Sgr028487 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr028487
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionUnknown protein
Locationtig00153204: 1512424 .. 1524714 (-)
RNA-Seq ExpressionSgr028487
SyntenySgr028487
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTGCCAAATTGACTCTCCCAACGGTGCCCGGTGCCCACTGCCCACAGCACGACTGATGTATGCAGCAGTCAACAAAGTCTATTCAGAAGTTTCATCTGGTAAAAAACAAACCAGTTCGCAGATTCCATATCATGTAAAACAAACTTTGTGTCTGGAATATATCCTAGTTTCTTCATTTCAAATCCCAGCTGCTCCAGCTCAAAAAGTTGTTCGGCCGCTTCTATTCCTAAATCTATGTTCCCATGCATTCGGCAACCAGCAAGAAAAGCCTCCCAAACTGGTGCCCCAGGGAGAATACCCTCTTCCAACATTTGTTCAAAAAGTTCTATTGCTTTTACACCATGCCCATGCTGTCCCAGTGCTGCCATCATGGCGTTCCATGAAACCAAATCCACAAAGGGCATACTTCAAACTCTCATCTCCAAATCCGTTTTGTGCTAATCCTGAAATCATCACAGTCCATGTAAGAAGGTTTTTCTCTGGTATGTCTTCAAAGAAAGACTTTGCTTCCTCCATTCGCCCTGCATTCACATACCCGGATAAGATTGCATTCCAATTGAAAAAATCCACCATTGGCACAAGCCGTGATTACGCTCGTGTAGATATCAAGGCATTCCATGCTGCCCCAAGCTTTTCAGGCATTGCATCAAGAAGTTCAAATGCCCCATTCAGATCATCATTCCGCACGTACCCGGTAATCATTGTCGTCCATGTTACATCATCCCTCTTTGGCATCTGGTCAAACAGTTTCCTAGCTGAAACCATTGATGAAGATGATAACACTAATGTGTCCCTCATATTCAATGGAGTTCCATTAAATATTTCTCGCGCCAGTGTCAAATTCCCCGACGCAGAATATGCCGTGATCAATGTAGTCCTTGCTATAGCATCTGGGCTGGGAATTTCGTCGAACAGTTGGCGCGCATATACAAGATTCGACGACTTACAGTATATTTCGAGCAGACGATTGAGGAAATGCCCACGAGGCTTGAATCCCGAAGCAATCATGTGGGCATGGACAGTCCGAGCAAGTGATATACGGCCAATTTTGAGACCCGCCAAGAAAATGGTCAGCCGATTAAGTGGTCAGTTTGAATCCTGCCATGAGTTCCAACTTCATCAGGCTACCACCAAGAACAGAACGTTCCATCGTGTTGCGGCATTAGCTCAAAAAGCTTTTCAGCAGCTTCTACTCCTAAATCCATGTTCCCATGAATCCGGCAACCAGCAAGAAGAGCCTCCCAAATTGGGGCCCCAGATCTGGCAGCTTCAACCACTCCACATCTTGCATACATTGAGATCATTGCATTGCCAACTGAGAGGCTTGAATCATGGCCGAGATGAACAAGCTGAGCATGGAGCTGGCGACCATTCTCCAATGCTCCAAGCACAGAACAAGCTCTTCAAACTCTCTTCTCCAAATCCATTTTGTGCTAATCCTGAAATCATCACAGTCCATGTAAGAAGGTTTTTCTCTGGCATTTCTGTAAAGAAAGACTTTGCCTCCTCCATACGCCCTGCATTCACATACCCCGATAAGATTGCATTCCAAATAGAAGAGCGTTCAACACTGAAGAAACAAGCCCAGTTCCAAATTTCACCACCGCACCATGCATTTGGCCACACTGTCATCAGGCCGAAAACTGCCCCGTCTCATAGCATGAAACAGTTCAAGAGCAGAATGACCATCATTGTTGTGCGAATAGCCAGTTATCATTGCGTTGTAGAAAATAGTGTCCCTCATATTCAATGGAGTCCCATTGAATATTTCTCGAGCCAGATTCAAATTCCCCAACGCAGAGTATGCCGTAATCAGTGTAGTCCTCGCTACAGCATCTGGGTTGGGAATTTCGTCGAACAGTTGGCGCGCATACACAAGATTCGACGACTTCCAGTATATATCGAGCAGACGATTGACGAGTCCGAGCAAGTGAATAGGAAGCCGGATTCTGCGGGCAACAGAGTTGCAATTGTGCGGCGTACCGATTCGCCACAACGCGGACATCCAAGGCATTTCTCATGGTGTTTGATGGGAATTAGAAGCATCGTTCCGACTTATACATCTGCAAATTTCGACGGCAATGGCGGACGTGAGGAAATAGCTTATTGCCTTCATAGGCTACGTCTTGGATGCGGGAGAGGAAAATCAAGGGCGGCGCCGGAGAAGTTGGCGGCTGAGAGAGAGACGAAAGCAAACAAAAGCTCCGTTCTCACTGGCATGGAGAAAGAGAAGATGGATCAGAACAACAGAAAGCCGCCATCATTGCATGTGCCTGCCGCTGCCTCTGCAACTTTTGGAGGACTCGCTTCTCACCTCACCATCGCATTCCATTCATCTCTCTCTCTCTCGGAAATGCACTTCCACAACGATCCTTTCCTCCTTCGACGTCAAGCCCACAGCGCGACAAAAGCTTCATTCAAACTTGAAACCATTTGCAACTCTAAACTCGTCAGATCAGAGAACATACAAAGAGAAGGAAAAGGCAAAAGGAACGAGGGTTTTCTGGGGATGGAATTTGAAGGACTTAGGAATGAAAG

