVTGAIPPPTSTLDTLIDRFNTKGLSPRDLV 182
           +ARDSVV LGGP W VKLGRRDS TAS S     IPPPTS+L  LI +F  +GLS RD+V
Sbjct: 129 AARDSVVILGGPDWDVKLGRRDSKTASLSGANNNIPPPTSSLSNLISKFQAQGLSTRDMV 188

Query: 183 ALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCP--VNGGDDNRAPLDFRTPNLF 242
           ALSGAHTIGQA+C  F+ RIYNETNID SFA+ RQ +CP     GD+N APLD +TP  F
Sbjct: 189 ALSGAHTIGQARCTSFRARIYNETNIDSSFAKTRQASCPSASGSGDNNLAPLDLQTPTTF 248

Query: 243 DNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPLTG 302
           DNYYYKNL++QK LL SDQVL++GGSTDS V+ Y ++   F SDFVA MIKM DI PLTG
Sbjct: 249 DNYYYKNLINQKGLLHSDQVLYNGGSTDSTVKTYVNNPKTFTSDFVAGMIKMGDITPLTG 308

Query: 303 SQGQIRKLCRRTH 314
           S+G+IRK C + +
Sbjct: 309 SEGEIRKSCGKVN 321

[Close]

BLAST of Tan0018205 vs. ExPASy Swiss-Prot
Match: Q9LVL1 (Peroxidase 68 OS=Arabidopsis thaliana OX=3702 GN=PER68 PE=2 SV=1)

HSP 1 Score: 388.7 bits (997), Expect = 1.4e-106
Identity = 198/313 (63.26%), Postives = 234/313 (74.76%), Query Frame = 0


Query: 2   AMALALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFH 61
           A  + L  + M    + AQL TDFY  SCP LL TVR  +Q  VAKE R+ ASLLRL FH
Sbjct: 11  AAFVVLLFIVMLGSQAQAQLRTDFYSDSCPSLLPTVRRVVQREVAKERRIAASLLRLFFH 70

Query: 62  DCFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADILT 121
           DCFVNGCD SILL+DT +F GE+TA PNN SVRG+EVI++IK  VE++CPGVVSCADIL 
Sbjct: 71  DCFVNGCDASILLDDTRSFLGEKTAGPNNNSVRGYEVIDAIKSRVERLCPGVVSCADILA 130

Query: 122 LSARDSVVALGGPSWKVKLGRRDSVTASFSDV-TGAIPPPTSTLDTLIDRFNTKGLSPRD 181
           ++ARDSV+ +GG  W VKLGRRDS+TASFS   +G +PPPTSTLD LI+ F   GLSPRD
Sbjct: 131 ITARDSVLLMGGRGWSVKLGRRDSITASFSTANSGVLPPPTSTLDNLINLFRANGLSPRD 190

Query: 182 LVALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCP--VNGGDDNRAPLDFRTPN 241
           +VALSGAHTIGQA+C+ F++RIYN TNID SFA  R+R+CP     GD+N A LD RTP 
Sbjct: 191 MVALSGAHTIGQARCVTFRSRIYNSTNIDLSFALSRRRSCPAATGSGDNNAAILDLRTPE 250

Query: 242 LFDNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPL 301
            FD  Y+  L++ + LL SDQVL +GGSTDS+V  YS    AF  DFVAAMIKM DI PL
Sbjct: 251 KFDGSYFMQLVNHRGLLTSDQVLFNGGSTDSIVVSYSRSVQAFYRDFVAAMIKMGDISPL 310

Query: 302 TGSQGQIRKLCRR 312
           TGS GQIR+ CRR
Sbjct: 311 TGSNGQIRRSCRR 323

[Close]

BLAST of Tan0018205 vs. ExPASy Swiss-Prot
Match: Q9FLC0 (Peroxidase 52 OS=Arabidopsis thaliana OX=3702 GN=PER52 PE=2 SV=1)

HSP 1 Score: 384.4 bits (986), Expect = 2.7e-105
Identity = 197/315 (62.54%), Postives = 235/315 (74.60%), Query Frame = 0


Query: 5   LALALLAMFMGSSS----AQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHF 64
           L L +  +  G ++    AQL+T+FY  SCP LL TV+  ++SAV  EARMGAS+LRL F
Sbjct: 10  LVLVVTLLLQGDNNYVVEAQLTTNFYSTSCPNLLSTVQTAVKSAVNSEARMGASILRLFF 69

Query: 65  HDCFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADIL 124
           HDCFVNGCDGSILL+DT +FTGEQ AAPN  S RGF VI++IK  VEK CPGVVSCADIL
Sbjct: 70  HDCFVNGCDGSILLDDTSSFTGEQNAAPNRNSARGFNVIDNIKSAVEKACPGVVSCADIL 129

Query: 125 TLSARDSVVALGGPSWKVKLGRRDSVTASFSDVTGAIPPPTSTLDTLIDRFNTKGLSPRD 184
            ++ARDSVVALGGP+W VK+GRRD+ TAS +     IP PTS+L  LI  F+  GLS RD
Sbjct: 130 AIAARDSVVALGGPNWNVKVGRRDARTASQAAANSNIPAPTSSLSQLISSFSAVGLSTRD 189

Query: 185 LVALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCP--VNGGDDNRAPLDFRTPN 244
           +VALSGAHTIGQ++C  F+ RIYNETNI+ +FA  RQR CP     GD N APLD  T  
Sbjct: 190 MVALSGAHTIGQSRCTNFRARIYNETNINAAFATTRQRTCPRASGSGDGNLAPLDVTTAA 249

Query: 245 LFDNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPL 304
            FDN Y+KNLM Q+ LL SDQVL +GGSTDS+V  YS++  +F SDF AAMIKM DI PL
Sbjct: 250 SFDNNYFKNLMTQRGLLHSDQVLFNGGSTDSIVRGYSNNPSSFNSDFTAAMIKMGDISPL 309

Query: 305 TGSQGQIRKLCRRTH 314
           TGS G+IRK+C RT+
Sbjct: 310 TGSSGEIRKVCGRTN 324

[Close]

BLAST of Tan0018205 vs. ExPASy Swiss-Prot
Match: Q9LVL2 (Peroxidase 67 OS=Arabidopsis thaliana OX=3702 GN=PER67 PE=2 SV=1)

HSP 1 Score: 382.5 bits (981), Expect = 1.0e-104
Identity = 192/314 (61.15%), Postives = 237/314 (75.48%), Query Frame = 0


Query: 1   MAMALALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHF 60
           M   + L ++ M    S AQL+ DFY  SCP L   VR  ++ AVA+E RMGASLLRL F
Sbjct: 1   MLKVVLLMMIMMLASQSEAQLNRDFYKESCPSLFLVVRRVVKRAVAREPRMGASLLRLFF 60

Query: 61  HDCFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADIL 120
           HDCFVNGCDGS+LL+DTP+F GE+T+ P+N SVRGFEVI+ IK  VEK+CPG+VSCADIL
Sbjct: 61  HDCFVNGCDGSLLLDDTPSFLGEKTSGPSNNSVRGFEVIDKIKFKVEKMCPGIVSCADIL 120

Query: 121 TLSARDSVVALGGPSWKVKLGRRDSVTASFSDV-TGAIPPPTSTLDTLIDRFNTKGLSPR 180
            ++ARDSV+ LGGP W VKLGRRDS TA+F+   +G IPPP +TL  LI+RF  +GLS R
Sbjct: 121 AITARDSVLLLGGPGWSVKLGRRDSTTANFAAANSGVIPPPITTLSNLINRFKAQGLSTR 180

Query: 181 DLVALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCPV--NGGDDNRAPLDFRTP 240
           D+VALSGAHTIG+A+C+ F+NRIYN +NID SFA  ++RNCP     GD+ +A LD R+P
Sbjct: 181 DMVALSGAHTIGRAQCVTFRNRIYNASNIDTSFAISKRRNCPATSGSGDNKKANLDVRSP 240

Query: 241 NLFDNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQP 300
           + FD+ +YK L+ +K LL SDQVL + G TDSLV  YSH+ +AF  DF  AMIKM DI P
Sbjct: 241 DRFDHGFYKQLLSKKGLLTSDQVLFNNGPTDSLVIAYSHNLNAFYRDFARAMIKMGDISP 300

Query: 301 LTGSQGQIRKLCRR 312
           LTGS GQIR+ CRR
Sbjct: 301 LTGSNGQIRQNCRR 314

[Close]

BLAST of Tan0018205 vs. ExPASy Swiss-Prot
Match: P00434 (Peroxidase P7 OS=Brassica rapa subsp. rapa OX=51350 PE=1 SV=3)

HSP 1 Score: 376.3 bits (965), Expect = 7.3e-103
Identity = 185/296 (62.50%), Postives = 225/296 (76.01%), Query Frame = 0


Query: 20  QLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFHDCFVNGCDGSILLEDTPT 79
           QL+T+FY  SCP LL TV++G++SAV+ + RMGAS+LRL FHDCFVNGCDGSILL+DT +
Sbjct: 1   QLTTNFYSTSCPNLLSTVKSGVKSAVSSQPRMGASILRLFFHDCFVNGCDGSILLDDTSS 60

Query: 80  FTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADILTLSARDSVVALGGPSWKVK 139
           FTGEQ A PN  S RGF VI  IK  VEK CPGVVSCADIL ++ARDSVV LGGP+W VK
Sbjct: 61  FTGEQNAGPNRNSARGFTVINDIKSAVEKACPGVVSCADILAIAARDSVVQLGGPNWNVK 120

Query: 140 LGRRDSVTASFSDVTGAIPPPTSTLDTLIDRFNTKGLSPRDLVALSGAHTIGQAKCLFFK 199
           +GRRD+ TAS +     IP P+ +L  LI  F+  GLS RD+VALSGAHTIGQ++C+ F+
Sbjct: 121 VGRRDAKTASQAAANSNIPAPSMSLSQLISSFSAVGLSTRDMVALSGAHTIGQSRCVNFR 180

