Tan0011368 (gene) Snake gourd v1

Overview
NameTan0011368
Typegene
OrganismTrichosanthes anguina (Snake gourd v1)
DescriptionProtein-S-isoprenylcysteine O-methyltransferase
LocationLG06: 70298586 .. 70313886 (-)
RNA-Seq ExpressionTan0011368
SyntenyTan0011368
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

GTAAATTTTTGTCACTATTTTAAGGATACCCATTGTGTGCTGAGGCTGGACAATTGGAGTTGAATCGTTTTGACACAATTTTTAGCAAGCTAGTAGATTGTTGGGCAAATTTGAAAGATGTTGTGCATCAAGGATCTCCAGGGGTTTGTACACAAGAATTTCTCTGTATTGATGTTATATGGCTCTGCATCATTTTCAGAAATATTCAGTTACACAGCATGCAGACAGTTGTCTCAGATGATATTTGCAATTATCTTCTTTCACACTTCTGAATACATCTTAGCTGTTGGAATTCATGGGAGACCCAATGTTACTCTAAAGTCCCTTTTGATAAGCAAAAACTATCTCTTGGCAATGATCTTATCTTTCTTAGAGTACTTTCTAGAAATTGTGTTGTGTCCTGGCCTCAAGGAATACTTGTGGGTTAGTCAGACAGGCCTTGCAATGGTTGTAATCGGAGAAATCGTGCGTAAACTGGCGATCATAACCGCAGGTCGATCATTTACACATCTGATTAAGATCTATCATGAGGACCATCACAAGCTGGTTACTCATGGAGTATATAGATTTGTTCGTCATCCTGGATACAACGGTTTCCTCCTGTGGGCAGTGGGCACTCAAATCATGCTTTGTAATCCCATTTCAACCATTGCCTTTGCTGTTGTGGTTTGGCACTTCTTTGCTGAACGAATTCCTTATGAAGAGTACTTCTTGAGACAGTTTTTTGGTCAAGAGTATGAGGAATATGCGAGACGGGTACATTCTGGAGTGCCATTTGTGAAATGAAGGTTGAAGATTTGGAGTTGGAGAATGCTTCATAACAGATTTCGTGGTTCTGCTCTTGAGGTATTTGGAACTTTTTACTGGAAGTAGTTTTTGTGGTGTATATTAAGGCTTCTGATTGATGGCTTTTGCCTTTTTGGGATTGCATCTTTGAGTCAAGCCTTAGGATCTTACTTGTAACATTTTTGTCAATTATGAAGGAAATATATATGATTAAAACTCACTTGAGGGA

Coding sequence (CDS)

ATGTTGTGCATCAAGGATCTCCAGGGGTTTGTACACAAGAATTTCTCTGTATTGATGTTATATGGCTCTGCATCATTTTCAGAAATATTCAGTTACACAGCATGCAGACAGTTGTCTCAGATGATATTTGCAATTATCTTCTTTCACACTTCTGAATACATCTTAGCTGTTGGAATTCATGGGAGACCCAATGTTACTCTAAAGTCCCTTTTGATAAGCAAAAACTATCTCTTGGCAATGATCTTATCTTTCTTAGAGTACTTTCTAGAAATTGTGTTGTGTCCTGGCCTCAAGGAATACTTGTGGGTTAGTCAGACAGGCCTTGCAATGGTTGTAATCGGAGAAATCGTGCGTAAACTGGCGATCATAACCGCAGGTCGATCATTTACACATCTGATTAAGATCTATCATGAGGACCATCACAAGCTGGTTACTCATGGAGTATATAGATTTGTTCGTCATCCTGGATACAACGGTTTCCTCCTGTGGGCAGTGGGCACTCAAATCATGCTTTGTAATCCCATTTCAACCATTGCCTTTGCTGTTGTGGTTTGGCACTTCTTTGCTGAACGAATTCCTTATGAAGAGTACTTCTTGAGACAGTTTTTTGGTCAAGAGTATGAGGAATATGCGAGACGGGTACATTCTGGAGTGCCATTTGTGAAATGA

Protein sequence

MLCIKDLQGFVHKNFSVLMLYGSASFSEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIHGRPNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKLAIITAGRSFTHLIKIYHEDHHKLVTHGVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAFAVVVWHFFAERIPYEEYFLRQFFGQEYEEYARRVHSGVPFVK
Homology
[Close]
BLAST of Tan0011368 vs. ExPASy Swiss-Prot
Match: Q93W54 (Protein-S-isoprenylcysteine O-methyltransferase B OS=Arabidopsis thaliana OX=3702 GN=ICMTB PE=1 SV=1)

HSP 1 Score: 285.4 bits (729), Expect = 5.4e-76
Identity = 139/195 (71.28%), Postives = 165/195 (84.62%), Query Frame = 0 

Query: 27  SEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIHGRPNVTLKSLLISKNYLLAMILSFLE 86
           +EIFS T  RQL+QM  AIIFFHTSEYILA+ IHG   VTL SLLISK+Y LAM++S LE
Sbjct: 2   TEIFSDTGFRQLTQMFLAIIFFHTSEYILAIAIHGASKVTLSSLLISKHYALAMLISVLE 61

