PI0009643 (gene) Melon (PI 482460) v1

Overview
NamePI0009643
Typegene
OrganismCucumis metuliferus (Melon (PI 482460) v1)
DescriptionNAD(P)-linked oxidoreductase superfamily protein
Locationchr10: 11661069 .. 11685631 (+)
RNA-Seq ExpressionPI0009643
SyntenyPI0009643
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.
ATGGGAATCACTTTTTTTGATACAGCCGATGTATATGGACCCCACTCCAATGAAACCCTGGTTGGAAAGGTACTCACCTCTGCTTTTGAAGTATAGCAAACAGAATGCAGAACTAATTCCAAGTTTGGTTTAATTTCAGGATTTTTTTCAAGATTAAATTTCTTATGACTGCTTGTGTGCACTGTTTTTTTATTCCTCCTCTTTTTGCACTGTTGAGAATCCTCTTATAGTGAAATACCTGTTTAGACATATTTTTCATTGACCTGTCTTTTCATTTTCTTCTTTTCTATTTTTTCATCTTTCAGGCACTGAAACGGTTACCAAGAGAAAAGGTTCAGATTGCCACTAAGTTTGGAATTACAAGGATTGGAAGTTCAATGACAGTGAATGGAACCCCAGAGTATGTGCGGTCATGTTGTGAGGCTAGCTTGAAACGACTTGATATAGATTACATTGATCTCTATTATCAACATCGCACTGATACATCTACACCTATAGAAGAAACTGTAAACAATCCCTACTCATATCCCCTCTTTGTTGTCATTACACTAATTTCTTGTTCCTTTTTGTATTAGTGATAACACTAACTAGTACCAGTAGATTAATTTGAGATATATGTTCTTGATTTGTAGATGAGTGAACTGAAAAAACTCGTGGAGGAGGGAAAGATCAAATATATAGGTCTATCTGAAGCTAGCCCAGACACCATAAAGAGGGCACATGCAGTTCATCCTATTACAGCTCTACAGATGGAGTGGTCCATCTGGACGCGTGACATCGAGGAGGAGATTGTTCCTCTTTGCAGGTACTGTTTGACATCTTAAACTCATATTCTCCCTACAACTGATATATTGAGTTCAAATTAGGAACTACAATTCAAAATTAAGGCCTCTCACTGATGAAATGAAAAGAGTCCATTGATGAAATGAAAAGAGTCCATTTATATGAAAAGAGTATGTTAGAATTAGTGGGCTTGTTGTGTGTTGAAAGTCCAAGGGTTCTTTTGTATTTTATGTAACCCTATTTATTCTTTCCTTTTTTATCTTAGGCTCATGTTGGCTATTAATCTTCTCCCTTTGTATTATTTGTGATATGAGAAAATAATGATAAAACTTGCACCGTGGTTTGTCTCCCTGTGCTAGGGTTTCCACGTAAATTTGTGTGTTGTTATTTTCAATAAAGTTTAGCGCTCAAAGTACAAAAACAGGAGGTTAAAATTAGGAACCACAGTTTGGCTTTATCGGATTTGGCAGTAGGTAACAGTTTGTTCAATTGATCTTCAAATCTTGAAGTCGTCCTAGACCTGTGGGCTATCCAAATAGTAAGGGATTTTGATGTTTGTATTGGGATATTTAGTATTACCTTCCAAGGTCTTGGGTTCAAGTTCCTGGGTTTTAACTTAATGTCAGAGTTGTCCTTAGGATGAATGAGGACTCCTAGAGATTAGTGAGGGTGGGGCATGAGCATAATGCAAGGAGAAAGACTCCTCAACACTGTTAAAATTAGAAATTCAAGTTTGTAACAGATTTCCTGTCATTTGTGCACTTAGATTAAGGAAGCACTTGAGTTTTGGACAACCTCTCTAGGCTACAATGAATTATCCAATTTTGGATTTATATTTTGATCATTGATCATTTTCACATATTGGTAACTGAATCTGTTCGAGGAGCAGGGAGCCAGAGTTTCTTTACTTATTAAATGATTGGCTTTTGTCTTGTTACATTGCTTGATTTGCCCCTTTTTATGTCTATGTTTAAGCTGTCATACTTTTCCTTTGCTAAATAAGACAACATTGGCATGTTATTGTTTTGCAGAGAGCTAGGCATAGGCATTGTTCCTTACAGCCCTCTCGGTCGAGGCTTCTTTGCTGGTAAAGCAGTTGTGGAAAGTTTACCTGTTGGTAGTCACTTGGTATCTATCTGTTCTGGACCATTATCTCTCTCTCTCTTTCTAGTTAAGTCTAATACTCTTTGAATGAAATCAGTTTAAACTCTAAAGTAACTATCAAATCCTAGTTAACTCTCAAGGAAATCAGTAGGGAGTTTCAAGAGTATATAAAAGTCTCTCAAGGAAAGGAAAAATGGCCAAGAATATCATCCTTGTTAACTCTCAAAAGGAGGCGTCCTCTCATGTTTGAGACTGATTCTAAAATGGTTAAAATCATTTTTGTCTTTTTCGAAATCTTCGTAACTAATTTGATATGAAAATTGCATTTATAAGTGTAAAATTTAATACAAAATTAATTTTGATTGATTAAAAGCGTGCTTTAAAGTGATTTAAAAATGACAAGTGATTATGACAATTTTAAAATCACTCCCAAACATATATGTACTCATTTGGCACTATATAATACCTTGCTTAAGTTTTTTTTTGAAACAGAAACAAACCTCTTTATTAATGATAATAAATGAGACTAATGCTCAAAATGACTAAAAGGACAATCAAATAACGATACAAACAAGCCAAAATCCTTTATAACTCAAACCAAAAAGGAGAAATAACAACCTAGCAAAATAATGCTTTTTCAATAAGAAGCCAAATTATGTGGAAGAACTGCACACTAATAGCTTCGAAAAGAATGTAGATGGAACACCAATGGGAGACAAAAACAACCTTGAGCCCGAGAAGACTTGCTAACAATTTTAAAACCAACAAACTGCAAAGTAACATTAAATTCTTTGACAAGAGGAAACCATTCTTGCGCCCAATGAGAAAAGATGAAACGAACAACCAACTCAACCGAAATGCCGAAAACTAAATTATGTTGCCAACAATAAGCTTCGAGATGAGTGAAGAGGGAACACCAAGAGAACAACAACCATCCTTGCTGAATCTTCACTAAGATGAAAACCAAGAACTGCTAAAAATATTAATTGTTCAATCGGTTAGAAACAATTCTTGAGCCCAGCTTCTTCAATGAATCTAGGGGGAGAACTAGTTCTGAATTAAGTGTTCAAGAGACTTGAATCCCAAACTCTTTATCTGCAGCCTTCAAACCTCACAAAGAAACCAATTATTGAACCAAAAAGTGACTAAAATCAGATCTCAAATGAAAACTAGTTTGCATTTTTCTACTATTGACTTTAAATGGGTTGGAGTTTAGCAAAACTTAGACTGAGAGGGGTTTTCGGAGGTTTGATTTCCAACATTCAAATCCTTTTCATTCTAAAACAAATCGTTGAGATCAGTTTCTAAGGGGTCCTTCAAAGAATGATCCTCTAACTCATTTAACTTCCCAAATGATCATCTTCGACACTGCTCACACTAAAAGGAGAGTCAAAATCTGAATCACAATTCTTTTTGGATGGAGGGCCTAGAAAACGACAAGGGGAGCCTCTCAAAACCTTTACTTTCGAGGAAGGTAAGTAAAAAACATAATATTTAAAATGTGGTTGACAGGATTTCTGAGGGTCTCATCTAGTTGAAACAAAAGGAACTTGAATCCGTGTGCAATTAACCTCCAAAGAATCAGGGTTTTGATCTAAAATCCATTTTGCCCTTAAGGTACTGCTTTTTGAATTCTGGATGTTTGTCCTAATTGAAGAAGAAACAACTTGGCCTTGAGTGTTTTACCTTTAAAATTTTAGAATTTTGAGGATTTGGTCTGACAACATCTTTGTCTTTACGATAGACTTTTTTAAGAGATCCTTCGGCCTCCTTCTTTTAACAAAATGTTTCGGGAACGTCTTAAAGGGAAGCGAGGGTTTCTTTGATTTTGTATGCTTTTTAAAATTACCTCTTAGACCAGATTTGGCCGAAGACGCATGAGATGAAGATGATAAATGCGCAGATGATGAGGAAAGGCTTGAGACTTTTTTAGAAGGAGTTGCGATGGGCACTAACTCAGCCTTTGCATAAGGGACAACCGATGCTGAAGAAGCAAGAGAAAGACTTTCTTATTATGATATATGTTTATATTTATATATACGTGTCTATTATTGTAATTTTACACAGTCTAGAGTTTCTACGTACTTTATATATATTTGTAGCTTTACTCTGATCTGAATAATAAGAAATATTTTCTCCAAATTATTGAGTACATATATCAGGGACATTAGGGTTTAAAATATTTTAGTTGGTATTTTCCTTCTCCATTAGGGCTTATGTTTAGGTCATCTTTGAGTGGCCATTTGTCGACACCGCCCGGTTCATGAGAAGTGCCGCCACTGTCCGCCGTCGTCTGTCATTGCCGATCATCGGAAAACCCCGCCCGTGAGCTTCACGCGCAGTATGCATGTCCTCCACGTGCCGACGCGTGGGAGCACGTGAGTGGTCCGTTTTGACCGCCGTCTTCTGGGCTTGTGTCGGATCCTCTTTTTCGACCAGTCTGTGCAGTTAGTTCCATTGAACATTGTCCGGTTTTGACGAAGGGTGACAAATACGACGTAATTCTAGGATTTGTGACTGTTTTTTGTTCCAATTTCGTAGCTGGTTGGATTGTTTTCTTCTATTTGTTGGACTAAAATCAGTGTGTGCCTTCAGTATGGCCGACATAAAGAATTTGGTAGTTTCTAATGTAATTCCCTTAGCCTCTAAGATTACAGAACATAAATTAAAGGGATCTAACTATTATGATTGGTGTTAGAAAATTCTGTTCTATTTGAGAAGTACTGATATGGATGATCATATGACCGACGATCCCCTAGAAGATGCAAAGAATAAGGATTGGCTCCGTGATGATGCCCGACTATATCTTTAGATCGTAAACTGCATTGAGAGTGAGGTAATTGGATTGGTTGATCACTGTGAGTCTGTTAAGGAACTCTTAGAATTTCTAGAGTTTCTATATTCTAATAAGGAGAAAGTACATAGAATGTTTGAAGTGTGTATACAGTTTTTCCGTGCTGAACAAAAAGCAGAATCAGTTACCAACTATTTTATGCGCCTTAAGAGGATAACTGCCGAGCTTGCCTTGTAATTACCCTTTAGTCCTGATGTTAAAGTTTAGCAAGCTCAACGGGAGAAGATGGCTATTATGATTTTTTTGAATGGACTCTTACATGAATTTGGAATGACCAAAACATAGATTCTCTCTGACTCTAAGATTCCATCATTAGATGATGCTTTCACTCGTGTTCTCCACCTTGAGAGTTCTTCAACCAGTGTGTCTATTCCTCAATCCAGTAGTGCTTTAATTAGCAAGAACGATAACCCCCGGGTACCTCGAGTGATAAATAGCAACTTTCGGAAAAATATTTATGATCATCGGATACCAGATTCTGCAGGGATTTTTTGTAACTACTGTTTAAGCCAGACCATATGAAACGTGATTGTCGAAAATTCTTATATAAGAATAATCAATGATCTCAGCATGCTCAGATAGCTTCCACAGGTGAGATGACAGAGGCATCGATTACTATTTCTGCAGACGAGTTTGCTAAGTTTTAGATGTACCAAGATTCATTGCAAGTCTCGTCGTCCCCTACTCCTGTTGCATCCACTATTACCCTAGGTAATACAAAATGTCTTTTTACATCCTCTACCAAATGGATCATAAACTCCACCGCCATATGACAGGTAATTCTCTCTTATTTTCTAACAAATTGTCCCCTGCCCCTTTTCCATCTGTCACATTGGAAGATGGCTCCACATCCTCCGTTCTTGGCTCTGGCACCATTCACCTTACCTCATCCTTTTCTTTGTCTTCTGTGTTACATTTACCTAACTTATCCTTTAATTTAATTTCTTCTTGTATTAAGTCCTCACGACCTTAATTGTATTGTCTTGTTCTTTCTTGGTTATTGCTTGTTTCAGGATCATGTGACGAAGAAGATTATTGGTAGAGGATATGAGTTGGGAGGCCTTTATCTCTTTAATCATCAAGTACCGCAAGGTGTGGCGTGTCCTATAGTTCCATCTCCATTTGAAGTCCACTGTCGTTTAGGTCATCCATCTTTACTCGTGTTGAAGAAGCTTTATCCCGAATTTCAGTCTTTGTCCTCTTTGCATTGTGATTCATGTCAATTTGCTAAATTTCATCGTCTTAGTTCGATCCTCGAGTTAATAAACGAGCTAGTGCTCCATTTGAGTTAGTTTATTATGATATTTGGGGTCTGTGTCCAGTTGTGTCTCAAACATGCTTTCGTTATTTTATGATTATTCTTGTCTAACCTGTTTATATTTAATGAAAAATCGTTATGAGTTATCCTTTCACTTTTGTGCTTTTCATGCTGAAATAAAAAATCAGTTTAATGTCTCTCTCAAAACTTTGTGCACTGATAATGCTGGTGAATATTTTTCTCATGTTCTTGGCTCTTACTTGTATGAACATGACATTCTTCATCAATCTTCTTGTGTTGACACTCCATCTCAAAATTGTGTGGCTGATCGAAAAAATAGACACTTACTTGAAACTGCACGTGCTTTATCGTTTCAAATGCATGTTCCGAAACTTTTTTGGACGGATGCTGTTTCCACTGCTTGTTTTTTGATTAATAGGATGCCTTCCTCTGTTCTTGATGGTGAGATTCCTTATCGTGTTCTTTTACCTACCAAGTCTTTGTTTCCAATTGATCCTAAAATATTGGGTTGTGTTTGTTTTGTTCGAGACATTCATCCTCATCATATTAAGTTAGATCCAAAATCCTTGAAATGCATCTACTTCGGTTATTCACGTGTTCAAAAGGGGTATCGTTGTTATTGTCCTATTCTTAACAGGTATCTTGTTTCTCTTGACGTTTCGTTTTGTGAGGATGTACCCTTCACTTCATCACCATCGAGTCCGTGTCAGGGGGAGGATGACAATATGTTTATATATGAGGTTACCTCTCCCACCTCAACATCGACTCCATCTTTCTCTCTTACGCCTCTGTCCCGTCCGTTGCTTTCTCGAGTCTACTCCCGACGACCTCCACCGTATCCTTCGGACTCATGTCCTCCAAATTCAAGTCCTCTACCAATGCCTTCTTCATCATGCGATCGGGTACCAAGTGATGATCTTGCCATTGCTCTTCGAAAAGGTAAACGCAAATGTACTTACCCTGTTTCTTTCTTTGTTTCCTATCGTCAGTTGTCTCTTCCTACATATGCTTTTATTACATCTCTTGATTCCACATCTGTTCCTAACACTATTCATGAAGCTTTATCTCATCCTGGCTGGCGACAGGCGATGATTGAGGAGATGACTGCTTTAGATGATAATGGTACTTGGGATTTAGTATCTCTTCCTGTAGGAAAAAAGGCCATTGGTTGTAAATGGGTGTTTGTTGTCAAGGTCAATCTTGATGGAACAGTGGCTCGGTTGAAAGCTCGTCTTGTTGCCAAAGGTTATGCACAAATCTACGGAATTGATTATTCAGACACCTTTTCTCTAGTTGTCAAATTAACATCCATCCGCATTTTTCTTTCCATGGCTGCTACACATAATTGGCCTTTGCATCAACTTGACATCAAGAATGCTTTTCTGCATGGTGATCTTCAGGAGGAAGTTTATATGGAGCAACCACCTGGGTTTGTTGTCTAGGGGGAGAGTGATAGAGTATGTCGTCTTCGGAAATCTTTGTATGGTCTGAAACAGAGTCCACGTGCGTGGTTTGGTAAGTTTAGTCAATCTCTCGTATGCTTTGGTATGCAGAAGAGTACATCTGATCATTCTGTTTTCTATCAACGATCTGATAATGATATTATTTTACTTGTTGTGTATGTTGATGTTATTGTCATTACTGGAAACGGTGCATCGGGTATTTCATCTCTCAAAACTTTCCTTCAGAGTCAGTTTCATACAAAAGATTTAGGACAATACAAAAGATTTAGGACAATTGAAATATTTTTTGGGTATTGAAGTGATGAGAAACAAGAAAGACATTTATTTATCTCAACGAGAATATGTACTTGATTTATTATCTGAGACAAGAAAACTAGGAGCCAAACCAAGTAGTACTCCGATGATGCCGAATCAACAACTTGCTAAAGGAGAATTATGTAAAGATCCTGAGAGATATAGGAGGCTAGTTGGGAAGTTGAACTATTTAACAGTGACTCGATCAGATATTGCTTATTCTGCAAGCGTTGTCAGTCAGTTCATGTCTTCTCCTACTGTGGATCGTTGGGCTACAGTAGAACATATCCTCTGATATCTGAAAGCTGTCTTGGACGTGGGATCTTATATAAAGATCATGGACATACGAGAGTTGAATATTTTTCTGATACTGATTGGGTTGGATCTCGAGAGGATAGGAGATCGACCTCTGGATATTGTGTCTTTGTGGGTGGATACTTGGTATCATGGAAGAGTAAGAAACAAAATGTTATTTCTCGTTCGAGTGCTGAGTCAGAATATAGGGCTATGGTACAAGCTGGGTGCGAGATAGTATGGATACAACAACTATTATCTGAGATAGGCTTCAGTATTACAGTGGCAACTAAACTATGGTGTGATAATCAAGCTGCACTCCACATTGCATCTAATCTGGTATTTCATGAACGAACTAAACATATTGAGGTGGATTGTCACTTCATTCGTGAGAAGATCCAAGAAGGGTTGGTGTCTACAGGATATGTGAAGACTGAAGAACAATTGGGGGATATTCTTACCAAAACTGTAAATGGAGCAAGAATAAGCTATGTGTGCAACAAGCTGGGCATGATTGACCTATTTGCTCCAACTTGAGGGGGAGTGTTATGATATATGTTTATATTTATATTATACGTGTCCATTATTGTAATTTTACATATAGTCTAGGGTTTCTACGTACTCTATATATATTTGTAGTTTTACTCTGATTCTAAATAATAAAAAATATTTTCTCCAAATTATTGAGTACACTTCTAACGGCAGAACATGGAGTGGCTGAATTTTGACATTTAGCCGATTGGACTAAATCAAAGGAGTTAGGCTGAATGTCTCTTGGGTTCTCGATGGGCGATAAAGAAGGATCAGCCAAAAAACTCCCTTTCTTCTTTAAAAGCACTCATTCAATTTCCGCTTCAATGTTCCTCCAAAAATGAAGGGATTGTTGATTAAACTTCATGTCTTAGTGCACTTTACAACTGTATGAGCATTAATTATGCCTTTTGGTGGGAAGGAATTGATGCTTGACTTCCCCAATGACTAATTGACTTCGTTAGTAGTGTCAGGCGACTGCACCAAAGAATCCAACCCTTCCTTTGGAATGCAAGACGTTGATTGGCTTTCCCCATTTAAGAAAACTGAAAAGCCCAAAAGAATGTGAAAGCTCTCCAGTAAGAGTTTGGTTCTTTACTTAATAAACAATAAAATATAATTTATCTCCTTTTGAGAGAGAGGAACTTTCCAACAAGTGTGATTAACATACAAAAAGCATATGTGGCCCAAAACATTACAAAAACATAAGGCCCAAAACATGACCCACGTCACGCAACCACCACTTAACCCTAGTTAGGTGAATTACCCAAACTACCCCTCCTAACATAAGTATGTTTTATTGGTGGTCTAACAATACCCCGGGGATGAAAACTTCCTTGTCCTCAAGGGAGAATGAAGGAAACTGTTCCTTGTTAACTCCAAACTTTCCCTTGTGGCTTCATATTCCGGCAAACCCTTCCACTGGACATGTAATTCCCATTCACGTGTGTGATTGTTGAAACGATAGGCTGTACGTGATATCTTCGGGAATAGCTTCCCATTCAAAATCATTAGTAAAAACCGGTGGTAGGGGTTTGACGGGAGTCGTGTTGCTAAGAGCTTGTTCTAGGAGACATGGAAAATTAGGTGGATAGATGAAGAAACGGGTAATGCAAGGCGGTAGGCCACCGACCCAATTCTTTCTTCAATCTGGTAGGGTCCAAAATATTTGGGAGATAGTTTCTCACTATATCGCTGCAACACCTTATGTTGCCGATAGGGTCGTAATTTCAAATAAACCCAATCACCTACTGCATATTCAACATCCTGTCGATGGCGGTCCGCATATTGTTTCATCCATTCTTGGGCCTTCTCTAAATGATACTTAAGTTTGTGTAACACTTTATCACGTTCCGAAAGCTGGTCGTCAAGGGTAGCATTGGAAGTCTTATGGCTGCCATAAAAAGTAATGGCAGAGGGGGATCGTCCGAAAACAATCTGATAAGGAGTGGACTTAAGGGTGGCTATTGTACCAATGCTAGGCCCAATTGACCCAATCTAGCCAATGTTTTGGTTTCTTGCCATGGAAACAATGCAAATATGTCTCTTATTCATAATTTCTGTCTGTCCATCTATTTGGGGATGAAACGCCGTACTTCGTCAACTGAGTTCCTTGCAAACGAAACATTTCGCTCCAAAACTTAATGATAAAAACTTTGTCACGCTTAGATATAATGGACTTGGGAAACCCAAACTCGCGCACGAGCTCCTTAACAAACAGTCGAGCAACAATCTTGGCTGTGTAGGGATGGCTCAATAGTAAGAATCTCACAAATTTACTTAGCCTATCGACAACCTCTAAGATTGTATCATACCCTTGCAAACGCGGTAACTTTTCGATAAAATCCATTAAAAAATCTTCCATTATATGTTCTAGAATTGGTAAAGGTTGTAAGAGATCGACGAGAGCCAACTTGCTTGACTTGTTTCATTGGCATGGGGTCACATTTTGATAGGTACCGTTTCATTAAATTTTTCATCCCTCGCCAATACAATTCACTAGAAATTCTCTTGTATGTCCTCAAATAACCTGAATGGCCCCTCAACACCGACTCATGGTAAGTGTGTAGGATAGTTGGAATCAAGGATGATTGGGCCGACAAGACTAACCGGTCTTTATATAGTAAATTTCCTTGAACCACCGAGAAATGTTGATGGCTGTTGGAATCGACCTCTAAATCTTCACGTATCTGCTTGAGGTATTAATCAGAGGTAACCTCATTACGTATGACATCCACATCCAAAATGGCTAGAGCCGTTAGGTTCTTCAGATGCACATGGGGAATACGAGAGAAAGCATCTGGTACGTTATTTTGAGGTCTTGGTTTATATTCTACTTCAAAGTCATAATTGAGAAGTTTGAACACCCACATCTGGTATTCTGGTTGAATAACCTTCTGCTCCACAATGTACTTTAGGGACTGTTGATCTGTTCGAACAATAAACCGCCTCCCCAAAAGGTATGAGCGCCAACGCTGAATTGCCATCACAATAGCCATAAGCTCTCTCTCGTACGCTAATTTAGCTTGTGCGTGGGGTGAGAGAACTTTGCTAAAGAAAGCAATAGGTCTCTACCCTTGAGTCAAAACTGCTCCCACTCCTGTTCCCAAGGCATCAAATCTCAACAATAAAGGGATTAGAAAAATCAAGTAAAGCTAGAACCGACAACGTTAGCATGGCTTGTTTTAACTGTTCAATTGCCTCTATGGATTCCTCGAACCAAACAAACGCATCAGTACCAATCATTCGGTGTAACGATTGTGCTATTCTTCCATAATCAACTACAAATCTGCAGTAATAACTAGTCAATCCCAAGAAACTTCGTAGTTCACTGACCGTGGTTGGTTGGGGTCATTCGAGTATTGCTCGCACCTTTTCCAGATCGGCCTCAACTCCTTCTGCTGACACCCAATGACCTTAGAAATGATCCTGAGCAAAACGACATTTCTTGTAGTTTGCATACAAAGAGTGATTTCACAGCAATTCAAATACTAGGGTCAGGTGTTCAATATGGGATTCCAAGATCTGGGCTATAAATAAGAATATAATCAAAGAAAACCAATACGAAACGCCTTAGGAATGGTTTAAAAATTTCATTCATCAATGATTGAAAAGTAGATGCGCGTTCTTCTGTCCAAACAATATCACAAGAGATTCGTAATGTCCGTCTTGCATACGAAATGTTGTTTTTGGTACATCCGTCTCATGAACACGTATTTGGTGGTAACCAGAACGAAAATCCAACTTGGTGAAAATCTTTGCACTGAAGTGTTCATCCAACAGTTCTTTAATGACCGGAATCGGAAACTTATCCAAAATTGTTATCTCATTTAAAGCTAGACAATCAACACAAACATGCCAACTACCGTCTTTTTTCTTGATCAAGAGGACCGGGCTGACATATGGACAATGACTGGGGTGTATAATTCCTGCCTACAACATTTCTGCAACTAACCTTTCAATCTTATCCTTTTGGTCTGTTGAATAACGATAGGGACGTAGGTTCATTCACGATCATCCTTGAGAACAATGCGATGATCTGTCTCTTGGTGTGGTGGTAACTGGTCAGGGGTTTCAAAAACATCTGTGAAACTCTCAATCAACTCATGTATCGGTTGCCATATTTTGAGGTTAGAAGTTACCTCTTGACCACTTTCCGGTACCAACTTAGCTGTGATGGTTCGTGATGTAACTCAAATGAGAGAATTTTATTAATGTTTTTGAAGTTGTGAATACAAGAAAACTACTACTCTATTTATAACAAAAGTAAACTAATCCTAATCCTAATTAATAAAAAAAAACTTAACATTAGTAAGCTAATCTGAATCATAATCCTAATTAATAAAAGAAACTTAATCCTAATCCTAAATAATAAAACAAACTAATTCTAATCCTAATAAACCAAAGAAACTAATCCTAATCCTTATCCTTATAAATTAAGAATTTGACCATAATACCCTCTTCCTACTACATCATTCTATCCCTCCCAAAAGAAATTTGTCATCGAGTTTTAAAACGAAAATGATGATAAAAATAAAAAAGTAAGCCGGTCGAATGGAGGCATCTTGGAACATCCAACATCAATAATATCCATCTTCGTATTGCTACTTCTTTTTTCTTCATTGATTCTTGCATAAATTGCGATCCATCTGGGACTAGTGTCGCCCAAAATTCATCTTCATTTTCGTAGAGAATTGTTTCTTCATTTTTGTGTGCAAAAACATCAATTTTGATTGGTTTTGTTTCCTCTACAACGCTGCCGATTTCATCTTCTTCGTCCAAAGTAGGTAATTCAATTGCTTCACCTTTTTGTAGTCAACGATTTTCACTTCAATGCTTAGAGTTTCGATCATTTTTTCTTATGTGTTTGAAATTTTGGGTGGTTTATGTTATGATATATGTTTATATTTATATTATACATGTCCATTAATGTAATTTTACATAAGGTCTAGGGTTTCTACGTATTCTATATATATTTGTAACTTTACTCTTATTCTCGATAAGAAGAAATATTATTCTCCGAATTATTGAGTACATGATATTAGAGACTTTAGGATTAAAATATTTTATTTGGTAGTTTCCTTCTCCGTTAGGGCTTAGGTTTAGGTCAACATTGAGTGGCCATTTGTCGACACCGCCTGATTCATGAGAAGCACCACCACGTTCCGCCGCCATCTGTCATCGTCGATCATTGAAAAACACCGCGCGTGAGTTTCACGCGCTGCCACAATCCAACTTCACGTCCTCCACGCGTCGACGGGTGGGAGCGTGTGGGAGGTCCGTTTCGACCGCGATCTTCTGGGCTTGTCTTGAATTCTTTTTTTCGGCCAGTTTGTGAAGTTAGTTCCATTGAATAGTGTCCAGTTTTGGCGAAGGGTGACGACTACAACGGGTTTGTGACTGTTTTTTGTTTTTTATTTCGCAGCTGGTTGGATTGTTTCTTCTATTTGTTTGACTACAGTGTGTGCCTTCTGAATGACCGACATAAAAAATTTGGTAGTTTCAAATGTAATTCCCCTAGCCTCTAAAATCACAGAACATAAGTTAAATGGGTCTAACTATTATGATTGGCGTCGGACAATTCTATTCTATTTAAGAAGTACTGATATGGATGATCATATGACTGAGGATCCCCAGAAGATGCAAAGGAGAAAAAGGATTCGATCCGTGATGATGCCCGACTATATCTTCAGATCAAAAACTCCATTGAGAGTCAGGTAATTGGATTGGTTGATCACTGTGAGTTTGTTAAAGAACTCTTAGAATTTCTAGAGTTTCTATATTCCGGTAAGGAGCAAGTACATAGAATGTTTGAAGTGTGTATGCAGTTTTTTCGTGCTGAACAAAAAACAGAATCACTTACCAGCTATTTTATGCGCTTCAAGAGGATAAGTGCCGAGCTTGCTTTGCTCTTACTCTTTAGTCCCGATGTTAAAGTTCAACAAGCTCAACGGGAGAAGATGGCTGTTATGATCTTTTTGAATGGACTCTTACCTGAATTTGGAATGCCTAAACCACAGATTCTCTCTAACTCTAAGATTCCATCATTAGATGATGCTTTCGCTCGTGTTCTTCGCCTTGAGAGTTCTTCGACCAATATGTCTATTCCTCAATCCAATAGTGCTCTCATTAGCAAGAACGATAACCCTCGGGTGCCTCGAGTGATGGATAACAACTTTTAGAAGAATAGTTATGATCATCGGAAACCAGATTCTGCAGGGATTGTTTGTAACTATTGTCGTAAGTCAGGCCATATGAAACGTGACTGTCGGAAATTGTTATATAAGAATAATCAACGGTCTTAGCATGCTCAGATAGCTTCTACAGGTGAGATGACAGAGACATCGGTTACTATTTCTGCAGATGAGTTTGCTAAGTTTTAGATGTACCAAGATTCATTGCACGCGTCGTCTTCCTCTACTCCTGTTGCATCCACTGTTGCCCCAGGTAATACAAAATGTCTCCTTACATCCTCTTCCAAATGGGTCATAGACTCTGGTGCCACCGCCCATATGATAGGTAATTCTAGCTTATTCCTAACAAATTGTCCACTGCCACGTTTCCATCTGTCACATTGGCAGATGGCTCCACATCCTCCGTTCTTGGCTCTGACACCATTCACCTTACTCCATCATTTTCTTTGTCTTCTGTGTTACATTTACCTAACTTATCCTTTAATTTAATTTCTATTAGCCAACTTACTCACGACCTTAATTGTGTTGTCTTGTTCTTTCCTGGTTATTGCTTGTTTCAGGATCGTGTGACGAAGAAGATTATTGGTAAAAGATATGAGTCGGGAGGCCTTTATCTCTTTGATCAAGTATCGCAAGGTGTGGCGTGTCCCGTAGTCCCATCTCCATTTGAAGTCCATTGTCATCTAGGTCATCCATCATCGTTCGTGTTGAAGAAGCTTTATCCCAATTTCGATCTTTGTCCTCTTTGCATTGTGATTCGTGTTAAATTGCTAAATTTCATCGTCTTAGTTCGAGTCCTCGAGTCAATACACGAGCTAGTGCTCCATTTGAGTTAGTTCATTCTGATATTTGAGGTCCGTGTCCTATTATGTCTCAAACAGTCTTTTGTTATTTTGTTACTTTTGTTGACGATTATTCTCGTCTAACCTGGTTATATTTAAAGAAAAATCTTTCTGAGTTATTTTCTCACTTTGTGCTTTTCATGCTGAAATAAAAAATTAGTTTAATGTCTCTCAAAACTTTGCGCACAGATAATGCTGGTGAATATTTTTTCTCATGTTCTTGGTTCTTACTTGTCTGAACATGGCATTCTTCATCAATCTTCTTGTGCTGACACTCCATCTCAAAATGGTCTGGCTGAACGAAAAATAGACGCTTACTTGAAACTGCACGTGCTTTATCGTTTCAAATGCATGTTCCGAAACCGTTTTGCGAATTCTGTTTCCACGGCTTGTTTTTTGATTAATAGGATGCCTTCCTATGTTCTTAATCGTGATATTCCTTATTGTGTTCTTTTTCCTACCAAGTCTTTATTTCCTAGTGATTTTAAAATATTTGGTTGTGTTTGTTTTGTTCGAGACATTCGTCCTCATCATACTAAGTTAGATCCAAAATCCTTGAAATGCATCTTTTTGGGTTATTCACGTGTTCAAAAGGGGTATCGTTGTTATTGTCCTATCCTTAACCGGTATGTTGTTTCTCCTGATGTTTCGTTTTGTTAGGATATTCCCTTTACTTCATCACCATCGAGTCTGTGTTAGGGGGAGGATGACAATCTGTTTATATATGAGGTTACCTCTCCCACCTCATCATTGACTCTATCTTCCTCTGTTGCGCCTCCGTCCCGTCCGTTGCTTTCTCGAGTCTACTCCCGCGACCTCCACCGCATCCTTCAGACTCATGTCCTCCAGATTCAAGTCCTCCACCAATGCCTTCTTCATCATGCGACCCGGTACCAAGTGATGATCTTCCCATTGCTCTTCGAAAAGGTAAACGCAAATGTACTTACCCTGTTTCTTCCTTTGTTTCCTATCATCAGTTGTCTCCTCCATATGCTTTGTTACATCTCTTGATTCCACCTCTATTCCTAACATTATTCATGAAGCTTTATCTCATCCTGGCTGGCGACAGACGATGATTGAGGAGATGACTGCATTAGATGATAATGGTACTTAGGATTTAGTATCTCTTCCTCTAGGAAAAAAGGCCATTGGTTGTAAATGGGTGTTTGCTGTCAAGGTCAATCCTGATGGAACAGTGGCTCGTTGAAAGCTCGTCTTGTTGCCAAATGTTATGCACAAATCTACGGAACTGATTATTCAGACACCTTTTCTCCAGTTGCCAAATTAACATCCATCCGCCTTTTTCTTTCCATGGCTGCTACACATAATTGGCCTTTGTATCAACTTGACATCAAGAATGCTTTTCTTTATGGTGATCTTCAGGAGGAAGTTTATATGGAGCAACCACCTGGATTTGTTGCCTAGGGGGAGAGTGATAGAGTATGTCGTCCTCGAAAATCTTTGTATGGTCTGAAACAGAGTCCACGTGTGTGGTTTGGTAAGTTTAGTCAAGCTCTCATATGCTTTGGTATGCAGAAGAGTACATCTGATCATTCTGTTTTTTATCAACGATCTGATAATGGTATTATTTTACTTGTTGTGTATGTTGATGATATTGTCATTATTGGAAATGATGTATCAGGTATTTCATCTCTCAAAACTTTCCTTCACGGTCAGTTTCATACGAAAGATTTGGGACCATTGAAATATTTTTGGGTATTGAAGTGATGAGAAACAAGAAAGACATTTATTTATCTCAATGAAAATATGTACTTGATTTATTATCTGAGACAGGAAAGCTAGTAGCCAAACCAAGTAGTACTCCGATGATACCGAATCAACAATTTGCTAAAGAAGGAGAATTATGTAAAGATTCTGAGAGATATAGGACCAGTTGGGAAGTTGAACTATCTAACAGTGACTCGACCAGATATTGCTTATTCTGTAAGTGTTGTTAGTCAGTTCATGTCTTCTCCTACGGTGGATCATTGGGCTGCAGTAGAACATATCCTTTGTTATCTGAAAGCTGCTCCTGGACGTGGGATCTTATATAAAGATCATGCACATATGTTTTTCTGATGCTGATTGGGCTTGATTTCGAGAGGATAGGAGATCGACCTCTGGATATTGTGTCTTTGTGGGTGGAAACTTGGTATCATGGAAGAGTAAGAAACAAAATGTTGTTTCTCGTTCGAGTGCTGAGTCAGAATATAGGGCTATGACACATTCTGTGTGCGAGATAGTATGGATACAACAACTATTTTCTGAGATAGGCTTCAATATTACAGTGCCAACTAAACTATGGTGTGATAATCAAGCTGCACTCCACATTGCATCTAATCTGGTCTTTCATGAACGAACTAAACATATTGAGGTGGATTGTCACTTCATTCGTGAGAAGATCCAAGAAGGGTTGGTGTCCACAGGATATGTGAAGACTGAAGAACAATTGGGGGATATTCTTACTAAAGCTGTAAATGGAGCGAGGATAAGCTATCTGTGCAACAAGTTGTGCATGATTGACATATTTGCTCCAGCTTGAGGATGAGTGTTATGATATATGTTTATATTTATATTATACATGTCCATTAATGTAATTTTACATAGGGTCTATGATTTCTATGTACTCTATATATATTTGTAACTTTACTCTTATTCTCAATAAGAAGAAATATTATTCTCCAAATTATCGAGTACAGTTTATTCCCCGATTTTTCCTCAATTATCGACGAAATTTTCTCTTTCAAATTAGGTTGCACAATCTCTAAATTGACAATGTTTTCGTCGTTTTTATTCCCATAAGCAATTTCTTCTTCTTTGCGGTTTATCCCAAGTTTTCTGCATGGATTTCAACATCACCTCCCTTCTCATTAGAGTGGGGTGTCCCTTAATAATAATTCATTCGCCTCCTATACCGATCGTTAGGGTCAAATTCTTCCAATCAACTTCTGTCACAATTTATGTTTGCAACCACTGCATGCCTAGGATCAATTCGACTCCTCCTCGTTCCAATAGTAAGAAATCTTCTTTTATGGTGATACCTTCCAAGGTCACCACTGCATTCTTGCAAATTCCTTTGCCGCGAATTGCCATTCTCGTTCCCATGATCACGCCCTAAGAAGCACAGACACTGACATGCGATACATGACACGACATGTTATAATTTTTTTATTTTTTTAAAATAACATATGTGATAATTCTTGTAGATAAATTACTCATGTGTTAGAACATAACAATACTTCTTTAAAACATAAATAAAGAGTACATTAGTTGTTTGAGTTCATTAAAAAGTTCCAAACTACAATACAAATAGAAAATCCTAAATAGAAATCACACTTGCATCCAAAACAAAATGTAAAAACTAAAGTAGAAGCTTAGAACAACATCCTCAAACTTCCATGACATCTTCATCCTCACAATTCTTATCCTCATTTCCACTAGGACCACTACCATCATTAGTGAAATTACCACCTCTAAATTTGGCTCATCTAATGGCAAATCGGCCACTTTAAGCATCCCAACATCTTCATAAGAATCAAAAGAATATCCAGCAATATTCCATAATTTTGTCTCGCCTAGTGAATATTTTGGATTTCTTCTTAACAAAAGACGCAAATTATTAAAAAGATGCAAATTACTATGAACATATACCAGATCATCTGCACATTGAGGTATCAACTTGTTTTGCCTAATTGAATTAATAAAAGAGTATGTGCTCCAATTCCTTTCACAACATGAAGATGAGGAAGGTTGACCAAGTAGCTTAAAAGCAATTGATTGAAGCATTGGTGCATAAACACCATGCATACCCCACCAATCATATGGATCCTCATTATACCTGGCCGTTATAGAATCAATATCATTAAAATCTTTTCCCATAGTTGAAAATCTAGCAAACTTCAAGGTCACTTCGGCCCGATCTTCTACATTAAGAAAATATCTTTTGAAGCATTTCATTCTCTCACGAGTTACTTCAATGTCCTTATGTGGAGGTACACGATTAGGATCTTCCTGAAGCCATTGTTCACTATAGTACCTAATTGCAAGTTAACAAATTTTGGTCTATCAATTTTAGAAACTATAAGACAACTAAAGAATGGTTATAATAGGAAGATGTAATTATTATAAAGTACCTTGGGTTCAAAGAATGAGCCAAACAATGAAGTGGAGTATTACTTTTGTTCTAACGATCAATGAAAATATTATGAACATCATAAAATGAAGAGTCTGCATTTCCATGTTTGCCTTCATGCCTATAGATTGCAATCTTCACTTTTTCAATCATACTATCCCACATGCCATAAACCAGATGAAAGGTAGATGCATCTGTAGCATAAATCCAAATCATGTCGTATATAGGTTTAGTGAAGGAAAGGATGTAATCAATTTTATCCCACCAAATATCATCCAAGATCAATCCTTTCACATATCTTGCTTTTTCCACGTCATCCTCTCGATAGCACGTCAATTTGTCACTAATAACCATAGCTTGCAACCCACCTTTAATAAGCTTGAATCTTTTAAGCATTATAATGTTTGATGCAAATCGTGTTTCTGCCACGGAAAGTAATTTCAAAGATACGAACTCATTAGAAATAGCAAGCCTCATTGAATGATTCATTATGAAATTCTTCACTACCATCACATCACTAGTGATATCAGAAATCCAACTACATTCCCCATAAACAAGCGCATTATTTTCAACATTTTTCGTTGCACATATATTCTTCAAGGCAAGATTAAGAATATGTACTACACATGACGTCCATACAATTGTGGGAAACTGTGACTCAATAAGCTGACTTGCACCTTTGTAGTTAGGAGCATTATCCGTAATTACTTGAATCACATTATGAGGGCCAACTTCATTAATCACATCCTTAAGCAAATTTGAAATAAAATACTTATCTTTGACCTCACCTGAGCAATCAACTGCTTTAAAAAACATTGGTTTGCCATCTGAAATCGCCACAAAATTTATGAGAGATCTCATTTGTGAGTCACTCCAACCATCACTCACAATACTGACCCCCTTTCCCTTCCATGTATCTTTAATGGATTGTAACAATCTTTCGATATTTGCCTTTTCCCTATGAAGAAGAGTTGTTCTCAACAAATTATATCGAGGAGGCAAATATCCAGACAATAAATTATTTGCAGAATAAGTGTATGAGTTTACGTAGTATGGATTTCTGGCTAAATGAAAAGGCAATTCTGAAGAATAAAACATCTGTGCAATAAGTGAATGCAATTGGTCTCTTGAAACCATATTAAATGATCTTTCTATTGCACTTGGAGCTGTTTTTCTTTTCTTTTGCTCAAAGGTAGAATGAGATGATTGTTTACTCCCACTAAACCCACTATAAATTGTAAACGGAGGTGGTAAAGGAACGTTTTTAGGAGTCTTTCTAGCCATTCAATCTTTTGCCTCATCTTCTAATTTTTGCATCTCGGCCAAAGCTTGAGGGGTAACTTTATTACATGCTCCAACACCATAACCACTTAAACCTAGTAATTGTGCTTTGACCCTTGTATAAGAACTTTTTTTTACGCAATGACAAAAGTTACATTGCCAAGAAATGATTCCACCTCCTTCCTTCAATCTTTGATTCTTGGTCACATATTACCAAAGTGGTTTCGACTCATCTTCAACACTAGAGGATGTCAATGTACTCGCTGCTGAAGGAACTTTGGATGATTGACTACTATTGGTAGATGTCGACTGAGGAGGAAGATGCCATCTAATATAAAAATAGAATGAATTGTCATTAAATAAATGTGACCAGCCTCACACCATATATGTACAGTGTACAATGCACACATTCCACATTAAATAATCGGAATAAAAAACCAGTTGCGTTGAATTTGATACACAAAAAAGAAAAAAAAGGAAAAACCTTTAAACCGAGAACCAAAATGGAGGGGAGTGCGGTTGGTCTAACGAAGTTACCATTTCCGGTGTCGTTTGATCGGAGAGGGTGAGCAGCGGTCTCTGGCGTCGTCTGAACGTGAAGATTGGAGAGGTATGGAGTAAAGGGACTGGAGGGCCCTAGGGTTTGTCTTTGTCTTTTACGAAAGGGGCTGATTCTTTTTTTAAAAATTTTTAATGATATTAAAAAATATTAAAATATTCAAAGTGTCCCTCTAGCGCGTGTCATAATAAAAAAAATTGACACGTAAAATTGCGTGTCTAACACGTGTTAGTGTCGGAGATGTGTCCGACACCGACACCCTCTCCAAAAAAGAGTGTCCGTGCTTCGTAGATCACGCCATAGTTCGTTGTATCCGTTAGCGATAGCTTCAATTTTTCCACTACACGGGGCGTTATGAAGTTGTGGGTGGCCCCACAGTCAACTAGAACCACCGCCTTCTCCGTCTCGATCTTCCTTCTTACCTTCAAGGTGCCTTGGTTAGAGATTCCCACCACGGTATTGAGAGATAACTCTGCCACTTTCATAACTTCCTACTCCGTCGGTAAGGAAACATCACCCATTTCGTCCTCTTCTCTCCGCATTTCGTCGTCCACCACAAGTAATCGCAACTCCTTGCTCTTGCAACAGGCAGTGTATTTTTTGTCACATCGAGAACACAAACATTTTGCTCTTCTTGCTTGTAACTCGGTATACGAGAGACGTTTAATAGGAACGTCTTTCCACACAGGGTAATAGGTGTTTGGCAGAGTATTGAACAGATGGGTACCGCCTCAATGGCCTTGACTGGTGTGACGTTTTAAGTTTCTTGGGCCGTGTTGATGGGCTGGAATGGTTGGTAAGGTTTAATGGTCTTGGTTTGGCCCAATCGATTTTTAGTTGTTGTTCTTTTATCTTCTACCCTCTGGGCTGCTTGGATTATCTAGCCCAAACCCACCGGTTCATAACACACCACTTCCGCCTTAATCTCTGGGTCTTGCCCATTTAGGAAAGTGCTCCCGAGTACCTCGTCAGATAGGTGAGGCAACGGTGCTGACAGGGCCTTAAATCGCTCACAAAAGTCGGCTATATTGGACTCTTGCTTGACCACTAAAAAACGAGCACAGAGAGTTCCCTCTTGTGTTGGCCGTAATCTATCTAGCAGTCAATACTTTAGGTCCTTCCAATCCTCGAAGGGTGGCGGCTGTCTGCCCATCTATACCAATGTAAGACTGCACCGAAGAAACTAATTGATGTCACCGTCACCTTTTCAGAATCCGAGAGTTGATGAATTCTGAAATACCTCTCCGCTCGGAACAACCATGAGTCGGGCTGATTGCCTTCAAACACAGGCATGTCGACCTTCTTGAACTTGCTTCGATCGGTGTATCCTTCATCTGTTTTTGTGCGTTGGCCACCTCCTTTGCGGTTCTCCGTATGAAGAATCTCCAATACCTTCAGGGTGCTTTCGCTTTGGGGTGTTGTTCTGTCATCCGTGCTCTGAGTGAAAATTCCTCGAGATAGAGAAGAGATGGCTCTGCGAGTCTCTTCGGCTGCACTTCTCTGGTCTTCAAAATTGTGGAACATCAACTCTGTACTCTTCTGATTTTCTGACGTCACCTTCCGTTGCTCTTCCATTTGTTGTATCATCAGATTAACCTTATCTGTAAGTTCCTCAATGGTCACTTCCGTTTCCTTTTGAACATCGTTTACGATCTGGTCGGAATCTTTCGGTCGCTCTTCTTGTTTCTTCGTCGACATATTCCTAAGCTAAACCAGAACGAACGCTCTGATACCAAATGTGAAAGCTCTCCACTGAGAGGGAGGAACTCTCCATCAACAGTGTGATTAACACATCCAAAAAGCTTAAGGCTCAAAACATTACAAAAGTACATATATATGACCCACGTCACCCAACCACCACTTAACCCTGGTTAGGTGAATTACCCAAACTGCCCCTCCTAACATAAGTATGTATTATTTGTGGTCTAACAAAGAACTTTCTCACTCTTCTTTGATTGCACCTTTTTGAATTCCAGAGTTCACAATAACCTTTGGATTTACCTCATGCGCAACCACCTTCTCCGGCTCTGGTGAAGCAGATTTCAGCTTCTGAAGTTTCAACTAGTTGAATTTTTGACTGGATAAATGGATTTCTGGTGTACTGTCCACGCATCCTTGCTTGTAGAAGAAACTCAAACTCGAATCACATTCAACCCCTTCATCCTTCAAAACTTGATTTAATCTAACAGCATCCATCGGATTTGAAAAATCATAAACAAATAAATCTCCTATGATTTTACTGGGTGGATTGATTGATGAAATATCAGCGAAGGTCAAGAAAATATTACCTTTTTTCTCATCATTGATTTCAAGTGTTGCCGGAATGAACTCACAAAGATTCTCTTTCTACCCAACATACCTTTCTTAGGTTCTTAAATTCCGTTAACTGAAGTTAATATTACATCTTTTTCTTTGCCTGTTTACATAATGATATGCCATGTCCTTCCTGATAAAATTGTTTTTGTCCATTTGACTTCTTGTTTCTTTGTTTCTTTAAAGAGGCAGTTCAACTTTGGTGTTGATATATTAGGAATCTTCATTTGTTTGGGTTCATAATAAAGATATGTTGCAAAATTCATTCCTTAGGCTACTCATCCTCGATTTGTTGAAGAAAACTTGGAGAAGAACAAACACTTTTACACACGAATAGAGAAGCTTGCTGAAAAACACCTATGCTCTCCTGCTCAGCTTGCCCTTGCATGGGTTCTCGAGCAAGGCGATGATGTTGTTCCAATTCCAGGTGACTAGTAACTTTATAAAGTTTTAATTTGATCCAGAACTTTAAATTATGATATTATGTCGTCCATCTCATCAACAACTAAATGATGATGTGACATGTTTACCGAACAAATTTTAGCTGATTTGATTGGATGCGGTAGTTTAATGGTGGAAATGAATAGAATGATAAAATTAAATGACACACATCTACTATTGGTATATCACATGTCAAATCAGCTAACATTTGTGCAACAACGACATGTATCATCATTTAATTAACTTTGTTAAACACATGGACTGCATAAAATCATAGCTCCAAATTTGAGGATGCAGTTGTTCAAACTTTTTTAGATTGAAGAACTAAATAGCAAAGTTCAATGTTAATTACCAAACTTATAACAAAAGAACAAGGCTGGATTGTTTTTCATAAACGTAGCACTTTGATCTATCTTTTACTAGCTGCATTAATAAACTCCCAAGAGATGGAAACATCATGCAGAGGCAGAACCTCTCTTTTTATGACTTCTTTCCTTTTATGTCCCAAGGCACAACCAAGATAAAGAATTTGGATCAGAACATTGGTTCGTTGACAGTTAGGCTCAACAAAGACGACCTGAACGAAATTTCTGAGGCCGTACCCGAAAGTGAGGTGGCTGGAAATAGAACTTATGATAGCATGGCTCATGCAACATGGAAATATGCTATCACTCCAAAAGTGAATGACATTTCAACCTAA

