Tan0009715 (gene) Snake gourd v1

Overview
NameTan0009715
Typegene
OrganismTrichosanthes anguina (Snake gourd v1)
DescriptionDeoxyhypusine hydroxylase
LocationLG06: 11328131 .. 11359991 (-)
RNA-Seq ExpressionTan0009715
SyntenyTan0009715
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

CGCAACTCAATTACGAAATTACCCCCAAGCCTCTAAAAAAATTCGTCTTCCTCCTGCGAGAAAAACACCAAAAATTCTGCTGCTCAAAACTCAGAGCTCAAACATTTACGATTTTCCCTCTCTAACATTCTCCTTCCTTCGAATTCCTTCATTTCCCACTTCACTACGATAGCTCCAATCTCATGGGCTCCGTCAATGGCGACGCTGAAATCACCTCATTCGCCTGCTCTTCCGAGATGGAGAAGTTCCTCTGCGACCGCTTGAACGACCCTTCTCACTCCATTGCCGAGCGCTTCCGAGCCCTCTTCTCCCTCCGCAACCTCAAAGGCCCCGCCCCTCGCGATGCCCTTATTCTGGCGACTAGAGATTCTTCGAATTTGTTGGCTCACGAGGCTGCATTTGCATTGGGTCAAATGCAAGATACGGATGCAATCCCAGCTTTAGTGACTGTTCTTAATGATCTTTCTTTGCACCCCATTGTTCGGCACGAGGCAGCAGAAGCTCTTGGAGCTATTGGCTCAGAGAGTAATATTCCTTTTTTAGAAAAGAGCTTGGCTTTAGATCCTGCTCAAGAGGTTAAAGAGACATGTGAATTGGCCCTTAGGCGAATTGAGCAACTGAAAGATTCTAGTAATGAAGGTGAATCATCCACAGTTGAAAAGTCACCATTTATGTCTGTTGATCCAGCTGCACCAGCTTCTTCTAATGCTTCAGTATGTCAACTGAGGGAAATTCTTCTGGATGATGATAAGGGCATGTATGAGCGTTATGCAGCACTTTTTGCTTTACGGAATAATGGTAACGATGAAGCTTTAACTGCAATTATCGACTCTTTAAGCTCAAAAAGTGCTCTGCTAAAGCATGAGGTTGCTTATGTATTAGGCCAATTGCAAAACAAAGCAGCTTCAGACGCTCTCTCCGATATACTTGAGGATGTTAACGAACATCCAATGGTTAGACATGAGGCTGCAGAAGCTCTTGGTTCCATTGCTGACGAAAGAAGCATAGCACTTCTCAAGGAGTTTGCAATGGATCCTGAGCCTATAGTCTCGCAGAGTTGTGAGGTTGCTCTAAGCATGCTGGAATATGAAACGTTGGGAAAATCATTTGAGTTCCTATTCATGCAATCTCCCCAAGTGCAATAACTTGCAACAAACAGCAAATAGCGTCAATTGCCAAGTGCAGTAGAGTTGGACATTTGCCCGGCGGGAAAAATGGACATCTCTAAATGCAGTAGAGTTGGACATTTTGAATGGAAATCCGTATGCTGAGCTGGAAGCAATCAACGTGGTATTAAGTGGGCCCCCAGTTAAATTATATTATTATAAAAGTTAAAAAAAAAAGCCTAAAAACAAAAAGTTCAAAAAAAGAAGGTGA

Coding sequence (CDS)

ATGGGCTCCGTCAATGGCGACGCTGAAATCACCTCATTCGCCTGCTCTTCCGAGATGGAGAAGTTCCTCTGCGACCGCTTGAACGACCCTTCTCACTCCATTGCCGAGCGCTTCCGAGCCCTCTTCTCCCTCCGCAACCTCAAAGGCCCCGCCCCTCGCGATGCCCTTATTCTGGCGACTAGAGATTCTTCGAATTTGTTGGCTCACGAGGCTGCATTTGCATTGGGTCAAATGCAAGATACGGATGCAATCCCAGCTTTAGTGACTGTTCTTAATGATCTTTCTTTGCACCCCATTGTTCGGCACGAGGCAGCAGAAGCTCTTGGAGCTATTGGCTCAGAGAGTAATATTCCTTTTTTAGAAAAGAGCTTGGCTTTAGATCCTGCTCAAGAGGTTAAAGAGACATGTGAATTGGCCCTTAGGCGAATTGAGCAACTGAAAGATTCTAGTAATGAAGGTGAATCATCCACAGTTGAAAAGTCACCATTTATGTCTGTTGATCCAGCTGCACCAGCTTCTTCTAATGCTTCAGTATGTCAACTGAGGGAAATTCTTCTGGATGATGATAAGGGCATGTATGAGCGTTATGCAGCACTTTTTGCTTTACGGAATAATGGTAACGATGAAGCTTTAACTGCAATTATCGACTCTTTAAGCTCAAAAAGTGCTCTGCTAAAGCATGAGGTTGCTTATGTATTAGGCCAATTGCAAAACAAAGCAGCTTCAGACGCTCTCTCCGATATACTTGAGGATGTTAACGAACATCCAATGGTTAGACATGAGGCTGCAGAAGCTCTTGGTTCCATTGCTGACGAAAGAAGCATAGCACTTCTCAAGGAGTTTGCAATGGATCCTGAGCCTATAGTCTCGCAGAGTTGTGAGGTTGCTCTAAGCATGCTGGAATATGAAACGTTGGGAAAATCATTTGAGTTCCTATTCATGCAATCTCCCCAAGTGCAATAA

Protein sequence

MGSVNGDAEITSFACSSEMEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILATRDSSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFLEKSLALDPAQEVKETCELALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQLREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKAASDALSDILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSMLEYETLGKSFEFLFMQSPQVQ
Homology
[Close]
BLAST of Tan0009715 vs. ExPASy Swiss-Prot
Match: Q94JW0 (Deoxyhypusine hydroxylase OS=Arabidopsis thaliana OX=3702 GN=At3g58180 PE=1 SV=1)

HSP 1 Score: 439.1 bits (1128), Expect = 4.2e-122
Identity = 227/301 (75.42%), Postives = 262/301 (87.04%), Query Frame = 0 