Query: 87  YFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKLAIITAGRSFTHLIKIYHEDHHKLVTH 146
           Y  EIV  PGLK++ W+S  GL M+++GEI+RK AIITAGRSFTHLIKI  E+HHKLVT 
Sbjct: 62  YIAEIVFFPGLKQHWWISNFGLTMIILGEILRKTAIITAGRSFTHLIKIRREEHHKLVTE 121

Query: 147 GVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAFAVVVWHFFAERIPYEEYFLRQFFGQE 206
           GVY+ +RHP Y+GFL+W+VGTQ+MLCNPIS IAFAVVVW FFAERIPYEE++L+QFFG++
Sbjct: 122 GVYQIMRHPSYSGFLIWSVGTQVMLCNPISAIAFAVVVWRFFAERIPYEEHYLKQFFGRQ 181

Query: 207 YEEYARRVHSGVPFV 222
           Y EYA+RV SGVPFV
Sbjct: 182 YVEYAQRVPSGVPFV 196

[Close]
BLAST of Tan0011368 vs. ExPASy Swiss-Prot
Match: Q9FMW9 (Protein-S-isoprenylcysteine O-methyltransferase A OS=Arabidopsis thaliana OX=3702 GN=ICMTA PE=1 SV=1)

HSP 1 Score: 285.0 bits (728), Expect = 7.1e-76
Identity = 138/195 (70.77%), Postives = 164/195 (84.10%), Query Frame = 0 

Query: 27  SEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIHGRPNVTLKSLLISKNYLLAMILSFLE 86
           +EIFS T+ RQLSQM+ ++IFFH SEYILA+ IHG  NVTL SLLI+K+Y LAM+LS LE
Sbjct: 2   TEIFSDTSIRQLSQMLLSLIFFHISEYILAITIHGASNVTLSSLLITKHYALAMLLSLLE 61

Query: 87  YFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKLAIITAGRSFTHLIKIYHEDHHKLVTH 146
           Y  EI+L PGLK++ WVS  GL M+++GEI+RK AIITAGRSFTHLIKI +E+HH LVTH
Sbjct: 62  YLTEIILFPGLKQHWWVSNFGLIMIIVGEIIRKAAIITAGRSFTHLIKINYEEHHGLVTH 121

Query: 147 GVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAFAVVVWHFFAERIPYEEYFLRQFFGQE 206
           GVYR +RHP Y GFL+W+VGTQ+MLCNP+S +AFAVVVW FFA+RIPYEEYFL QFFG +
Sbjct: 122 GVYRLMRHPSYCGFLIWSVGTQVMLCNPVSAVAFAVVVWRFFAQRIPYEEYFLNQFFGVQ 181

Query: 207 YEEYARRVHSGVPFV 222
           Y EYA  V SGVPFV
Sbjct: 182 YLEYAESVASGVPFV 196

[Close]
BLAST of Tan0011368 vs. ExPASy Swiss-Prot
Match: A2XX73 (Probable protein-S-isoprenylcysteine O-methyltransferase OS=Oryza sativa subsp. indica OX=39946 GN=ICMT PE=3 SV=2)

HSP 1 Score: 263.5 bits (672), Expect = 2.2e-69
Identity = 119/179 (66.48%), Postives = 154/179 (86.03%), Query Frame = 0 

Query: 44  AIIFFHTSEYILAVGIHGRPNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPGLKEYLWV 103
           A++ FH SEY+LA   HGR NVT  SLLISK Y+LAM  + LE+  E +L P LKEY +V
Sbjct: 13  ALVIFHGSEYVLAAAFHGRRNVTATSLLISKQYVLAMSFAMLEHLTEALLFPELKEYWFV 72

Query: 104 SQTGLAMVVIGEIVRKLAIITAGRSFTHLIKIYHEDHHKLVTHGVYRFVRHPGYNGFLLW 163
           S  GL MV+IGE++RKLA++TAGRSFTH+I+I++ED HKL+THGVYR +RHPGY+GFL+W
Sbjct: 73  SYVGLVMVIIGEVIRKLAVVTAGRSFTHVIRIHYEDQHKLITHGVYRLMRHPGYSGFLIW 132

Query: 164 AVGTQIMLCNPISTIAFAVVVWHFFAERIPYEEYFLRQFFGQEYEEYARRVHSGVPFVK 223
           AVGTQ+MLCNP+ST+AF +V+W FF++RIPYEE+FLRQFFG+EYEEYA++VHSG+PF++
Sbjct: 133 AVGTQVMLCNPLSTVAFTLVLWRFFSKRIPYEEFFLRQFFGREYEEYAQKVHSGLPFIE 191

[Close]
BLAST of Tan0011368 vs. ExPASy Swiss-Prot
Match: Q7XSR9 (Probable protein-S-isoprenylcysteine O-methyltransferase OS=Oryza sativa subsp. japonica OX=39947 GN=ICMT PE=3 SV=2)