Query: 200 NRIYNETNIDESFAEERQRNCP--VNGGDDNRAPLDFRTPNLFDNYYYKNLMDQKALLRS 259
            R+YNETNI+ +FA  RQR+CP     GD N APLD  +   FDN Y+KNLM Q+ LL S
Sbjct: 181 ARVYNETNINAAFATLRQRSCPRAAGSGDANLAPLDINSATSFDNSYFKNLMAQRGLLHS 240

Query: 260 DQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPLTGSQGQIRKLCRRTH 314
           DQVL +GGSTDS+V  YS+   +F SDF AAMIKM DI PLTGS G+IRK+C +T+
Sbjct: 241 DQVLFNGGSTDSIVRGYSNSPSSFNSDFAAAMIKMGDISPLTGSSGEIRKVCGKTN 296

[Close]

BLAST of Tan0018205 vs. NCBI nr
Match: KAG5567079.1 (hypothetical protein RHGRI_002596 [Rhododendron griersonianum])

HSP 1 Score: 809.7 bits (2090), Expect = 2.0e-230
Identity = 435/715 (60.84%), Postives = 519/715 (72.59%), Query Frame = 0


Query: 5   LALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFHDCF 64
           +A  LL + +GSSSAQLST FY  +CPKLL TV++ ++SAV+KE RMGASLLRLHFHDCF
Sbjct: 58  IAFVLLLVILGSSSAQLSTKFYSKTCPKLLTTVQSVVKSAVSKEKRMGASLLRLHFHDCF 117

Query: 65  VNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADILTLSA 124
           VNGCDGSILL+DT +FTGE+TA PNNRSVRG+ VI+ IK  VE  CPGVVSCADI+ ++A
Sbjct: 118 VNGCDGSILLDDTSSFTGEKTAGPNNRSVRGYNVIDDIKSEVEDACPGVVSCADIVAIAA 177

Query: 125 RDSVVALGGPSWKVKLGRRDSVTASFSDV-TGAIPPPTSTLDTLIDRFNTKGLSPRDLVA 184
           RDSVV LGGP W VKLGRRDS TAS     +G IPPPTSTL  L++RF  KGLS +D+V 
Sbjct: 178 RDSVVLLGGPGWDVKLGRRDSKTASLKAANSGIIPPPTSTLSNLVNRFQAKGLSTKDMVV 237

Query: 185 LSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCPVNGGDDNRAPLDFRTPNLFDNY 244
           LSG+HTIGQA+C+ F+ RIY+ETNID SFA+ RQ +CP   GD+N APLD ++  +FDN 
Sbjct: 238 LSGSHTIGQARCVSFRARIYSETNIDSSFAKTRQGSCPRTSGDNNLAPLDVQSATVFDNK 297

Query: 245 YYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPLTGSQG 304
           YYKNL++QK LL SDQVLH+GGSTDSLVE YS DSD+F+SDF AAMIKM DI PLTGS G
Sbjct: 298 YYKNLINQKGLLHSDQVLHNGGSTDSLVEKYSKDSDSFDSDFAAAMIKMGDISPLTGSSG 357

Query: 305 QIRKLCRRTHSESKEISKFPKTPQNSDSLGKVFDTKSLYHPSPKVKR--GPEIPANREKF 364
           +IRK CR             K     D    V   K L    P+VKR  G   P ++E  
Sbjct: 358 EIRKKCR-------------KQWMGGDRFFFVVKHKGLL---PRVKREFGESTPLHKEHD 417

Query: 365 SH------NRKIVKPHFRDSFACPEGVTMAISTSHTPKNMVVLVLALHLFLFMSTSSAQL 424
                   N K+ + + R+       +   I       +  V  +    F     SSAQL
Sbjct: 418 QRWKTTQTNHKLNEDYLRNKPGSSPFLRW-IKDHFVSNDARVGFVKPRSF----CSSAQL 477

Query: 425 SINFYSKTCPKLLSTVRSGVQSAISKETRIGASLLRLHFHDCFVNGCDGSILLADTPNFR 484
           S NFYSKTCPKL++TV+S V+SA+SKE R+GASLLRLHFHDCFVNGCDGSILL DT +F 
Sbjct: 478 STNFYSKTCPKLMTTVQSVVKSAVSKEKRMGASLLRLHFHDCFVNGCDGSILLDDTSSFT 537

Query: 485 GEQTAPPNNRSVRGFNVIEAIKSNVEKICP-VLS--------------HLGGPNWEVKLG 544
           GE+TA PN+ SVRG+NVI+ IKS VE  CP V+S               LGGP W+VKLG
Sbjct: 538 GEKTAGPNSGSVRGYNVIDDIKSEVEDACPGVVSCADIVAIAARDSVVLLGGPGWDVKLG 597

Query: 545 RRDSKTASFSAASSGVIPPPTSTLDNLISRFGALGLSARDMVALSGAHTIGLARCTVFRN 604
           RRDSKTAS SAA+SGVIPPPTSTL NL++RF A GLS +DMV LSG+HTIG ARC +FR 
Sbjct: 598 RRDSKTASLSAANSGVIPPPTSTLSNLVNRFQAKGLSTKDMVVLSGSHTIGQARCLLFRT 657

Query: 605 RIYNETNINASFAKLRQSSCPRR--GGDDNLAPLDVATPKLFDNYYFKNLLNKKGLLHSD 664
           RIYNETNI++SFAK RQ SCPR    GD+N A LDV +  +FDN Y+KNL+N+KGLLHSD
Sbjct: 658 RIYNETNIDSSFAKTRQGSCPRTAGSGDNNPASLDVQSATVFDNKYYKNLINQKGLLHSD 717

Query: 665 QILYNGGSTDSLVELYSKNDRTFDADFVAAMIRMGDIQPLTGSQGQIRKLCSRPN 694
           Q+L+NGGSTDSLVE YSK+  +FD+DF AAMI+MGDI PLTGS G+IRK C + N
Sbjct: 718 QVLHNGGSTDSLVEKYSKDSDSFDSDFAAAMIKMGDISPLTGSSGEIRKKCRKVN 751

[Close]

BLAST of Tan0018205 vs. NCBI nr
Match: KAG5567080.1 (hypothetical protein RHGRI_002596 [Rhododendron griersonianum])

HSP 1 Score: 809.7 bits (2090), Expect = 2.0e-230
Identity = 435/715 (60.84%), Postives = 519/715 (72.59%), Query Frame = 0


Query: 5   LALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFHDCF 64
           +A  LL + +GSSSAQLST FY  +CPKLL TV++ ++SAV+KE RMGASLLRLHFHDCF
Sbjct: 14  IAFVLLLVILGSSSAQLSTKFYSKTCPKLLTTVQSVVKSAVSKEKRMGASLLRLHFHDCF 73

Query: 65  VNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADILTLSA 124
           VNGCDGSILL+DT +FTGE+TA PNNRSVRG+ VI+ IK  VE  CPGVVSCADI+ ++A
Sbjct: 74  VNGCDGSILLDDTSSFTGEKTAGPNNRSVRGYNVIDDIKSEVEDACPGVVSCADIVAIAA 133

Query: 125 RDSVVALGGPSWKVKLGRRDSVTASFSDV-TGAIPPPTSTLDTLIDRFNTKGLSPRDLVA 184
           RDSVV LGGP W VKLGRRDS TAS     +G IPPPTSTL  L++RF  KGLS +D+V 
Sbjct: 134 RDSVVLLGGPGWDVKLGRRDSKTASLKAANSGIIPPPTSTLSNLVNRFQAKGLSTKDMVV 193

Query: 185 LSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCPVNGGDDNRAPLDFRTPNLFDNY 244
           LSG+HTIGQA+C+ F+ RIY+ETNID SFA+ RQ +CP   GD+N APLD ++  +FDN 
Sbjct: 194 LSGSHTIGQARCVSFRARIYSETNIDSSFAKTRQGSCPRTSGDNNLAPLDVQSATVFDNK 253

Query: 245 YYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPLTGSQG 304
           YYKNL++QK LL SDQVLH+GGSTDSLVE YS DSD+F+SDF AAMIKM DI PLTGS G
Sbjct: 254 YYKNLINQKGLLHSDQVLHNGGSTDSLVEKYSKDSDSFDSDFAAAMIKMGDISPLTGSSG 313

Query: 305 QIRKLCRRTHSESKEISKFPKTPQNSDSLGKVFDTKSLYHPSPKVKR--GPEIPANREKF 364
           +IRK CR             K     D    V   K L    P+VKR  G   P ++E  
Sbjct: 314 EIRKKCR-------------KQWMGGDRFFFVVKHKGLL---PRVKREFGESTPLHKEHD 373

Query: 365 SH------NRKIVKPHFRDSFACPEGVTMAISTSHTPKNMVVLVLALHLFLFMSTSSAQL 424
                   N K+ + + R+       +   I       +  V  +    F     SSAQL
Sbjct: 374 QRWKTTQTNHKLNEDYLRNKPGSSPFLRW-IKDHFVSNDARVGFVKPRSF----CSSAQL 433

Query: 425 SINFYSKTCPKLLSTVRSGVQSAISKETRIGASLLRLHFHDCFVNGCDGSILLADTPNFR 484
           S NFYSKTCPKL++TV+S V+SA+SKE R+GASLLRLHFHDCFVNGCDGSILL DT +F 
Sbjct: 434 STNFYSKTCPKLMTTVQSVVKSAVSKEKRMGASLLRLHFHDCFVNGCDGSILLDDTSSFT 493

Query: 485 GEQTAPPNNRSVRGFNVIEAIKSNVEKICP-VLS--------------HLGGPNWEVKLG 544
           GE+TA PN+ SVRG+NVI+ IKS VE  CP V+S               LGGP W+VKLG
Sbjct: 494 GEKTAGPNSGSVRGYNVIDDIKSEVEDACPGVVSCADIVAIAARDSVVLLGGPGWDVKLG 553