Query: 19  MEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILATRDSSNLLAHEAAFALGQM 78
           +EKFLC+RL D S  I+ERFRALFSLRNLKGP PR+ALILA+RDSSNLLAHEAAFALGQM
Sbjct: 13  LEKFLCERLVDQSQPISERFRALFSLRNLKGPGPRNALILASRDSSNLLAHEAAFALGQM 72

Query: 79  QDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFLEKSLALDPAQEVKETCEL 138
           QD +AIPAL +VLND+SLHPIVRHEAAEALGAIG   N+  L+KSL+ DPAQEV+ETCEL
Sbjct: 73  QDAEAIPALESVLNDMSLHPIVRHEAAEALGAIGLAGNVNILKKSLSSDPAQEVRETCEL 132

Query: 139 ALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQLREILLDDDKGMYERYAA 198
           AL+RIE + +   E +SST EKSPFMSVDPA PA+S +SV QLR++LLD+ KGMYERYAA
Sbjct: 133 ALKRIEDMSNVDAENQSSTTEKSPFMSVDPAGPAASFSSVHQLRQVLLDETKGMYERYAA 192

Query: 199 LFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKAASDALSDILEDVNEHPMV 258
           LFALRN+G +EA++AI+DSLS+ SALL+HEVAYVLGQLQ+K A   LS +L DVNEHPMV
Sbjct: 193 LFALRNHGGEEAVSAIVDSLSASSALLRHEVAYVLGQLQSKTALATLSKVLRDVNEHPMV 252

Query: 259 RHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSMLEYETLGKSFEFLFMQSPQ 318
           RHEAAEALGSIADE+SIALL+EF+ DPEPIV+QSCEVALSMLE+E  GKSFEF F Q P 
Sbjct: 253 RHEAAEALGSIADEQSIALLEEFSKDPEPIVAQSCEVALSMLEFENSGKSFEFFFTQDPL 312

Query: 319 V 320
           V
Sbjct: 313 V 313

[Close]
BLAST of Tan0009715 vs. ExPASy Swiss-Prot
Match: Q2QXB3 (Deoxyhypusine hydroxylase-A OS=Oryza sativa subsp. japonica OX=39947 GN=Os12g0163300 PE=2 SV=1)

HSP 1 Score: 426.4 bits (1095), Expect = 2.8e-118
Identity = 231/313 (73.80%), Postives = 259/313 (82.75%), Query Frame = 0 

Query: 8   AEITSFACSSEMEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILATRDSSNLL 67
           A  ++F  + EMEKFLCD L D +  IAERFRALFSLRNL G  PR AL+ A RDSSNLL
Sbjct: 7   AASSTFGPTPEMEKFLCDLLLDTAQPIAERFRALFSLRNLHGDGPRCALLQAARDSSNLL 66

Query: 68  AHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFLEKSLALD 127
           AHEAAFALGQMQD +AIPAL  VL DLSLHPIVRHEAAEALGAIG E +IP LE+SLA D
Sbjct: 67  AHEAAFALGQMQDAEAIPALEAVLKDLSLHPIVRHEAAEALGAIGLEKSIPLLEESLAAD 126

Query: 128 PAQEVKETCELALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQLREILLD 187
           PA EV+ETCELALRRIEQ K   N G S +   SPF+SVDPA PA    SV QLREILL+
Sbjct: 127 PAVEVQETCELALRRIEQQK---NAGVSESTTISPFLSVDPALPAKQGLSVHQLREILLN 186

Query: 188 DDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKAASDALSD 247
           + + MYERYAALFALRN+  D A++AI+ +L +KSALLKHEVAYVLGQLQNKAASDALS 
Sbjct: 187 EQESMYERYAALFALRNDSRDAAVSAIVAALGAKSALLKHEVAYVLGQLQNKAASDALST 246

Query: 248 ILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSMLEYETLGK 307
           +L++V+EHPMVRHEAAEALGSIAD+ SIALL+EFA DPEPIVSQSCEVALSMLEYE  GK
Sbjct: 247 VLKNVDEHPMVRHEAAEALGSIADQESIALLEEFAKDPEPIVSQSCEVALSMLEYERSGK 306

Query: 308 SFEFLFMQSPQVQ 321
           SFEFLF+Q+P VQ
Sbjct: 307 SFEFLFLQTPGVQ 316

[Close]
BLAST of Tan0009715 vs. ExPASy Swiss-Prot
Match: Q2QLW3 (Deoxyhypusine hydroxylase-B OS=Oryza sativa subsp. japonica OX=39947 GN=Os12g0626100 PE=2 SV=1)

HSP 1 Score: 416.4 bits (1069), Expect = 2.9e-115
Identity = 225/302 (74.50%), Postives = 257/302 (85.10%), Query Frame = 0 

Query: 19  MEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILATRDSSNLLAHEAAFALGQM 78
           ME FLCDRL D +  IAERFRALFSLRNL+G APR AL+ A RDSSNLLAHEAAFALGQM
Sbjct: 1   MEGFLCDRLLDAAQPIAERFRALFSLRNLRGDAPRRALLQAARDSSNLLAHEAAFALGQM 60

Query: 79  QDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFLEKSLALDPAQEVKETCEL 138
           QD +AIPAL  VL DLSLHPIVRHEAAEALGAIG E +I  LE+SLA+DPA EV+ETCEL
Sbjct: 61  QDAEAIPALEAVLKDLSLHPIVRHEAAEALGAIGLEKSISLLEESLAVDPAVEVQETCEL 120

Query: 139 ALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQLREILLDDDKGMYERYAA 198
           A+RRIE+ K++S   ES+TV  SPF+SVDPA PA     V QLRE+LL++ + MYERYAA
Sbjct: 121 AIRRIEEQKNTSGV-ESATV--SPFLSVDPALPAKQGLPVEQLRELLLNEQESMYERYAA 180

Query: 199 LFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKAASDALSDILEDVNEHPMV 258
           LFALRN+  D A++AI+ +L  KSALL+HEVAYVLGQLQNKAASDALS +L++V+EHPMV
Sbjct: 181 LFALRNDSGDAAVSAIVAALGVKSALLRHEVAYVLGQLQNKAASDALSTVLKNVDEHPMV 240

Query: 259 RHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSMLEYETLGKSFEFLFMQSPQ 318
           RHEAAEALGSIAD+ SIALL+EFA DPEPIVSQSCEVALSMLEYE  GK+FEFLF Q+PQ
Sbjct: 241 RHEAAEALGSIADQESIALLEEFAKDPEPIVSQSCEVALSMLEYERSGKAFEFLFPQTPQ 299

Query: 319 VQ 321
           VQ
Sbjct: 301 VQ 299

[Close]
BLAST of Tan0009715 vs. ExPASy Swiss-Prot
Match: Q5ZIP3 (Deoxyhypusine hydroxylase OS=Gallus gallus OX=9031 GN=DOHH PE=2 SV=1)

HSP 1 Score: 246.1 bits (627), Expect = 5.3e-64
Identity = 142/285 (49.82%), Postives = 183/285 (64.21%), Query Frame = 0 

Query: 27  LNDPSHSIAERFRALFSLRNLKGPAPRDALILATRDSSNLLAHEAAFALGQMQDTDAIPA 86
           L D +  +  RFRALF+LRNL GPA  D ++    DSS LL HE AF LGQM+D  AIPA
Sbjct: 14  LLDAAQPLPARFRALFTLRNLGGPAAIDCIVRGFADSSALLKHELAFCLGQMRDRAAIPA 73

Query: 87  LVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFLEKSLALDPAQEVKETCELALRRIEQL 146
           L+ VL D    P+VRHEA EALGAIG    +  L +  + DP  EV ETC+LA+RR+E L
Sbjct: 74  LLGVLQDSQQEPMVRHEAGEALGAIGDPEVLDVLRR-YSEDPVVEVAETCQLAVRRLEWL 133

Query: 147 KDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQLREILLDDDKGMYERYAALFALRNNG 206
           ++   E  S     SP+ SVDPA PA     V  LR +LLD+ + +++RY A+FALRN G
Sbjct: 134 QEHGEEPGS-----SPYRSVDPAPPA-EETDVATLRAVLLDESRPLFDRYRAMFALRNLG 193

Query: 207 NDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKAASDALSDILEDVNEHPMVRHEAAEAL 266
             +A+ A+ D L + SAL +HE+ YVLGQ+Q++A    L+  L    E+PMVRHE AEAL
Sbjct: 194 GRDAVLALADGLRAGSALFRHEIGYVLGQMQDEACVPQLTAALRSRAENPMVRHECAEAL 253

Query: 267 GSIADERSIALLKEFAMDPEPIVSQSCEVALSMLEYETLGKSFEF 312
           GSIA    +  L+ FA D E +V +SCEVAL M EYE  G  F++
Sbjct: 254 GSIARPSCLETLRAFAQDEERVVRESCEVALDMYEYEN-GPQFQY 290

[Close]
BLAST of Tan0009715 vs. ExPASy Swiss-Prot
Match: Q9BU89 (Deoxyhypusine hydroxylase OS=Homo sapiens OX=9606 GN=DOHH PE=1 SV=1)

HSP 1 Score: 244.2 bits (622), Expect = 2.0e-63
Identity = 144/285 (50.53%), Postives = 182/285 (63.86%), Query Frame = 0 

Query: 27  LNDPSHSIAERFRALFSLRNLKGPAPRDALILATRDSSNLLAHEAAFALGQMQDTDAIPA 86
           L DP   +  RFRALF+LR L GP     +  A  D S LL HE A+ LGQMQD  AIP 
Sbjct: 14  LVDPKQPLQARFRALFTLRGLGGPGAIAWISQAFDDDSALLKHELAYCLGQMQDARAIPM 73

Query: 87  LVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFLEKSLALDPAQEVKETCELALRRIEQL 146
           LV VL D    P+VRHEA EALGAIG    +  L K  + DP  EV ETC+LA+RR+E L
Sbjct: 74  LVDVLQDTRQEPMVRHEAGEALGAIGDPEVLEIL-KQYSSDPVIEVAETCQLAVRRLEWL 133

Query: 147 KDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQLREILLDDDKGMYERYAALFALRNNG 206
           +    E  +      P++SVDPA PA     V +LRE LLD+ + ++ERY A+FALRN G
Sbjct: 134 QQHGGEPAA-----GPYLSVDPAPPAEER-DVGRLREALLDESRPLFERYRAMFALRNAG 193

Query: 207 NDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKAASDALSDILEDVNEHPMVRHEAAEAL 266
            +EA  A+ + L   SAL +HEV YVLGQLQ++AA   L+  L    E+PMVRHE AEAL
Sbjct: 194 GEEAALALAEGLHCGSALFRHEVGYVLGQLQHEAAVPQLAAALARCTENPMVRHECAEAL 253

Query: 267 GSIADERSIALLKEFAMDPEPIVSQSCEVALSMLEYETLGKSFEF 312
           G+IA    +A L+  A DPE +V +SCEVAL M E+ET G++F++
Sbjct: 254 GAIARPACLAALQAHADDPERVVRESCEVALDMYEHET-GRAFQY 290

[Close]
BLAST of Tan0009715 vs. NCBI nr
Match: XP_023004277.1 (deoxyhypusine hydroxylase-B [Cucurbita maxima] >XP_023004278.1 deoxyhypusine hydroxylase-B [Cucurbita maxima] >XP_023004279.1 deoxyhypusine hydroxylase-B [Cucurbita maxima])

HSP 1 Score: 580.5 bits (1495), Expect = 9.0e-162
Identity = 304/320 (95.00%), Postives = 312/320 (97.50%), Query Frame = 0 

Query: 1   MGSVNGDAEITSFACSSEMEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILAT 60
           M  VNGDAEITSFACSSEMEKFLCDRLNDPS  IAERFRALFSLRNLKGPAPRDALILAT
Sbjct: 37  MAFVNGDAEITSFACSSEMEKFLCDRLNDPSQPIAERFRALFSLRNLKGPAPRDALILAT 96

Query: 61  RDSSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL 120
           RD SNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL
Sbjct: 97  RDPSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL 156

Query: 121 EKSLALDPAQEVKETCELALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQ 180
           EKSLALDPAQEVKETCELAL+RIEQLKDSSN+GESSTVEKSPF+SVDPAAPASS++SVCQ
Sbjct: 157 EKSLALDPAQEVKETCELALKRIEQLKDSSNDGESSTVEKSPFLSVDPAAPASSDSSVCQ 216