HSP 1 Score: 263.5 bits (672), Expect = 2.2e-69
Identity = 119/179 (66.48%), Postives = 154/179 (86.03%), Query Frame = 0 

Query: 44  AIIFFHTSEYILAVGIHGRPNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPGLKEYLWV 103
           A++ FH SEY+LA   HGR NVT  SLLISK Y+LAM  + LE+  E +L P LKEY +V
Sbjct: 13  ALVIFHGSEYVLAAAFHGRRNVTATSLLISKQYVLAMSFAMLEHLTEALLFPELKEYWFV 72

Query: 104 SQTGLAMVVIGEIVRKLAIITAGRSFTHLIKIYHEDHHKLVTHGVYRFVRHPGYNGFLLW 163
           S  GL MV+IGE++RKLA++TAGRSFTH+I+I++ED HKL+THGVYR +RHPGY+GFL+W
Sbjct: 73  SYVGLVMVIIGEVIRKLAVVTAGRSFTHVIRIHYEDQHKLITHGVYRLMRHPGYSGFLIW 132

Query: 164 AVGTQIMLCNPISTIAFAVVVWHFFAERIPYEEYFLRQFFGQEYEEYARRVHSGVPFVK 223
           AVGTQ+MLCNP+ST+AF +V+W FF++RIPYEE+FLRQFFG+EYEEYA++VHSG+PF++
Sbjct: 133 AVGTQVMLCNPLSTVAFTLVLWRFFSKRIPYEEFFLRQFFGREYEEYAQKVHSGLPFIE 191

[Close]
BLAST of Tan0011368 vs. ExPASy Swiss-Prot
Match: O60725 (Protein-S-isoprenylcysteine O-methyltransferase OS=Homo sapiens OX=9606 GN=ICMT PE=1 SV=1)

HSP 1 Score: 163.7 bits (413), Expect = 2.4e-39
Identity = 85/195 (43.59%), Postives = 124/195 (63.59%), Query Frame = 0 

Query: 30  FSYTACRQLSQMIFAIIFFHTSEYILAVGIHGRPNVTLKSLLI--SKNYLLAMILSFLEY 89
           FS ++       + ++  FH SEY L   ++   +++L S L+  S  Y +A + S+LE+
Sbjct: 85  FSQSSWSHFGWYMCSLSLFHYSEY-LVTAVNNPKSLSLDSFLLNHSLEYTVAALSSWLEF 144

Query: 90  FLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKLAIITAGRSFTHLIKIYHEDHHKLVTHG 149
            LE +  P LK+  W+S TGL MVV GE +RK A+ TAG +F H+++    D H LVT G
Sbjct: 145 TLENIFWPELKQITWLSVTGLLMVVFGECLRKAAMFTAGSNFNHVVQNEKSDTHTLVTSG 204

Query: 150 VYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAFAVVVWHFFAERIPYEEYFLRQFFGQEY 209
           VY + RHP Y G+  W++GTQ+MLCNPI  +++A+ VW FF +R   EE  L  FFG+EY
Sbjct: 205 VYAWFRHPSYVGWFYWSIGTQVMLCNPICGVSYALTVWRFFRDRTEEEEISLIHFFGEEY 264

Query: 210 EEYARRVHSGVPFVK 223
            EY +RV +G+PF+K
Sbjct: 265 LEYKKRVPTGLPFIK 278

[Close]
BLAST of Tan0011368 vs. NCBI nr
Match: XP_022156108.1 (protein-S-isoprenylcysteine O-methyltransferase A-like isoform X1 [Momordica charantia])

HSP 1 Score: 404.1 bits (1037), Expect = 8.0e-109
Identity = 199/222 (89.64%), Postives = 211/222 (95.05%), Query Frame = 0 

Query: 1   MLCIKDLQGFVHKNFSVLMLYGSASFSEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIH 60
           MLC+KDLQ FVHKNFSVL+LY SASF EIFSYTACRQLSQMIFAIIFFH SEYILAVGIH
Sbjct: 1   MLCLKDLQDFVHKNFSVLVLYSSASFPEIFSYTACRQLSQMIFAIIFFHISEYILAVGIH 60

Query: 61  GRPNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKL 120
           GR NVTL SLLISKNY+LAM+LSFLEYFLEI+LCPGLKEY WVSQTGLAMVVIGEIVRKL
Sbjct: 61  GRSNVTLNSLLISKNYILAMVLSFLEYFLEIMLCPGLKEYWWVSQTGLAMVVIGEIVRKL 120

Query: 121 AIITAGRSFTHLIKIYHEDHHKLVTHGVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAF 180
           AIITAGRSFTHLIKIYHEDHHKLVT+GVYRFVRHPGY+GFL+WAVGTQIMLCNP+ST+AF
Sbjct: 121 AIITAGRSFTHLIKIYHEDHHKLVTYGVYRFVRHPGYSGFLVWAVGTQIMLCNPVSTVAF 180

Query: 181 AVVVWHFFAERIPYEEYFLRQFFGQEYEEYARRVHSGVPFVK 223
           AVVVWHFFAERIPYEEY+LR+FFG EY EYA RV SGVPFVK
Sbjct: 181 AVVVWHFFAERIPYEEYYLRRFFGHEYVEYANRVSSGVPFVK 222

[Close]
BLAST of Tan0011368 vs. NCBI nr
Match: XP_031744061.1 (protein-S-isoprenylcysteine O-methyltransferase A isoform X2 [Cucumis sativus])

HSP 1 Score: 402.5 bits (1033), Expect = 2.3e-108
Identity = 201/222 (90.54%), Postives = 207/222 (93.24%), Query Frame = 0 

Query: 1   MLCIKDLQGFVHKNFSVLMLYGSASFSEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIH 60
           M CIKDLQ F+HKNF VL+LYGSASFSEI SYTACRQLSQM+ AIIFFH SEYILAVGIH
Sbjct: 1   MFCIKDLQRFLHKNFPVLVLYGSASFSEILSYTACRQLSQMVSAIIFFHASEYILAVGIH 60

Query: 61  GRPNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKL 120
           GR NVTLKSLLISKNYLLAMILSFLEYFLEIVLCP LKEY WVSQTGLAMVV+GEIVRKL
Sbjct: 61  GRSNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPSLKEYWWVSQTGLAMVVVGEIVRKL 120

Query: 121 AIITAGRSFTHLIKIYHEDHHKLVTHGVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAF 180
           AIITAGR FTHLIKIYHEDHH LVTHGVY FVRHPGY+GFL+WAVGTQIMLCNPISTIAF
Sbjct: 121 AIITAGRCFTHLIKIYHEDHHNLVTHGVYSFVRHPGYSGFLVWAVGTQIMLCNPISTIAF 180

Query: 181 AVVVWHFFAERIPYEEYFLRQFFGQEYEEYARRVHSGVPFVK 223
           AVVVWHFFAERIPYEEYFLRQFFG EYEEYA RV SGVPFVK
Sbjct: 181 AVVVWHFFAERIPYEEYFLRQFFGHEYEEYANRVSSGVPFVK 222

[Close]
BLAST of Tan0011368 vs. NCBI nr
Match: XP_038877249.1 (protein-S-isoprenylcysteine O-methyltransferase B-like isoform X2 [Benincasa hispida])

HSP 1 Score: 401.4 bits (1030), Expect = 5.2e-108
Identity = 199/222 (89.64%), Postives = 208/222 (93.69%), Query Frame = 0 

Query: 1   MLCIKDLQGFVHKNFSVLMLYGSASFSEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIH 60
           MLCIKDLQ FVHKNF VL+LYGSASFSEIFSYTACR LSQM+FAIIFFH+SEYILAVGIH
Sbjct: 5   MLCIKDLQRFVHKNFCVLVLYGSASFSEIFSYTACRHLSQMMFAIIFFHSSEYILAVGIH 64

Query: 61  GRPNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKL 120
           GR NVTL SLLISKNYLLAMILSFLEYFLEI+LCP LKEY WVSQTGLAMVV+GEI+RKL
Sbjct: 65  GRSNVTLTSLLISKNYLLAMILSFLEYFLEIILCPSLKEYWWVSQTGLAMVVVGEIIRKL 124

Query: 121 AIITAGRSFTHLIKIYHEDHHKLVTHGVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAF 180
           AIITAGR FTH IKIYHEDHHKLVTHGVY FVRHPGY+GFL+WAVGTQIMLCNP STIAF
Sbjct: 125 AIITAGRCFTHRIKIYHEDHHKLVTHGVYSFVRHPGYSGFLVWAVGTQIMLCNPFSTIAF 184

Query: 181 AVVVWHFFAERIPYEEYFLRQFFGQEYEEYARRVHSGVPFVK 223
           AVVVWHFFAERIPYEEYFLRQFFG EYEEYA +V SGVPFVK
Sbjct: 185 AVVVWHFFAERIPYEEYFLRQFFGHEYEEYANQVPSGVPFVK 226

[Close]
BLAST of Tan0011368 vs. NCBI nr
Match: XP_023531975.1 (protein-S-isoprenylcysteine O-methyltransferase A-like isoform X1 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 397.9 bits (1021), Expect = 5.7e-107
Identity = 198/222 (89.19%), Postives = 208/222 (93.69%), Query Frame = 0 

Query: 1   MLCIKDLQGFVHKNFSVLMLYGSASFSEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIH 60
           MLC+KDLQGF+HKNFS L +    SFSEIFSYTACRQLSQMIFAIIFFH SEYILAVGIH
Sbjct: 1   MLCLKDLQGFLHKNFSELEI----SFSEIFSYTACRQLSQMIFAIIFFHGSEYILAVGIH 60

Query: 61  GRPNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKL 120
           GR NVTLKSLLISKNYLLAMILSFLEYFLE++LCP LKEY WVS  GLAMVV+GEIVRKL
Sbjct: 61  GRQNVTLKSLLISKNYLLAMILSFLEYFLEVLLCPSLKEYWWVSHIGLAMVVVGEIVRKL 120