Query: 545 RRDSKTASFSAASSGVIPPPTSTLDNLISRFGALGLSARDMVALSGAHTIGLARCTVFRN 604
           RRDSKTAS SAA+SGVIPPPTSTL NL++RF A GLS +DMV LSG+HTIG ARC +FR 
Sbjct: 554 RRDSKTASLSAANSGVIPPPTSTLSNLVNRFQAKGLSTKDMVVLSGSHTIGQARCLLFRT 613

Query: 605 RIYNETNINASFAKLRQSSCPRR--GGDDNLAPLDVATPKLFDNYYFKNLLNKKGLLHSD 664
           RIYNETNI++SFAK RQ SCPR    GD+N A LDV +  +FDN Y+KNL+N+KGLLHSD
Sbjct: 614 RIYNETNIDSSFAKTRQGSCPRTAGSGDNNPASLDVQSATVFDNKYYKNLINQKGLLHSD 673

Query: 665 QILYNGGSTDSLVELYSKNDRTFDADFVAAMIRMGDIQPLTGSQGQIRKLCSRPN 694
           Q+L+NGGSTDSLVE YSK+  +FD+DF AAMI+MGDI PLTGS G+IRK C + N
Sbjct: 674 QVLHNGGSTDSLVEKYSKDSDSFDSDFAAAMIKMGDISPLTGSSGEIRKKCRKVN 707

[Close]

BLAST of Tan0018205 vs. NCBI nr
Match: KAE8039387.1 (hypothetical protein FH972_011804 [Carpinus fangiana])

HSP 1 Score: 774.2 bits (1998), Expect = 9.2e-220
Identity = 414/721 (57.42%), Postives = 497/721 (68.93%), Query Frame = 0


Query: 3   MALALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFHD 62
           +ALA+ L+A F GSSSAQLST FY  +CPK+  TV + ++SA+A+E R+GASLLRLHFHD
Sbjct: 16  VALAVVLVA-FTGSSSAQLSTGFYSKTCPKVFSTVESAVRSAIAQEKRLGASLLRLHFHD 75

Query: 63  CFVN------------GCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKIC 122
           CFVN            GCDGSILL+DT +FTGE+TAAPNNRSVRGF+V++ IK  VEK+C
Sbjct: 76  CFVNVNSSSLVSIHWFGCDGSILLDDTSSFTGEKTAAPNNRSVRGFKVVDDIKSKVEKVC 135

Query: 123 PGVVSCADILTLSARDSVVALGGPSWKVKLGRRDSVTASFSDV-TGAIPPPTSTLDTLID 182
           PGVVSCADIL ++ARDSVV LGGPSW VK+GRRDS TASFSD  +G IPPPTSTL  LI+
Sbjct: 136 PGVVSCADILAITARDSVVILGGPSWDVKVGRRDSKTASFSDANSGVIPPPTSTLSNLIN 195

Query: 183 RFNTKGLSPRDLVALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCPVN-GGDDN 242
           RF+ KGLS +D+VALSG+HTIGQA+CL F++RIYNETNID SFA++RQ  CP N GG  N
Sbjct: 196 RFSAKGLSAKDMVALSGSHTIGQARCLVFRDRIYNETNIDSSFAKKRQAQCPRNTGGRKN 255

Query: 243 RAPLDFRTPNLFDNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAA 302
            APLD +TP  FDN YY NL+++K LL SDQ+L++GGSTDSLV+ YS+D+  F  DF  A
Sbjct: 256 LAPLDLQTPTAFDNKYYNNLIEEKGLLHSDQILYNGGSTDSLVKTYSNDAKTFNEDFATA 315

Query: 303 MIKMADIQPLTGSQGQIRKLCRRTHSESKEISKFPKTPQNSDSLGKVFDTKSLYHPSPKV 362
           M+KM DI PLTGS G+IR                                          
Sbjct: 316 MVKMGDIDPLTGSNGEIR------------------------------------------ 375

Query: 363 KRGPEIPANREKFSHNRKIVKPHFRDSFACPEGVTMAISTSHTPKNMVVLVLALHLFLFM 422
                                                        N  +L  A+ L LF 
Sbjct: 376 --------------------------------------------LNSAILAFAVVLVLFT 435

Query: 423 STSSAQLSINFYSKTCPKLLSTVRSGVQSAISKETRIGASLLRLHFHDCFVNGCDGSILL 482
             SSAQLS +FYSKTCPK+ +TV+S V+SAIS+E+R+GASLLRLHFHDCFVNGCDGS+LL
Sbjct: 436 GGSSAQLSTSFYSKTCPKVFTTVKSAVRSAISQESRLGASLLRLHFHDCFVNGCDGSVLL 495

Query: 483 ADTPNFRGEQTAPPNNRSVRGFNVIEAIKSNVEKICP-VLS--------------HLGGP 542
            DT +F GE+TAPPNNRS+RGF V++ IKS VEK+CP V+S               LGGP
Sbjct: 496 DDTSSFTGEKTAPPNNRSIRGFKVVDGIKSKVEKVCPGVVSCSDILAIAARDSVVILGGP 555

Query: 543 NWEVKLGRRDSKTASFSAASSGVIPPPTSTLDNLISRFGALGLSARDMVALSGAHTIGLA 602
           +W+VKLGRRD+KTASF  A++  +P P S L+ LIS F   GLS  DMVALSGAHTIGL+
Sbjct: 556 SWDVKLGRRDAKTASFLDANNS-LPSPNSNLNVLISGFQVKGLSTNDMVALSGAHTIGLS 615

Query: 603 RCTVFRNRIYNETNINASFAKLRQSSCPRR-GGDDNLAPLDVATPKLFDNYYFKNLLNKK 662
           +C  FR+RIY +TNI+ SFAK+RQ  CPR  GG  NLAPLD+ TP  FDN YF NL+NKK
Sbjct: 616 QCLTFRSRIYTDTNIDRSFAKMRQDHCPRNTGGRKNLAPLDLQTPTAFDNKYFLNLINKK 648

Query: 663 GLLHSDQILYNGGSTDSLVELYSKNDRTFDADFVAAMIRMGDIQPLTGSQGQIRKLCSRP 694
           GLLHSDQ LYNGGSTDSLV  Y+ + +TF  DFVAAMI+MGDI+PLTGS G+IRK C RP
Sbjct: 676 GLLHSDQELYNGGSTDSLVRTYNNDAKTFYDDFVAAMIKMGDIEPLTGSSGEIRKNCRRP 648

[Close]

BLAST of Tan0018205 vs. NCBI nr
Match: KAG8496129.1 (hypothetical protein CXB51_009435 [Gossypium anomalum])

HSP 1 Score: 738.4 bits (1905), Expect = 5.6e-209
Identity = 419/744 (56.32%), Postives = 511/744 (68.68%), Query Frame = 0


Query: 12  MFMGSSS-AQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFHDCFVNGCDG 71
           M  GSSS AQLST+FY  SCPK+L TV + ++SAV+KE RMGASL+RL FHDCFVNGCDG
Sbjct: 51  MMAGSSSYAQLSTNFYSKSCPKVLSTVESVVKSAVSKEKRMGASLVRLFFHDCFVNGCDG 110

Query: 72  SILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADILTLSARDSVVA 131
           SILL+DT +FTGE+TAAPNN SVRGF V++ IK  VEK CPGVVSCADIL L+ARDSVV 
Sbjct: 111 SILLDDTSSFTGEKTAAPNNNSVRGFNVVDDIKDKVEKACPGVVSCADILALAARDSVVI 170

Query: 132 LGGPSWKVKLGRRDSVTASFSDV-TGAIPPPTSTLDTLIDRFNTKGLSPRDLVALSGAHT 191
           LGGP W VKLGRRDS TASFS   +G IPPPT+TL  LI+RF  +GLS +D+VALSGAHT
Sbjct: 171 LGGPGWDVKLGRRDSKTASFSAANSGVIPPPTATLSQLINRFQARGLSAKDMVALSGAHT 230

Query: 192 IGQAKCLFFKNRIYNETNIDESFAEERQRNCP--VNGGDDNRAPLDFRTPNLFDNYYYKN 251
           IG+A+C+ F++RIYNE+NID SFA+ RQ +CP     GD+N APLD  TPN FD  Y+ N
Sbjct: 231 IGKARCVLFRDRIYNESNIDTSFAKARQSSCPRTSGSGDNNLAPLDVATPNSFDLKYFNN 290

Query: 252 LMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPLTGSQG---- 311
           L+++K LL SDQ+L +GGSTDSLV+ YS ++  F SDFV AMIKM DI PLTGS G    
Sbjct: 291 LLNKKGLLHSDQILFNGGSTDSLVKTYSSNTKKFYSDFVTAMIKMGDITPLTGSNGGRTV 350

Query: 312 QIRKLCRRTHSESKEISKFPKTPQNSDS--------LGKVFDTKSL-YHPSPKVKRGPEI 371
             +KL      +         T  N+D         L K+F   +    P+P      + 
Sbjct: 351 TKKKLYLPFIFKQSHTHGSTDTSNNNDDQDLHVIHILSKIFKQHTYRIVPTPLSIISSDG 410

Query: 372 PANRE-KFSHNRKIV----KPHFRDSFACPEGVTMAI-------STSHTPKNMV------ 431
             N E K S N+ ++      H   +  C     + I       +T H+  ++       
Sbjct: 411 RGNFEAKGSINKHLLIILFSTHALVTCRCHGATCLYILSLMANGTTIHSSNHLCTFLSSS 470

Query: 432 ------------VLVLALHLFLFMSTSSAQLSINFYSKTCPKLLSTVRSGVQSAISKETR 491
                       VL + +   +  S+S AQLS NFYSK+CPK+LSTV   +++A+SKE R
Sbjct: 471 SIICQSMASSFGVLYVVVVWMMMGSSSYAQLSTNFYSKSCPKVLSTVELVLETAVSKEQR 530

Query: 492 IGASLLRLHFHDCFVNGCDGSILLADTPNFRGEQTAPPNNRSVRGFNVIEAIKSNVEKIC 551
           +GASLLRL FHDCFVNGCDGS+LL DT +F GEQTA PNN S+RGF V++ IK+ VEK+C
Sbjct: 531 LGASLLRLFFHDCFVNGCDGSVLLDDTSSFTGEQTATPNNGSLRGFEVVDEIKAKVEKVC 590