Query: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKA 240
           LREILLDDDKGMYERYAALFALRNNGNDEALTAII+SL SKSALLKHEVAYVLGQLQNKA
Sbjct: 217 LREILLDDDKGMYERYAALFALRNNGNDEALTAIINSLRSKSALLKHEVAYVLGQLQNKA 276

Query: 241 ASDALSDILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSML 300
           ASDALS+ILEDVNEHPMVRHEAAEALGSIADERSIALLKEFA DPEPIVSQSCEVALSML
Sbjct: 277 ASDALSNILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAKDPEPIVSQSCEVALSML 336

Query: 301 EYETLGKSFEFLFMQSPQVQ 321
           EYE LG+SFEFLFMQSPQVQ
Sbjct: 337 EYERLGRSFEFLFMQSPQVQ 356

[Close]
BLAST of Tan0009715 vs. NCBI nr
Match: KAG6593054.1 (Deoxyhypusine hydroxylase, partial [Cucurbita argyrosperma subsp. sororia] >KAG7025462.1 Deoxyhypusine hydroxylase [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 578.6 bits (1490), Expect = 3.4e-161
Identity = 303/320 (94.69%), Postives = 311/320 (97.19%), Query Frame = 0 

Query: 1   MGSVNGDAEITSFACSSEMEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILAT 60
           M  VNGDAEITSFACSSEMEKFLCDRLNDPS  IAERFRALFSLRNLKGPAPRDALILAT
Sbjct: 1   MAFVNGDAEITSFACSSEMEKFLCDRLNDPSQPIAERFRALFSLRNLKGPAPRDALILAT 60

Query: 61  RDSSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL 120
           RD SNLLAHEAAFALGQMQDTDAIPALV VLNDLSLHPIVRHEAAEALGAIGSESNIP+L
Sbjct: 61  RDPSNLLAHEAAFALGQMQDTDAIPALVNVLNDLSLHPIVRHEAAEALGAIGSESNIPYL 120

Query: 121 EKSLALDPAQEVKETCELALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQ 180
           EKSLALDPAQEVKETCELAL+RIEQLKDSSNEGESSTVEKSPF+SVDPAAPASS++SVCQ
Sbjct: 121 EKSLALDPAQEVKETCELALKRIEQLKDSSNEGESSTVEKSPFLSVDPAAPASSDSSVCQ 180

Query: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKA 240
           LREILLDDDKGMYERYAALFALRNNGNDEALTAII+SL SKSALLKHEVAYVLGQLQNKA
Sbjct: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIINSLRSKSALLKHEVAYVLGQLQNKA 240

Query: 241 ASDALSDILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSML 300
           ASDALS+ILEDVNEHPMVRHEAAEALGSIADERSIALLKEFA DPEPIVSQSCEVALSML
Sbjct: 241 ASDALSNILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAKDPEPIVSQSCEVALSML 300

Query: 301 EYETLGKSFEFLFMQSPQVQ 321
           EYE LG+SFEFLFMQSPQVQ
Sbjct: 301 EYERLGRSFEFLFMQSPQVQ 320

[Close]
BLAST of Tan0009715 vs. NCBI nr
Match: XP_022959892.1 (deoxyhypusine hydroxylase [Cucurbita moschata] >XP_022959893.1 deoxyhypusine hydroxylase [Cucurbita moschata])

HSP 1 Score: 575.5 bits (1482), Expect = 2.9e-160
Identity = 302/320 (94.38%), Postives = 310/320 (96.88%), Query Frame = 0 

Query: 1   MGSVNGDAEITSFACSSEMEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILAT 60
           M  VN DAEITSFACSSEMEKFLCDRLNDPS  IAERFRALFSLRNLKGPAPRDALILAT
Sbjct: 1   MAFVNDDAEITSFACSSEMEKFLCDRLNDPSQPIAERFRALFSLRNLKGPAPRDALILAT 60

Query: 61  RDSSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL 120
           RD SNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIP+L
Sbjct: 61  RDPSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPYL 120

Query: 121 EKSLALDPAQEVKETCELALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQ 180
           EKSLALDPAQEVKETCELAL+RIEQLKDSS EGESSTVEKSPF+SVDPAAPASS++SVCQ
Sbjct: 121 EKSLALDPAQEVKETCELALKRIEQLKDSSKEGESSTVEKSPFLSVDPAAPASSDSSVCQ 180

Query: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKA 240
           LREILLDDDKGMYERYAALFALRNNGNDEALTAII+SL SKSALLKHEVAYVLGQLQNKA
Sbjct: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIINSLRSKSALLKHEVAYVLGQLQNKA 240

Query: 241 ASDALSDILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSML 300
           ASDALS+ILEDVNEHPMVRHEAAEALGSIADERSIALLKEFA DPEPIVSQSCEVALSML
Sbjct: 241 ASDALSNILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAKDPEPIVSQSCEVALSML 300

Query: 301 EYETLGKSFEFLFMQSPQVQ 321
           EYE LG+SFEFLFMQSPQVQ
Sbjct: 301 EYERLGRSFEFLFMQSPQVQ 320

[Close]
BLAST of Tan0009715 vs. NCBI nr
Match: XP_023550138.1 (deoxyhypusine hydroxylase-B [Cucurbita pepo subsp. pepo] >XP_023550139.1 deoxyhypusine hydroxylase-B [Cucurbita pepo subsp. pepo] >XP_023550140.1 deoxyhypusine hydroxylase-B [Cucurbita pepo subsp. pepo] >XP_023550141.1 deoxyhypusine hydroxylase-B [Cucurbita pepo subsp. pepo])

HSP 1 Score: 573.9 bits (1478), Expect = 8.4e-160
Identity = 301/320 (94.06%), Postives = 310/320 (96.88%), Query Frame = 0 

Query: 1   MGSVNGDAEITSFACSSEMEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILAT 60
           M  VNGDAEITSFACSSEMEKFLCDRLNDPS  IAERFRALFSLRNLKGPAPR+ALILAT
Sbjct: 1   MAFVNGDAEITSFACSSEMEKFLCDRLNDPSQPIAERFRALFSLRNLKGPAPREALILAT 60

Query: 61  RDSSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL 120
           RD SNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNI +L
Sbjct: 61  RDPSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNISYL 120