Query: 121 AIITAGRSFTHLIKIYHEDHHKLVTHGVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAF 180
           AIITAGRSFTHLIK+YHEDHHKLVTHGVYRFVRHPGYNGFL+WAVGTQIMLCNPIST+AF
Sbjct: 121 AIITAGRSFTHLIKVYHEDHHKLVTHGVYRFVRHPGYNGFLVWAVGTQIMLCNPISTVAF 180

Query: 181 AVVVWHFFAERIPYEEYFLRQFFGQEYEEYARRVHSGVPFVK 223
           A+VVWHFFAERIPYEEYFLRQFFG EYEEYARRV SGVPFVK
Sbjct: 181 AIVVWHFFAERIPYEEYFLRQFFGHEYEEYARRVPSGVPFVK 218

[Close]
BLAST of Tan0011368 vs. NCBI nr
Match: XP_031744058.1 (protein-S-isoprenylcysteine O-methyltransferase A isoform X1 [Cucumis sativus] >XP_031744059.1 protein-S-isoprenylcysteine O-methyltransferase A isoform X1 [Cucumis sativus] >XP_031744060.1 protein-S-isoprenylcysteine O-methyltransferase A isoform X1 [Cucumis sativus] >KAE8646690.1 hypothetical protein Csa_005377 [Cucumis sativus])

HSP 1 Score: 396.7 bits (1018), Expect = 1.3e-106
Identity = 201/226 (88.94%), Postives = 207/226 (91.59%), Query Frame = 0 

Query: 1   MLCIKDLQGFVHKNFSVLMLYGSASFS----EIFSYTACRQLSQMIFAIIFFHTSEYILA 60
           M CIKDLQ F+HKNF VL+LYGSASFS    EI SYTACRQLSQM+ AIIFFH SEYILA
Sbjct: 1   MFCIKDLQRFLHKNFPVLVLYGSASFSENMTEILSYTACRQLSQMVSAIIFFHASEYILA 60

Query: 61  VGIHGRPNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPGLKEYLWVSQTGLAMVVIGEI 120
           VGIHGR NVTLKSLLISKNYLLAMILSFLEYFLEIVLCP LKEY WVSQTGLAMVV+GEI
Sbjct: 61  VGIHGRSNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPSLKEYWWVSQTGLAMVVVGEI 120

Query: 121 VRKLAIITAGRSFTHLIKIYHEDHHKLVTHGVYRFVRHPGYNGFLLWAVGTQIMLCNPIS 180
           VRKLAIITAGR FTHLIKIYHEDHH LVTHGVY FVRHPGY+GFL+WAVGTQIMLCNPIS
Sbjct: 121 VRKLAIITAGRCFTHLIKIYHEDHHNLVTHGVYSFVRHPGYSGFLVWAVGTQIMLCNPIS 180

Query: 181 TIAFAVVVWHFFAERIPYEEYFLRQFFGQEYEEYARRVHSGVPFVK 223
           TIAFAVVVWHFFAERIPYEEYFLRQFFG EYEEYA RV SGVPFVK
Sbjct: 181 TIAFAVVVWHFFAERIPYEEYFLRQFFGHEYEEYANRVSSGVPFVK 226

[Close]
BLAST of Tan0011368 vs. ExPASy TrEMBL
Match: A0A6J1DPQ1 (Protein-S-isoprenylcysteine O-methyltransferase OS=Momordica charantia OX=3673 GN=LOC111023074 PE=3 SV=1)

HSP 1 Score: 404.1 bits (1037), Expect = 3.9e-109
Identity = 199/222 (89.64%), Postives = 211/222 (95.05%), Query Frame = 0 

Query: 1   MLCIKDLQGFVHKNFSVLMLYGSASFSEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIH 60
           MLC+KDLQ FVHKNFSVL+LY SASF EIFSYTACRQLSQMIFAIIFFH SEYILAVGIH
Sbjct: 1   MLCLKDLQDFVHKNFSVLVLYSSASFPEIFSYTACRQLSQMIFAIIFFHISEYILAVGIH 60

Query: 61  GRPNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKL 120
           GR NVTL SLLISKNY+LAM+LSFLEYFLEI+LCPGLKEY WVSQTGLAMVVIGEIVRKL
Sbjct: 61  GRSNVTLNSLLISKNYILAMVLSFLEYFLEIMLCPGLKEYWWVSQTGLAMVVIGEIVRKL 120

Query: 121 AIITAGRSFTHLIKIYHEDHHKLVTHGVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAF 180
           AIITAGRSFTHLIKIYHEDHHKLVT+GVYRFVRHPGY+GFL+WAVGTQIMLCNP+ST+AF
Sbjct: 121 AIITAGRSFTHLIKIYHEDHHKLVTYGVYRFVRHPGYSGFLVWAVGTQIMLCNPVSTVAF 180

Query: 181 AVVVWHFFAERIPYEEYFLRQFFGQEYEEYARRVHSGVPFVK 223
           AVVVWHFFAERIPYEEY+LR+FFG EY EYA RV SGVPFVK
Sbjct: 181 AVVVWHFFAERIPYEEYYLRRFFGHEYVEYANRVSSGVPFVK 222