Query: 552 P-VLS--------------HLGGPNWEVKLGRRDSKTASFSAASSGVIPPPTSTLDNLIS 611
           P V+S               LGGP+W+VKLGRRDSKTASFS A+S  +P  ++ L  LIS
Sbjct: 591 PGVVSCADILAIAARDSVVILGGPDWDVKLGRRDSKTASFSDANS-ALPLGSANLSQLIS 650

Query: 612 RFGALGLSARDMVALSGAHTIGLARCTVFRNRIYNETNINASFAKLRQSSCPRR--GGDD 671
            F A GLS +DMVALSGAHTIG ARC VFRNR+YNETNI+ SFAK R+SSCPR    GD+
Sbjct: 651 LFQAQGLSTKDMVALSGAHTIGKARCLVFRNRMYNETNIDTSFAKTRRSSCPRTSGSGDN 710

Query: 672 NLAPLDVATPKLFDNYYFKNLLNKKGLLHSDQILYNGGSTDSLVELYSKNDRTFDADFVA 692
           NLAPLD+ATP  FD+ YF+NLLNKKGLLHSDQ L+NGGSTDSLV+ YS N + F +DFVA
Sbjct: 711 NLAPLDLATPNSFDSKYFENLLNKKGLLHSDQELFNGGSTDSLVKTYSSNVKKFYSDFVA 770

[Close]

BLAST of Tan0018205 vs. NCBI nr
Match: TXG50008.1 (hypothetical protein EZV62_025883 [Acer yangbiense])

HSP 1 Score: 725.7 bits (1872), Expect = 3.8e-205
Identity = 389/710 (54.79%), Postives = 473/710 (66.62%), Query Frame = 0


Query: 3   MALALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFHD 62
           + + L  L + +G+++AQLST+FY  SCP+L  TV++ +QSA+++EARMGAS+LRL FHD
Sbjct: 18  LVVTLFSLLVVIGNTNAQLSTNFYSKSCPRLFSTVKSSMQSAISREARMGASILRLFFHD 77

Query: 63  CFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADILTL 122
           CFVNGCDGSILL+DT +FTGE+ AAPN  S RGF+VI++IK  VEK CPGVVSCAD+L +
Sbjct: 78  CFVNGCDGSILLDDTSSFTGEKNAAPNRNSARGFDVIDNIKSAVEKACPGVVSCADVLAI 137

Query: 123 SARDSVVALGGPSWKVKLGRRDSVTASFSDVTGAIPPPTSTLDTLIDRFNTKGLSPRDLV 182
           +ARDSV  LGGPSW VKLGRRD+ TAS +    +IPPPTS L+ LI  F++ GLS RDLV
Sbjct: 138 AARDSVEILGGPSWNVKLGRRDARTASQAAANNSIPPPTSNLNRLISSFSSVGLSTRDLV 197

Query: 183 ALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCP--VNGGDDNRAPLDFRTPNLF 242
           ALSGAHTIGQ++C+ F+ RIYNETNID SFA+ RQRNCP     GD+N APLD +TP  F
Sbjct: 198 ALSGAHTIGQSRCVQFRPRIYNETNIDSSFAQTRQRNCPRATGSGDNNLAPLDLQTPTCF 257

Query: 243 DNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPLTG 302
           DN+Y+KNL+ +K LL SDQ L +GGSTDS+V  YS + + F SDFVAAMIKM D +PLTG
Sbjct: 258 DNHYFKNLITKKGLLHSDQQLFNGGSTDSIVRTYSSNPNTFSSDFVAAMIKMGDNKPLTG 317

Query: 303 SQGQIRKLCRRTHSESKEISKFPKTPQNSDSLGKVFDTKSLYHPSPKVKRGPEIPANREK 362
           S                                                           
Sbjct: 318 S----------------------------------------------------------- 377

Query: 363 FSHNRKIVKPHFRDSFACPEGVTMAISTSHTPKNMVVLVLALHLFLFMSTSSAQLSINFY 422
                                            N+V+             ++AQLS NFY
Sbjct: 378 ---------------------------------NVVI-----------GNTNAQLSTNFY 437

Query: 423 SKTCPKLLSTVRSGVQSAISKETRIGASLLRLHFHDCFVNGCDGSILLADTPNFRGEQTA 482
           SK+CP+L  TV+S VQSAIS+E RIGAS+LRL FHDCFVNGCDGSILL DT +F GE+ A
Sbjct: 438 SKSCPRLFPTVKSSVQSAISREARIGASILRLFFHDCFVNGCDGSILLDDTSSFTGEKNA 497

Query: 483 PPNNRSVRGFNVIEAIKSNVEKICP---------------VLSHLGGPNWEVKLGRRDSK 542
            PN  SVRGFNVI+ IKS VEK CP                +  LGGP+W+VKLGRRD++
Sbjct: 498 APNRNSVRGFNVIDNIKSAVEKACPGVVSCADVLAIAARDSVEILGGPSWKVKLGRRDAR 557

Query: 543 TASFSAASSGVIPPPTSTLDNLISRFGALGLSARDMVALSGAHTIGLARCTVFRNRIYNE 602
           TAS  AA++  IPPPTS L+ LIS F A+GLS RD+VALSGAHTIGL+RC  FR RIYNE
Sbjct: 558 TAS-QAAANNSIPPPTSNLNRLISSFSAVGLSTRDLVALSGAHTIGLSRCVQFRPRIYNE 617

Query: 603 TNINASFAKLRQSSCPRR--GGDDNLAPLDVATPKLFDNYYFKNLLNKKGLLHSDQILYN 662
           TNI++SFA+ RQ +CPR    GD+NLAPLD+ TP  FDN YFKNL+ KKGLLHSDQ L+N
Sbjct: 618 TNIDSSFAQTRQRNCPRATGSGDNNLAPLDLQTPTSFDNKYFKNLITKKGLLHSDQQLFN 623

Query: 663 GGSTDSLVELYSKNDRTFDADFVAAMIRMGDIQPLTGSQGQIRKLCSRPN 694
           GGSTDS+V  YS N  TF ++FV AMI+MGD +PLTGS G+IRK C R N
Sbjct: 678 GGSTDSIVRTYSSNPNTFTSNFVTAMIKMGDNKPLTGSNGEIRKNCRRIN 623

[Close]

BLAST of Tan0018205 vs. ExPASy TrEMBL
Match: A0A660KSH5 (Peroxidase OS=Carpinus fangiana OX=176857 GN=FH972_011804 PE=3 SV=1)

HSP 1 Score: 774.2 bits (1998), Expect = 4.5e-220
Identity = 414/721 (57.42%), Postives = 497/721 (68.93%), Query Frame = 0


Query: 3   MALALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFHD 62
           +ALA+ L+A F GSSSAQLST FY  +CPK+  TV + ++SA+A+E R+GASLLRLHFHD
Sbjct: 16  VALAVVLVA-FTGSSSAQLSTGFYSKTCPKVFSTVESAVRSAIAQEKRLGASLLRLHFHD 75

Query: 63  CFVN------------GCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKIC 122
           CFVN            GCDGSILL+DT +FTGE+TAAPNNRSVRGF+V++ IK  VEK+C
Sbjct: 76  CFVNVNSSSLVSIHWFGCDGSILLDDTSSFTGEKTAAPNNRSVRGFKVVDDIKSKVEKVC 135

Query: 123 PGVVSCADILTLSARDSVVALGGPSWKVKLGRRDSVTASFSDV-TGAIPPPTSTLDTLID 182
           PGVVSCADIL ++ARDSVV LGGPSW VK+GRRDS TASFSD  +G IPPPTSTL  LI+
Sbjct: 136 PGVVSCADILAITARDSVVILGGPSWDVKVGRRDSKTASFSDANSGVIPPPTSTLSNLIN 195

Query: 183 RFNTKGLSPRDLVALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCPVN-GGDDN 242
           RF+ KGLS +D+VALSG+HTIGQA+CL F++RIYNETNID SFA++RQ  CP N GG  N
Sbjct: 196 RFSAKGLSAKDMVALSGSHTIGQARCLVFRDRIYNETNIDSSFAKKRQAQCPRNTGGRKN 255

Query: 243 RAPLDFRTPNLFDNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAA 302
            APLD +TP  FDN YY NL+++K LL SDQ+L++GGSTDSLV+ YS+D+  F  DF  A
Sbjct: 256 LAPLDLQTPTAFDNKYYNNLIEEKGLLHSDQILYNGGSTDSLVKTYSNDAKTFNEDFATA 315

Query: 303 MIKMADIQPLTGSQGQIRKLCRRTHSESKEISKFPKTPQNSDSLGKVFDTKSLYHPSPKV 362
           M+KM DI PLTGS G+IR                                          
Sbjct: 316 MVKMGDIDPLTGSNGEIR------------------------------------------ 375

Query: 363 KRGPEIPANREKFSHNRKIVKPHFRDSFACPEGVTMAISTSHTPKNMVVLVLALHLFLFM 422
                                                        N  +L  A+ L LF 
Sbjct: 376 --------------------------------------------LNSAILAFAVVLVLFT 435

Query: 423 STSSAQLSINFYSKTCPKLLSTVRSGVQSAISKETRIGASLLRLHFHDCFVNGCDGSILL 482
             SSAQLS +FYSKTCPK+ +TV+S V+SAIS+E+R+GASLLRLHFHDCFVNGCDGS+LL
Sbjct: 436 GGSSAQLSTSFYSKTCPKVFTTVKSAVRSAISQESRLGASLLRLHFHDCFVNGCDGSVLL 495

Query: 483 ADTPNFRGEQTAPPNNRSVRGFNVIEAIKSNVEKICP-VLS--------------HLGGP 542
            DT +F GE+TAPPNNRS+RGF V++ IKS VEK+CP V+S               LGGP
Sbjct: 496 DDTSSFTGEKTAPPNNRSIRGFKVVDGIKSKVEKVCPGVVSCSDILAIAARDSVVILGGP 555