Query: 121 EKSLALDPAQEVKETCELALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQ 180
           EKSLALDPAQEVKETCELAL+RIEQLKDSSNEGESSTVEKSPF+SVDPAAPASS++SVCQ
Sbjct: 121 EKSLALDPAQEVKETCELALKRIEQLKDSSNEGESSTVEKSPFLSVDPAAPASSDSSVCQ 180

Query: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKA 240
           LREILLDDDKGMYERYAALFALRNNGNDEALTAII+SL SKSALLKHEVAYVLGQLQNKA
Sbjct: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIINSLRSKSALLKHEVAYVLGQLQNKA 240

Query: 241 ASDALSDILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSML 300
           ASDALS+ILEDVNEHPMVRHEAAEALGSIADERSIALL EFA DPEPIVSQSCEVALSML
Sbjct: 241 ASDALSNILEDVNEHPMVRHEAAEALGSIADERSIALLNEFAKDPEPIVSQSCEVALSML 300

Query: 301 EYETLGKSFEFLFMQSPQVQ 321
           EYE LG+SFEFLFMQSPQVQ
Sbjct: 301 EYERLGRSFEFLFMQSPQVQ 320

[Close]
BLAST of Tan0009715 vs. NCBI nr
Match: XP_038897138.1 (deoxyhypusine hydroxylase [Benincasa hispida])

HSP 1 Score: 562.4 bits (1448), Expect = 2.5e-156
Identity = 297/320 (92.81%), Postives = 305/320 (95.31%), Query Frame = 0 

Query: 1   MGSVNGDAEITSFACSSEMEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILAT 60
           M SVNGD EI+SF+CSS+MEKFLCDRLND S  IAERFRALFSLRNLKGP PR+ALILAT
Sbjct: 1   MASVNGDGEISSFSCSSDMEKFLCDRLNDVSLPIAERFRALFSLRNLKGPTPRNALILAT 60

Query: 61  RDSSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL 120
           RD SNLLAHEAAFALGQMQDTDAIPALV VLNDLSLHPIVRHEAAEALGAIG ESNIPFL
Sbjct: 61  RDPSNLLAHEAAFALGQMQDTDAIPALVVVLNDLSLHPIVRHEAAEALGAIGLESNIPFL 120

Query: 121 EKSLALDPAQEVKETCELALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQ 180
           EKSLALDPAQEVKETCELALRRIEQLKDS+NEGESSTVEKSPFMSVDPAAPASSNASV Q
Sbjct: 121 EKSLALDPAQEVKETCELALRRIEQLKDSANEGESSTVEKSPFMSVDPAAPASSNASVGQ 180

Query: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKA 240
           LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSS SALLKHEVAYVLGQLQ KA
Sbjct: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSTSALLKHEVAYVLGQLQKKA 240

Query: 241 ASDALSDILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSML 300
           ASDALSDILEDV EHPMVRHEAAEALGSIADE+SIALLKEF+ DPEPIVSQSCEVALSML
Sbjct: 241 ASDALSDILEDVKEHPMVRHEAAEALGSIADEKSIALLKEFSKDPEPIVSQSCEVALSML 300

Query: 301 EYETLGKSFEFLFMQSPQVQ 321
           EYE LG+SFEFLFMQSPQVQ
Sbjct: 301 EYERLGRSFEFLFMQSPQVQ 320

[Close]
BLAST of Tan0009715 vs. ExPASy TrEMBL
Match: A0A6J1KPZ8 (Deoxyhypusine hydroxylase OS=Cucurbita maxima OX=3661 GN=LOC111497653 PE=3 SV=1)

HSP 1 Score: 580.5 bits (1495), Expect = 4.4e-162
Identity = 304/320 (95.00%), Postives = 312/320 (97.50%), Query Frame = 0 

Query: 1   MGSVNGDAEITSFACSSEMEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILAT 60
           M  VNGDAEITSFACSSEMEKFLCDRLNDPS  IAERFRALFSLRNLKGPAPRDALILAT
Sbjct: 37  MAFVNGDAEITSFACSSEMEKFLCDRLNDPSQPIAERFRALFSLRNLKGPAPRDALILAT 96

Query: 61  RDSSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL 120
           RD SNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL
Sbjct: 97  RDPSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL 156

Query: 121 EKSLALDPAQEVKETCELALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQ 180
           EKSLALDPAQEVKETCELAL+RIEQLKDSSN+GESSTVEKSPF+SVDPAAPASS++SVCQ
Sbjct: 157 EKSLALDPAQEVKETCELALKRIEQLKDSSNDGESSTVEKSPFLSVDPAAPASSDSSVCQ 216

Query: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKA 240
           LREILLDDDKGMYERYAALFALRNNGNDEALTAII+SL SKSALLKHEVAYVLGQLQNKA
Sbjct: 217 LREILLDDDKGMYERYAALFALRNNGNDEALTAIINSLRSKSALLKHEVAYVLGQLQNKA 276

Query: 241 ASDALSDILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSML 300
           ASDALS+ILEDVNEHPMVRHEAAEALGSIADERSIALLKEFA DPEPIVSQSCEVALSML
Sbjct: 277 ASDALSNILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAKDPEPIVSQSCEVALSML 336

Query: 301 EYETLGKSFEFLFMQSPQVQ 321
           EYE LG+SFEFLFMQSPQVQ
Sbjct: 337 EYERLGRSFEFLFMQSPQVQ 356

[Close]
BLAST of Tan0009715 vs. ExPASy TrEMBL
Match: A0A6J1H786 (Deoxyhypusine hydroxylase OS=Cucurbita moschata OX=3662 GN=LOC111460813 PE=3 SV=1)

HSP 1 Score: 575.5 bits (1482), Expect = 1.4e-160
Identity = 302/320 (94.38%), Postives = 310/320 (96.88%), Query Frame = 0 

Query: 1   MGSVNGDAEITSFACSSEMEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILAT 60
           M  VN DAEITSFACSSEMEKFLCDRLNDPS  IAERFRALFSLRNLKGPAPRDALILAT
Sbjct: 1   MAFVNDDAEITSFACSSEMEKFLCDRLNDPSQPIAERFRALFSLRNLKGPAPRDALILAT 60

Query: 61  RDSSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL 120
           RD SNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIP+L
Sbjct: 61  RDPSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPYL 120