[Close]
BLAST of Tan0011368 vs. ExPASy TrEMBL
Match: A0A6J1EK92 (Protein-S-isoprenylcysteine O-methyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111435324 PE=3 SV=1)

HSP 1 Score: 395.6 bits (1015), Expect = 1.4e-106
Identity = 197/222 (88.74%), Postives = 207/222 (93.24%), Query Frame = 0 

Query: 1   MLCIKDLQGFVHKNFSVLMLYGSASFSEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIH 60
           MLC+KDLQGF+HKNFS L +    SFSEIFSYTACRQLSQMIFAIIFFH SEYILAVGIH
Sbjct: 1   MLCLKDLQGFLHKNFSELEI----SFSEIFSYTACRQLSQMIFAIIFFHGSEYILAVGIH 60

Query: 61  GRPNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKL 120
           GR NVTLKSLLISKNYLLAMILSF+EYFLE+ LCP LKEY WVS  GLAMVV+GEIVRKL
Sbjct: 61  GRQNVTLKSLLISKNYLLAMILSFIEYFLEVFLCPTLKEYWWVSHIGLAMVVVGEIVRKL 120

Query: 121 AIITAGRSFTHLIKIYHEDHHKLVTHGVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAF 180
           AIITAGRSFTHLIK+YHEDHHKLVTHGVYRFVRHPGYNGFL+WAVGTQIMLCNPIST+AF
Sbjct: 121 AIITAGRSFTHLIKVYHEDHHKLVTHGVYRFVRHPGYNGFLVWAVGTQIMLCNPISTVAF 180

Query: 181 AVVVWHFFAERIPYEEYFLRQFFGQEYEEYARRVHSGVPFVK 223
           A+VVWHFFAERIPYEEYFLRQFFG EYEEYARRV SGVPFVK
Sbjct: 181 AIVVWHFFAERIPYEEYFLRQFFGHEYEEYARRVPSGVPFVK 218

[Close]
BLAST of Tan0011368 vs. ExPASy TrEMBL
Match: A0A6J1JPG8 (Protein-S-isoprenylcysteine O-methyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111486321 PE=3 SV=1)

HSP 1 Score: 388.3 bits (996), Expect = 2.2e-104
Identity = 195/222 (87.84%), Postives = 206/222 (92.79%), Query Frame = 0 

Query: 1   MLCIKDLQGFVHKNFSVLMLYGSASFSEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIH 60
           ML +KDLQGF+ KNFS L +    SFSEIFSYTACRQLSQMIFAIIFFH SEYILAVGIH
Sbjct: 1   MLFLKDLQGFLLKNFSELEI----SFSEIFSYTACRQLSQMIFAIIFFHGSEYILAVGIH 60

Query: 61  GRPNVTLKSLLISKNYLLAMILSFLEYFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKL 120
           GR NVTLKSLLISKNYLLAMILSFLEYFLE+++CP LKEY WVS  GLAMVV+GEIVRKL
Sbjct: 61  GRQNVTLKSLLISKNYLLAMILSFLEYFLEVLVCPNLKEYWWVSHIGLAMVVVGEIVRKL 120

Query: 121 AIITAGRSFTHLIKIYHEDHHKLVTHGVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAF 180
           AIITAGRSFTHLIK+YHEDHHKLVTHGVYRFVRHPGYNGFL+WAVGTQIMLCNPIST+AF
Sbjct: 121 AIITAGRSFTHLIKVYHEDHHKLVTHGVYRFVRHPGYNGFLVWAVGTQIMLCNPISTVAF 180

Query: 181 AVVVWHFFAERIPYEEYFLRQFFGQEYEEYARRVHSGVPFVK 223
           A+VVWHFFAERIPYEEYFLRQFFG EYEEYARRV SGVPFVK
Sbjct: 181 AIVVWHFFAERIPYEEYFLRQFFGHEYEEYARRVPSGVPFVK 218

[Close]
BLAST of Tan0011368 vs. ExPASy TrEMBL
Match: A0A6J1JNL6 (Protein-S-isoprenylcysteine O-methyltransferase OS=Cucurbita maxima OX=3661 GN=LOC111486321 PE=3 SV=1)

HSP 1 Score: 365.9 bits (938), Expect = 1.2e-97
Identity = 179/196 (91.33%), Postives = 188/196 (95.92%), Query Frame = 0 

Query: 27  SEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIHGRPNVTLKSLLISKNYLLAMILSFLE 86
           +EIFSYTACRQLSQMIFAIIFFH SEYILAVGIHGR NVTLKSLLISKNYLLAMILSFLE
Sbjct: 2   TEIFSYTACRQLSQMIFAIIFFHGSEYILAVGIHGRQNVTLKSLLISKNYLLAMILSFLE 61

Query: 87  YFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKLAIITAGRSFTHLIKIYHEDHHKLVTH 146
           YFLE+++CP LKEY WVS  GLAMVV+GEIVRKLAIITAGRSFTHLIK+YHEDHHKLVTH
Sbjct: 62  YFLEVLVCPNLKEYWWVSHIGLAMVVVGEIVRKLAIITAGRSFTHLIKVYHEDHHKLVTH 121