Query: 543 NWEVKLGRRDSKTASFSAASSGVIPPPTSTLDNLISRFGALGLSARDMVALSGAHTIGLA 602
           +W+VKLGRRD+KTASF  A++  +P P S L+ LIS F   GLS  DMVALSGAHTIGL+
Sbjct: 556 SWDVKLGRRDAKTASFLDANNS-LPSPNSNLNVLISGFQVKGLSTNDMVALSGAHTIGLS 615

Query: 603 RCTVFRNRIYNETNINASFAKLRQSSCPRR-GGDDNLAPLDVATPKLFDNYYFKNLLNKK 662
           +C  FR+RIY +TNI+ SFAK+RQ  CPR  GG  NLAPLD+ TP  FDN YF NL+NKK
Sbjct: 616 QCLTFRSRIYTDTNIDRSFAKMRQDHCPRNTGGRKNLAPLDLQTPTAFDNKYFLNLINKK 648

Query: 663 GLLHSDQILYNGGSTDSLVELYSKNDRTFDADFVAAMIRMGDIQPLTGSQGQIRKLCSRP 694
           GLLHSDQ LYNGGSTDSLV  Y+ + +TF  DFVAAMI+MGDI+PLTGS G+IRK C RP
Sbjct: 676 GLLHSDQELYNGGSTDSLVRTYNNDAKTFYDDFVAAMIKMGDIEPLTGSSGEIRKNCRRP 648

[Close]

BLAST of Tan0018205 vs. ExPASy TrEMBL
Match: A0A5C7GZ28 (Peroxidase OS=Acer yangbiense OX=1000413 GN=EZV62_025883 PE=3 SV=1)

HSP 1 Score: 725.7 bits (1872), Expect = 1.8e-205
Identity = 389/710 (54.79%), Postives = 473/710 (66.62%), Query Frame = 0


Query: 3   MALALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFHD 62
           + + L  L + +G+++AQLST+FY  SCP+L  TV++ +QSA+++EARMGAS+LRL FHD
Sbjct: 18  LVVTLFSLLVVIGNTNAQLSTNFYSKSCPRLFSTVKSSMQSAISREARMGASILRLFFHD 77

Query: 63  CFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADILTL 122
           CFVNGCDGSILL+DT +FTGE+ AAPN  S RGF+VI++IK  VEK CPGVVSCAD+L +
Sbjct: 78  CFVNGCDGSILLDDTSSFTGEKNAAPNRNSARGFDVIDNIKSAVEKACPGVVSCADVLAI 137

Query: 123 SARDSVVALGGPSWKVKLGRRDSVTASFSDVTGAIPPPTSTLDTLIDRFNTKGLSPRDLV 182
           +ARDSV  LGGPSW VKLGRRD+ TAS +    +IPPPTS L+ LI  F++ GLS RDLV
Sbjct: 138 AARDSVEILGGPSWNVKLGRRDARTASQAAANNSIPPPTSNLNRLISSFSSVGLSTRDLV 197

Query: 183 ALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCP--VNGGDDNRAPLDFRTPNLF 242
           ALSGAHTIGQ++C+ F+ RIYNETNID SFA+ RQRNCP     GD+N APLD +TP  F
Sbjct: 198 ALSGAHTIGQSRCVQFRPRIYNETNIDSSFAQTRQRNCPRATGSGDNNLAPLDLQTPTCF 257

Query: 243 DNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPLTG 302
           DN+Y+KNL+ +K LL SDQ L +GGSTDS+V  YS + + F SDFVAAMIKM D +PLTG
Sbjct: 258 DNHYFKNLITKKGLLHSDQQLFNGGSTDSIVRTYSSNPNTFSSDFVAAMIKMGDNKPLTG 317

Query: 303 SQGQIRKLCRRTHSESKEISKFPKTPQNSDSLGKVFDTKSLYHPSPKVKRGPEIPANREK 362
           S                                                           
Sbjct: 318 S----------------------------------------------------------- 377

Query: 363 FSHNRKIVKPHFRDSFACPEGVTMAISTSHTPKNMVVLVLALHLFLFMSTSSAQLSINFY 422
                                            N+V+             ++AQLS NFY
Sbjct: 378 ---------------------------------NVVI-----------GNTNAQLSTNFY 437

Query: 423 SKTCPKLLSTVRSGVQSAISKETRIGASLLRLHFHDCFVNGCDGSILLADTPNFRGEQTA 482
           SK+CP+L  TV+S VQSAIS+E RIGAS+LRL FHDCFVNGCDGSILL DT +F GE+ A
Sbjct: 438 SKSCPRLFPTVKSSVQSAISREARIGASILRLFFHDCFVNGCDGSILLDDTSSFTGEKNA 497

Query: 483 PPNNRSVRGFNVIEAIKSNVEKICP---------------VLSHLGGPNWEVKLGRRDSK 542
            PN  SVRGFNVI+ IKS VEK CP                +  LGGP+W+VKLGRRD++
Sbjct: 498 APNRNSVRGFNVIDNIKSAVEKACPGVVSCADVLAIAARDSVEILGGPSWKVKLGRRDAR 557

Query: 543 TASFSAASSGVIPPPTSTLDNLISRFGALGLSARDMVALSGAHTIGLARCTVFRNRIYNE 602
           TAS  AA++  IPPPTS L+ LIS F A+GLS RD+VALSGAHTIGL+RC  FR RIYNE
Sbjct: 558 TAS-QAAANNSIPPPTSNLNRLISSFSAVGLSTRDLVALSGAHTIGLSRCVQFRPRIYNE 617

Query: 603 TNINASFAKLRQSSCPRR--GGDDNLAPLDVATPKLFDNYYFKNLLNKKGLLHSDQILYN 662
           TNI++SFA+ RQ +CPR    GD+NLAPLD+ TP  FDN YFKNL+ KKGLLHSDQ L+N
Sbjct: 618 TNIDSSFAQTRQRNCPRATGSGDNNLAPLDLQTPTSFDNKYFKNLITKKGLLHSDQQLFN 623

Query: 663 GGSTDSLVELYSKNDRTFDADFVAAMIRMGDIQPLTGSQGQIRKLCSRPN 694
           GGSTDS+V  YS N  TF ++FV AMI+MGD +PLTGS G+IRK C R N
Sbjct: 678 GGSTDSIVRTYSSNPNTFTSNFVTAMIKMGDNKPLTGSNGEIRKNCRRIN 623

[Close]

BLAST of Tan0018205 vs. ExPASy TrEMBL
Match: A0A061GYX9 (Peroxidase OS=Theobroma cacao OX=3641 GN=TCM_042261 PE=3 SV=1)

HSP 1 Score: 693.3 bits (1788), Expect = 1.0e-195
Identity = 375/708 (52.97%), Postives = 452/708 (63.84%), Query Frame = 0


Query: 7   LALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFHDCFVN 66
           L LL M   S+SAQLST+FY  SCPK+  TV++ +QSAV+KE RMGASL+RL FHDCFVN
Sbjct: 17  LVLLIMRSSSTSAQLSTNFYSKSCPKVFSTVKSAVQSAVSKERRMGASLVRLFFHDCFVN 76

Query: 67  GCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADILTLSARD 126
           GCDGSILL+DT +F GE+TA PNN SVRGF V++ IK  VEK+CPGVVSCADI+ ++ARD
Sbjct: 77  GCDGSILLDDTSSFKGEKTAGPNNNSVRGFNVVDDIKAKVEKVCPGVVSCADIVAIAARD 136

Query: 127 SVVALGGPSWKVKLGRRDSVTASFSDV-TGAIPPPTSTLDTLIDRFNTKGLSPRDLVALS 186
           SVV LGGP W VKLGRRDS TASFS   +G IPPPTSTL  LI+RF  +GLS +D+VALS
Sbjct: 137 SVVILGGPDWDVKLGRRDSKTASFSAANSGVIPPPTSTLSQLINRFQARGLSAKDMVALS 196

Query: 187 GAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCP--VNGGDDNRAPLDFRTPNLFDNY 246
           GAHTIG+A+C+ F+ RIYNETNID SFA+ R+ +CP     GD+N APLD  TP+ FD  
Sbjct: 197 GAHTIGKARCILFRARIYNETNIDSSFAKARRSSCPRTSGSGDNNLAPLDIGTPDSFDTN 256

Query: 247 YYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPLTGSQG 306
           Y++NL++QK LL SDQ+L +GGSTDSLV+ YS  +  F SDFV AMIKM DI PLTG   
Sbjct: 257 YFQNLLNQKGLLHSDQILFNGGSTDSLVKTYSSRTKTFYSDFVTAMIKMGDITPLTG--- 316

Query: 307 QIRKLCRRTHSESKEISKFPKTPQNSDSLGKVFDTKSLYHPSPKVKRGPEIPANREKFSH 366
                                                                       
Sbjct: 317 ------------------------------------------------------------ 376

Query: 367 NRKIVKPHFRDSFACPEGVTMAISTSHTPKNMVVLVLALHLFLFMSTSSAQLSINFYSKT 426
                                                                       
Sbjct: 377 ------------------------------------------------------------ 436

Query: 427 CPKLLSTVRSGVQSAISKETRIGASLLRLHFHDCFVNGCDGSILLADTPNFRGEQTAPPN 486
                    S V+SA+SKE R+GASL+RL FHDCFVNGCDGSILL DT +F GE+TA PN
Sbjct: 437 ---------SSVKSAVSKEPRMGASLVRLFFHDCFVNGCDGSILLDDTSSFIGEKTAAPN 496

Query: 487 NRSVRGFNVIEAIKSNVEKICPVLSH---------------LGGPNWEVKLGRRDSKTAS 546
           N SVRGF+V++ IKS VEK+CP +                 LGGP WEVKLGRRDSKTA+
Sbjct: 497 NNSVRGFHVVDDIKSEVEKVCPGIVSCADILAIAARDSVVLLGGPGWEVKLGRRDSKTAN 556