Coding sequence (CDS)

ATGTGCCAAATTGACTCTCCCAACGGTGCCCGGTGCCCACTGCCCACAGCACGACTGATGTATGCAGCAGTCAACAAAGTCTATTCAGAAGTTTCATCTGGTAAAAAACAAACCAGTTCGCAGATTCCATATCATGTAAAACAAACTTTGTGTCTGGAATATATCCTAGTTTCTTCATTTCAAATCCCAGCTGCTCCAGCTCAAAAAGTTGTTCGGCCGCTTCTATTCCTAAATCTATGTTCCCATGCATTCGGCAACCAGCAAGAAAAGCCTCCCAAACTGGTGCCCCAGGGAGAATACCCTCTTCCAACATTTGTTCAAAAAGTTCTATTGCTTTTACACCATGCCCATGCTGTCCCAGTGCTGCCATCATGGCGTTCCATGAAACCAAATCCACAAAGGGCATACTTCAAACTCTCATCTCCAAATCCGTTTTGTGCTAATCCTGAAATCATCACAGTCCATGTAAGAAGGTTTTTCTCTGGTATGTCTTCAAAGAAAGACTTTGCTTCCTCCATTCGCCCTGCATTCACATACCCGGATAAGATTGCATTCCAATTGAAAAAATCCACCATTGGCACAAGCCGTGATTACGCTCGTGTAGATATCAAGGCATTCCATGCTGCCCCAAGCTTTTCAGGCATTGCATCAAGAAGTTCAAATGCCCCATTCAGATCATCATTCCGCACGTACCCGGTAATCATTGTCGTCCATGTTACATCATCCCTCTTTGGCATCTGGTCAAACAGTTTCCTAGCTGAAACCATTGATGAAGATGATAACACTAATGTGTCCCTCATATTCAATGGAGTTCCATTAAATATTTCTCGCGCCAGTGTCAAATTCCCCGACGCAGAATATGCCGTGATCAATGTAGTCCTTGCTATAGCATCTGGGCTGGGAATTTCGTCGAACAGTTGGCGCGCATATACAAGATTCGACGACTTACAGTATATTTCGAGCAGACGATTGAGGAAATGCCCACGAGGCTTGAATCCCGAAGCAATCATGTGGGCATGGACAGTCCGAGCAAGTGATATACGGCCAATTTTGAGACCCGCCAAGAAAATGGTCAGCCGATTAAGTGGTCAGTTTGAATCCTGCCATGAGTTCCAACTTCATCAGGCTACCACCAAGAACAGAACGTTCCATCGTGTTGCGGCATTAGCTCAAAAAGCTTTTCAGCAGCTTCTACTCCTAAATCCATGTTCCCATGAATCCGGCAACCAGCAAGAAGAGCCTCCCAAATTGGGGCCCCAGATCTGGCAGCTTCAACCACTCCACATCTTGCATACATTGAGATCATTGCATTGCCAACTGAGAGGCTTGAATCATGGCCGAGATGAACAAGCTGAGCATGGAGCTGGCGACCATTCTCCAATGCTCCAAGCACAGAACAAGCTCTTCAAACTCTCTTCTCCAAATCCATTTTGTGCTAATCCTGAAATCATCACAGTCCATGTAAGAAGGTTTTTCTCTGGCATTTCTGTAAAGAAAGACTTTGCCTCCTCCATACGCCCTGCATTCACATACCCCGATAAGATTGCATTCCAAATAGAAGAGCGTTCAACACTGAAGAAACAAGCCCAGTTCCAAATTTCACCACCGCACCATGCATTTGGCCACACTGTCATCAGGCCGAAAACTGCCCCGTCTCATAGCATGAAACAGTTCAAGAGCAGAATGACCATCATTGTTGTGCGAATAGCCAGTTATCATTGCGTTGTAGAAAATAGTGTCCCTCATATTCAATGGAGTCCCATTGAATATTTCTCGAGCCAGATTCAAATTCCCCAACGCAGAGTATGCCGTAATCAGTGTAGTCCTCGCTACAGCATCTGGGTTGGGAATTTCGTCGAACAGTTGGCGCGCATACACAAGATTCGACGACTTCCAGTATATATCGAGCAGACGATTGACGAGTCCGAGCAAGTGAATAGGAAGCCGGATTCTGCGGGCAACAGAGTTGCAATTGTGCGGCGTACCGATTCGCCACAACGCGGACATCCAAGGCATTTCTCATGGTGTTTGATGGGAATTAGAAGCATCGTTCCGACTTATACATCTGCAAATTTCGACGGCAATGGCGGACGTGAGGAAATAGCTTATTGCCTTCATAGGCTACGTCTTGGATGCGGGAGAGGAAAATCAAGGGCGGCGCCGGAGAAGTTGGCGGCTGAGAGAGAGACGAAAGCAAACAAAAGCTCCGTTCTCACTGGCATGGAGAAAGAGAAGATGGATCAGAACAACAGAAAGCCGCCATCATTGCATGTGCCTGCCGCTGCCTCTGCAACTTTTGGAGGACTCGCTTCTCACCTCACCATCGCATTCCATTCATCTCTCTCTCTCTCGGAAATGCACTTCCACAACGATCCTTTCCTCCTTCGACGTCAAGCCCACAGCGCGACAAAAGCTTCATTCAAACTTGAAACCATTTGCAACTCTAAACTCGTCAGATCAGAGAACATACAAAGAGAAGGAAAAGGCAAAAGGAACGAGGGTTTTCTGGGGATGGAATTTGAAGGACTTAGGAATGAAAG

Protein sequence

MCQIDSPNGARCPLPTARLMYAAVNKVYSEVSSGKKQTSSQIPYHVKQTLCLEYILVSSFQIPAAPAQKVVRPLLFLNLCSHAFGNQQEKPPKLVPQGEYPLPTFVQKVLLLLHHAHAVPVLPSWRSMKPNPQRAYFKLSSPNPFCANPEIITVHVRRFFSGMSSKKDFASSIRPAFTYPDKIAFQLKKSTIGTSRDYARVDIKAFHAAPSFSGIASRSSNAPFRSSFRTYPVIIVVHVTSSLFGIWSNSFLAETIDEDDNTNVSLIFNGVPLNISRASVKFPDAEYAVINVVLAIASGLGISSNSWRAYTRFDDLQYISSRRLRKCPRGLNPEAIMWAWTVRASDIRPILRPAKKMVSRLSGQFESCHEFQLHQATTKNRTFHRVAALAQKAFQQLLLLNPCSHESGNQQEEPPKLGPQIWQLQPLHILHTLRSLHCQLRGLNHGRDEQAEHGAGDHSPMLQAQNKLFKLSSPNPFCANPEIITVHVRRFFSGISVKKDFASSIRPAFTYPDKIAFQIEERSTLKKQAQFQISPPHHAFGHTVIRPKTAPSHSMKQFKSRMTIIVVRIASYHCVVENSVPHIQWSPIEYFSSQIQIPQRRVCRNQCSPRYSIWVGNFVEQLARIHKIRRLPVYIEQTIDESEQVNRKPDSAGNRVAIVRRTDSPQRGHPRHFSWCLMGIRSIVPTYTSANFDGNGGREEIAYCLHRLRLGCGRGKSRAAPEKLAAERETKANKSSVLTGMEKEKMDQNNRKPPSLHVPAAASATFGGLASHLTIAFHSSLSLSEMHFHNDPFLLRRQAHSATKASFKLETICNSKLVRSENIQREGKGKRNEGFLGMEFEGLRNEX
Homology
[Close]
BLAST of Sgr028487 vs. NCBI nr
Match: KAF7800777.1 (hypothetical protein G2W53_044735 [Senna tora])