Query: 147 GVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAFAVVVWHFFAERIPYEEYFLRQFFGQE 206
           GVYRFVRHPGYNGFL+WAVGTQIMLCNPIST+AFA+VVWHFFAERIPYEEYFLRQFFG E
Sbjct: 122 GVYRFVRHPGYNGFLVWAVGTQIMLCNPISTVAFAIVVWHFFAERIPYEEYFLRQFFGHE 181

Query: 207 YEEYARRVHSGVPFVK 223
           YEEYARRV SGVPFVK
Sbjct: 182 YEEYARRVPSGVPFVK 197

[Close]
BLAST of Tan0011368 vs. ExPASy TrEMBL
Match: A0A6J1EPD2 (Protein-S-isoprenylcysteine O-methyltransferase OS=Cucurbita moschata OX=3662 GN=LOC111435324 PE=3 SV=1)

HSP 1 Score: 364.8 bits (935), Expect = 2.6e-97
Identity = 179/196 (91.33%), Postives = 187/196 (95.41%), Query Frame = 0 

Query: 27  SEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIHGRPNVTLKSLLISKNYLLAMILSFLE 86
           +EIFSYTACRQLSQMIFAIIFFH SEYILAVGIHGR NVTLKSLLISKNYLLAMILSF+E
Sbjct: 2   TEIFSYTACRQLSQMIFAIIFFHGSEYILAVGIHGRQNVTLKSLLISKNYLLAMILSFIE 61

Query: 87  YFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKLAIITAGRSFTHLIKIYHEDHHKLVTH 146
           YFLE+ LCP LKEY WVS  GLAMVV+GEIVRKLAIITAGRSFTHLIK+YHEDHHKLVTH
Sbjct: 62  YFLEVFLCPTLKEYWWVSHIGLAMVVVGEIVRKLAIITAGRSFTHLIKVYHEDHHKLVTH 121

Query: 147 GVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAFAVVVWHFFAERIPYEEYFLRQFFGQE 206
           GVYRFVRHPGYNGFL+WAVGTQIMLCNPIST+AFA+VVWHFFAERIPYEEYFLRQFFG E
Sbjct: 122 GVYRFVRHPGYNGFLVWAVGTQIMLCNPISTVAFAIVVWHFFAERIPYEEYFLRQFFGHE 181

Query: 207 YEEYARRVHSGVPFVK 223
           YEEYARRV SGVPFVK
Sbjct: 182 YEEYARRVPSGVPFVK 197

[Close]
BLAST of Tan0011368 vs. TAIR 10
Match: AT5G08335.1 (Isoprenylcysteine carboxyl methyltransferase (ICMT) family )

HSP 1 Score: 285.4 bits (729), Expect = 3.9e-77
Identity = 139/195 (71.28%), Postives = 165/195 (84.62%), Query Frame = 0 

Query: 27  SEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIHGRPNVTLKSLLISKNYLLAMILSFLE 86
           +EIFS T  RQL+QM  AIIFFHTSEYILA+ IHG   VTL SLLISK+Y LAM++S LE
Sbjct: 2   TEIFSDTGFRQLTQMFLAIIFFHTSEYILAIAIHGASKVTLSSLLISKHYALAMLISVLE 61

Query: 87  YFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKLAIITAGRSFTHLIKIYHEDHHKLVTH 146
           Y  EIV  PGLK++ W+S  GL M+++GEI+RK AIITAGRSFTHLIKI  E+HHKLVT 
Sbjct: 62  YIAEIVFFPGLKQHWWISNFGLTMIILGEILRKTAIITAGRSFTHLIKIRREEHHKLVTE 121

Query: 147 GVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAFAVVVWHFFAERIPYEEYFLRQFFGQE 206
           GVY+ +RHP Y+GFL+W+VGTQ+MLCNPIS IAFAVVVW FFAERIPYEE++L+QFFG++
Sbjct: 122 GVYQIMRHPSYSGFLIWSVGTQVMLCNPISAIAFAVVVWRFFAERIPYEEHYLKQFFGRQ 181

Query: 207 YEEYARRVHSGVPFV 222
           Y EYA+RV SGVPFV
Sbjct: 182 YVEYAQRVPSGVPFV 196

[Close]
BLAST of Tan0011368 vs. TAIR 10
Match: AT5G23320.1 (homolog of yeast STE14 A )

HSP 1 Score: 285.0 bits (728), Expect = 5.1e-77
Identity = 138/195 (70.77%), Postives = 164/195 (84.10%), Query Frame = 0 

Query: 27  SEIFSYTACRQLSQMIFAIIFFHTSEYILAVGIHGRPNVTLKSLLISKNYLLAMILSFLE 86
           +EIFS T+ RQLSQM+ ++IFFH SEYILA+ IHG  NVTL SLLI+K+Y LAM+LS LE
Sbjct: 2   TEIFSDTSIRQLSQMLLSLIFFHISEYILAITIHGASNVTLSSLLITKHYALAMLLSLLE 61

