Sgr020910 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr020910
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionVacuolar fusion protein MON1 homolog
Locationtig00153577: 204807 .. 218853 (+)
RNA-Seq ExpressionSgr020910
SyntenySgr020910
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTCTTCTGGGTTGAGTTCACTATCATCCAGCGACGAACACGATGATTTCAACCCTAAACCAATACCTACTCCGCCACCTAAACCTCTCGAAGAAGAATTGGCGTCTCTAGCATTGACCCTACCCCATGCCCAGGTGCTCTCAGACCCAGAGGATGCCAATGGTGTCTCAAACGGATCCGCGACAGATGGGTCTCGGTTTGGAATTCGACACAATGATGAGGAGATGAGGGCCGGTGTAGTTCATGAAGAAATTGTTGTGGGAAACTCGGCTTCGGTATCTGTTGTAACTGGGGTGGTTGAGGAATCGACGGAGAGTTCGGTGCGAGGTGGTGTTGTGTGGGGGAGGACCAATTCGGAGATTGAGGTGGATAGACCGTCCAGTCCTAGCAGCAGTGGGTATGCTGGTGAAAGAGGAAGCAGCAGTGCTAGTAGCGGTAGGTCGGAGATGTACGGGATTGCTGAGGATGAAATACAGGAACTAAGAGATGACGCTTCTGTTGGTGAGATATCGAATTCTCTACCGTCTTGGGTTCCTGGAAAGCGGCATGGTAATGAGGATGATGCTTCCATATTGTGGAGAAAAAGGAAGAAGCATTTCTTTATTCTGAGCCATTCTGGAAAACCTATTTATTCCAGGTACGGAGACGAGTACAAACTAGCAGGATTTTCAGCCAGCTTGCAGGCAATCATTTCCTTTGTGGAGGATGGGGGTGATCGTGTCAAATGGGTTAGAGCTGGAAAACATCAGGTGGTCTTTCTTGTGAAGGGTCCAATTTACTTGGTTTGCATCAGCTGCACAGAAGAGCCTTATGAATCATTAAGAGGCCAGTTGGAACTTCTTTATGGTCAGATGATACTTATTCTAACAAAGTCTGTAAATAGATGTTTTGAGAGAAATCCCAAGTTTGATATGACTTCTCTTCTTGGAGGAACAGATGTTGTCTTCTCCTCGCTCATCCATTCATTCAGTTGGAACCCTGCAACTTTTCTTCATGCATACACTTGCCTTCCTCTTGCTTATGGTACAAGACAAGCTGCAGGTGCAATATTACAAGATGTTGCTGATTCAGGAATTCTTTTTGCAATTTTGATGTGCAAACATAAGGTTATCAGTCTTGTTGGTGCCCAAAAAGCTTCTCTTCATCCCGATGATATGTTACTACTTGCCAACTTTGTGATGTCGTCAGAGTCCTTTAGGACATCCGAGTCTTTCTCTCCAATATGCCTTCCAAGATACAATCCTATGGCATTTTTGTATGCCTATGTTCATTATTTTGATGTTAACACTTACTTGACGCTCCTTACAACTAATTCGGATGCCTTCTATCACTTAAAGGAATGCAGGATTCGTATTGAAACTGTCCTTTTGAAGTCGAATGTTCTTAGTGAAGTTCAGAGATCCATGTTAGATGGTGGGATGCATGTTGAAGATTTGCCTGCTGATTCTTTACCTCGTTATAGAACTATATCTCCTCATTTGGGCCAACAAAGAGCTCCATCAGAACTTCCTGAAAGATTGAAGGAATCTTATGCTGGGATAGGTGGTCCTGGTGGACTCTGGCATTTCATTTACCGCAGTATATATCTGGATCAATACGTATCTTCTGAATTTTCATCACCAAGTAGCAGTCGTCAACAACAGAAGAGATTGTACAGAGCATACCAAAAAATTTATGCTTCTATGCATGATAAAGAAATTGGCCCTCACAAAACCCAGTTTAGAAGAGATGAAAACTATGTTCTACTTTGCTGGGTCACCCAAGATTTTGAGCTTTATGCAGCATTTGATCCTTTGGCTGATAAGTACTACTCTGATTATGATCCTTCTCGTATTGAGATGGTGAGATCTGTTGGAAGGTTTTCTGAATCCTACTTCATAATGAAGGAAATTTTGTCAGGCCGGTTGTTTGTGCTTAAGATAATAAGGATTTTTGTAGGATAG

Coding sequence (CDS)