mRNA sequence

ATGGGAATCACTTTTTTTGATACAGCCGATGTATATGGACCCCACTCCAATGAAACCCTGGTTGGAAAGGCACTGAAACGGTTACCAAGAGAAAAGGTTCAGATTGCCACTAAGTTTGGAATTACAAGGATTGGAAGTTCAATGACAGTGAATGGAACCCCAGAGTATGTGCGGTCATGTTGTGAGGCTAGCTTGAAACGACTTGATATAGATTACATTGATCTCTATTATCAACATCGCACTGATACATCTACACCTATAGAAGAAACTATGAGTGAACTGAAAAAACTCGTGGAGGAGGGAAAGATCAAATATATAGGTCTATCTGAAGCTAGCCCAGACACCATAAAGAGGGCACATGCAGTTCATCCTATTACAGCTCTACAGATGGAGTGGTCCATCTGGACGCGTGACATCGAGGAGGAGATTGCTACTCATCCTCGATTTGTTGAAGAAAACTTGGAGAAGAACAAACACTTTTACACACGAATAGAGAAGCTTGCTGAAAAACACCTATGCTCTCCTGCTCAGCTTGCCCTTGCATGGGTTCTCGAGCAAGGCGATGATGTTGTTCCAATTCCAGGCACAACCAAGATAAAGAATTTGGATCAGAACATTGGTTCGTTGACAGTTAGGCTCAACAAAGACGACCTGAACGAAATTTCTGAGGCCGTACCCGAAAGTGAGGTGGCTGGAAATAGAACTTATGATAGCATGGCTCATGCAACATGGAAATATGCTATCACTCCAAAAGTGAATGACATTTCAACCTAA

Coding sequence (CDS)

ATGGGAATCACTTTTTTTGATACAGCCGATGTATATGGACCCCACTCCAATGAAACCCTGGTTGGAAAGGCACTGAAACGGTTACCAAGAGAAAAGGTTCAGATTGCCACTAAGTTTGGAATTACAAGGATTGGAAGTTCAATGACAGTGAATGGAACCCCAGAGTATGTGCGGTCATGTTGTGAGGCTAGCTTGAAACGACTTGATATAGATTACATTGATCTCTATTATCAACATCGCACTGATACATCTACACCTATAGAAGAAACTATGAGTGAACTGAAAAAACTCGTGGAGGAGGGAAAGATCAAATATATAGGTCTATCTGAAGCTAGCCCAGACACCATAAAGAGGGCACATGCAGTTCATCCTATTACAGCTCTACAGATGGAGTGGTCCATCTGGACGCGTGACATCGAGGAGGAGATTGCTACTCATCCTCGATTTGTTGAAGAAAACTTGGAGAAGAACAAACACTTTTACACACGAATAGAGAAGCTTGCTGAAAAACACCTATGCTCTCCTGCTCAGCTTGCCCTTGCATGGGTTCTCGAGCAAGGCGATGATGTTGTTCCAATTCCAGGCACAACCAAGATAAAGAATTTGGATCAGAACATTGGTTCGTTGACAGTTAGGCTCAACAAAGACGACCTGAACGAAATTTCTGAGGCCGTACCCGAAAGTGAGGTGGCTGGAAATAGAACTTATGATAGCATGGCTCATGCAACATGGAAATATGCTATCACTCCAAAAGTGAATGACATTTCAACCTAA

Protein sequence

MGITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCCEASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHAVHPITALQMEWSIWTRDIEEEIATHPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQNIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITPKVNDIST
Homology
[Close]
BLAST of PI0009643 vs. ExPASy Swiss-Prot
Match: C6TBN2 (Probable aldo-keto reductase 1 OS=Glycine max OX=3847 GN=AKR1 PE=2 SV=1)

HSP 1 Score: 369.8 bits (948), Expect = 2.5e-101
Identity = 189/295 (64.07%), Postives = 219/295 (74.24%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIG-SSMTVNGTPEYVRSC 61
           GITFFDTADVYG ++NE LVGKALK+LPREK+QIATKFGI   G   M + G+PEYVRSC
Sbjct: 52  GITFFDTADVYGANANELLVGKALKQLPREKIQIATKFGIASRGFPDMKIEGSPEYVRSC 111

Query: 62  CEASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAH 121
           CE  LKRLD++YIDLYYQHR DTS PIEET+ ELKKLVEEGK+KYIGLSEASPDTI+RAH
Sbjct: 112 CETGLKRLDVEYIDLYYQHRVDTSVPIEETVGELKKLVEEGKVKYIGLSEASPDTIRRAH 171

Query: 122 AVHPITALQMEWSIWTRDIEEEIA------------------------------------ 181
           A+HPITA+Q+EWS+WTRDIEEEI                                     
Sbjct: 172 AIHPITAVQIEWSLWTRDIEEEIVPLCRELGIGIVPYSPLGRGFFGGKGVVENVPTNSSL 231

Query: 182 -THPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLD 241
             HPRF  ENL+KNK+ Y RIE LA+KH  +PAQLALAWVL+QG+DVVPIPGTTKIKNLD
Sbjct: 232 KAHPRFQAENLDKNKNIYERIEGLAKKHQATPAQLALAWVLQQGEDVVPIPGTTKIKNLD 291

Query: 242 QNIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAIT-PKVNDIST 258
           QNIG+L V+L++ DL EI EAVP  +VAG R Y+ + H +WKYA T PK + IST
Sbjct: 292 QNIGALAVKLSEKDLREIFEAVPIGDVAGGRYYNGLDHFSWKYANTPPKDSKIST 346

[Close]
BLAST of PI0009643 vs. ExPASy Swiss-Prot
Match: Q3L181 (Perakine reductase OS=Rauvolfia serpentina OX=4060 GN=PR PE=1 SV=1)

HSP 1 Score: 349.7 bits (896), Expect = 2.7e-95
Identity = 178/288 (61.81%), Postives = 211/288 (73.26%), Query Frame = 0 

Query: 2   GITFFDTADVYGPH-SNETLVGKALKRLPREKVQIATKFGITRIG-SSMTVNGTPEYVRS 61
           GITFFDT+D+YG + SNE L+GKALK+LPREK+Q+ TKFGI  IG S +   GTP+YVRS
Sbjct: 47  GITFFDTSDIYGENGSNEELLGKALKQLPREKIQVGTKFGIHEIGFSGVKAKGTPDYVRS 106

Query: 62  CCEASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRA 121
           CCEASLKRLD+DYIDL+Y HR DT+ PIE TM ELKKLVEEGKIKY+GLSEASPDTI+RA
Sbjct: 107 CCEASLKRLDVDYIDLFYIHRIDTTVPIEITMGELKKLVEEGKIKYVGLSEASPDTIRRA 166

Query: 122 HAVHPITALQMEWSIWTRDIEEEI------------------------------------ 181
           HAVHP+TALQ+E+S+WTRDIE+EI                                    
Sbjct: 167 HAVHPVTALQIEYSLWTRDIEDEIVPLCRQLGIGIVPYSPIGRGLFAGKAIKESLPENSV 226

Query: 182 -ATHPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNL 241
             +HPRFV ENLEKNK  Y RIE L++KH C+P QLALAWVL QG+DVVPIPGTTKIKNL
Sbjct: 227 LTSHPRFVGENLEKNKQIYYRIEALSQKHGCTPVQLALAWVLHQGEDVVPIPGTTKIKNL 286

Query: 242 DQNIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITP 251
             N+G+L V+L K+DL EIS+AVP  EVAG   ++ +A   WK+A TP
Sbjct: 287 HNNVGALKVKLTKEDLKEISDAVPLDEVAGESIHEVIAVTNWKFANTP 334