Query: 121 EKSLALDPAQEVKETCELALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQ 180
           EKSLALDPAQEVKETCELAL+RIEQLKDSS EGESSTVEKSPF+SVDPAAPASS++SVCQ
Sbjct: 121 EKSLALDPAQEVKETCELALKRIEQLKDSSKEGESSTVEKSPFLSVDPAAPASSDSSVCQ 180

Query: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKA 240
           LREILLDDDKGMYERYAALFALRNNGNDEALTAII+SL SKSALLKHEVAYVLGQLQNKA
Sbjct: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIINSLRSKSALLKHEVAYVLGQLQNKA 240

Query: 241 ASDALSDILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSML 300
           ASDALS+ILEDVNEHPMVRHEAAEALGSIADERSIALLKEFA DPEPIVSQSCEVALSML
Sbjct: 241 ASDALSNILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAKDPEPIVSQSCEVALSML 300

Query: 301 EYETLGKSFEFLFMQSPQVQ 321
           EYE LG+SFEFLFMQSPQVQ
Sbjct: 301 EYERLGRSFEFLFMQSPQVQ 320

[Close]
BLAST of Tan0009715 vs. ExPASy TrEMBL
Match: A0A0A0K8K5 (Deoxyhypusine hydroxylase OS=Cucumis sativus OX=3659 GN=Csa_7G372960 PE=3 SV=1)

HSP 1 Score: 553.5 bits (1425), Expect = 5.7e-154
Identity = 291/320 (90.94%), Postives = 302/320 (94.38%), Query Frame = 0 

Query: 1   MGSVNGDAEITSFACSSEMEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILAT 60
           M SVNGD +++SF+CSS+MEKFLCDRLNDPS  IAERFRALFSLRNLKGPAPR+ALILAT
Sbjct: 1   MASVNGDGDVSSFSCSSDMEKFLCDRLNDPSFPIAERFRALFSLRNLKGPAPRNALILAT 60

Query: 61  RDSSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL 120
           RDSSNLLAHEAAFALGQMQD DAIPALV VLNDLSLHPIVRHEAAEALGAIG ESNIPFL
Sbjct: 61  RDSSNLLAHEAAFALGQMQDADAIPALVAVLNDLSLHPIVRHEAAEALGAIGLESNIPFL 120

Query: 121 EKSLALDPAQEVKETCELALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQ 180
           EKSLALDPAQEVKETCELALRRIEQLKDS NE ESS VEKSPF+SVDPAAPASS+ASV Q
Sbjct: 121 EKSLALDPAQEVKETCELALRRIEQLKDSGNEDESSKVEKSPFLSVDPAAPASSSASVGQ 180

Query: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKA 240
           LREILLD+DK MYERYAALF LRNNGNDEALTAIIDSLSS SALLKHEVAYVLGQLQ KA
Sbjct: 181 LREILLDEDKDMYERYAALFTLRNNGNDEALTAIIDSLSSTSALLKHEVAYVLGQLQKKA 240

Query: 241 ASDALSDILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSML 300
           ASDALSDILEDV EHPMVRHEAAEALGSIADE+SIALLKEF+ DPEPIVSQSCEVALSML
Sbjct: 241 ASDALSDILEDVKEHPMVRHEAAEALGSIADEKSIALLKEFSKDPEPIVSQSCEVALSML 300

Query: 301 EYETLGKSFEFLFMQSPQVQ 321
           EYE LGKSFEFLFMQSPQVQ
Sbjct: 301 EYERLGKSFEFLFMQSPQVQ 320

[Close]
BLAST of Tan0009715 vs. ExPASy TrEMBL
Match: A0A1S3BGF3 (Deoxyhypusine hydroxylase OS=Cucumis melo OX=3656 GN=LOC103489734 PE=3 SV=1)

HSP 1 Score: 551.2 bits (1419), Expect = 2.8e-153
Identity = 289/320 (90.31%), Postives = 303/320 (94.69%), Query Frame = 0 

Query: 1   MGSVNGDAEITSFACSSEMEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILAT 60
           M SVNG  +++ F+CSS+MEKFLCDRLNDPS  IA+RFRALFSLRNLKGPAPR+ALI+AT
Sbjct: 1   MASVNGHGDVSFFSCSSDMEKFLCDRLNDPSLPIADRFRALFSLRNLKGPAPRNALIIAT 60

Query: 61  RDSSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL 120
           RDSSNLLAHEAAFALGQMQD DAIPALV VLNDLSLHPIVRHEAAEALGAIG ESNIPFL
Sbjct: 61  RDSSNLLAHEAAFALGQMQDADAIPALVAVLNDLSLHPIVRHEAAEALGAIGLESNIPFL 120

Query: 121 EKSLALDPAQEVKETCELALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQ 180
           EKSLALDPAQEVKETCELALRRIEQLKDS NE ESSTVEKSPF+SVDPAAPASS+ASV Q
Sbjct: 121 EKSLALDPAQEVKETCELALRRIEQLKDSGNEDESSTVEKSPFLSVDPAAPASSSASVGQ 180

Query: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKA 240
           LREILLD+DKGMYERYAALFALRNNGNDEALTAIIDSLSS SALLKHEVAYVLGQLQ KA
Sbjct: 181 LREILLDEDKGMYERYAALFALRNNGNDEALTAIIDSLSSTSALLKHEVAYVLGQLQKKA 240

Query: 241 ASDALSDILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSML 300
           ASDALSDILEDV EHPMVRHEAAEALGSIADE+SIALLKEF+ DPEPIVSQSCEVALSML
Sbjct: 241 ASDALSDILEDVKEHPMVRHEAAEALGSIADEKSIALLKEFSKDPEPIVSQSCEVALSML 300

Query: 301 EYETLGKSFEFLFMQSPQVQ 321
           EYE LG+SFEFLFMQSPQVQ
Sbjct: 301 EYERLGRSFEFLFMQSPQVQ 320

[Close]
BLAST of Tan0009715 vs. ExPASy TrEMBL
Match: A0A6J1DQT9 (Deoxyhypusine hydroxylase OS=Momordica charantia OX=3673 GN=LOC111023477 PE=3 SV=1)

HSP 1 Score: 547.4 bits (1409), Expect = 4.1e-152
Identity = 291/320 (90.94%), Postives = 303/320 (94.69%), Query Frame = 0 