ATGTCTTCTGGGTTGAGTTCACTATCATCCAGCGACGAACACGATGATTTCAACCCTAAACCAATACCTACTCCGCCACCTAAACCTCTCGAAGAAGAATTGGCGTCTCTAGCATTGACCCTACCCCATGCCCAGGTGCTCTCAGACCCAGAGGATGCCAATGGTGTCTCAAACGGATCCGCGACAGATGGGTCTCGGTTTGGAATTCGACACAATGATGAGGAGATGAGGGCCGGTGTAGTTCATGAAGAAATTGTTGTGGGAAACTCGGCTTCGGTATCTGTTGTAACTGGGGTGGTTGAGGAATCGACGGAGAGTTCGGTGCGAGGTGGTGTTGTGTGGGGGAGGACCAATTCGGAGATTGAGGTGGATAGACCGTCCAGTCCTAGCAGCAGTGGGTATGCTGGTGAAAGAGGAAGCAGCAGTGCTAGTAGCGGTAGGTCGGAGATGTACGGGATTGCTGAGGATGAAATACAGGAACTAAGAGATGACGCTTCTGTTGGTGAGATATCGAATTCTCTACCGTCTTGGGTTCCTGGAAAGCGGCATGGTAATGAGGATGATGCTTCCATATTGTGGAGAAAAAGGAAGAAGCATTTCTTTATTCTGAGCCATTCTGGAAAACCTATTTATTCCAGGTACGGAGACGAGTACAAACTAGCAGGATTTTCAGCCAGCTTGCAGGCAATCATTTCCTTTGTGGAGGATGGGGGTGATCGTGTCAAATGGGTTAGAGCTGGAAAACATCAGGTGGTCTTTCTTGTGAAGGGTCCAATTTACTTGGTTTGCATCAGCTGCACAGAAGAGCCTTATGAATCATTAAGAGGCCAGTTGGAACTTCTTTATGGTCAGATGATACTTATTCTAACAAAGTCTGTAAATAGATGTTTTGAGAGAAATCCCAAGTTTGATATGACTTCTCTTCTTGGAGGAACAGATGTTGTCTTCTCCTCGCTCATCCATTCATTCAGTTGGAACCCTGCAACTTTTCTTCATGCATACACTTGCCTTCCTCTTGCTTATGGTACAAGACAAGCTGCAGGTGCAATATTACAAGATGTTGCTGATTCAGGAATTCTTTTTGCAATTTTGATGTGCAAACATAAGGTTATCAGTCTTGTTGGTGCCCAAAAAGCTTCTCTTCATCCCGATGATATGTTACTACTTGCCAACTTTGTGATGTCGTCAGAGTCCTTTAGGACATCCGAGTCTTTCTCTCCAATATGCCTTCCAAGATACAATCCTATGGCATTTTTGTATGCCTATGTTCATTATTTTGATGTTAACACTTACTTGACGCTCCTTACAACTAATTCGGATGCCTTCTATCACTTAAAGGAATGCAGGATTCGTATTGAAACTGTCCTTTTGAAGTCGAATGTTCTTAGTGAAGTTCAGAGATCCATGTTAGATGGTGGGATGCATGTTGAAGATTTGCCTGCTGATTCTTTACCTCGTTATAGAACTATATCTCCTCATTTGGGCCAACAAAGAGCTCCATCAGAACTTCCTGAAAGATTGAAGGAATCTTATGCTGGGATAGGTGGTCCTGGTGGACTCTGGCATTTCATTTACCGCAGTATATATCTGGATCAATACGTATCTTCTGAATTTTCATCACCAAGTAGCAGTCGTCAACAACAGAAGAGATTGTACAGAGCATACCAAAAAATTTATGCTTCTATGCATGATAAAGAAATTGGCCCTCACAAAACCCAGTTTAGAAGAGATGAAAACTATGTTCTACTTTGCTGGGTCACCCAAGATTTTGAGCTTTATGCAGCATTTGATCCTTTGGCTGATAAGTACTACTCTGATTATGATCCTTCTCGTATTGAGATGGTGAGATCTGTTGGAAGGTTTTCTGAATCCTACTTCATAATGAAGGAAATTTTGTCAGGCCGGTTGTTTGTGCTTAAGATAATAAGGATTTTTGTAGGATAG