[Close]
BLAST of PI0009643 vs. ExPASy Swiss-Prot
Match: Q93ZN2 (Probable aldo-keto reductase 4 OS=Arabidopsis thaliana OX=3702 GN=At1g60710 PE=2 SV=1)

HSP 1 Score: 289.3 bits (739), Expect = 4.4e-77
Identity = 156/290 (53.79%), Postives = 189/290 (65.17%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           G+T  DT+D+YGP +NE L+GKALK   REKV++ATKFGI+       V G PEYVR+ C
Sbjct: 53  GVTLLDTSDIYGPETNEVLLGKALKDGVREKVELATKFGISYAEGKREVRGDPEYVRAAC 112

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLDI  IDLYYQHR DT  PIE TM ELKKLVEEGKIKYIGLSEAS  TI+RAHA
Sbjct: 113 EASLKRLDIACIDLYYQHRVDTRVPIEITMGELKKLVEEGKIKYIGLSEASASTIRRAHA 172

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------- 181
           VHPITA+Q+EWS+WTRD+EEEI                                      
Sbjct: 173 VHPITAVQIEWSLWTRDVEEEIIPTCRELGIGIVAYSPLGRGFFASGPKLVENLEKDDFR 232

Query: 182 ATHPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLD 241
              PRF EENL+ NK  Y ++  ++EK  C+P QLALAWV  QGDDV PIPGTTKI+NL 
Sbjct: 233 KALPRFQEENLDHNKIVYEKVCAISEKKGCTPGQLALAWVHHQGDDVCPIPGTTKIENLK 292

Query: 242 QNIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITPKVN 254
           QNIG+L+V+L  +++ E+        V G+R Y +M   T+K A TP ++
Sbjct: 293 QNIGALSVKLTPEEMTELEAIAQPGFVKGDR-YSNMI-PTFKNAETPPLS 340

[Close]
BLAST of PI0009643 vs. ExPASy Swiss-Prot
Match: Q7XT99 (Probable aldo-keto reductase 2 OS=Oryza sativa subsp. japonica OX=39947 GN=Os04g0338000 PE=2 SV=2)

HSP 1 Score: 286.6 bits (732), Expect = 2.8e-76
Identity = 144/290 (49.66%), Postives = 188/290 (64.83%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           G+T  DT+D+YGPH+NE L+GKAL+   R+KV++ATKFGI        V G P YVR+ C
Sbjct: 57  GVTLLDTSDIYGPHTNELLLGKALQGGVRDKVELATKFGIAFEDGKRDVRGDPAYVRAAC 116

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           E SL+RL +D IDLYYQHR D   PIE T+ ELKKLVEEGKIKYIGLSEAS  TI+RAHA
Sbjct: 117 EGSLRRLGVDSIDLYYQHRVDKKVPIEVTIGELKKLVEEGKIKYIGLSEASASTIRRAHA 176

Query: 122 VHPITALQMEWSIWTRDIEEEIATH----------------------------------- 181
           VHPITA+Q+EWS+W+RD+EE+I                                      
Sbjct: 177 VHPITAVQLEWSLWSRDVEEDIIPTCRELGIGIVAYSPLGRGFFSAGAKLVESLSDQDFR 236

Query: 182 ---PRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLD 241
              PRF +ENLEKN   + R+  +A +  C+P+QLALAWV  QG DV PIPGTTKI+NL+
Sbjct: 237 KHIPRFQQENLEKNAEIFERVNAMAARKGCTPSQLALAWVHHQGSDVCPIPGTTKIENLN 296

Query: 242 QNIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITPKVN 254
           QNIG+L+V+L  +++ E+       +V G+R   +MA+ TW+ + TP ++
Sbjct: 297 QNIGALSVKLTPEEMAELESYASTDDVRGDRYPQAMANTTWQNSETPPLS 346

[Close]
BLAST of PI0009643 vs. ExPASy Swiss-Prot
Match: A2XRZ0 (Probable aldo-keto reductase 2 OS=Oryza sativa subsp. indica OX=39946 GN=OsI_15387 PE=3 SV=1)

HSP 1 Score: 286.2 bits (731), Expect = 3.7e-76
Identity = 144/290 (49.66%), Postives = 188/290 (64.83%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           G+T  DT+D+YGPH+NE L+GKAL+   R+KV++ATKFGI        V G P YVR+ C
Sbjct: 57  GVTLLDTSDIYGPHTNELLLGKALQGGVRDKVELATKFGIAFEDGKRGVRGDPAYVRAAC 116

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           E SL+RL +D IDLYYQHR D   PIE T+ ELKKLVEEGKIKYIGLSEAS  TI+RAHA
Sbjct: 117 EGSLRRLGVDSIDLYYQHRVDKKVPIEVTIGELKKLVEEGKIKYIGLSEASASTIRRAHA 176

Query: 122 VHPITALQMEWSIWTRDIEEEIATH----------------------------------- 181
           VHPITA+Q+EWS+W+RD+EE+I                                      
Sbjct: 177 VHPITAVQLEWSLWSRDVEEDIIPTCRELGIGIVAYSPLGRGFFSAGAKLVESLSDQDFR 236

Query: 182 ---PRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLD 241
              PRF +ENLEKN   + R+  +A +  C+P+QLALAWV  QG DV PIPGTTKI+NL+
Sbjct: 237 KHIPRFQQENLEKNAEIFERVNAMAARKGCTPSQLALAWVHHQGSDVCPIPGTTKIENLN 296

Query: 242 QNIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITPKVN 254
           QNIG+L+V+L  +++ E+       +V G+R   +MA+ TW+ + TP ++
Sbjct: 297 QNIGALSVKLTPEEMAELESYASTDDVRGDRYPQAMANTTWQNSETPPLS 346

[Close]
BLAST of PI0009643 vs. ExPASy TrEMBL
Match: A0A5A7VMY6 (Putative aldo-keto reductase 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold38G002270 PE=4 SV=1)

HSP 1 Score: 485.7 bits (1249), Expect = 1.2e-133
Identity = 248/293 (84.64%), Postives = 252/293 (86.01%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           GITFFDTADVYGPHSNE LVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC
Sbjct: 55  GITFFDTADVYGPHSNEILVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 114

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLDIDYIDLYYQHRTDTST IEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA
Sbjct: 115 EASLKRLDIDYIDLYYQHRTDTSTSIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 174

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------A 181
           VHPITALQMEWSIWTRDIEEEI                                     A
Sbjct: 175 VHPITALQMEWSIWTRDIEEEIVPLCRELGIGIVPYSPLGRGFFAGKAVVENLPVGSHLA 234

Query: 182 THPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQ 241
           THPRFVEENLEKNKHFYT+IEKLAEKH CSPAQLALAWVL+QGD VVPIPGTTKIKNLD+
Sbjct: 235 THPRFVEENLEKNKHFYTQIEKLAEKHQCSPAQLALAWVLKQGDGVVPIPGTTKIKNLDE 294

Query: 242 NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITPKVNDIST 258
           NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYD+MAHATWKYAITPKVNDIST
Sbjct: 295 NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDNMAHATWKYAITPKVNDIST 347

[Close]
BLAST of PI0009643 vs. ExPASy TrEMBL
Match: A0A1S3CBJ1 (probable aldo-keto reductase 1 OS=Cucumis melo OX=3656 GN=LOC103499096 PE=4 SV=1)

HSP 1 Score: 485.7 bits (1249), Expect = 1.2e-133
Identity = 248/293 (84.64%), Postives = 252/293 (86.01%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           GITFFDTADVYGPHSNE LVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC
Sbjct: 55  GITFFDTADVYGPHSNEILVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 114

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLDIDYIDLYYQHRTDTST IEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA
Sbjct: 115 EASLKRLDIDYIDLYYQHRTDTSTSIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 174

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------A 181
           VHPITALQMEWSIWTRDIEEEI                                     A
Sbjct: 175 VHPITALQMEWSIWTRDIEEEIVPLCRELGIGIVPYSPLGRGFFAGKAVVENLPVGSHLA 234

Query: 182 THPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQ 241
           THPRFVEENLEKNKHFYT+IEKLAEKH CSPAQLALAWVL+QGD VVPIPGTTKIKNLD+
Sbjct: 235 THPRFVEENLEKNKHFYTQIEKLAEKHQCSPAQLALAWVLKQGDGVVPIPGTTKIKNLDE 294

Query: 242 NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITPKVNDIST 258
           NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYD+MAHATWKYAITPKVNDIST
Sbjct: 295 NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDNMAHATWKYAITPKVNDIST 347

[Close]
BLAST of PI0009643 vs. ExPASy TrEMBL
Match: A0A5D3DQZ4 (Putative aldo-keto reductase 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold1567G00070 PE=4 SV=1)

HSP 1 Score: 480.3 bits (1235), Expect = 4.9e-132
Identity = 248/307 (80.78%), Postives = 252/307 (82.08%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           GITFFDTADVYGPHSNE LVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC
Sbjct: 55  GITFFDTADVYGPHSNEILVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 114

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLDIDYIDLYYQHRTDTST IEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA
Sbjct: 115 EASLKRLDIDYIDLYYQHRTDTSTSIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 174

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------- 181
           VHPITALQMEWSIWTRDIEEEI                                      
Sbjct: 175 VHPITALQMEWSIWTRDIEEEIVPLCRELGIGIVPYSPLGRGFFAGKAVVENLPVGSHLV 234

Query: 182 -------------ATHPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDV 241
                        ATHPRFVEENLEKNKHFYT+IEKLAEKH CSPAQLALAWVL+QGD V
Sbjct: 235 SICSGPLSLYLSLATHPRFVEENLEKNKHFYTQIEKLAEKHQCSPAQLALAWVLKQGDGV 294

Query: 242 VPIPGTTKIKNLDQNIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITP 258
           VPIPGTTKIKNLD+NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYD+MAHATWKYAITP
Sbjct: 295 VPIPGTTKIKNLDENIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDNMAHATWKYAITP 354

[Close]
BLAST of PI0009643 vs. ExPASy TrEMBL
Match: A0A6J1CN72 (probable aldo-keto reductase 1 isoform X3 OS=Momordica charantia OX=3673 GN=LOC111013031 PE=4 SV=1)

HSP 1 Score: 459.1 bits (1180), Expect = 1.2e-125
Identity = 232/294 (78.91%), Postives = 246/294 (83.67%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           G+TFFDT+D+YGPHSNE LVGKA+K+LPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC
Sbjct: 55  GVTFFDTSDIYGPHSNEILVGKAVKQLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 114

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLDIDYIDLYYQHR DT+TPIEETMSELKKLV+EGKIKYIGLSEASPDTIKRAHA
Sbjct: 115 EASLKRLDIDYIDLYYQHRIDTATPIEETMSELKKLVQEGKIKYIGLSEASPDTIKRAHA 174

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------A 181
           VHP+TALQMEWS+WTRDIEEEI                                     A
Sbjct: 175 VHPVTALQMEWSLWTRDIEEEIIPLCRELGIGIVPYSPLGRGFFAGKAVVESLPAGSFLA 234

Query: 182 THPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQ 241
           THPRFVEENL+KNKH YTRIEKLAEKH CSPAQL+LAWVL+QGDDVVPIPGTTKIKNLDQ
Sbjct: 235 THPRFVEENLDKNKHIYTRIEKLAEKHQCSPAQLSLAWVLQQGDDVVPIPGTTKIKNLDQ 294

Query: 242 NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAIT-PKVNDIST 258
           NIGSLTV+L KDDLNEI EAVP SEVAG+RTY SM HATWKYA T PKVNDIST
Sbjct: 295 NIGSLTVKLTKDDLNEILEAVPASEVAGDRTYHSMTHATWKYANTPPKVNDIST 348

[Close]
BLAST of PI0009643 vs. ExPASy TrEMBL
Match: A0A6J1CP12 (probable aldo-keto reductase 1 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111013031 PE=4 SV=1)