Query: 547 FSAA-SSGVIPPPTSTLDNLISRFGALGLSARDMVALSGAHTIGLARCTVFRNRIYNETN 606
           F+AA + G IP PTS L  LIS F   GLSA+DMVALSGAHTIG ARCTVFR+RIYNE N
Sbjct: 557 FTAAKNGGFIPSPTSNLSALISSFRVQGLSAKDMVALSGAHTIGKARCTVFRSRIYNEAN 592

Query: 607 INASFAKLRQSSCPRR--GGDDNLAPLDVATPKLFDNYYFKNLLNKKGLLHSDQILYNGG 666
           I++SFA+ R+ +CP     GDDNLAPLDV TP  FD  YF+NL+NK+GLLHSDQ+L+NGG
Sbjct: 617 IDSSFAETRRRNCPSASGSGDDNLAPLDVRTPDCFDKKYFQNLMNKQGLLHSDQVLFNGG 592

Query: 667 STDSLVELYSKNDRTFDADFVAAMIRMGDIQPLTGSQGQIRKLCSRPN 694
           STDSLV+ Y  + + F++DFV A+I+MGD++PLTGS+G+IRK C +PN
Sbjct: 677 STDSLVKKYGSSTKAFNSDFVTAIIKMGDVKPLTGSRGEIRKNCRKPN 592

[Close]

BLAST of Tan0018205 vs. ExPASy TrEMBL
Match: A0A498JIE3 (Peroxidase OS=Malus domestica OX=3750 GN=DVH24_024409 PE=3 SV=1)

HSP 1 Score: 662.5 bits (1708), Expect = 1.9e-186
Identity = 365/766 (47.65%), Postives = 470/766 (61.36%), Query Frame = 0


Query: 3   MALALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFHD 62
           MA+      M M +++AQLST FY  SCPKL  TV++ + SA+ KE RMGASLLRLHFHD
Sbjct: 7   MAILTLAFLMLMRTTNAQLSTKFYSSSCPKLFSTVKSTVHSAIQKETRMGASLLRLHFHD 66

Query: 63  CFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADILTL 122
           CFVNGCDGS+LL+DT +FTGE+ A PN  S RGF V++ IK  VE  CPGVVSCADIL +
Sbjct: 67  CFVNGCDGSLLLDDTSSFTGEKNAVPNKNSARGFNVVDKIKSAVENACPGVVSCADILAI 126

Query: 123 SARDSVVALGGPSWKVKLGRRDSVTASFSDVTGAIPPPTSTLDTLIDRFNTKGLSPRDLV 182
           +AR+SV  LGGPSW VKLGRRD+ TAS +    +IPPPT  L+ L+  FN  GLS RDLV
Sbjct: 127 AARESVTVLGGPSWDVKLGRRDTRTASQAAANNSIPPPTRNLNQLVSTFNALGLSTRDLV 186

Query: 183 ALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCP--VNGGDDNRAPLDFRTPNLF 242
           ALSG+HTIGQA+C  F+ RIYNETN+D S A+ RQ NCP     GD+N APLD ++P  F
Sbjct: 187 ALSGSHTIGQARCTTFRPRIYNETNLDSSLAQTRQSNCPRTSGSGDNNLAPLDLKSPTFF 246

Query: 243 DNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPLTG 302
           DN Y+KNL+  K LL SDQ L +GGSTDS+V  YS+  + F SDF  AMIKM DI+PLTG
Sbjct: 247 DNSYFKNLIQNKGLLHSDQQLFNGGSTDSIVRAYSNSYNTFSSDFAKAMIKMGDIKPLTG 306

Query: 303 SQGQIRK------------------------LCRRTHS----------ESKEISKFPKTP 362
           S G+IRK                        +C R  S          +S  +    +  
Sbjct: 307 SNGEIRKNSLLERKMPNPIGILYGDFSAPENVCLRVVSCADILAIAARDSVAMDPIQQGK 366

Query: 363 QNSDSLGKVFDTKSLY-HPSPKVKRGPEIPANREKFSHNRKIVKP-----HFRDSFACPE 422
           Q +   G  + T+  +  P PK    P+   +         +  P     H+  +    +
Sbjct: 367 QGAPYSGPGYTTRPTWTDPLPKESNCPKTYGSGNNNLAPLDLQSPTVFDNHYYKTLIKNK 426

Query: 423 GVTMA----------------ISTSHTPKNMVVLVLALHLFLFMSTSSAQLSINFYSKTC 482
           G+  +                 S + +   M ++ L+  +       S  LS  +Y+ +C
Sbjct: 427 GLLQSDEQLFDGGSTNATIYMRSMASSYSFMAIVTLSFLIVHVDVVKSDGLSTTYYASSC 486

Query: 483 PKLLSTVRSGVQSAISKETRIGASLLRLHFHDCFVNGCDGSILLADTPNFRGEQTAPPNN 542
           PKL  TV+S V+SAI KE R+GASLLRL FHDCFVNGCDGS+LL D PNF GE+  PPN 
Sbjct: 487 PKLFPTVKSIVESAIKKEARMGASLLRLFFHDCFVNGCDGSVLLDDAPNFIGEKNVPPNK 546

Query: 543 RSVRGFNVIEAIKSNVEKICP---------------VLSHLGGPNWEVKLGRRDSKTASF 602
            S RGF VI+ +KS VEK+CP                +  LGGP+W ++LGR+D++ A+ 
Sbjct: 547 NSSRGFEVIDEVKSAVEKVCPGTVSCADIVATVARDSVVMLGGPSWGIQLGRKDAR-ATN 606

Query: 603 SAASSGVIPPPTSTLDNLISRFGALGLSARDMVALSGAHTIGLARCTVFRNRIYNETNIN 662
              ++  IP   + L  LI RF  + L+ RD+VALSGAHT+G A+C  FR RIYNETNI+
Sbjct: 607 PVVTNVSIPTARANLKELILRFSGIALNKRDLVALSGAHTLGQAQCHNFRKRIYNETNID 666

Query: 663 ASFAKLRQSSCPRR--GGDDNLAPLDVATPKLFDNYYFKNLLNKKGLLHSDQILYNGGST 694
              A+ R+S CP+    GD +LAP+D  TP +FDN Y+KNL+ KKGLLHSDQ L++GG T
Sbjct: 667 TDLAQQRRSKCPKAKGSGDHHLAPIDAQTPIVFDNSYYKNLVQKKGLLHSDQQLFSGGKT 726

[Close]

BLAST of Tan0018205 vs. ExPASy TrEMBL
Match: A0A0B0MNR4 (Peroxidase OS=Gossypium arboreum OX=29729 GN=F383_17561 PE=3 SV=1)

HSP 1 Score: 657.9 bits (1696), Expect = 4.7e-185
Identity = 364/720 (50.56%), Postives = 460/720 (63.89%), Query Frame = 0


Query: 1   MAMALALALLAMFM-------GSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGA 60
           MA A +L LL + +       GS  ++LS ++Y  +CP++L  V+A  +S + K+ RMGA
Sbjct: 1   MAKAWSLLLLLIILVFGAFVEGSHGSKLSQNYYKSTCPQVLSIVKAKTESTLKKKPRMGA 60

Query: 61  SLLRLHFHDCFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGV 120
           SLLRLHFHDCFVNGCDGSILL+D  TF GE+TA  NN S RGFE+++ IK  VEK CPGV
Sbjct: 61  SLLRLHFHDCFVNGCDGSILLDDNSTFIGEKTALANNNSARGFELVDDIKAEVEKTCPGV 120

Query: 121 VSCADILTLSARDSVVALGGPSWKVKLGRRDSVTASFSDVTGAIPPPTSTLDTLIDRFNT 180
           VSCADIL ++ARDS V LGGPSWKVK GRRDS+TAS +D    IP P+ TL  L   F+ 
Sbjct: 121 VSCADILAIAARDSTVVLGGPSWKVKSGRRDSITASRADANKFIPAPSFTLSALKSNFHA 180

Query: 181 KGLSPRDLVALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCPVNGGDDNRAPLD 240
           KGLS +DLVALSGAHTIG A+C  F+  IYN++NID SFA+  Q  CP NG D+    LD
Sbjct: 181 KGLSLKDLVALSGAHTIGLARCTTFRAHIYNDSNIDPSFAKSLQHKCPRNGKDNIHRRLD 240

Query: 241 FRTPNLFDNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMA 300
            RTP  FDN+Y++NL+ +K LLRSDQ L +  S DSLV+ Y+ DS  F   F  +MIKM+
Sbjct: 241 LRTPITFDNFYFRNLLKKKGLLRSDQELFNDKSADSLVKKYAADSSKFFKQFTKSMIKMS 300

Query: 301 DIQPLTGSQGQIRKLCRRTHSESKEISKFPKTPQNSDSLGKVFDTKSLYHPSPKVKRGPE 360
           +I+PLTG+ GQIR  CR+  + S                                     
Sbjct: 301 NIKPLTGNSGQIRINCRKNFNNS------------------------------------- 360

Query: 361 IPANREKFSHNRKIVKPHFRDSFACPEGVTMAISTSHTPKNMVVLVLALHLFLFMSTSS- 420
                       +   PHF         ++  I       NM +    L +   ++ SS 
Sbjct: 361 ----------CCRTSGPHF---------ISNMIGNKFALTNMALFRSLLLIIFIVAVSSC 420

Query: 421 ---AQLSINFYSKTCPKLLSTVRSGVQSAISKETRIGASLLRLHFHDCFVNGCDGSILLA 480
              AQLS N+YS TCP+ LS V++ V +AI  ETRIGASLLRLHFHDCFVNGCDGS+LL 
Sbjct: 421 QTNAQLSPNYYSSTCPQALSIVKAEVAAAIKNETRIGASLLRLHFHDCFVNGCDGSVLLD 480

Query: 481 DTPNFRGEQTAPPNNRSVRGFNVIEAIKSNVEKICP-VLS--------------HLGGPN 540
           D   F GE+TA PNN S RGFNV++ IK+ +EK CP V+S               LGGP+
Sbjct: 481 DNSTFIGEKTAVPNNNSARGFNVVDNIKARLEKACPGVVSCADILAIAARDSVVRLGGPS 540