Protein sequence

MSSGLSSLSSSDEHDDFNPKPIPTPPPKPLEEELASLALTLPHAQVLSDPEDANGVSNGSATDGSRFGIRHNDEEMRAGVVHEEIVVGNSASVSVVTGVVEESTESSVRGGVVWGRTNSEIEVDRPSSPSSSGYAGERGSSSASSGRSEMYGIAEDEIQELRDDASVGEISNSLPSWVPGKRHGNEDDASILWRKRKKHFFILSHSGKPIYSRYGDEYKLAGFSASLQAIISFVEDGGDRVKWVRAGKHQVVFLVKGPIYLVCISCTEEPYESLRGQLELLYGQMILILTKSVNRCFERNPKFDMTSLLGGTDVVFSSLIHSFSWNPATFLHAYTCLPLAYGTRQAAGAILQDVADSGILFAILMCKHKVISLVGAQKASLHPDDMLLLANFVMSSESFRTSESFSPICLPRYNPMAFLYAYVHYFDVNTYLTLLTTNSDAFYHLKECRIRIETVLLKSNVLSEVQRSMLDGGMHVEDLPADSLPRYRTISPHLGQQRAPSELPERLKESYAGIGGPGGLWHFIYRSIYLDQYVSSEFSSPSSSRQQQKRLYRAYQKIYASMHDKEIGPHKTQFRRDENYVLLCWVTQDFELYAAFDPLADKYYSDYDPSRIEMVRSVGRFSESYFIMKEILSGRLFVLKIIRIFVG
Homology
The following BLAST results are available for this feature:
Match NameE-valueIdentityDescription
XP_022152925.12.3e-30589.46vacuolar fusion protein MON1 homolog [Momordica charantia][more]
XP_008462534.18.7e-30589.04PREDICTED: protein SAND [Cucumis melo][more]
XP_004139448.11.9e-30488.70vacuolar fusion protein MON1 homolog [Cucumis sativus] >KAE8652778.1 hypothetica... [more]
KAG6583584.16.2e-30388.23Vacuolar fusion protein MON1-like protein, partial [Cucurbita argyrosperma subsp... [more]
XP_022964973.11.8e-30288.06vacuolar fusion protein MON1 homolog [Cucurbita moschata][more]
Match NameE-valueIdentityDescription
Q9SKN12.1e-20062.48Vacuolar fusion protein MON1 homolog OS=Arabidopsis thaliana OX=3702 GN=MON1 PE=... [more]
Q5JL081.4e-19371.49Vacuolar fusion protein MON1 homolog OS=Oryza sativa subsp. japonica OX=39947 GN... [more]
Q17QV22.3e-5831.22Vacuolar fusion protein MON1 homolog A OS=Bos taurus OX=9913 GN=MON1A PE=2 SV=1[more]
Q95KG93.0e-5830.32Vacuolar fusion protein MON1 homolog A OS=Macaca fascicularis OX=9541 GN=MON1A P... [more]
Q6PDG85.1e-5830.53Vacuolar fusion protein MON1 homolog A OS=Mus musculus OX=10090 GN=Mon1a PE=1 SV... [more]
Match NameE-valueIdentityDescription
A0A6J1DFB61.1e-30589.46Vacuolar fusion protein MON1 homolog OS=Momordica charantia OX=3673 GN=LOC111020... [more]
A0A1S3CIR54.2e-30589.04Vacuolar fusion protein MON1 homolog OS=Cucumis melo OX=3656 GN=LOC103500868 PE=... [more]
A0A6J1HMH28.7e-30388.06Vacuolar fusion protein MON1 homolog OS=Cucurbita moschata OX=3662 GN=LOC1114649... [more]
A0A6J1I5525.9e-29986.74Vacuolar fusion protein MON1 homolog OS=Cucurbita maxima OX=3661 GN=LOC111469307... [more]
A0A660KT033.3e-25776.88Vacuolar fusion protein MON1 homolog OS=Carpinus fangiana OX=176857 GN=FH972_011... [more]
Match NameE-valueIdentityDescription
AT2G28390.11.5e-20162.48SAND family protein [more]
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR004353Vacuolar fusion protein Mon1PRINTSPR01546YEAST73DUFcoord: 354..367
score: 17.86
coord: 582..596
score: 50.0
coord: 216..236
score: 27.78
coord: 198..215
score: 59.26
coord: 378..394
score: 36.27
coord: 431..457
score: 29.63
coord: 250..264
score: 37.78
coord: 301..313
score: 37.18
coord: 330..351
score: 28.03
coord: 403..426
score: 45.14
IPR004353Vacuolar fusion protein Mon1PANTHERPTHR13027SAND PROTEIN-RELATEDcoord: 22..603
IPR043971FUZ/MON1/HPS1, second Longin domainPFAMPF19037Fuz_longin_2coord: 359..450
e-value: 3.2E-18
score: 65.6
IPR043972FUZ/MON1/HPS1, first Longin domainPFAMPF19036Fuz_longin_1coord: 198..319
e-value: 5.5E-26
score: 91.2
IPR043970FUZ/MON1/HPS1, third Longin domainPFAMPF19038Fuz_longin_3coord: 519..603
e-value: 9.5E-14
score: 52.0
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..30
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 42..67
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 121..148
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 119..148
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 51..65
NoneNo IPR availablePANTHERPTHR13027:SF16BNAC04G15860D PROTEINcoord: 22..603

Relationships

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

Feature NameUnique NameType
Sgr020910.1Sgr020910.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006623 protein targeting to vacuole
biological_process GO:0016192 vesicle-mediated transport