HSP 1 Score: 459.1 bits (1180), Expect = 1.2e-125
Identity = 232/294 (78.91%), Postives = 246/294 (83.67%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           G+TFFDT+D+YGPHSNE LVGKA+K+LPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC
Sbjct: 112 GVTFFDTSDIYGPHSNEILVGKAVKQLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 171

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLDIDYIDLYYQHR DT+TPIEETMSELKKLV+EGKIKYIGLSEASPDTIKRAHA
Sbjct: 172 EASLKRLDIDYIDLYYQHRIDTATPIEETMSELKKLVQEGKIKYIGLSEASPDTIKRAHA 231

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------A 181
           VHP+TALQMEWS+WTRDIEEEI                                     A
Sbjct: 232 VHPVTALQMEWSLWTRDIEEEIIPLCRELGIGIVPYSPLGRGFFAGKAVVESLPAGSFLA 291

Query: 182 THPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQ 241
           THPRFVEENL+KNKH YTRIEKLAEKH CSPAQL+LAWVL+QGDDVVPIPGTTKIKNLDQ
Sbjct: 292 THPRFVEENLDKNKHIYTRIEKLAEKHQCSPAQLSLAWVLQQGDDVVPIPGTTKIKNLDQ 351

Query: 242 NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAIT-PKVNDIST 258
           NIGSLTV+L KDDLNEI EAVP SEVAG+RTY SM HATWKYA T PKVNDIST
Sbjct: 352 NIGSLTVKLTKDDLNEILEAVPASEVAGDRTYHSMTHATWKYANTPPKVNDIST 405

[Close]
BLAST of PI0009643 vs. NCBI nr
Match: XP_008460212.1 (PREDICTED: probable aldo-keto reductase 1 [Cucumis melo] >KAA0067155.1 putative aldo-keto reductase 1 [Cucumis melo var. makuwa])

HSP 1 Score: 485.7 bits (1249), Expect = 2.4e-133
Identity = 248/293 (84.64%), Postives = 252/293 (86.01%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           GITFFDTADVYGPHSNE LVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC
Sbjct: 55  GITFFDTADVYGPHSNEILVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 114

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLDIDYIDLYYQHRTDTST IEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA
Sbjct: 115 EASLKRLDIDYIDLYYQHRTDTSTSIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 174

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------A 181
           VHPITALQMEWSIWTRDIEEEI                                     A
Sbjct: 175 VHPITALQMEWSIWTRDIEEEIVPLCRELGIGIVPYSPLGRGFFAGKAVVENLPVGSHLA 234

Query: 182 THPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQ 241
           THPRFVEENLEKNKHFYT+IEKLAEKH CSPAQLALAWVL+QGD VVPIPGTTKIKNLD+
Sbjct: 235 THPRFVEENLEKNKHFYTQIEKLAEKHQCSPAQLALAWVLKQGDGVVPIPGTTKIKNLDE 294

Query: 242 NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITPKVNDIST 258
           NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYD+MAHATWKYAITPKVNDIST
Sbjct: 295 NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDNMAHATWKYAITPKVNDIST 347

[Close]
BLAST of PI0009643 vs. NCBI nr
Match: XP_011655093.1 (probable aldo-keto reductase 1 [Cucumis sativus] >XP_011655094.1 probable aldo-keto reductase 1 [Cucumis sativus] >XP_031742270.1 probable aldo-keto reductase 1 [Cucumis sativus] >XP_031742273.1 probable aldo-keto reductase 1 [Cucumis sativus] >XP_031742274.1 probable aldo-keto reductase 1 [Cucumis sativus] >XP_031742275.1 probable aldo-keto reductase 1 [Cucumis sativus] >KGN50491.2 hypothetical protein Csa_018844 [Cucumis sativus])

HSP 1 Score: 482.6 bits (1241), Expect = 2.1e-132
Identity = 245/293 (83.62%), Postives = 248/293 (84.64%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           GITFFDTADVYGPHSNE LVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC
Sbjct: 55  GITFFDTADVYGPHSNEILVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 114

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLDIDYIDLYYQHRTDTST IEETM ELKKLVEEGKIKYIGLSEASPDTIKRAHA
Sbjct: 115 EASLKRLDIDYIDLYYQHRTDTSTSIEETMGELKKLVEEGKIKYIGLSEASPDTIKRAHA 174

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------A 181
           +HPITALQMEWS+WTRDIEEEI                                     A
Sbjct: 175 IHPITALQMEWSVWTRDIEEEIVPLCRELGIGIVPYSPLGRGFFAGKAVVESLPVGSHLA 234

Query: 182 THPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQ 241
           THPRFVEENLEKNKH YTRIEKLAEKH CSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQ
Sbjct: 235 THPRFVEENLEKNKHIYTRIEKLAEKHQCSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQ 294

Query: 242 NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITPKVNDIST 258
           NIGSLTVRLNKDD NEISEAVPESEVAGNRTYD+M H TWKYAITPKVNDIST
Sbjct: 295 NIGSLTVRLNKDDRNEISEAVPESEVAGNRTYDNMVHTTWKYAITPKVNDIST 347

[Close]
BLAST of PI0009643 vs. NCBI nr
Match: TYK26004.1 (putative aldo-keto reductase 1 [Cucumis melo var. makuwa])

HSP 1 Score: 480.3 bits (1235), Expect = 1.0e-131
Identity = 248/307 (80.78%), Postives = 252/307 (82.08%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           GITFFDTADVYGPHSNE LVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC
Sbjct: 55  GITFFDTADVYGPHSNEILVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 114

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLDIDYIDLYYQHRTDTST IEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA
Sbjct: 115 EASLKRLDIDYIDLYYQHRTDTSTSIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 174

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------- 181
           VHPITALQMEWSIWTRDIEEEI                                      
Sbjct: 175 VHPITALQMEWSIWTRDIEEEIVPLCRELGIGIVPYSPLGRGFFAGKAVVENLPVGSHLV 234

Query: 182 -------------ATHPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDV 241
                        ATHPRFVEENLEKNKHFYT+IEKLAEKH CSPAQLALAWVL+QGD V
Sbjct: 235 SICSGPLSLYLSLATHPRFVEENLEKNKHFYTQIEKLAEKHQCSPAQLALAWVLKQGDGV 294

Query: 242 VPIPGTTKIKNLDQNIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITP 258
           VPIPGTTKIKNLD+NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYD+MAHATWKYAITP
Sbjct: 295 VPIPGTTKIKNLDENIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDNMAHATWKYAITP 354

[Close]
BLAST of PI0009643 vs. NCBI nr
Match: XP_038877221.1 (probable aldo-keto reductase 1 [Benincasa hispida])

HSP 1 Score: 471.1 bits (1211), Expect = 6.2e-129
Identity = 243/294 (82.65%), Postives = 246/294 (83.67%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           GITFFDTADVYGPHSNE LVGKA K+LPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC
Sbjct: 55  GITFFDTADVYGPHSNEILVGKAFKQLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 114

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLDIDYIDLYYQHRTDTS PIEETMSELKKLV+EGKIKYIGLSEASPDTIKRAHA
Sbjct: 115 EASLKRLDIDYIDLYYQHRTDTSIPIEETMSELKKLVQEGKIKYIGLSEASPDTIKRAHA 174

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------A 181
           VHPITALQMEWSIWTRDIEEEI                                     A
Sbjct: 175 VHPITALQMEWSIWTRDIEEEIIPLCRELGIGIVPYSPLGRGFFAGKAVVESLPVGSQLA 234

Query: 182 THPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQ 241
           THPRF+EENLEKNK FYTRIEKLAEKH CSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQ
Sbjct: 235 THPRFIEENLEKNKQFYTRIEKLAEKHHCSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQ 294

Query: 242 NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAIT-PKVNDIST 258
           NIGSLTVRLNKDDL EISEA PESEVAGNRTYDSM HATWKYA T PKV DIST
Sbjct: 295 NIGSLTVRLNKDDLIEISEAAPESEVAGNRTYDSMTHATWKYATTPPKVKDIST 348

[Close]
BLAST of PI0009643 vs. NCBI nr
Match: XP_022143047.1 (probable aldo-keto reductase 1 isoform X2 [Momordica charantia])

HSP 1 Score: 459.1 bits (1180), Expect = 2.4e-125
Identity = 232/294 (78.91%), Postives = 246/294 (83.67%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           G+TFFDT+D+YGPHSNE LVGKA+K+LPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC
Sbjct: 106 GVTFFDTSDIYGPHSNEILVGKAVKQLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 165

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLDIDYIDLYYQHR DT+TPIEETMSELKKLV+EGKIKYIGLSEASPDTIKRAHA
Sbjct: 166 EASLKRLDIDYIDLYYQHRIDTATPIEETMSELKKLVQEGKIKYIGLSEASPDTIKRAHA 225

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------A 181
           VHP+TALQMEWS+WTRDIEEEI                                     A
Sbjct: 226 VHPVTALQMEWSLWTRDIEEEIIPLCRELGIGIVPYSPLGRGFFAGKAVVESLPAGSFLA 285

Query: 182 THPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQ 241
           THPRFVEENL+KNKH YTRIEKLAEKH CSPAQL+LAWVL+QGDDVVPIPGTTKIKNLDQ
Sbjct: 286 THPRFVEENLDKNKHIYTRIEKLAEKHQCSPAQLSLAWVLQQGDDVVPIPGTTKIKNLDQ 345

Query: 242 NIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAIT-PKVNDIST 258
           NIGSLTV+L KDDLNEI EAVP SEVAG+RTY SM HATWKYA T PKVNDIST
Sbjct: 346 NIGSLTVKLTKDDLNEILEAVPASEVAGDRTYHSMTHATWKYANTPPKVNDIST 399

[Close]
BLAST of PI0009643 vs. TAIR 10
Match: AT1G60710.1 (NAD(P)-linked oxidoreductase superfamily protein )

HSP 1 Score: 289.3 bits (739), Expect = 3.1e-78
Identity = 156/290 (53.79%), Postives = 189/290 (65.17%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           G+T  DT+D+YGP +NE L+GKALK   REKV++ATKFGI+       V G PEYVR+ C
Sbjct: 53  GVTLLDTSDIYGPETNEVLLGKALKDGVREKVELATKFGISYAEGKREVRGDPEYVRAAC 112

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLDI  IDLYYQHR DT  PIE TM ELKKLVEEGKIKYIGLSEAS  TI+RAHA
Sbjct: 113 EASLKRLDIACIDLYYQHRVDTRVPIEITMGELKKLVEEGKIKYIGLSEASASTIRRAHA 172

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------- 181
           VHPITA+Q+EWS+WTRD+EEEI                                      
Sbjct: 173 VHPITAVQIEWSLWTRDVEEEIIPTCRELGIGIVAYSPLGRGFFASGPKLVENLEKDDFR 232

Query: 182 ATHPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLD 241
              PRF EENL+ NK  Y ++  ++EK  C+P QLALAWV  QGDDV PIPGTTKI+NL 
Sbjct: 233 KALPRFQEENLDHNKIVYEKVCAISEKKGCTPGQLALAWVHHQGDDVCPIPGTTKIENLK 292

Query: 242 QNIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITPKVN 254
           QNIG+L+V+L  +++ E+        V G+R Y +M   T+K A TP ++
Sbjct: 293 QNIGALSVKLTPEEMTELEAIAQPGFVKGDR-YSNMI-PTFKNAETPPLS 340

[Close]
BLAST of PI0009643 vs. TAIR 10
Match: AT1G60680.1 (NAD(P)-linked oxidoreductase superfamily protein )

HSP 1 Score: 285.4 bits (729), Expect = 4.5e-77
Identity = 153/291 (52.58%), Postives = 192/291 (65.98%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRI-GSSMTVNGTPEYVRSC 61
           G+TFFDT+D+YGP +NE L+GKALK   +EKV++ATKFG   + G    V G PEYVR+ 
Sbjct: 53  GVTFFDTSDMYGPETNELLLGKALKDGVKEKVELATKFGFFIVEGEISEVRGDPEYVRAA 112