HSP 1 Score: 110.2 bits (274), Expect = 9.1e-20
Identity = 89/277 (32.13%), Postives = 124/277 (44.77%), Query Frame = 0 

Query: 381 RTFHRVAALAQKAFQQLLLLNPCSHESGNQQEEPPKLGPQIWQLQPLHILHTLRSLHCQL 440
           R FH   ALAQ+A Q+L  LN CSHE  NQQEEPPK       L  L     ++  +   
Sbjct: 107 RRFHHAVALAQRAVQRLECLNLCSHECDNQQEEPPK-------LMTLARKALIQLDYLLQ 166

Query: 441 RGLNHGRDEQAEHGAGDHSPMLQAQNKLFKLSSPNPFCANPEIITVHVRRFFSGISVKKD 500
           R   HGR  Q      +H+ +L      F  SSP PFCA P+IITVHV+RF SG+S+K D
Sbjct: 167 RTYQHGRTNQPY----EHNDLLLG----FNPSSPKPFCARPDIITVHVKRFLSGMSLKMD 226

Query: 501 FASSIRPAFTYPDKIAF-----------QIEERSTLKKQAQFQISPPHHAFGH-----TV 560
            ASS  P   YPD+I F           +I   ST+    Q+ ++               
Sbjct: 227 LASSKCPVLMYPDRIEFHETISFMGILLKISLASTILPNLQYNVTNALFTDNKKSDVGIP 286

Query: 561 IRPKTAPSHSMKQFKSRMTIIVVRIASYHCVVENSVPHIQWSPIEYFSSQIQIPQRRVCR 620
           I   +   H  + FK R    ++ I   HC+  N         +  FS     P +   +
Sbjct: 287 ILWNSPGKHFPEHFKCRFIKPMMHITRNHCIPGN---------LNLFSH----PIKNCWQ 346

Query: 621 NQCSPRYSIWVGNFVEQLARIHKIRRLPVYIEQTIDE 642
              S   S    + +E+LA I  + R  + I+Q +++
Sbjct: 347 CFSSSAMSANALSTLERLAGITNVGRFTIDIDQAVED 355

[Close]
BLAST of Sgr028487 vs. NCBI nr
Match: PON42951.1 (hypothetical protein TorRG33x02_334600 [Trema orientale])

HSP 1 Score: 73.9 bits (180), Expect = 7.2e-09
Identity = 37/70 (52.86%), Postives = 46/70 (65.71%), Query Frame = 0 

Query: 571 SYHCVVENSVPHIQWSPIEYFSSQIQIPQRRVCRNQCSPRYSIWVGNFVEQLARIHKIRR 630
           S H VVENS+ H Q SP +Y S  +QIP RRV  N    R ++W  NFVEQLA I +IR 
Sbjct: 5   SDHGVVENSISHAQRSPTKYLSRHLQIPGRRVGGNHRRSRDNVWFRNFVEQLAAISQIRT 64

Query: 631 LPVYIEQTID 641
             VYI+QT++
Sbjct: 65  FAVYIDQTVE 74

[Close]
BLAST of Sgr028487 vs. NCBI nr
Match: PON65205.1 (hypothetical protein PanWU01x14_119110, partial [Parasponia andersonii])