Query: 87  YFLEIVLCPGLKEYLWVSQTGLAMVVIGEIVRKLAIITAGRSFTHLIKIYHEDHHKLVTH 146
           Y  EI+L PGLK++ WVS  GL M+++GEI+RK AIITAGRSFTHLIKI +E+HH LVTH
Sbjct: 62  YLTEIILFPGLKQHWWVSNFGLIMIIVGEIIRKAAIITAGRSFTHLIKINYEEHHGLVTH 121

Query: 147 GVYRFVRHPGYNGFLLWAVGTQIMLCNPISTIAFAVVVWHFFAERIPYEEYFLRQFFGQE 206
           GVYR +RHP Y GFL+W+VGTQ+MLCNP+S +AFAVVVW FFA+RIPYEEYFL QFFG +
Sbjct: 122 GVYRLMRHPSYCGFLIWSVGTQVMLCNPVSAVAFAVVVWRFFAQRIPYEEYFLNQFFGVQ 181

Query: 207 YEEYARRVHSGVPFV 222
           Y EYA  V SGVPFV
Sbjct: 182 YLEYAESVASGVPFV 196

The following BLAST results are available for this feature:
BLAST of Tan0011368 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q93W545.4e-7671.28Protein-S-isoprenylcysteine O-methyltransferase B OS=Arabidopsis thaliana OX=370... [more]
Q9FMW97.1e-7670.77Protein-S-isoprenylcysteine O-methyltransferase A OS=Arabidopsis thaliana OX=370... [more]
A2XX732.2e-6966.48Probable protein-S-isoprenylcysteine O-methyltransferase OS=Oryza sativa subsp. ... [more]
Q7XSR92.2e-6966.48Probable protein-S-isoprenylcysteine O-methyltransferase OS=Oryza sativa subsp. ... [more]
O607252.4e-3943.59Protein-S-isoprenylcysteine O-methyltransferase OS=Homo sapiens OX=9606 GN=ICMT ... [more]
BLAST of Tan0011368 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022156108.18.0e-10989.64protein-S-isoprenylcysteine O-methyltransferase A-like isoform X1 [Momordica cha... [more]
XP_031744061.12.3e-10890.54protein-S-isoprenylcysteine O-methyltransferase A isoform X2 [Cucumis sativus][more]
XP_038877249.15.2e-10889.64protein-S-isoprenylcysteine O-methyltransferase B-like isoform X2 [Benincasa his... [more]
XP_023531975.15.7e-10789.19protein-S-isoprenylcysteine O-methyltransferase A-like isoform X1 [Cucurbita pep... [more]
XP_031744058.11.3e-10688.94protein-S-isoprenylcysteine O-methyltransferase A isoform X1 [Cucumis sativus] >... [more]
BLAST of Tan0011368 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1DPQ13.9e-10989.64Protein-S-isoprenylcysteine O-methyltransferase OS=Momordica charantia OX=3673 G... [more]
A0A6J1EK921.4e-10688.74Protein-S-isoprenylcysteine O-methyltransferase OS=Cucurbita moschata OX=3662 GN... [more]
A0A6J1JPG82.2e-10487.84Protein-S-isoprenylcysteine O-methyltransferase OS=Cucurbita maxima OX=3661 GN=L... [more]
A0A6J1JNL61.2e-9791.33Protein-S-isoprenylcysteine O-methyltransferase OS=Cucurbita maxima OX=3661 GN=L... [more]
A0A6J1EPD22.6e-9791.33Protein-S-isoprenylcysteine O-methyltransferase OS=Cucurbita moschata OX=3662 GN... [more]
BLAST of Tan0011368 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G08335.13.9e-7771.28Isoprenylcysteine carboxyl methyltransferase (ICMT) family [more]
AT5G23320.15.1e-7770.77homolog of yeast STE14 A [more]
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableGENE3D1.20.120.1630coord: 9..196
e-value: 3.4E-37
score: 130.1
NoneNo IPR availablePANTHERPTHR12714PROTEIN-S ISOPRENYLCYSTEINE O-METHYLTRANSFERASEcoord: 12..197
NoneNo IPR availablePANTHERPTHR12714:SF19PROTEIN-S-ISOPRENYLCYSTEINE O-METHYLTRANSFERASEcoord: 12..197
IPR007269Isoprenylcysteine carboxyl methyltransferasePFAMPF04140ICMTcoord: 83..174
e-value: 5.0E-28
score: 97.4
IPR025770Protein-S-isoprenylcysteine O-methyltransferasePROSITEPS51564SAM_ICMTcoord: 6..197
score: 25.050571

Relationships

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

Feature NameUnique NameType
Tan0011368.1Tan0011368.1mRNA
Tan0011368.2Tan0011368.2mRNA
Tan0011368.3Tan0011368.3mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006481 C-terminal protein methylation
cellular_component GO:0005789 endoplasmic reticulum membrane
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0005783 endoplasmic reticulum
molecular_function GO:0004671 protein C-terminal S-isoprenylcysteine carboxyl O-methyltransferase activity