Query: 62  CEASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAH 121
           CEASLKRLDI  IDLYYQHR DT  PIE TM ELKKLVEEGKIKYIGLSEAS  TI+RAH
Sbjct: 113 CEASLKRLDIACIDLYYQHRIDTRVPIEITMRELKKLVEEGKIKYIGLSEASASTIRRAH 172

Query: 122 AVHPITALQMEWSIWTRDIEEEI------------------------------------- 181
           AVHPITA+Q+EWS+W+RD EE+I                                     
Sbjct: 173 AVHPITAVQIEWSLWSRDAEEDIIPICRELGIGIVAYSPLGRGFLAAGPKLAENLENDDF 232

Query: 182 -ATHPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNL 241
             T PRF +EN++ NK  + ++  +AEK  C+PAQLALAWV  QGDDV PIPGTTKI+NL
Sbjct: 233 RKTLPRFQQENVDHNKILFEKVSAMAEKKGCTPAQLALAWVHHQGDDVCPIPGTTKIENL 292

Query: 242 DQNIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITPKVN 254
           +QNI +L+V+L  ++++E+        V G R   SM  +T+K + TP ++
Sbjct: 293 NQNIRALSVKLTPEEISELDSLAKPESVKGERYMASM--STFKNSNTPPLS 341

[Close]
BLAST of PI0009643 vs. TAIR 10
Match: AT1G60750.1 (NAD(P)-linked oxidoreductase superfamily protein )

HSP 1 Score: 285.4 bits (729), Expect = 4.5e-77
Identity = 149/274 (54.38%), Postives = 191/274 (69.71%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRI-GSSMTVNGTPEYVRSC 61
           G+TF DT+D+YGP +NE L+GKALK   R+KV++ATKFGIT          G PEYVR  
Sbjct: 54  GVTFLDTSDIYGPETNELLLGKALKDGLRDKVELATKFGITASEDGKFGFRGDPEYVRIA 113

Query: 62  CEASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAH 121
           CEASLKRL +  IDLYYQHR DT+ PIE T+ ELKKLVEEGKIKYIGLSEAS  TI+RAH
Sbjct: 114 CEASLKRLGVTCIDLYYQHRIDTTLPIEITIGELKKLVEEGKIKYIGLSEASASTIRRAH 173

Query: 122 AVHPITALQMEWSIWTRDIEEEIATH---------------------PRFVEENLEKNKH 181
           AVHPITA+Q+EWS+W+RD+EE+I                        PRF +ENLE NK 
Sbjct: 174 AVHPITAVQIEWSLWSRDVEEDIIPTCRELGIGIVAYSPLGRGFLGLPRFQQENLENNKI 233

Query: 182 FYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLDQNIGSLTVRLNKDDLN 241
            Y +++ +A K  C+PAQLALAWV  QGDDV PIPGT+KI+NL+QNIG+L+V+L  +++ 
Sbjct: 234 LYEKVQAMATKKSCTPAQLALAWVHHQGDDVCPIPGTSKIQNLNQNIGALSVKLTPEEMV 293

Query: 242 EISEAVPESEVAGNRTYDSMAHATWKYAITPKVN 254
           E+ EA+ + +      YD+    T+K + TP ++
Sbjct: 294 EL-EAIAQPDFVKGERYDNNM-VTYKDSETPPLS 325

[Close]
BLAST of PI0009643 vs. TAIR 10
Match: AT1G60690.1 (NAD(P)-linked oxidoreductase superfamily protein )

HSP 1 Score: 285.0 bits (728), Expect = 5.8e-77
Identity = 148/290 (51.03%), Postives = 189/290 (65.17%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           G+TF DT+D+YGP +NE L+GKALK   REKV++ATKFGI+    +  + G P YVR+ C
Sbjct: 53  GVTFLDTSDMYGPETNEILLGKALKDGVREKVELATKFGISYAEGNREIKGDPAYVRAAC 112

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASLKRLD+  IDLYYQHR DT  PIE TM ELKKL+EEGKIKYIGLSEAS  TI+RAH 
Sbjct: 113 EASLKRLDVTCIDLYYQHRIDTRVPIEITMGELKKLIEEGKIKYIGLSEASASTIRRAHT 172

Query: 122 VHPITALQMEWSIWTRDIEEEIA------------------------------------- 181
           VHPITA+Q+EWS+WTRD+EEEI                                      
Sbjct: 173 VHPITAVQLEWSLWTRDVEEEIVPTCRELGIGIVSYSPLGRGFFASGPKLVENLDNNDFR 232

Query: 182 -THPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLD 241
              PRF +ENL+ NK  Y ++  ++EK  C+PAQLALAWV  QGDDV PIPGTTKI+NL+
Sbjct: 233 KALPRFQQENLDHNKILYEKVSAMSEKKGCTPAQLALAWVHHQGDDVCPIPGTTKIENLN 292

Query: 242 QNIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITPKVN 254
           QNI +L+V+L  ++++E+        V G R   ++   T+K + TP ++
Sbjct: 293 QNIRALSVKLTPEEMSELETIAQPESVKGERYMATV--PTFKNSDTPPLS 340

[Close]
BLAST of PI0009643 vs. TAIR 10
Match: AT1G60730.1 (NAD(P)-linked oxidoreductase superfamily protein )

HSP 1 Score: 278.9 bits (712), Expect = 4.2e-75
Identity = 145/290 (50.00%), Postives = 188/290 (64.83%), Query Frame = 0 

Query: 2   GITFFDTADVYGPHSNETLVGKALKRLPREKVQIATKFGITRIGSSMTVNGTPEYVRSCC 61
           G+TF DT+D+YGP +NE L+ KALK   REKV++ATK+GI      +   G P YVR+ C
Sbjct: 53  GVTFLDTSDIYGPETNELLLSKALKDGVREKVELATKYGIRYAEGKVEFKGDPAYVRAAC 112

Query: 62  EASLKRLDIDYIDLYYQHRTDTSTPIEETMSELKKLVEEGKIKYIGLSEASPDTIKRAHA 121
           EASL R+D+  IDLYYQHR DT  PIE T+ ELKKLVEEGKIKYIGLSEAS  TI+RAHA
Sbjct: 113 EASLMRVDVACIDLYYQHRIDTRVPIEITIGELKKLVEEGKIKYIGLSEASASTIRRAHA 172

Query: 122 VHPITALQMEWSIWTRDIEEEI-------------------------------------- 181
           VHPITALQ+EWS+W+RD+EE+I                                      
Sbjct: 173 VHPITALQIEWSLWSRDVEEDIIPTCRELGIGIVAYSPLGRGFFASGPKLVENLDNNDVR 232

Query: 182 ATHPRFVEENLEKNKHFYTRIEKLAEKHLCSPAQLALAWVLEQGDDVVPIPGTTKIKNLD 241
            T PRF +ENL+ NK  + ++  ++EK  C+PAQLALAWV  QGDDV PIPGTTKI+NL+
Sbjct: 233 KTLPRFQQENLDHNKILFEKVSAMSEKKGCTPAQLALAWVHHQGDDVCPIPGTTKIENLN 292

Query: 242 QNIGSLTVRLNKDDLNEISEAVPESEVAGNRTYDSMAHATWKYAITPKVN 254
           QNIG+L+V+L  ++++E+        V G R+   +   T+K + TP ++
Sbjct: 293 QNIGALSVKLTPEEMSELESLAQPGFVKGERSISIL--TTFKNSETPPLS 340

The following BLAST results are available for this feature:
BLAST of PI0009643 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
C6TBN22.5e-10164.07Probable aldo-keto reductase 1 OS=Glycine max OX=3847 GN=AKR1 PE=2 SV=1[more]
Q3L1812.7e-9561.81Perakine reductase OS=Rauvolfia serpentina OX=4060 GN=PR PE=1 SV=1[more]
Q93ZN24.4e-7753.79Probable aldo-keto reductase 4 OS=Arabidopsis thaliana OX=3702 GN=At1g60710 PE=2... [more]
Q7XT992.8e-7649.66Probable aldo-keto reductase 2 OS=Oryza sativa subsp. japonica OX=39947 GN=Os04g... [more]
A2XRZ03.7e-7649.66Probable aldo-keto reductase 2 OS=Oryza sativa subsp. indica OX=39946 GN=OsI_153... [more]
BLAST of PI0009643 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A5A7VMY61.2e-13384.64Putative aldo-keto reductase 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_s... [more]
A0A1S3CBJ11.2e-13384.64probable aldo-keto reductase 1 OS=Cucumis melo OX=3656 GN=LOC103499096 PE=4 SV=1[more]
A0A5D3DQZ44.9e-13280.78Putative aldo-keto reductase 1 OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_s... [more]
A0A6J1CN721.2e-12578.91probable aldo-keto reductase 1 isoform X3 OS=Momordica charantia OX=3673 GN=LOC1... [more]
A0A6J1CP121.2e-12578.91probable aldo-keto reductase 1 isoform X1 OS=Momordica charantia OX=3673 GN=LOC1... [more]
BLAST of PI0009643 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_008460212.12.4e-13384.64PREDICTED: probable aldo-keto reductase 1 [Cucumis melo] >KAA0067155.1 putative ... [more]
XP_011655093.12.1e-13283.62probable aldo-keto reductase 1 [Cucumis sativus] >XP_011655094.1 probable aldo-k... [more]
TYK26004.11.0e-13180.78putative aldo-keto reductase 1 [Cucumis melo var. makuwa][more]
XP_038877221.16.2e-12982.65probable aldo-keto reductase 1 [Benincasa hispida][more]
XP_022143047.12.4e-12578.91probable aldo-keto reductase 1 isoform X2 [Momordica charantia][more]
BLAST of PI0009643 vs. TAIR 10
Match NameE-valueIdentityDescription
AT1G60710.13.1e-7853.79NAD(P)-linked oxidoreductase superfamily protein [more]
AT1G60680.14.5e-7752.58NAD(P)-linked oxidoreductase superfamily protein [more]
AT1G60750.14.5e-7754.38NAD(P)-linked oxidoreductase superfamily protein [more]
AT1G60690.15.8e-7751.03NAD(P)-linked oxidoreductase superfamily protein [more]
AT1G60730.14.2e-7550.00NAD(P)-linked oxidoreductase superfamily protein [more]
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR020471Aldo-keto reductasePRINTSPR00069ALDKETRDTASEcoord: 94..111
score: 36.34
coord: 63..81
score: 45.26
IPR023210NADP-dependent oxidoreductase domainPFAMPF00248Aldo_ket_redcoord: 2..144
e-value: 2.2E-43
score: 148.5
coord: 153..224
e-value: 5.5E-14
score: 52.0
IPR036812NADP-dependent oxidoreductase domain superfamilyGENE3D3.20.20.100coord: 1..253
e-value: 8.3E-84
score: 283.3
IPR036812NADP-dependent oxidoreductase domain superfamilySUPERFAMILY51430NAD(P)-linked oxidoreductasecoord: 1..225
NoneNo IPR availablePANTHERPTHR43625:SF62ALDO-KETO REDUCTASE 1-RELATEDcoord: 2..144
NoneNo IPR availablePANTHERPTHR43625AFLATOXIN B1 ALDEHYDE REDUCTASEcoord: 144..250
NoneNo IPR availablePANTHERPTHR43625AFLATOXIN B1 ALDEHYDE REDUCTASEcoord: 2..144
NoneNo IPR availablePANTHERPTHR43625:SF62ALDO-KETO REDUCTASE 1-RELATEDcoord: 144..250

Relationships

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

Feature NameUnique NameType
PI0009643.1PI0009643.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0005737 cytoplasm
molecular_function GO:0004033 aldo-keto reductase (NADP) activity
molecular_function GO:0047834 D-threo-aldose 1-dehydrogenase activity
molecular_function GO:0016491 oxidoreductase activity