Query: 1   MGSVNGDAEITSFACSSEMEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILAT 60
           MGSV+G+       CSSEMEKFLCDRLNDP+  IAERFRALFSLRNLKGPAPRDALILAT
Sbjct: 1   MGSVDGN------GCSSEMEKFLCDRLNDPTQPIAERFRALFSLRNLKGPAPRDALILAT 60

Query: 61  RDSSNLLAHEAAFALGQMQDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFL 120
           RDSSNLLAHEAAFALGQMQDTD+IPALV+VLNDLSLHPIVRHEAAEALGAIG ESNIP L
Sbjct: 61  RDSSNLLAHEAAFALGQMQDTDSIPALVSVLNDLSLHPIVRHEAAEALGAIGLESNIPLL 120

Query: 121 EKSLALDPAQEVKETCELALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQ 180
           +KSLALDPAQEVKETCELAL+RIEQLKDS NEGESST+EKSPFMSVDPAAPASSNASV Q
Sbjct: 121 KKSLALDPAQEVKETCELALKRIEQLKDSGNEGESSTIEKSPFMSVDPAAPASSNASVHQ 180

Query: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKA 240
           LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSS SALLKHEVAYVLGQLQ+KA
Sbjct: 181 LREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSTSALLKHEVAYVLGQLQDKA 240

Query: 241 ASDALSDILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSML 300
           AS ALSDILE+VNEHPMVRHEAAEALGSIADERSIALLK+FA DPEPIVSQSCEVALSML
Sbjct: 241 ASYALSDILENVNEHPMVRHEAAEALGSIADERSIALLKKFAKDPEPIVSQSCEVALSML 300

Query: 301 EYETLGKSFEFLFMQSPQVQ 321
           EYE LG+SFEFLFMQSPQVQ
Sbjct: 301 EYERLGRSFEFLFMQSPQVQ 314

[Close]
BLAST of Tan0009715 vs. TAIR 10
Match: AT3G58180.1 (ARM repeat superfamily protein )

HSP 1 Score: 439.1 bits (1128), Expect = 3.0e-123
Identity = 227/301 (75.42%), Postives = 262/301 (87.04%), Query Frame = 0 

Query: 19  MEKFLCDRLNDPSHSIAERFRALFSLRNLKGPAPRDALILATRDSSNLLAHEAAFALGQM 78
           +EKFLC+RL D S  I+ERFRALFSLRNLKGP PR+ALILA+RDSSNLLAHEAAFALGQM
Sbjct: 13  LEKFLCERLVDQSQPISERFRALFSLRNLKGPGPRNALILASRDSSNLLAHEAAFALGQM 72

Query: 79  QDTDAIPALVTVLNDLSLHPIVRHEAAEALGAIGSESNIPFLEKSLALDPAQEVKETCEL 138
           QD +AIPAL +VLND+SLHPIVRHEAAEALGAIG   N+  L+KSL+ DPAQEV+ETCEL
Sbjct: 73  QDAEAIPALESVLNDMSLHPIVRHEAAEALGAIGLAGNVNILKKSLSSDPAQEVRETCEL 132

Query: 139 ALRRIEQLKDSSNEGESSTVEKSPFMSVDPAAPASSNASVCQLREILLDDDKGMYERYAA 198
           AL+RIE + +   E +SST EKSPFMSVDPA PA+S +SV QLR++LLD+ KGMYERYAA
Sbjct: 133 ALKRIEDMSNVDAENQSSTTEKSPFMSVDPAGPAASFSSVHQLRQVLLDETKGMYERYAA 192

Query: 199 LFALRNNGNDEALTAIIDSLSSKSALLKHEVAYVLGQLQNKAASDALSDILEDVNEHPMV 258
           LFALRN+G +EA++AI+DSLS+ SALL+HEVAYVLGQLQ+K A   LS +L DVNEHPMV
Sbjct: 193 LFALRNHGGEEAVSAIVDSLSASSALLRHEVAYVLGQLQSKTALATLSKVLRDVNEHPMV 252

Query: 259 RHEAAEALGSIADERSIALLKEFAMDPEPIVSQSCEVALSMLEYETLGKSFEFLFMQSPQ 318
           RHEAAEALGSIADE+SIALL+EF+ DPEPIV+QSCEVALSMLE+E  GKSFEF F Q P 
Sbjct: 253 RHEAAEALGSIADEQSIALLEEFSKDPEPIVAQSCEVALSMLEFENSGKSFEFFFTQDPL 312

Query: 319 V 320
           V
Sbjct: 313 V 313

[Close]
BLAST of Tan0009715 vs. TAIR 10
Match: AT3G62530.1 (ARM repeat superfamily protein )

HSP 1 Score: 134.4 bits (337), Expect = 1.6e-31
Identity = 83/203 (40.89%), Postives = 127/203 (62.56%), Query Frame = 0 

Query: 114 ESNIPFLEKSLALDPAQEVKETCELAL-RRIEQLKDSSNEGESSTVEKSPFMSVDPAAPA 173
           ES +P L  SL+    Q  K T       +I ++    NE + +T   +   ++D +APA
Sbjct: 14  ESRLPLLRLSLSKCLDQSFKTTASSEYGSKINKVTKHVNEEDGATFYVTRRGAIDSSAPA 73

Query: 174 SSNA--------SVCQLREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSKSAL 233
            S A        S+  +RE LL++ +  Y R  ALFALRN+G ++A+  II+SL  +S++
Sbjct: 74  ESKAYPKAANISSIHSMRESLLEETEEDYYRRLALFALRNHGGEDAINVIIESLGVESSM 133

Query: 234 LKHEVAYVLGQLQNKAASDALSDILEDVNEHPMVRHEAAEALGSIADERSIALLKEFAMD 293
           ++ E A+VLGQL++K A  +LS IL DV EHPMVR EAA+ALG IADE+S  +L+E + D
Sbjct: 134 IRIEAAFVLGQLESKTAIASLSKILRDVKEHPMVRVEAAKALGFIADEKSREVLQELSGD 193

Query: 294 PEPIVSQSCEVALSMLEYETLGK 308
            +PI+++ C+ +LS+LE++   K
Sbjct: 194 LDPIIAKGCDSSLSILEFKNSKK 216

[Close]
BLAST of Tan0009715 vs. TAIR 10
Match: AT3G43260.1 (BEST Arabidopsis thaliana protein match is: ARM repeat superfamily protein (TAIR:AT3G62530.1); Has 64 Blast hits to 58 proteins in 16 species: Archae - 0; Bacteria - 0; Metazoa - 8; Fungi - 0; Plants - 53; Viruses - 0; Other Eukaryotes - 3 (source: NCBI BLink). )

