Sgr016693 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr016693
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionChorein_N domain-containing protein
Locationtig00152985: 1145984 .. 1169221 (-)
RNA-Seq ExpressionSgr016693
SyntenySgr016693
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.
GTCGTGTGGGGAGGTTAAGCATCAAGATTCCATGGAAAAAGCTTGGATGGGATCCGATCATTATTATTTTGGAGGATATATATGTTTCTGCATCTCAACGAGATGATGAAGAGGTAATTATTATTGCTATATTTTTTTTTGACAGCAACAAGTAAATTTATTATGATAAGAAAGTAGAAACTTTTCATTAATGTTATGAAAAGTATAAGGAAAGAGGCAATTATTTCAGAATTATGGTGTGAGAGAAATCAAAGTCTATTTGAAGACAAATGTACCATGTGGGTATGAGAGAGTTGATGTAGCTAACTATGAAACATCCTCTTGGTGTTCTTTATCTTCTCTTTTTTGCAACTTTTTTTTACGGGATATCTTGTGTAATTGGGGATTATTTTTTTGAAAAGGAAACAAGACTTTTCATTAAAAGATCTAAAAAGGAAACACCAAATAGTCTACAAAGAGTAGACTACAGCATAACACCAAATTACAAAACAGAAGAAAAAGGCATTACAGAAAGATATTCAAGAAAGAGAAACCCCCCAATTGTTACAAAAGTCGTGAAAGGAGTAGCCAACAAAACTTTGGATAGGGAACACCATCTTGCAGCTTTATCTAGATTAACTCGAGACGATTTTCCCATGATAAAGACTTAGCTTCAAACACTCTTTGATTTCTCACAAACCATAAATCTTAGAGGATTGCCTTAGGGATGATGATCCAAAGCACCTTAGCTTTCTTAGGAAAAGGAGGACCGCAAAGAAGCTACTGAACACATTTGTGAGTGAAAGAACCCAAATAATCAAGAATCCAAGATTTCGTTGGATTGATTCCACAAATCTGAAATATAGCCATTAGGATTGGAAGCGATTCTGCAGATAGATGGAAAACTATCCATGGGAGGAGAAGAACCAGATCAAGAATCTTTCCAAAAAGAAATCTTGGAGCCACGACCCGCTTTGAAAAAGGAAAAAGGATCAACAATGCCTTGAAGCTTTCTAATATTCATCCAAGGATTTCTCAAGCTGCCGTTTTTCTGATTTTGGAAGACCAACTCTTTGTTCTTCCAGACTCGAAGGAATATTCATGAGACCATCTACTGAATTAAAAACTCCCCCAAAACACCAAGGATATTCAAAATTCACGATGAGGAAACTGAGATATTGCCATAATAATTTTCTTTCCCTGTGGACAGAGGGACCATAGATGTTTGTAATCCAAGCTTCTTGTGAACTAGCAAAAAGAAGACTTATAGAAAGTGAATAACCTCCCTTTAATACTTCAAGAGCCCTAATGATGATTTCATCCCAAAGAGATAGCATCCCACCTGATCTTCCAAGAGAATCAATGGCTGACCAGCCTATATCTTTAGAGCTCCAAATGGATTTGATAAGCTTGACTATTTTCTCGAGTTTTGACTCCTGAAAAAGAACAATATCTGGGCAAACTTTCAAAATCAAACGTTTAATGAGAATTCTTTTGCTTTTGTCTCCTAAACCTCTCGTATTCCACGAGAGGAAATTCATATCTGTTGAATACTTCTGATCAAGAAGGAATAGGGACTAAGGACATCCCAAATTTTTCAAAAAGAGAGACTAACTTTGACTTTCTGAAATCTGAAGGTGTCGAATGAGCTTCTCTTCTAGTATGGTTAGAGTTAGGCCAAGGAGACTTAATAGAAATATCATCATTGCAATTGTTTTCAGCAAAAAGAGTCCTTAGATCTTCCCCGAGATTCAAATCTTCTTGAAATAAAGGGAATTCCTGCGTGATTGGAAGCTGATAATCAACCTCACAACTGCTCAAACTTACTGCATGGTCCTCTTCAAAATCTGAGTTGTCAGACTCAGAAAGGTGATTAATTATTGGATAGGAAGCTGAATGATTGGTCCCTGGATCTAAAGAGCATGATGTGCTGGATTCATGCTTCTTATTAGATGCATTAAATGCTACGGATTCCTTAAGATTTAAATTCAAATTTCCCGACAATAAAGGCGGTTTGGCTGGCAAAACATCTTTCAAAACGTCTTTTGGAGCTTCTAATAAAGAAGCAATTATTACCTCCTTTAATGGCGTTGGTTGAGGTTGTTGGCCAGCTGATGACATTTCATCTTTCTTTTCGTTATACAAACCATCATTAAATAATCCTCCATCCTCTTAACAACTCTGGAACTTTTAATGCTGGAATCTTTTGGAATTTTCTTCTATGGTACGAAAAAGGGAGGGCCTTAATTAAAGACCTCTTAAAAAACTTTCTGTAAGGAGATAAATAAGGATCTTTTAATCTCCTTTCTCTCTGATCATTGCATGAAGAGTCTTTTGGACTTCCAACCGAAGCATCCTCACGGTTATTAAAAGGAGTTGTATTAATTACCTCTGTTGGCATGTGGGAAAAAGACCGAGAAGGAATACGAACCGGCTGCTTACCAGATTCATTAATGAAGGATGTGATCTTTTCACCTTCTTTATCTTCCAAATACTCCTTATTTATGGGCGCCTCAAAGAAGGGAGACTGTTCATCTTCTACCACCTTTTGAATTCTTTCAACATCAATATTATTGAAGAAAATTCTTGGATCCAACTTTCTTGAAGCCACGGTTTTCATTGCCATTGATGCAAGAGATAAGTTCGTATCACAACAATTCGATACTCGGACTGAGAAATTTCCCAACTTTGGATCGGTGATTTCAACGTATGATGGGAGAAATCCACATAAGTTCGTGTTTACTTGGATGATAGCTTCAGTACAATCAAGCAAATTTAGGGGTTTGGTAAAAATACTGACCAAACCACCAAAATTGCTTCCTAAAGCTTCAGGACAATGGCGATTCCAATACTTTAAAGGTAAATCACGAATTTTAATCCAACCTCCATACCCAACAATGACCTCTTTTCTGCTGTGCTTACTAAAATTTCACTTCTCAATTTTTAGATGAAAGCTACCAACTTTCCTCCATTTATCTCCCAAATTTCTCAACACCCTTCCATCTGAAAATTTCATTATGGCCTTACCTGCCATAAATGGATTGATACTGCATTGTGAAGAGAATTCCTTCTTAAGAACTAAGGAAATATCATTCCAATTGTCATGTGCATATAACTTAGTGATAACCATAATATTATCCCAATCAAATTCAACTACTTCAGATGCCTTCTTAACCCAATAATCTTACTTCCCCTTCATATTTTCCTTTGCTACCCTTGCCAAATTTATTGGATTAGTTAGCAAGCTTTTTGAAGCTTCATCCGAGGCTTTTCCTTTCAATACATCAGCATAAGAATCACCAGAGTGTATAACTGTGACCTTCTGGTTATCAATCAACATCCTTTCATAATACTTGGACAGAAAATCCTTCAGCATATCCCAGAATTCAAGCCAACCTTTCTTATTGTGATCTACTGGAACAACAGTACTCTTTCTACCTCCAGAAGAAGGCCATATGACACATTTCAAATACCAACTATTCTTGATACGGAATTTGTGAATATGGCAAGTTCCTAAAGGGAGTCTTTCATGTCTGATAAACCGAAGAGAATAAACTTGAAATTCTACTAGAGATTTTTTTTTTATATCCGTGAGTGTTCGGGCTAGCTTGTGTGCATTTTGACTAATCTCACAAAACAACCATGGACCCTATAGCATTTAGTTTTCAAGAAAACTCGTAGGATTTTAGATCTTAGGTAGGTGGTTACGATGGTTTGAATCCATTCCGTCCAAGCCCTTTTACCTTTTTCACGGTGTCTATGACCACTAGATCAACCCATGGTGGTTTCTACCATAGATATTTGTAACCTTTTAGGGTTTGGATATTTTTTTAATCCATGAGTGTATGGGCCAACTTATGTGCATTTCGACTAATCTCACGGAACAACCGCTTAGACTTTACAATATTTGGTTGTCATGAAACTCATTGGATTTCAATATCCTAGGTAGGTGGCCACCATGAGGTTTGAACCCTTCCCCTCAAAATCCCTTTACTTTTTTGACATGCTCCAATGCTACTAGGCCAACCTAAAGTGGTTGTGTTTGTGGCATTCCATAGTAGTTGGTTTGAATTATCTTTTTGTATAAGGGATCCTTTTACACTTCTTAAAGGGGCGTATTGTTTAATGAAAAATTATGTTTCTTCTTAAAAAGGTATAATAGGATGGAGAACAAAATAAACCCCTAAAGTGTAAAGGGTAGCTGCTTCAAGATGTGTTAATTGCAAAATAAGCGTATATTGAAAGGGATATTTTTTTATTCTCTCTCACACACATACTCTCTCTATATTGCTTCAAGATGTGTTAATTACAAAAGAAGTGTATATCGAGATAGTTATTTTTTTGGTTTGAATTTCATTTTGGTCCTTGAATCTTTAAGTTTATTCTATTTTGGTTCTTAAACTTTTAAAATGTACTTTATCCACTAAACTTTATAAAAGTAACCATATTTGGTCCTTGTTGTTATAAGGCCATCAATATTTGCCCACCATTTTGCCACCTGGGTTAGCCTATATGGCTTCAATACATGTACATCAACATGGTAAAACACACATTCAAAATCACGTCATCCATTGGTTAACAAATTGATAGAAAAATAACGGCAAAGACGAAAATGGTTATCTTGAATGTTAGGGGCAAAAATAGATATTTTAAAAGTTTATGGATCAAAAAGAATAAACTTGAAAGGTCAAGGTCCAAATGAGATTTAAACCTAATTCTCTTTCTATATAAACATACACATTTATTTATTTATATTTATGTTGTGGGTGGTGTAAGAAAATTGAGAACATTTTTGATGACTAGGAGTGTATATTGGGGGGATGTTTGAAATGTTGTGCATTTCAATTTTCTTTTTTTGGACTTCTATTTCTAGTTTATTTTAGTATATTCCCCCTTTTTTGGGCTCTCCCTTTGGTGGACTAAACTCAAATGACACCTGCAATCTTCAACCAAATTGGTGTTGTTTATGTTAAAGAAACTTGGAAGATGCTAACCGCCTTTTTATGGGTTCTCCATTTGCTTCCTCTCTTTGTATTAGGTTGGTTCCTCTCCCTAGCTGGGTTATTCATGGCTGCTGGAGGTCCATAAGAATTTAAAGAACAACTCTGGTTTAATGGCTTTTTTGCATTTCTCTGGGCAATTTGGACAGAAAAAAAATAAGAGAATTTTCAATGATAATCAGAACCAACTTTGGGTTTTGCTTGTGTTCTTTCTTCTTCTTGATGTGCCAAGTCTAAGTTTGATTGTTTGTTTGTAATTACCTTTTCCTACTTTTTTCTACTGTATCGGCCAAATGGAGACCTTTTTTGAAACTCCTTTGGTCCTCCCCTTTGTATATTTCATATCTCAATAAAATAACTGTTTCTTATAAAGAAACTATTGAATAAACGTGGGCGTTTATTAAAGAGAATGAATAATTTAAAAAGTATTATCCCCTGCAAATTTTCTGGACATCTTCTTCTTTGTTATAGTGGAGCTCAGATGCGGTTGAAAAAAGAGAATTTGCTGGGAAGAAGGCCAAAATTGCTGCTGCAGAGCTGGCAAAATTATCAAGGCGTGTATGTGGTGAGGTCCTTGACTTCCATTCAATGCATTGGCAACGTCTTTGTGTGATTCATTTACGTGCCATTTATGGATTTAAATCTATTCTCTTTTCATTGGTTTAGAATTTTCTACTACATATTTACATTTTGCTTTCTTTTCACTCCTTTTAGGAGTTTGTTTCCTTTGAACATTTTGTATCTTTTCATTAATTCAATGAGAAGTTCGTTTCTTGTTAAAAAAAGGGCTAAATGTATGTTTTAGTCCTTAATATTTGGGTGTTTTTTTAATTTAGTCCCTAATGTTTAAAAAGTTTCAATTTGGTCTCTTATGTTTTAACATTTTTCAATTATACCCTTCACGGTGGTGAATATTAAAATTGACGGATGATAAACTTTCATGACAGAATACTTAGTGAGTTAGGAAAATTTAGAGGAGGAATTAGGCACATAGAACAAGAAAAATTGAAATTTCTACCAATTTAGAAATTTGGAGGAGGATTTTGAAATTTTCTTCTTTTAGGTGGCCTAATTTCTCCCTTAAATTTCTACAACTCACCAAGTATAATGTTATGTAAGTTTATCATCCGCCAATTTTAATATTCATTATGGGAAGGGTATAATTGAAAAATATTGGAACATAAGGGACCAAATTGAAAATTTTAAAACAAGAGGGACTAAATTGAAAAAACACCCGAACATTAGGGACTAAAATATATATTTAGCCAAAAAAAAAAAGGCTTTGATAACACTTCCACAAAGTTTGCTCGACTAGAAGAAGAAAAAGCTTTATATATGAGTTAATTGATTCAATTGGCAAGTGCATTCGAAGCTTAAATTGTTTCCTTTTTCTCCATCCCTTTTTTTATTAGGAAACGGTTTTCATTGATAAGATGAAATGTACAAAAAAAAGCCATATTGAGAGAATACTCAATGTAGTTTGTATATATATATATATATATATTTAACAAGAAACGAACTTTTCAGTGATAAATGACAACATAAAATGTCCAAAGATACAAACTTCCATTTGGGATTGAAAAGCATAAAAAAAAAGAAAAAAATTCTAATGAGGAGATATGAATGCTCCCCGATTTGAACAAATATCACGATGAGAATAATTTACAAATAAAGGGGAAAGAAGACACCAATAAGAGGCTTTAATCTTGATGAACTCAATCCTTTCCTGCCATGTAGAAAACTTCTCTTCAAAAATTATTTAGTTTTGTTCAAATCAAATTTCAGAAATGGTTGCCTTCATCGCGTTAATCCATAACAGTTGTGCTTGAGATGAAAGAATAGGATATAGAGCAAATGAACAACATTTTCTTTTGAGTCTATAAAAACCCAATGAAGATTGAAAATACCGAGATGAAGTACCATAATGCCATCGAATAAGGGCAATGAAAGAAACCATGATTTTGGTTTTCAAAGTCTGAAAAGCAGAGAGGACAAACCGGGGGAGACAACAAAGTAGAAGATAACTTTTTCAAAATTTCTGCTGTATTAACTCCTTTATTTAAGAAAATCCATATGAAAATGTTGATCTAATTTCTAAATTATCTTAGTCAAATCTTCCTGCCAAATAGAGGAGGAATAGAAAGAGGGAATTTATCGATGACAAGTCAGAAGAATTCAGCCATATATATTGGTATACATGGGACCCTAAACTAAAGAATGTAAAATTACTATAAAGGTCAAAGCTACTAATAAACTTTTAGATCTAAGATAATTCTACTAATACACATAATATTATATAGGTTTAAATACTGTTTTGGTCCTTGTACTTTGAACTTTTGTTCATTTTGGTCTATGTACTTTTAAAACGTCCATTTTGGTCCTTGTACTTTCAACTTTTGTCTATTTTGGTCCTTATTCTTTCAACTTTTGTCCATTTTGGTTTCTGTACTTTCAAAATATCCATTTTGGTCCTTATACTTTTAAAAAGTAACTGGTTTGGTCCCTATTTGCATAATGCCATCACAAATTCTATATATAACGAAAATCCTTTATTACAAAGCTATGACAATATTTCAAGAAGTTTATTGAGTATATTGTTATGTTTTTTTTTTTCCGATAAGAAACAATTTCATTGATGATATGAAATTACAACGAAGGGTGTATGAACCCCAATCCAAAGGTGTTGCAAAAAACATCTCCAATTGGACAAAAGTGAAGAGAAGCTATAGTGATGGAAGAGAGGAGACCATTTACACCAAGTAATAGCCAAAAAAACGATAGCGTAAAAAAAATGACCATAGGAGAGCTCCTTATCTTTTTTTTTTTGAAAAGGAAACAAAACTTTTCATTAATAATTAAAAAGCTAAAGAATAGTACAAAGAAGCATTGTCTACAAAATGTAGACTAAAAGCAGAATGAACAAAAGAAAAGCAATAGAGGGGGGAAAAGGAAACTATCCCTATAAGAAAGCCCCCCAATTATTACAAATGTCATTAAGAGAATAGCCATCAAACTCTTTAGATAAGGAACACCAACGTGAAGCTTTGATCTTGATTAATTCAAATCGATCTTTCCAATCGAGAGACTTATCTTCAAAAATTCTTTGGTTTCTTTCGAACCAAAGATCCGAGAGAATTGCCTTGGAAACGTTAATCCATAGCACCTTAGCTTTTGTAGAGAGAGATGGACCATATAGAAGATGTTGAACATTGGAACTTGAATCCAAACCAAATACCCAGCAAGTATTGAATTGCACAAAAAGGCACACCAACATCGATAAGAATATGGACAATGGAACAAAATGTGATTTTGGGACTCAGAATTATTCATGCAAAAAGGACAAACTGAGGGAGATAACGCCGAAGAAGGTAGTTTCCTTTGAAGTCTATCCGAAGTATTGAGACCTCCATATAGCAAAATCCAGATAAAAAAATTAATTTTCTTTGGACTTTTGGATTTCCAAACTGCTTCAAACAAATAAGGAGGCATAGAAGATCCGTTTGAAAGCTGTTGGAACAAAGAATTTACTGTGAAAGAGCTCGAAGTATCTAACAACCATGATTTCCTATCATCTCCATCTTTTAATAGAACCTTATCTATTAGAAGCATAAAAGAGCAAAAAAGCTTAATCTCCTCATCCTTTAGATTCCTTCTTAGAGTTATATTCCAAGATTGGCTGCAATGATTCCACAAATCAGAGATAGAACCATTTGGGTTGGATGCAATTCTTTAAATTGAGGGAAAGCTAGACAACAATGATGAAGATCCAATCCAGACATCTTTCCAAAAGGAAATTCTGTTACCACTGCCCACTTTGAAAATAGAGAAGGAATCAACCATGCCTTGAAGCTTACTAATACTCAACCAAGGGCTTCTCGAACTACTGCCTTTGCTAATTTTGGAAGACCAACCAGCCGCATCTGACTTTCCATGTATACTAATGATTACTTTGTGCCAAAGTTCTGAAGACTCATGGTAAAACCGCCACACCCATTTGGCTAACAAAGCTGTGTTTCTAATCTTTAAATTGCCAATGTCCAGACCTCCGTTTTGTAACGAGTATGAGACCAATTTCCAATTAACAAGATGTTTAATCTTGCCCTCACCATTGCCTACCCAAAGGAAATTCCTCATCTTCTTTTCAATCTGCAAGCAAACTTTTCTAGGCATACAAAAAATAGACATGAAATAAATAGGTATGCTAGAGAGTACCGATTTGCATAGGGTGAGTCTTCCTCCTTTTGATAGACAATATTTACTCCATCTATCAAGCTTCTTCATGATTTTTTCCATAACTGGCAGCCAAAAGCTCTCCAATTTAGGATTACCCCCTAAAGGTAACCCAAGATATGTCATAGGTAGCTTTTCAACTTTACAATGCAACAAATTAGCCAAGGATTTCAACTGATTTTCCTCCAAATGAATGCCACTGATTGCTGATTTTTCCCAATTTATCTTTAGACCAGAGATAACTTCAAAAATTTTGACTGCTGAAATCAAATTATTAAGCATTTCACTGCTATCCTTACAAAAAAGGATGATGTCATCAGCAAACTGTAGATGAGAAATTTGAATAGAGTCACTGCCCACCACAAAGCCTTCAAATAAACCGTTAGAGGAGAATTTCTCTAAAATACTGCTCTTAACATCACTGATAAGTAAGAAGAGAAAGGGAGAGAGAGGATCTCCTTGACGCAAACCCCTGGATGCATTTATCCTTCCTCTTGGTCTACCATTAATGAATATGGAAAATTTGGTATCTCGTATACAGCCCAAAATCCAACTTATCCACTTTCTACCAAAGCCTTTTTTCTCCATTACTTGCTCAAGGAAGCCCCAATCAACGCGATCAAAGGCTTTTTCGATATCTAATTTGATAATCCAACCCTTTTTCTTCTTAGATCTGTACTCTTCCACAATCTCATTGGCAATTAAAATAGGATCCAATATTTGTCTTCCTTCAACAAAAGCGCTTTGAAAGGGGAAATAGTATAAACCATAACCTTCTTTATACGATCTGCTAGTACCTTGGCAAGAATTTATAAATTGAAGTTGTTAAGCTGATTGGCCGAAAATCTTTGATTACCGAAGCTTTGTCTTTTTTTTTATGAGACATATAAAGTTTCCTTCAAATAAGAATTCACATGCCCATTCACATAGAATTCTTGGAAGAAGTTCAGAAAGTCTGTTTTGAGAGAAGACCAAAACTTGCTGATGAACTCAATAGTAAAGCCATCAGGCCCTGGTGCTTTGTCTTTGCCTAAATCTTTGATTGCTGCCCAGATTTCACATTCATCAAACGGTCTCTCCAGCCAGCTACTTTTGTCACTTGGAATTGGTCTCCAATTAATACCATCTGGAATGTATCGAGGGCTGGGATCTTTGCAATATAGAGCTTGGAAAAAATCAGTAATTTCTGTTTCAATTTCAGCAGCAGAAGATAAAAACTGACCGTGAATGGAATGTAGATAAAAATGAGGGCTTTCCTTCTTCTAGCTGCTAAAATCTGTGAAAAAAGATGAATTCTCATCCCTTCCTTTAACCATTGAAGCCTGCTTTTCTGTATCTGATTTCTTTCTCCCAACAGCTGTAATTTCAATAATTCTCCCTTGATAAATCTTCTTCTACTTTTCTCAAATTCTGATAAAGGAAAAGATTCCTCCTTTATATCCAGATCTGAAATCTCAGCTATATATTCATCATTCGTCTTTTGTTGCATAACACCAAATTGCAATACCAATTTTGATATGAGCTTTCAGGTTTCTGAATTTTCTAGAAAGGATGAAACCTGCCCATCCGTAAGACTGGTCTTCTTCTAGCTTTTCACGAATAATCTCTACACAATCCATATTTGAAAGCCAAGAATTATAAAATCGAAAAGGGGAAGGACCCCATGAGAAATTACTTGATTCCAAAAGAATGGGAAAATGGTCAGATGTGACTCTTGCTTTCTTTAAGGCACTTGAACTAGGGAATATTAGCTGCCATCCTTTAGAAAGGAAGAATCGATCCAGCAAAGAATGAGAAGGATTGTCTCTAAAGCTTGACCAGGAAAATCTCCCATTGGATAGGGATATTTCGGACAAATCCAATTCCTCAATAACTTGATTGAAGAGCTTCATACTTCTTGTTCTTCTAGACCCAAAGGATCTCTCATGTGACCATCTGACTACATTAAAATCTCCTCCTAAACACCAAGGCAAATCGATATAAGCACTAAGTGATCTAAGTTCCTGCCAAAAGTATTTTCTTTCTTTATAATTCGATGGACCGTATATATTAGAGATCCAAGCTTCATGAAATCCAGCATAGGAGAATCTGATTGATAATGAATAACCACCCTTCAAAACTTCGTGGACGTTAACTTTGTTCTCATCCCAAAGGATTAACATTCCACCTGATCGGCCAAGGGATTCTACATTTGTCCAGCCAATATCTTTGGAGCTCCATATGGACTTGGTAATCTTGCCGTCTATATTTCCAAGCTTTGTTTCCTGTATAAGAACCACGTCAGGGCATATACCCAAAATCAAATGTTTTATAAGAACTCTTTTACTTTTATCTCCTAATCCTCTCGTATTCCAAGAGAGGATTTCATGACTTCTTATTGAAATCAAATGGGGATTAAGGACACCCCTGATTTTTCAAGAATGGCCGCTACTACTGTCTTTTTAGAATCTGAGGATGACGCTTGGTCTGCCCCTATGGAATGACTGTTGTTTGATAAGAGATGCCTTGCAGAATTGTCATCTAGGCAATGATTTTCTTCAAATAAAGACCTCAAATCTTCTTCAAGGTGCAAATCTTCATATAGCCTAGGAATTTCCTTCGTAATTGGAGATTGATACTCATTTTCAATGCTGCTGAGACTTTCCACTGGGTCTTCTTCAAAATCTGAATAATCGGATTCAGAGGGTTGCTTGGAGATTAAGTGAGAAGAGGATTGAATAATTCCTTGAACAAATGGATATGGAGTCGTTGATTCATGCTTCTCGTTGTTGGAATTAATTGCTTCAGTTACTAATTGATCAGAAAACCAAAAGCCAGACGATTCATGAGGTCTAATATGCAATGTGTCTGCAAAAGAGTCTTTTGGGATATCCAATGGTAACTCATTTATTACCTCATTTATTGACAACGGTTGAGACTGATGGCTGGCTAATGTCAGCTTACCTTTTTTCTCAACATGCAGCCAATCAGCATTTAAACACCCACTTTCCAAAGTCACTGGATCATTTAATGCTACTTTTTTTTTTAATTTACGTCTGCTGTATGAGAATGGTAGAGCCTTAATTAAAGATCTCTTAAAAGACTTTCTGTAAGGTGAAAGGTAAGGATCTTTTGACAGCCTATTCCTCTGATCATTGCATGAAAGGACCTTAGGGCTTCCAACCAATATATCCGTGTGGTTATTAAATGAATCATCATTAAATTTCTCTGCTGACAAAAATTCATGCATTTGATCTGGAATGTAAACTGACTTTTCTTCAGAATTATTGATGGGATTTAAGGACCTTTCATCTTCCTCCACATCCTGTTTTTCTTTCTCTTTACTTAAAGGTAAATCATAGAAGGAGGACTGTTCATCTTCCACCACCTGCTTAATTCTTTCTGCGTCTATTTTATTGGAGAGACTCCCAAAATCCAAATTTCTAAGAGCCAAACTTCTCTTTGCATTTGATAACAAAATGGAATCGACTTCACAGCAATCAGAAACACGGGCTAAAAACTTTCCCAAATTTGGATCTGCTATTTCAACACAAGCAGGAAGAAATCCACAAAGATTCGAGTTTACTTGGATGATAGCTTCGGTACAATCAAGCAAATTTAGGGTTTTGGTAGAAACACTCACCAAACCACCGAAATTACTTCCTAAAGCTTCAAGACATTGGCGATTCCAGTATTTTAAAGGTAAATCATGAATTTTAATCCATCCACCATACCCAACAATGACCTCTTTTCTACTATGCTTGCTGAAATTCCACTTCTCAATTTTGATGTGAGAGCTTCCAACTTTCCTCCATTCTCCTCCCAAATTTCTCAGCAACCTTCCATCTGAGAATTTCATTAAGGCCTTATCCGCCATAAATGGGTTAATGCAACATTGTTGTGAGAATTCCTCCTTCACGGCAAAAGAGATATCATTCCAATTGTCATGCGCAAACAGTTTAGTGATAACCATAATGTTATCCCATTCAAATTCGGCTACTTCAGATGCCTTTTTGACCCAATAACCCTGCTTCTCCTTCATATTCTCCCTTACTGAATTTGCTAGATTAGCTTGCAAACTTGTTGGAACCACGTCCGGGGCTGTTCCTTTTAGCACTTCAGCATAAGAGTTTCGAGGGTTTACAATTATATCCTCCTTGTCATCTATCATCAACCTTTCATTATACTTAGAAAGAAAATCCTTCAGCATATCCCAAAATATAAGCCAGCCTCTCTTGTTGTGATCTGCTGGAACTACAATACTCTTTCTACCTCCTGAAGAAGGCCATACGACACATTCCAAGTACCAGCTATTCTTGATACGAAATTTATGTATGCGAGAAGTTCCCATGATGATTCTTTCTTGTCTGAAAAACCGTAAATGAACGGGACTTTGCAGAATCTCAATAATATGTTTTTCAAACCATAACAACTGAGTAAGGTGAAGGGGCATCATAGCACATCTTTCCATATCTTCAACAAAAAAACTATCGTTTTCAAACCATATGCAGTAAAACTTATTCCCAATACTACAACTTCTAGACTCCATATCCTCTTAAAACAGCTTCACGATCTTGACTGTGAAATTAGAATAGGAGAGCTCCTTATCTTTTAAAATCCTTTGATTCCTTTCGTGCCAAGTAAGCCAGAAAAAGGCCCTGATTAAGTGCATCCGTAAAAGCTTTTTTTCCTTCTTAAAAGGGTGACCTGATAGAGTGTGAAAGATGAGGTATGAGGGATCGTTTGGTAGAGCCATGGACCAGTTGAAGCATGTTCGTATGTCCCTCAGTATGATGCTGCATAGTTACAGGAAAGAAATAAGTGACTTTGAGATTTAGAGTCATTCTTGCAAATGAGGCACTATTGGGGAGAGATGGCCATATAGGGCATTCTACGTTGGAGCTTGTCATGAGTGTTACTAGCTTTGTGGATAAGCTCCCATAGAAAGAACTTAACCTTTTTAGGCTAGTGGTCCTTCCAAATAGAATCATAAAGCAGGGGGGGAGTGTCCATCCTTCTAGAAGATATATCCCGCAAAAGAGAATTTGTGGAAAATAACCCATTAGCTTCCAATTTCCAAATCCTTTTGCGAGACACTCTTGATAAATGAATGGAGAATAAAAGATGTGTTAATTCAGCCCATTCTATCGTTTCTGAATGGAGTATGTTGTTATGTTGAAATTGTGATTAAAAAAATGAGATAAAAAAGAAAACAGAAAGGACCAAAACGGTTACTTTTGAAAAGTACGGGGACCAAAATAGACAAATGCTGAAAGTACAGGGACCAAAATAGATGTTTTGAAAATTCAGGGACCAAAATGAACAAAAGCTCAAAGTACATGAACCAAAATAGGATTTAGACCTAATATATATTATAACACTTACCCTCAAGTTGGATCAAATGCGTCAATCATGCCTAGCTTGTTGGAAATATAATCTATTTGTCCTCCATTTAAAGCTTTTGCAAAGATATCTCCTAATTGTTCTTCAATCTGGATTAGACGCAATATGAAGGGTAGCATAGATAGTCACACCCCAATTTAGTTGGCATTGTAATACTGGAGCCTAACTCAATTAAAAGTTGTTGTATCCACATTATATCACATACAGATTGTGCCATACTCTATACTACGATTCAACACTCGAACGTGAAACAACATTTTGTTTCTTACTCTTCCACTAAACCAAATTGTCTCTAATGAAAACACAATATCTAAAGTTGATCTTCTATCTTCTCTTGATCTAGCCAAATCAACATTTGAAAAACACTTGATTTTCGTATAGCATGATCTTTGTGTAAGATCCTGCATTCAGTGCAACTTTTGAATAATATAGGATTTGTTTTATTGCAGCCCAATAATCCATTGTAGGTGAAAACATATACTGACTCACAATACTAACCAGATAAGCTATGCCTAGTTGTGTCATTGTAAGATAATACAACTATAAGATAATGGAGCTAAAGGAGCCTCTTCTCTTACTTTTCACAAATTGATATATTGATTCAATAGAAGCCCAGAGAAATGAATAGGGTGCCAAATAAGTCCTTTCGTGATGAGGGCAAGGTCCTTTGGCATGCTTGTTTTTTTGCCATTTTGTGGGGGCATTTGGCTAGAGAGAAATAGTAGAATTTTTGGAGGGTTTGATAGGTCTTGAAAGAGGTTTGGTCACTCATTAGATATAATGCCTCTACGTGGGCTTCAGTCTCTAAGGTTTTTTTGTAATTATCAGTTAGGCTTTATTCTTCTGGATTGGAACCCCTTTTTGTCAGATTAGTTTATTCTTGTTTGGGCTTCTTTTGATGAGTTGTCTTTTCGTATGCCCCTGTATAGAGTGTTTTTAAAAGTATGAGGCGCACTAAAGCGCAATAGTCCTCTGGAGCTTAAGCGCGAGATGCAAAAAAAGCGAGGGTTTTTTTTTGTGAGGCGCACAATAGAAAAATGTAAATAAATTTTTTGTATACAAAAAAAAAATAGTATTATGAATAATAAGATAATAAAAAATTTTAAGAACTTAAAGCTTTTATTAGTGATTGTAGAGAAAAATGAACATTTTTTTAAGAAAATTTCTTAGTTTCTTCCTAAAAAAATTAAAAAACAATAACAAGAAAAGGACTTGAGGCGAAGTGAGGTGCCTAGGGGAGGCTTTTTTGGAGGGAAGCGTAGGCACGCTTTTCAAAACACTGCTTTTATATTCTTTCATTTTTCTCAATGAAAGCTTGGTTTCTCATCTAATAATGAGAGACATGTAAAAAACAGGTCCGATTATGCCTATTCCGATCCGAAATGGAATAGAATATTTATAAGAAAAGCGCAGTCATTAATTTTAGAATCCTTGAGCAGCCTTCGAAAGTGGAGGTTCCAACTATTGGAGGTGGGTGACCTTACATCCTTCGCAGTAGTAGTTTGGCAATTAGAGAGGGCATAAAGATTAGGGAACTTTTGAGCTGAAAGGGCACTGTGTAAAGCCAATAGAACAGCTTGAAAGACCTTTGTTTTGTTGGAAGAGGAGGTCATCATTGCCCTTCACAGTCTTGGAAAAAACAAAGCCTCTAGCCCAAACGACTTCTCTTTGGAATTCTTTTAAAAGGGTTGAAACATTCTTAGAGCAGACTTCTTTGAGATGTTTCAGGACTTTTTCTAGAATGAAAAATCGAATGCTAAGGTCAATGAAACCTACATCATCCTGATTTCCTAAGATCACAAGGCTCTCTAAAGTTTTTTGAACAAGATACGAACTTCTTAGTGATGTAATGAAAAGATACAACAAATTTTCAAAGGATACAAACTCCTGAAGGGAGTGAAAAAAGCAGTAAAAAGCAGAAAAATAAAACTAACTAGGGAAAATAAAGACCTCCCAATTCATACAAATAGTATTGGAAGAATAATGAACAAATAAATTGGAGAGAGAGCACCATGGAGTAGCCACAAGGCCCTCTAAAGTATCAGAGTTCAGACCAATCAGCCTTTCGAAAATTAGTTCTACGTGCTAGTATCTCTCTCCCTCCTTGTCCATCATTGCTGGCGGGCAAACACCGACCCCATTTTAATATCCAATGAGATTATATATTATTGGTCACACATAACAAATTAAAGACATTATTTCCAAGTTAGACATCGGAAAAGATATAATTGATTGGAATTTTTTTTTGAATGTCCTTCTCTTTAGAGGTTTTGGTACCAAGTGGATCATTTCGGTTCATTGTTGCATCTCTACGGTCTTCTACTTTATTTTTGTCAACAGTAAAATTAGGGCAAAGTAAAAGAAGTTGTGGGACTCTCTGTCCCTTCCCTTTTTGTCGCAACCATGAATTATCTTGGTTGCCTCTTCTCCAAAGCGGCTAGAATTGGTCTCATTGAAGGTTACTTGGACAGAGGTTGCAACCTCCATATTGCTGACCATCATGAGGTATTTTCTTGTTGCTGGTCCATTCATAAGTTTTTCCTTGGATTGGATCTCTTTTTGGTATAACTAGCTGGCTCCTTTTGTTGGGCTGTCTTCTGTATGCCCTTGTATATTCTTTTATTTTTCTTGATGAAAGCTCAATTGTCATTAAAAAAAAATGAAAACAAGTTCATAAAAATTCGTGGATTTGGACAGCAGCAAAATCATAAATCTCTTTTCCTTGTCATAATCTTTAAAGTAGCTTCAGTCTTGAAAATTAATCTCTTCAAGTCTATTGCCTCAGGTGCTAACACTTTTCCTTCTATCTTGAACGTAGCAAGTAACATTTGGGGTTGAGGGTAGTCCTCTTTCCCCTTTCGTATTTGGTATGGCCCTTCGTAGTAATGCTGAAACTATCTTTTTTGGAGTCTTGTTAAAAGATTGAGCTCATGATGAATAAATGGAAATATGGTCAAATCTCCAAAGGTGGCCGATTAACTTTAATTCAATTAGTAGTCTCTAGTCTTCCAACCTATTATCTATCAATTTTTACAACTCCGATTACTATTCCCATAAAAATTGACAAATTTATCCAAAACTTTTCATGGGAAGGGCCCTCCATGATGGCAACTCACCAAATCATGTGGAATTTGGTAATGTTTCCTAGGGACCAAAGGGACCTTGGTATAGGTAGGAGTAGGTGGAATTTTGTACTTCAATCGCTACACTAGCTAACTTGTCTTGTCTCTACTTTGTTCCAAGCTCTATAACTTAACCTTGTCTTTAGGGTAGGCCAAGGTTTTTTGAATGCTCTGTTGCAACCATTGCAACCTTCAGGATTCACAACTTCACGATCATTGCATTATTATATCAAGCCAGGACTCCATTGAGATGAGTATTGCCTCTTTACTAGGCCAAAATAGGATTAAACGTTTATTGCGTGCCAACCGGCACTTAGTTTACTTTGACTAGCTCATGACAAGAGTGTTGTCTTCACTACTTGTCGAGAGACATTTATTGATAATTGATCCACAAGCTCATAAATTGTGTCAAGAGTTGTCTCAAACATCCATCTATTTGGTCCCTGTCATGGTATAGTGATGCGCACACTTAGGCAACCCAAGACCCACTTTTAGATGCCCGTCTTGGGCTACACCTATTCTTGAAACTCTAGCTTGTGGGAAAGAGTGCAATTTGCTATACCCGTGCCACCTTGTCGTTTAGATTTCCACTTTCGATGAAACTCACCTAAGACCCACTTGTTTTGCAATGCATGCCTGCTCTATCACATGTATGTCTATTAGGTTGCTTACTTTGGCCCACCATGGTGCAGAGGAGGTAGGGAGCCAACACCTTGCCCCCAAATACATTCTAAGGCAAACTAAATGTGGCATCAATCTGCGTGCAAAGTAGTGGGGAGTCACTAACATTTGTGGGACTTATTTACGAAGTCACATGAAACTGACTCTTGGCCTACTTTCATGTACCCATAATGGATCTCCAAGCCCACATTCGCTCATCGAAAAATCACGACCTGTGTTTGACTTTTGGAGGCATGACATCTAGCACATGCCATGTGCATGCTTAGCGCTCCCTACACGTGGTGTAAGGCCATGCACCTTCTGTGCATGCTTGTGTTCTCCATACCCGCTTCTCATCTATGTGCTGCACCCAATGCATGGTGCTTGTGTGCAGTGCTCTTTGAGCACACACAACAAGTGCCTCTGCCTTCTACATGTTTGCCCAATGATGTGCTGCTTACCTTGATTCTCACTGCACTGTGCCACTCGTCCCTACTTGCAGCACATGCTTCTCATGACCTAAGTGTCTCTAGCCTCTTTGGCGTTGGCTGAAGTCAATCAAATCCATGTTGTGTAAAATTCAATTGTTAGCAGTTTACTTCATTTACTCACTGTGTTTACTGGAGGTAATTCGTTTGAGAATTCAACTTACCTATAATATAAGTAGCATCCTGCTGTGTTACTAAACATTGCTTTGAATAATCGAAAGAGATCATATCGCTCTACTCCGAGGGTTTCTTTGCACCTTTTTAATTAAAACAAATGAACTTTAGTTCCGACTTATTGTGTATTCTAAATCTTGTTTTGCCTTTTTGACGGTAGTAGTTTGCTTTCCTACATTTCGTTTAAGTCATGTCCCAAAGCAGGTTAAAATGTTTGTTGGGAAGTCACTCTTGCTACTCATCAAAATAACTTTTTTTTTCTTGCCTTAATCCTTTTTTGCAGATAATCGTGCTGGGCAATCATTCATTTCTTACATTACTGCAAAGGTGAGGCTAATTTCTTGCATTGTAAAATGTCTTATTGTCATTCTATTTGCAGTTTATTTTAATGTTTATTTTTTTTAGAGGAAATATAATTTTTCATCGATGAAAATGAAAAATTACAAAGAAATATCAACGAGTTACATGAGAAAAACCAACAAAACAGCAAAATACATGAAGCAGACCACAACCGACCTACAAAAACTAAATAACTAAACAAGCCAAAAATCTTCAGCTAGAACTTAAAAGCGAAAAATCACAACCCATTTTATTAGGTGTTATGCTTGCAGAAGTAGGATTTGATTATCTTACTCATAAGCTACATGCTTGGTCATATATGCTTTTTAGATCAGAAATTTAGGGGCTGTTTTGTTGTATTTTTTTCAAATTGTTTTATAGATTAACCTTTTAAAACTGTTCTCTTTTGTTTGTTTGGTGTTTTTTTTTTAAATTAATTGTTTAGAAGGATATTTAAATCAAGTTATACCGAAAAGAATAATTAAAGATTATATATGATTAGTGAATTTGACAAAACATGAGATCTATTTTGAGTTTGTTTCTAAAGGCTTCATGCCTCCCTTTGAACCTATCTAAAACAGCTGTTGTCAGTATTCATGTCAAAGAGGAACATACTGAAGAGTAAGCAACCTGTTTTGGTTGTAGAAAGGAGGCCATTCCTTTCATTTATCTTGGTTTCCCCGTTGGTGGAAGACATGGAAGGTGCTCTCTTTGGGATTAAATTGTGGACAAGTTTAAAACTAAGTTAGATAAATGGAGAAGCCTCCTTCTTTCAAAAGGTGGAAGACTCACTTTGGTACAATCAATCCTAAATAACATCCACTATATTCCCTCGATTAAAGCTATTAAGGCTATGGAAAAGTTGATTGGGAACTTCATTTGAGAGGAGCTAAGAGTAATCATGGAAGTCTTTTTTTATATTGGAAATAGTCTTCCCCTCCTTTTCCATGGCTTTGGTTTGTTCGAGCAAGGTGTGTGATCTAGTCTTCCTTGCTCCTTTGTTCCGAGTGTTGGGTTCCCTAGGGAGGGTCAGACCTTTTGTTAGGGGGCGGTCTTGAGTGAGCCTATGGTGAGTCCGGTGGAAGGGTCCCATTGCCTTGAGCACCTTTTGAGTGAGTGGCAAGTTTTAATCTCCCTTTTGGGTAGTACGGGTATTTGTGTTGTTCCTTCTAAGGCTCCCAAGCCCATTCTGAGTAGGGGGGGAAGGGCTAGTAGATGGGGTGGTTGTTGTAGGAGGGACTCTAGAGAACTGAGAAAATTTGGCTTGTTCCATTAACTACGAGGAGAGACATGTTTCTTCAGAAATTGGGGTTTCGAAGGTGTCCCAATGAAAATTGTTTCTTGGAATGTGAGATGGTTAGAGGGTAGGGCCAAGAGGAGATTGGTCAAGGAGTTGTTAGTTCAAGAGTGTCCTGATATTACTATTCTTGGAGGCCTTCGTGGTGTGGAGTGGGTGCGCTTGGAGTCCGTCGATTCTTCGAGGGCATTCTAATTCTTTGGGATGGGTGTTTGTTTAAGTCGTTAGATGTGGTCAGAGGGATTTTTTCTCTTTCGGTGCATTTCTTGTTTCTTGGAGATGTTTTGGGGTGGGTCTCTGTATTGTATGGTCCCTAAAGCCCCAAGTGTAGAAAGTCTTTTTGGGAGGAGTTGGGTGGTTTATTTGGGTTATGTGGGGTTCTGTTGGTGTTTGGTTGGGGACTTATGTGACTAGGTTCTCTTTGAGAAGTCTAGTGGGGGTAGAGTTACCAGATTCTATGAGATTCTTTTCCAAGTTCATTGAAGATTGCAATCTCTTTGATTCCCCCCCCCCCCCCCCCCCCTCCCCAGTGAATGGTAGATTTACTGGGTCCAACCTTGGGGAGAGAATGGTGTGTTGTAGACTGGTCAGAGTCCTGTTGTTGGACGGGCAATTGGAGTCCTTCAAAGGTGCTAGATAGTTCTTAGGTCCCAAGGTCACTTCTGACCTTGGCCTGTTTTTTGGATTTTGGCCCTATTAAATGGGGTCCCTTCCCATTCAGGTTTGAGAACATGTGGCTTACTTATCAAATCTTCCTTCTCTTCTTGCTGGGGTGGCTATGTTGTTGGTAGAGGGAAGGTTTACGCTTTATGAGGAAATGATCCTCCCTTATGTCGGTTTTGAAGGAGTGGAATCGTAATGTCTTTGGAGATGTGAGGTTTAAAAAGTAGGAGATTTTGGAGAGGATTAAATTCTTGGATGGCCTTGAGTAGGCTGAGGAGTTGTGGGAGGAGAGGATCAGTGAAGGGGGAGTTTGAGGAGCTCATCTGGAAGGAGGATGTTAGTTGGAGACAGAAAGCTAAGATCAAGTGGGTCAAGGAGGGCTATTGTAATTCATCCTTTTTTCACAAACTAGTGAATGCCAGAAGGAGCAAGAATCTTATTGATTATTTGGACAATGAGAGTGAGGAAATTGTATTCACAATTTAAAGGCAAAAAATCTATACAATTATGGTGTTTCTCCTAACTGTACAAACAAATTAAAAAAAATAGGGAAGGAAGGAGATTAGGTCAACAGTAAGAAAGAAATAAGGAACAGACCTAAATGGAAAGAATTACATAGATGTCCTAGAAATTTTTTAAGTGAGAATTATTAGGCTTATGGGCTTAATTACTTGCTTTCAATATCAAGCATGTAACCTGCAAACCAAATTTTGGATTCTAGAGTAAGTATTCTCTGTTTGTTTCTTTTTGTAGACTTGCAGTTCTTTGGTTTTTCAGATTTCTTAGGGTGTGTTTGGTCGTGAATTTGGATTCAATTTTATGGATCCAAAGTCAGAAAATAAAATGGATTGAAGGAAAAACTGTTTGGTGGCCCATTTTAAAAGTCAAATCCAGATTTAGTAACTCAAAAAGACCTATTTTTTGAGTTCAACAATATCATGATTTCATTGATTCCAGAAATTTTACTCAGGCATTTTGAAAACATTGGATTCATGAATCCCGTCAAAGTTCGGACATAAGGGCATTGTAGGCATATTGCAAGAGAATGGACCAACGGTCATCGAATTTTTTATTTTATTTTATTTTATTTCAATTTACGTGTTAATTGATTAATTAATGAACAAAATTTATCTCATTGAAGTGTCACACTTATTAAATCATTAATTTAGAAGTCACATGATAAAAACTAACAATTAGTAAATATATCTTTTCATCATATCAATGAAAAGTTGTTTCTTGTTTAAAAATAAAAATTACTTAAATAAAGTATACTAAATTCAAATGTAACATAAATATGTGAACCAACTAATTTTTGACAATCATATATGAAGAACTCAACAAATTAGCCACATTTTTTTATTGTTTACATTTTTATTACCATAATAATAAAATAAGAAGAAATGTTTAGTGTAAAATAGTAATACAATGTCAATCATGACTAAAGTTGTTATGATAAAGGTTTTGATAAATATACAATATCATACTAACAAGCACATCTCATTTTTGTTAACATAAAAATATGAGATATTATAAATTATATAATATTGTAAAATTTTAATTATATAAAATTTATAATATAAAATATGTTAATATATTTATTATTAGAGTTTGAAACTTAGTTAAATGCTTATTATATGATAAATTATTTTTCATTATTTAAACACAGTTTCAAAGAATTCTTAAATTGATATTTAATTTCTGAATCTGCTCAGTGAAAACATAGAATACAATTCTATTTTTCATTAAATCCCTTGTTTTCATATTATCAACCGAATGCACCCTTATTATTTGTTTGTTTTCATGAATGATAATATGAACTCTTTCTTTCTTTTTAGATTCTTGACAACATCCAAATATCAATTAGAAACTTTCACGTCATGTTTTTTGATATGATTGGCGACCTG