HSP 1 Score: 72.8 bits (177), Expect = 1.6e-08
Identity = 38/73 (52.05%), Postives = 48/73 (65.75%), Query Frame = 0 

Query: 567 VRIASYHCVVENSVPHIQWSPIEYFSSQIQIPQRRVCRNQCSPRYSIWVGNFVEQLARIH 626
           +R AS H +VENS+ H Q S  +Y S Q+QIP RRV  N   PR ++W  NFVEQLA I 
Sbjct: 1   MRAASDHGIVENSISHAQRSRTKYRSRQLQIPGRRVGGNHRRPRNNVWFRNFVEQLAAIS 60

Query: 627 KIRRLPVYIEQTI 640
           +IR   V I+QT+
Sbjct: 61  QIRTFAVDIDQTV 73

[Close]
BLAST of Sgr028487 vs. ExPASy TrEMBL
Match: A0A7C8ZL76 (Uncharacterized protein OS=Opuntia streptacantha OX=393608 PE=4 SV=1)

HSP 1 Score: 76.6 bits (187), Expect = 5.4e-10
Identity = 51/166 (30.72%), Postives = 79/166 (47.59%), Query Frame = 0 

Query: 473 SPNPFCANPEIITVHVRRFFSGISVKKD-FASSIRPAFTYPDKIAFQIEERSTLKKQAQF 532
           S + F   PEII V V   FS I  K            T P  I ++ +   T K   + 
Sbjct: 21  SRSSFLTYPEIIVVQVSSSFSSIPSKSSRLYHGTMQLMTLPFIICYRAQ---TTKNTTES 80

Query: 533 QISPPHHAFGHTVIRPKTAPSHSMKQFKSRMTIIVVRIASYHCVVENSVPHIQWSPIEYF 592
           +           +IRPKT   H  KQF    TII++ ++  H ++ +++ + +W  I+  
Sbjct: 81  E-----------MIRPKTIAQHLRKQFNGGSTIIIMVVSCNHGIITHNITNTKWGFIKNP 140

Query: 593 SSQIQIPQRRVCRNQCSPRYSIWVGNFVEQLARIHKIRRLPVYIEQ 638
              +++P   V R  C  R++IW+GNFVEQ+A + +I  L V I Q
Sbjct: 141 PRLLELPHTTVRRYHCGHRHNIWLGNFVEQVACVPEIVGLTVDINQ 172

[Close]
BLAST of Sgr028487 vs. ExPASy TrEMBL
Match: A0A7C8ZJ91 (Uncharacterized protein OS=Opuntia streptacantha OX=393608 PE=4 SV=1)

HSP 1 Score: 76.6 bits (187), Expect = 5.4e-10
Identity = 51/166 (30.72%), Postives = 79/166 (47.59%), Query Frame = 0 

Query: 473 SPNPFCANPEIITVHVRRFFSGISVKKD-FASSIRPAFTYPDKIAFQIEERSTLKKQAQF 532
           S + F   PEII V V   FS I  K            T P  I ++ +   T K   + 
Sbjct: 21  SRSSFLTYPEIIVVQVSSSFSSIPSKSSRLYHGTMQLMTLPFIICYRAQ---TTKNTTES 80

Query: 533 QISPPHHAFGHTVIRPKTAPSHSMKQFKSRMTIIVVRIASYHCVVENSVPHIQWSPIEYF 592
           +           +IRPKT   H  KQF    TII++ ++  H ++ +++ + +W  I+  
Sbjct: 81  E-----------MIRPKTIAQHLRKQFNGGSTIIIMVVSCNHGIITHNITNTKWGFIKNP 140

Query: 593 SSQIQIPQRRVCRNQCSPRYSIWVGNFVEQLARIHKIRRLPVYIEQ 638
              +++P   V R  C  R++IW+GNFVEQ+A + +I  L V I Q
Sbjct: 141 PRLLELPHTTVRRYHCGHRHNIWLGNFVEQVACVPEIVGLTVDINQ 172

[Close]
BLAST of Sgr028487 vs. ExPASy TrEMBL
Match: A0A2P5B2F4 (Uncharacterized protein OS=Trema orientale OX=63057 GN=TorRG33x02_334600 PE=4 SV=1)