Query: 541 WEVKLGRRDSKTASFSAASSGVIPPPTSTLDNLISRFGALGLSARDMVALSGAHTIGLAR 600
           W+V+LGRRDS +AS SAA++  IPPPTS L  LIS F A GLS +++VALSG+HTIGLAR
Sbjct: 541 WKVRLGRRDSTSASRSAANTS-IPPPTSNLSALISSFSAQGLSIKNLVALSGSHTIGLAR 600

Query: 601 CTVFRNRIYNETNINASFAKLRQSSCPRRGGDDNLAPLDVATPKLFDNYYFKNLLNKKGL 660
           CT FR+ IYN++NI+ SFA   +  CPR G D  LAPLD  TP  FDN Y+KNLL+KKGL
Sbjct: 601 CTSFRSHIYNDSNIDPSFANSLRRICPRSGNDSVLAPLDRQTPTCFDNLYYKNLLDKKGL 660

Query: 661 LHSDQILYNGGS-TDSLVELYSKNDRTFDADFVAAMIRMGDIQPLTGSQGQIRKLCSRPN 694
           LHSDQ ++NG S TD LV+ Y+ +      +F  +MI+MG+I+PLTG+ G+IR  C + N
Sbjct: 661 LHSDQEIFNGSSLTDGLVKKYAADTSLLFKEFAKSMIKMGNIKPLTGNAGEIRINCRKAN 663

[Close]

BLAST of Tan0018205 vs. TAIR 10
Match: AT5G58400.1 (Peroxidase superfamily protein )

HSP 1 Score: 388.7 bits (997), Expect = 1.0e-107
Identity = 198/313 (63.26%), Postives = 234/313 (74.76%), Query Frame = 0


Query: 2   AMALALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHFH 61
           A  + L  + M    + AQL TDFY  SCP LL TVR  +Q  VAKE R+ ASLLRL FH
Sbjct: 11  AAFVVLLFIVMLGSQAQAQLRTDFYSDSCPSLLPTVRRVVQREVAKERRIAASLLRLFFH 70

Query: 62  DCFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADILT 121
           DCFVNGCD SILL+DT +F GE+TA PNN SVRG+EVI++IK  VE++CPGVVSCADIL 
Sbjct: 71  DCFVNGCDASILLDDTRSFLGEKTAGPNNNSVRGYEVIDAIKSRVERLCPGVVSCADILA 130

Query: 122 LSARDSVVALGGPSWKVKLGRRDSVTASFSDV-TGAIPPPTSTLDTLIDRFNTKGLSPRD 181
           ++ARDSV+ +GG  W VKLGRRDS+TASFS   +G +PPPTSTLD LI+ F   GLSPRD
Sbjct: 131 ITARDSVLLMGGRGWSVKLGRRDSITASFSTANSGVLPPPTSTLDNLINLFRANGLSPRD 190

Query: 182 LVALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCP--VNGGDDNRAPLDFRTPN 241
           +VALSGAHTIGQA+C+ F++RIYN TNID SFA  R+R+CP     GD+N A LD RTP 
Sbjct: 191 MVALSGAHTIGQARCVTFRSRIYNSTNIDLSFALSRRRSCPAATGSGDNNAAILDLRTPE 250

Query: 242 LFDNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPL 301
            FD  Y+  L++ + LL SDQVL +GGSTDS+V  YS    AF  DFVAAMIKM DI PL
Sbjct: 251 KFDGSYFMQLVNHRGLLTSDQVLFNGGSTDSIVVSYSRSVQAFYRDFVAAMIKMGDISPL 310

Query: 302 TGSQGQIRKLCRR 312
           TGS GQIR+ CRR
Sbjct: 311 TGSNGQIRRSCRR 323

[Close]

BLAST of Tan0018205 vs. TAIR 10
Match: AT5G05340.1 (Peroxidase superfamily protein )

HSP 1 Score: 384.4 bits (986), Expect = 1.9e-106
Identity = 197/315 (62.54%), Postives = 235/315 (74.60%), Query Frame = 0


Query: 5   LALALLAMFMGSSS----AQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHF 64
           L L +  +  G ++    AQL+T+FY  SCP LL TV+  ++SAV  EARMGAS+LRL F
Sbjct: 10  LVLVVTLLLQGDNNYVVEAQLTTNFYSTSCPNLLSTVQTAVKSAVNSEARMGASILRLFF 69

Query: 65  HDCFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADIL 124
           HDCFVNGCDGSILL+DT +FTGEQ AAPN  S RGF VI++IK  VEK CPGVVSCADIL
Sbjct: 70  HDCFVNGCDGSILLDDTSSFTGEQNAAPNRNSARGFNVIDNIKSAVEKACPGVVSCADIL 129

Query: 125 TLSARDSVVALGGPSWKVKLGRRDSVTASFSDVTGAIPPPTSTLDTLIDRFNTKGLSPRD 184
            ++ARDSVVALGGP+W VK+GRRD+ TAS +     IP PTS+L  LI  F+  GLS RD
Sbjct: 130 AIAARDSVVALGGPNWNVKVGRRDARTASQAAANSNIPAPTSSLSQLISSFSAVGLSTRD 189

Query: 185 LVALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCP--VNGGDDNRAPLDFRTPN 244
           +VALSGAHTIGQ++C  F+ RIYNETNI+ +FA  RQR CP     GD N APLD  T  
Sbjct: 190 MVALSGAHTIGQSRCTNFRARIYNETNINAAFATTRQRTCPRASGSGDGNLAPLDVTTAA 249

Query: 245 LFDNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPL 304
            FDN Y+KNLM Q+ LL SDQVL +GGSTDS+V  YS++  +F SDF AAMIKM DI PL
Sbjct: 250 SFDNNYFKNLMTQRGLLHSDQVLFNGGSTDSIVRGYSNNPSSFNSDFTAAMIKMGDISPL 309

Query: 305 TGSQGQIRKLCRRTH 314
           TGS G+IRK+C RT+
Sbjct: 310 TGSSGEIRKVCGRTN 324

[Close]

BLAST of Tan0018205 vs. TAIR 10
Match: AT5G58390.1 (Peroxidase superfamily protein )

HSP 1 Score: 382.5 bits (981), Expect = 7.3e-106
Identity = 192/314 (61.15%), Postives = 237/314 (75.48%), Query Frame = 0


Query: 1   MAMALALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHF 60
           M   + L ++ M    S AQL+ DFY  SCP L   VR  ++ AVA+E RMGASLLRL F
Sbjct: 1   MLKVVLLMMIMMLASQSEAQLNRDFYKESCPSLFLVVRRVVKRAVAREPRMGASLLRLFF 60

Query: 61  HDCFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADIL 120
           HDCFVNGCDGS+LL+DTP+F GE+T+ P+N SVRGFEVI+ IK  VEK+CPG+VSCADIL
Sbjct: 61  HDCFVNGCDGSLLLDDTPSFLGEKTSGPSNNSVRGFEVIDKIKFKVEKMCPGIVSCADIL 120

Query: 121 TLSARDSVVALGGPSWKVKLGRRDSVTASFSDV-TGAIPPPTSTLDTLIDRFNTKGLSPR 180
            ++ARDSV+ LGGP W VKLGRRDS TA+F+   +G IPPP +TL  LI+RF  +GLS R
Sbjct: 121 AITARDSVLLLGGPGWSVKLGRRDSTTANFAAANSGVIPPPITTLSNLINRFKAQGLSTR 180

Query: 181 DLVALSGAHTIGQAKCLFFKNRIYNETNIDESFAEERQRNCPV--NGGDDNRAPLDFRTP 240
           D+VALSGAHTIG+A+C+ F+NRIYN +NID SFA  ++RNCP     GD+ +A LD R+P
Sbjct: 181 DMVALSGAHTIGRAQCVTFRNRIYNASNIDTSFAISKRRNCPATSGSGDNKKANLDVRSP 240

Query: 241 NLFDNYYYKNLMDQKALLRSDQVLHDGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQP 300
           + FD+ +YK L+ +K LL SDQVL + G TDSLV  YSH+ +AF  DF  AMIKM DI P
Sbjct: 241 DRFDHGFYKQLLSKKGLLTSDQVLFNNGPTDSLVIAYSHNLNAFYRDFARAMIKMGDISP 300

Query: 301 LTGSQGQIRKLCRR 312
           LTGS GQIR+ CRR
Sbjct: 301 LTGSNGQIRQNCRR 314

[Close]

BLAST of Tan0018205 vs. TAIR 10
Match: AT1G14550.1 (Peroxidase superfamily protein )

HSP 1 Score: 328.2 bits (840), Expect = 1.6e-89
Identity = 170/314 (54.14%), Postives = 221/314 (70.38%), Query Frame = 0


Query: 2   AMALALALLAMFMGSS--SAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLH 61
           ++   L ++++ + SS   AQLS  FY  SC   L  +R+ +++A+A+E RM ASL+R+H
Sbjct: 5   SLRFVLMMVSIILTSSICQAQLSPTFYDQSCRNALSKIRSSVRTAIARERRMAASLIRMH 64

Query: 62  FHDCFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADI 121
           FHDCFV+GCD SILLE T T   E+ A PN +SVRGFEVI+  K  VEK+CPG+VSCADI
Sbjct: 65  FHDCFVHGCDASILLEGTSTIESERDALPNFKSVRGFEVIDKAKSEVEKVCPGIVSCADI 124

Query: 122 LTLSARDSVVALGGPSWKVKLGRRDSVTASFSDV--TGAIPPPTSTLDTLIDRFNTKGLS 181
           + ++ARD+   +GGP W VK+GRRDS TA+F  +  +G +P    TLD L   F+ KGL+
Sbjct: 125 IAVAARDASEYVGGPKWAVKVGRRDS-TAAFKALANSGELPGFKDTLDQLSGLFSKKGLN 184