HSP 1 Score: 45.1 bits (105), Expect = 1.3e-04
Identity = 23/71 (32.39%), Postives = 44/71 (61.97%), Query Frame = 0 

Query: 165 SVDPAAPASSNASVC---QLREILLDDDKGMYERYAALFALRNNGNDEALTAIIDSLSSK 224
           ++D +    + A+ C     RE LL++ + +Y+R  ALFAL + G ++A+  I++SL  +
Sbjct: 188 ALDESKAYQTTAATCFIHNTRESLLEETEEIYQRCLALFALMHQGGEDAVNVIVESLGVE 247

Query: 225 SALLKHEVAYV 233
           S+++  E A+V
Sbjct: 248 SSMIHIEAAFV 258

The following BLAST results are available for this feature:
BLAST of Tan0009715 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q94JW04.2e-12275.42Deoxyhypusine hydroxylase OS=Arabidopsis thaliana OX=3702 GN=At3g58180 PE=1 SV=1[more]
Q2QXB32.8e-11873.80Deoxyhypusine hydroxylase-A OS=Oryza sativa subsp. japonica OX=39947 GN=Os12g016... [more]
Q2QLW32.9e-11574.50Deoxyhypusine hydroxylase-B OS=Oryza sativa subsp. japonica OX=39947 GN=Os12g062... [more]
Q5ZIP35.3e-6449.82Deoxyhypusine hydroxylase OS=Gallus gallus OX=9031 GN=DOHH PE=2 SV=1[more]
Q9BU892.0e-6350.53Deoxyhypusine hydroxylase OS=Homo sapiens OX=9606 GN=DOHH PE=1 SV=1[more]
BLAST of Tan0009715 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_023004277.19.0e-16295.00deoxyhypusine hydroxylase-B [Cucurbita maxima] >XP_023004278.1 deoxyhypusine hyd... [more]
KAG6593054.13.4e-16194.69Deoxyhypusine hydroxylase, partial [Cucurbita argyrosperma subsp. sororia] >KAG7... [more]
XP_022959892.12.9e-16094.38deoxyhypusine hydroxylase [Cucurbita moschata] >XP_022959893.1 deoxyhypusine hyd... [more]
XP_023550138.18.4e-16094.06deoxyhypusine hydroxylase-B [Cucurbita pepo subsp. pepo] >XP_023550139.1 deoxyhy... [more]
XP_038897138.12.5e-15692.81deoxyhypusine hydroxylase [Benincasa hispida][more]
BLAST of Tan0009715 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1KPZ84.4e-16295.00Deoxyhypusine hydroxylase OS=Cucurbita maxima OX=3661 GN=LOC111497653 PE=3 SV=1[more]
A0A6J1H7861.4e-16094.38Deoxyhypusine hydroxylase OS=Cucurbita moschata OX=3662 GN=LOC111460813 PE=3 SV=... [more]
A0A0A0K8K55.7e-15490.94Deoxyhypusine hydroxylase OS=Cucumis sativus OX=3659 GN=Csa_7G372960 PE=3 SV=1[more]
A0A1S3BGF32.8e-15390.31Deoxyhypusine hydroxylase OS=Cucumis melo OX=3656 GN=LOC103489734 PE=3 SV=1[more]
A0A6J1DQT94.1e-15290.94Deoxyhypusine hydroxylase OS=Momordica charantia OX=3673 GN=LOC111023477 PE=3 SV... [more]
BLAST of Tan0009715 vs. TAIR 10
Match NameE-valueIdentityDescription
AT3G58180.13.0e-12375.42ARM repeat superfamily protein [more]
AT3G62530.11.6e-3140.89ARM repeat superfamily protein [more]
AT3G43260.11.3e-0432.39BEST Arabidopsis thaliana protein match is: ARM repeat superfamily protein (TAIR... [more]
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 129..149
NoneNo IPR availablePFAMPF13646HEAT_2coord: 183..267
e-value: 2.9E-9
score: 37.2
coord: 55..141
e-value: 1.6E-14
score: 54.1
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 150..171
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 147..171
NoneNo IPR availablePANTHERPTHR12697PBS LYASE HEAT-LIKE PROTEINcoord: 26..272
NoneNo IPR availablePANTHERPTHR12697:SF34DEOXYHYPUSINE HYDROXYLASEcoord: 26..272
IPR004155PBS lyase HEAT-like repeatSMARTSM00567EZ_HEATcoord: 34..63
e-value: 1.7
score: 17.7
coord: 65..94
e-value: 2.0E-5
score: 34.0
coord: 223..252
e-value: 0.0017
score: 27.6
coord: 98..127
e-value: 3.6E-4
score: 29.9
coord: 192..221
e-value: 0.0085
score: 25.3
coord: 256..278
e-value: 56.0
score: 10.7
IPR011989Armadillo-like helicalGENE3D1.25.10.10coord: 170..282
e-value: 7.1E-15
score: 56.9
IPR011989Armadillo-like helicalGENE3D1.25.10.10coord: 8..161
e-value: 4.1E-21
score: 77.3
IPR026960Reverse transcriptase zinc-binding domainPFAMPF13966zf-RVTcoord: 482..555
e-value: 3.7E-14
score: 53.2
IPR027517Deoxyhypusine hydroxylaseHAMAPMF_03101Deoxyhypusine_hydroxylasecoord: 16..325
score: 28.716167
IPR016024Armadillo-type foldSUPERFAMILY48371ARM repeatcoord: 97..274
IPR016024Armadillo-type foldSUPERFAMILY48371ARM repeatcoord: 17..134

Relationships

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

Feature NameUnique NameType
Tan0009715.3Tan0009715.3mRNA
Tan0009715.1Tan0009715.1mRNA
Tan0009715.4Tan0009715.4mRNA
Tan0009715.2Tan0009715.2mRNA
Tan0009715.5Tan0009715.5mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0008612 peptidyl-lysine modification to peptidyl-hypusine
molecular_function GO:0019135 deoxyhypusine monooxygenase activity
molecular_function GO:0046872 metal ion binding