HSP 1 Score: 73.9 bits (180), Expect = 3.5e-09
Identity = 37/70 (52.86%), Postives = 46/70 (65.71%), Query Frame = 0 

Query: 571 SYHCVVENSVPHIQWSPIEYFSSQIQIPQRRVCRNQCSPRYSIWVGNFVEQLARIHKIRR 630
           S H VVENS+ H Q SP +Y S  +QIP RRV  N    R ++W  NFVEQLA I +IR 
Sbjct: 5   SDHGVVENSISHAQRSPTKYLSRHLQIPGRRVGGNHRRSRDNVWFRNFVEQLAAISQIRT 64

Query: 631 LPVYIEQTID 641
             VYI+QT++
Sbjct: 65  FAVYIDQTVE 74

[Close]
BLAST of Sgr028487 vs. ExPASy TrEMBL
Match: A0A2P5CVY6 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_119110 PE=4 SV=1)

HSP 1 Score: 72.8 bits (177), Expect = 7.8e-09
Identity = 38/73 (52.05%), Postives = 48/73 (65.75%), Query Frame = 0 

Query: 567 VRIASYHCVVENSVPHIQWSPIEYFSSQIQIPQRRVCRNQCSPRYSIWVGNFVEQLARIH 626
           +R AS H +VENS+ H Q S  +Y S Q+QIP RRV  N   PR ++W  NFVEQLA I 
Sbjct: 1   MRAASDHGIVENSISHAQRSRTKYRSRQLQIPGRRVGGNHRRPRNNVWFRNFVEQLAAIS 60

Query: 627 KIRRLPVYIEQTI 640
           +IR   V I+QT+
Sbjct: 61  QIRTFAVDIDQTV 73

[Close]
BLAST of Sgr028487 vs. ExPASy TrEMBL
Match: A0A7C8ZKS8 (Uncharacterized protein OS=Opuntia streptacantha OX=393608 PE=4 SV=1)

HSP 1 Score: 70.1 bits (170), Expect = 5.1e-08
Identity = 34/94 (36.17%), Postives = 56/94 (59.57%), Query Frame = 0 

Query: 544 VIRPKTAPSHSMKQFKSRMTIIVVRIASYHCVVENSVPHIQWSPIEYFSSQIQIPQRRVC 603
           +IRPKT   H  KQF    TII++ ++  H ++ +++ + +W  I+     +++P   V 
Sbjct: 47  MIRPKTIAQHLRKQFNGGSTIIIMVVSCNHGIITHNITNTKWGFIKNPPRLLELPHTTVR 106

Query: 604 RNQCSPRYSIWVGNFVEQLARIHKIRRLPVYIEQ 638
           R  C  R++IW+GNFVEQ+A + +I  L V I Q
Sbjct: 107 RYHCGHRHNIWLGNFVEQVACVPEIVGLTVDINQ 140

The following BLAST results are available for this feature:
BLAST of Sgr028487 vs. NCBI nr
Match NameE-valueIdentityDescription
KAF7800777.19.1e-2032.13hypothetical protein G2W53_044735 [Senna tora][more]
PON42951.17.2e-0952.86hypothetical protein TorRG33x02_334600 [Trema orientale][more]
PON65205.11.6e-0852.05hypothetical protein PanWU01x14_119110, partial [Parasponia andersonii][more]
BLAST of Sgr028487 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Sgr028487 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A7C8ZL765.4e-1030.72Uncharacterized protein OS=Opuntia streptacantha OX=393608 PE=4 SV=1[more]
A0A7C8ZJ915.4e-1030.72Uncharacterized protein OS=Opuntia streptacantha OX=393608 PE=4 SV=1[more]
A0A2P5B2F43.5e-0952.86Uncharacterized protein OS=Trema orientale OX=63057 GN=TorRG33x02_334600 PE=4 SV... [more]
A0A2P5CVY67.8e-0952.05Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1... [more]
A0A7C8ZKS85.1e-0836.17Uncharacterized protein OS=Opuntia streptacantha OX=393608 PE=4 SV=1[more]
BLAST of Sgr028487 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 719..755

Relationships

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

Feature NameUnique NameType
Sgr028487.1Sgr028487.1mRNA