Query: 182 PRDLVALSGAHTIGQAKCLFFKNRIY-NETNIDESFAEERQRNCPVNGGDDNRAPLDFRT 241
            RDLVALSGAHTIGQ++C  F++R+Y N ++ID  FA  R+R CP  GGD N A LD  T
Sbjct: 185 TRDLVALSGAHTIGQSQCFLFRDRLYENSSDIDAGFASTRKRRCPTVGGDGNLAALDLVT 244

Query: 242 PNLFDNYYYKNLMDQKALLRSDQVLH-DGGSTDSLVELYSHDSDAFESDFVAAMIKMADI 301
           PN FDN YYKNLM +K LL +DQVL   G STD +V  YS +   F +DF  AMIKM +I
Sbjct: 245 PNSFDNNYYKNLMQKKGLLVTDQVLFGSGASTDGIVSEYSKNRSKFAADFATAMIKMGNI 304

Query: 302 QPLTGSQGQIRKLC 310
           +PLTGS G+IRK+C
Sbjct: 305 EPLTGSNGEIRKIC 317

[Close]

BLAST of Tan0018205 vs. TAIR 10
Match: AT1G14540.1 (Peroxidase superfamily protein )

HSP 1 Score: 325.1 bits (832), Expect = 1.4e-88
Identity = 171/311 (54.98%), Postives = 215/311 (69.13%), Query Frame = 0


Query: 1   MAMALALALLAMFMGSSSAQLSTDFYYYSCPKLLDTVRAGIQSAVAKEARMGASLLRLHF 60
           MA+   L LL      S AQLS  FY  +C   L T+R+ I++A+++E RM ASL+RLHF
Sbjct: 1   MAIFKILVLLLSLCCFSQAQLSPTFYDQTCQNALSTIRSSIRTAISRERRMAASLIRLHF 60

Query: 61  HDCFVNGCDGSILLEDTPTFTGEQTAAPNNRSVRGFEVIESIKKNVEKICPGVVSCADIL 120
           HDCFVNGCD S++L  TPT   E+ +  N +S RGFEVI+  K  VE +CPGVVSCADI+
Sbjct: 61  HDCFVNGCDASVMLVATPTMESERDSLANFQSARGFEVIDQAKSAVESVCPGVVSCADII 120

Query: 121 TLSARDSVVALGGPSWKVKLGRRDSVTASFSDVTGAIPPPTSTLDTLIDRFNTKGLSPRD 180
            ++ARD+   +GGP + VK+GRRDS  A  +     +P   ++L+ L + F  KGL+ RD
Sbjct: 121 AVAARDASEYVGGPRYDVKVGRRDSTNAFRAIADRDLPNFRASLNDLSELFLRKGLNTRD 180

Query: 181 LVALSGAHTIGQAKCLFFKNRIY-NETNIDESFAEERQRNCPVNGGDDNRAPLDFRTPNL 240
           LVALSGAHT+GQA+CL FK R+Y N ++ID  F+  R+R CPVNGGD   APLD  TPN 
Sbjct: 181 LVALSGAHTLGQAQCLTFKGRLYDNSSDIDAGFSSTRKRRCPVNGGDTTLAPLDQVTPNS 240

Query: 241 FDNYYYKNLMDQKALLRSDQVLH-DGGSTDSLVELYSHDSDAFESDFVAAMIKMADIQPL 300
           FDN YY+NLM +K LL SDQVL   G STDS+V  YS +   F SDF AAMIKM DIQ L
Sbjct: 241 FDNNYYRNLMQKKGLLESDQVLFGTGASTDSIVTEYSRNPSRFASDFSAAMIKMGDIQTL 300

Query: 301 TGSQGQIRKLC 310
           TGS GQIR++C
Sbjct: 301 TGSDGQIRRIC 311

The following BLAST results are available for this feature:

BLAST of Tan0018205 vs. ExPASy Swiss-Prot


Match Name	E-value	Identity	Description
A7NY33	1.5e-116	65.81	Peroxidase 4 OS=Vitis vinifera OX=29760 GN=GSVIVT00023967001 PE=1 SV=1	[more]
Q9LVL1	1.4e-106	63.26	Peroxidase 68 OS=Arabidopsis thaliana OX=3702 GN=PER68 PE=2 SV=1	[more]
Q9FLC0	2.7e-105	62.54	Peroxidase 52 OS=Arabidopsis thaliana OX=3702 GN=PER52 PE=2 SV=1	[more]
Q9LVL2	1.0e-104	61.15	Peroxidase 67 OS=Arabidopsis thaliana OX=3702 GN=PER67 PE=2 SV=1	[more]
P00434	7.3e-103	62.50	Peroxidase P7 OS=Brassica rapa subsp. rapa OX=51350 PE=1 SV=3	[more]

BLAST of Tan0018205 vs. NCBI nr


Match Name	E-value	Identity	Description
KAG5567079.1	2.0e-230	60.84	hypothetical protein RHGRI_002596 [Rhododendron griersonianum]	[more]
KAG5567080.1	2.0e-230	60.84	hypothetical protein RHGRI_002596 [Rhododendron griersonianum]	[more]
KAE8039387.1	9.2e-220	57.42	hypothetical protein FH972_011804 [Carpinus fangiana]	[more]
KAG8496129.1	5.6e-209	56.32	hypothetical protein CXB51_009435 [Gossypium anomalum]	[more]
TXG50008.1	3.8e-205	54.79	hypothetical protein EZV62_025883 [Acer yangbiense]	[more]

BLAST of Tan0018205 vs. ExPASy TrEMBL


Match Name	E-value	Identity	Description
A0A660KSH5	4.5e-220	57.42	Peroxidase OS=Carpinus fangiana OX=176857 GN=FH972_011804 PE=3 SV=1	[more]
A0A5C7GZ28	1.8e-205	54.79	Peroxidase OS=Acer yangbiense OX=1000413 GN=EZV62_025883 PE=3 SV=1	[more]
A0A061GYX9	1.0e-195	52.97	Peroxidase OS=Theobroma cacao OX=3641 GN=TCM_042261 PE=3 SV=1	[more]
A0A498JIE3	1.9e-186	47.65	Peroxidase OS=Malus domestica OX=3750 GN=DVH24_024409 PE=3 SV=1	[more]
A0A0B0MNR4	4.7e-185	50.56	Peroxidase OS=Gossypium arboreum OX=29729 GN=F383_17561 PE=3 SV=1	[more]

BLAST of Tan0018205 vs. TAIR 10


Match Name	E-value	Identity	Description
AT5G58400.1	1.0e-107	63.26	Peroxidase superfamily protein	[more]
AT5G05340.1	1.9e-106	62.54	Peroxidase superfamily protein	[more]
AT5G58390.1	7.3e-106	61.15	Peroxidase superfamily protein	[more]
AT1G14550.1	1.6e-89	54.14	Peroxidase superfamily protein	[more]
AT1G14540.1	1.4e-88	54.98	Peroxidase superfamily protein	[more]

InterPro

Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25


IPR Term	IPR Description	Source	Source Term	Source Description	Alignment
IPR000823	Plant peroxidase	PRINTS	PR00461	PLPEROXIDASE	coord: 179..191 score: 78.66 coord: 231..246 score: 49.02 coord: 30..49 score: 28.04 coord: 94..107 score: 51.75 coord: 247..264 score: 46.13 coord: 132..147 score: 66.54 coord: 54..74 score: 81.33 coord: 113..123 score: 71.21 coord: 287..300 score: 53.15
IPR002016	Haem peroxidase	PRINTS	PR00458	PEROXIDASE	coord: 114..131 score: 44.79 coord: 132..144 score: 56.31 coord: 52..66 score: 54.97 coord: 180..195 score: 58.25 coord: 233..248 score: 44.85
IPR002016	Haem peroxidase	PFAM	PF00141	peroxidase	coord: 431..657 e-value: 1.8E-60 score: 204.5 coord: 37..276 e-value: 1.1E-78 score: 264.0
IPR002016	Haem peroxidase	PROSITE	PS50873	PEROXIDASE_4	coord: 20..313 score: 74.343918
IPR002016	Haem peroxidase	PROSITE	PS50873	PEROXIDASE_4	coord: 414..693 score: 64.042183
None	No IPR available	GENE3D	1.10.520.10		coord: 418..690 e-value: 3.2E-101 score: 340.4
None	No IPR available	GENE3D	1.10.520.10		coord: 24..310 e-value: 1.0E-120 score: 404.3
None	No IPR available	GENE3D	1.10.420.10	Peroxidase, domain 2	coord: 158..292 e-value: 1.0E-120 score: 404.3 coord: 538..672 e-value: 3.2E-101 score: 340.4
None	No IPR available	PANTHER	PTHR31388:SF224	PEROXIDASE	coord: 389..690 coord: 4..311
None	No IPR available	PANTHER	PTHR31388	PEROXIDASE 72-RELATED	coord: 389..690 coord: 4..311
IPR019794	Peroxidase, active site	PROSITE	PS00436	PEROXIDASE_2	coord: 446..457
IPR019794	Peroxidase, active site	PROSITE	PS00436	PEROXIDASE_2	coord: 52..63
IPR019793	Peroxidases heam-ligand binding site	PROSITE	PS00435	PEROXIDASE_1	coord: 180..190
IPR019793	Peroxidases heam-ligand binding site	PROSITE	PS00435	PEROXIDASE_1	coord: 560..570
IPR033905	Secretory peroxidase	CDD	cd00693	secretory_peroxidase	coord: 20..312 e-value: 3.53879E-163 score: 469.302
IPR033905	Secretory peroxidase	CDD	cd00693	secretory_peroxidase	coord: 414..691 e-value: 7.96125E-148 score: 430.012
IPR010255	Haem peroxidase superfamily	SUPERFAMILY	48113	Heme-dependent peroxidases	coord: 20..311
IPR010255	Haem peroxidase superfamily	SUPERFAMILY	48113	Heme-dependent peroxidases	coord: 414..693

Relationships

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


Feature Name	Unique Name	Type
Tan0018205.1	Tan0018205.1	mRNA

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0042744	hydrogen peroxide catabolic process
biological_process	GO:0006979	response to oxidative stress
molecular_function	GO:0020037	heme binding
molecular_function	GO:0004601	peroxidase activity