mRNA sequence

GTCGTGTGGGGAGGTTAAGCATCAAGATTCCATGGAAAAAGCTTGGATGGGATCCGATCATTATTATTTTGGAGGATATATATGTTTCTGCATCTCAACGAGATGATGAAGAGTGGAGCTCAGATGCGGTTGAAAAAAGAGAATTTGCTGGGAAGAAGGCCAAAATTGCTGCTGCAGAGCTGGCAAAATTATCAAGGCGTGTATGTGATAATCGTGCTGGGCAATCATTCATTTCTTACATTACTGCAAAGATTCTTGACAACATCCAAATATCAATTAGAAACTTTCACGTCATGTTTTTTGATATGATTGGCGACCTG

Coding sequence (CDS)

GTCGTGTGGGGAGGTTAAGCATCAAGATTCCATGGAAAAAGCTTGGATGGGATCCGATCATTATTATTTTGGAGGATATATATGTTTCTGCATCTCAACGAGATGATGAAGAGTGGAGCTCAGATGCGGTTGAAAAAAGAGAATTTGCTGGGAAGAAGGCCAAAATTGCTGCTGCAGAGCTGGCAAAATTATCAAGGCGTGTATGTGATAATCGTGCTGGGCAATCATTCATTTCTTACATTACTGCAAAGATTCTTGACAACATCCAAATATCAATTAGAAACTTTCACGTCATGTTTTTTGATATGATTGGCGACCTG

Protein sequence

RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAELAKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDMIGDL
Homology
[Close]
BLAST of Sgr016693 vs. NCBI nr
Match: XP_022149964.1 (uncharacterized protein LOC111018256 isoform X2 [Momordica charantia])

HSP 1 Score: 204.1 bits (518), Expect = 5.8e-49
Identity = 102/106 (96.23%), Postives = 104/106 (98.11%), Query Frame = 0 

Query: 1   RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 60
           RVGRLSIKIPWKKLGWDPIIIILEDIY+SASQRDDEEWSSDAVE+REFAGKKAKIAAAEL
Sbjct: 60  RVGRLSIKIPWKKLGWDPIIIILEDIYISASQRDDEEWSSDAVERREFAGKKAKIAAAEL 119

Query: 61  AKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDMIGDL 107
           AKLSRRVCDN AGQSFISYITAKILDNIQISIRNFHVMF DMIGDL
Sbjct: 120 AKLSRRVCDNHAGQSFISYITAKILDNIQISIRNFHVMFLDMIGDL 165

[Close]
BLAST of Sgr016693 vs. NCBI nr
Match: XP_022149963.1 (uncharacterized protein LOC111018256 isoform X1 [Momordica charantia])

HSP 1 Score: 204.1 bits (518), Expect = 5.8e-49
Identity = 102/106 (96.23%), Postives = 104/106 (98.11%), Query Frame = 0 

Query: 1   RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 60
           RVGRLSIKIPWKKLGWDPIIIILEDIY+SASQRDDEEWSSDAVE+REFAGKKAKIAAAEL
Sbjct: 60  RVGRLSIKIPWKKLGWDPIIIILEDIYISASQRDDEEWSSDAVERREFAGKKAKIAAAEL 119

Query: 61  AKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDMIGDL 107
           AKLSRRVCDN AGQSFISYITAKILDNIQISIRNFHVMF DMIGDL
Sbjct: 120 AKLSRRVCDNHAGQSFISYITAKILDNIQISIRNFHVMFLDMIGDL 165

[Close]
BLAST of Sgr016693 vs. NCBI nr
Match: KAA0038223.1 (putative vacuolar protein sorting-associated protein 13A isoform X1 [Cucumis melo var. makuwa])

HSP 1 Score: 200.7 bits (509), Expect = 6.4e-48
Identity = 101/106 (95.28%), Postives = 102/106 (96.23%), Query Frame = 0 

Query: 1   RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 60
           RVGRLSIKIPWKKLGWDPIIIILEDIY+SASQRDD EWSSDAVEKREFAGKKAKIAAAEL
Sbjct: 62  RVGRLSIKIPWKKLGWDPIIIILEDIYISASQRDDGEWSSDAVEKREFAGKKAKIAAAEL 121

Query: 61  AKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDMIGDL 107
           AKLSRRVCDN AGQSFISYITAKILDNIQISIRNFHVMF DM GDL
Sbjct: 122 AKLSRRVCDNHAGQSFISYITAKILDNIQISIRNFHVMFLDMTGDL 167

[Close]
BLAST of Sgr016693 vs. NCBI nr
Match: KGN66651.1 (hypothetical protein Csa_007236 [Cucumis sativus])

HSP 1 Score: 200.7 bits (509), Expect = 6.4e-48
Identity = 101/106 (95.28%), Postives = 102/106 (96.23%), Query Frame = 0 

Query: 1   RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 60
           RVGRLSIKIPWKKLGWDPIIIILEDIY+SASQRDD EWSSDAVEKREFAGKKAKIAAAEL
Sbjct: 4   RVGRLSIKIPWKKLGWDPIIIILEDIYISASQRDDGEWSSDAVEKREFAGKKAKIAAAEL 63

Query: 61  AKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDMIGDL 107
           AKLSRRVCDN AGQSFISYITAKILDNIQISIRNFHVMF DM GDL
Sbjct: 64  AKLSRRVCDNHAGQSFISYITAKILDNIQISIRNFHVMFLDMTGDL 109

[Close]
BLAST of Sgr016693 vs. NCBI nr
Match: XP_011660209.1 (uncharacterized protein LOC101204937 isoform X1 [Cucumis sativus])

HSP 1 Score: 200.7 bits (509), Expect = 6.4e-48
Identity = 101/106 (95.28%), Postives = 102/106 (96.23%), Query Frame = 0 

Query: 1   RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 60
           RVGRLSIKIPWKKLGWDPIIIILEDIY+SASQRDD EWSSDAVEKREFAGKKAKIAAAEL
Sbjct: 60  RVGRLSIKIPWKKLGWDPIIIILEDIYISASQRDDGEWSSDAVEKREFAGKKAKIAAAEL 119

Query: 61  AKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDMIGDL 107
           AKLSRRVCDN AGQSFISYITAKILDNIQISIRNFHVMF DM GDL
Sbjct: 120 AKLSRRVCDNHAGQSFISYITAKILDNIQISIRNFHVMFLDMTGDL 165

[Close]
BLAST of Sgr016693 vs. ExPASy Swiss-Prot
Match: A1Z713 (Vacuolar protein sorting-associated protein 13 OS=Drosophila melanogaster OX=7227 GN=Vps13 PE=1 SV=2)

HSP 1 Score: 65.9 bits (159), Expect = 3.2e-10
Identity = 35/101 (34.65%), Postives = 60/101 (59.41%), Query Frame = 0 

Query: 2   VGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAELA 61
           +G+L +KIPWK L   P+I+ +ED+YV  S  ++ +++++   K E   KKA + A E A
Sbjct: 62  LGKLVLKIPWKNLYSQPVIVNIEDLYVLVSPNNNVQYNAEKEAKYEMDLKKAALDALEAA 121

Query: 62  KLSRRVCDN-RAGQSFISYITAKILDNIQISIRNFHVMFFD 102
           +      D  +A   F   +TA+I++N+Q+ I N H+ + D
Sbjct: 122 RKKELEMDQPKADAGFAEKLTAQIVNNLQVQITNVHLRYED 162

[Close]
BLAST of Sgr016693 vs. ExPASy Swiss-Prot
Match: Q07878 (Vacuolar protein sorting-associated protein 13 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=VPS13 PE=1 SV=1)

HSP 1 Score: 62.4 bits (150), Expect = 3.6e-09
Identity = 36/114 (31.58%), Postives = 62/114 (54.39%), Query Frame = 0 

Query: 2   VGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL- 61
           +G L + +PW  L   P+ II+ED Y+  S R ++  + + + KR F  K  K++  EL 
Sbjct: 61  LGDLVLTVPWSSLKNKPVKIIIEDCYLLCSPRSEDHENDEEMIKRAFRLKMRKVSEWELT 120

Query: 62  --AKLSRRVCDNRAGQS--------FISYITAKILDNIQISIRNFHVMFFDMIG 105
             A++     +N+   S        F+  +T KI+DN+Q++I+N H+ + DM G
Sbjct: 121 NQARILSTQSENKTSSSSSEKNNAGFMQSLTTKIIDNLQVTIKNIHLRYEDMDG 174

[Close]
BLAST of Sgr016693 vs. ExPASy Swiss-Prot
Match: P87319 (Vacuolar protein sorting-associated protein 13a OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) OX=284812 GN=vps13a PE=3 SV=2)

HSP 1 Score: 57.4 bits (137), Expect = 1.2e-07
Identity = 37/113 (32.74%), Postives = 59/113 (52.21%), Query Frame = 0 

Query: 2   VGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAE-L 61
           +G  +++IPW  L    + I +EDIY+S   +     + D +E+ + A K+ ++ + E L
Sbjct: 61  IGTFTLEIPWSNLRNKSLTINIEDIYLSIHPQAKNSLTRDELEQSQQALKQEQLDSFEIL 120

Query: 62  AKLSRRVCDNRAG-------QSFISYITAKILDNIQISIRNFHVMFFDMIGDL 107
            K  R   +  +        QSFI Y+ AK+ DNIQI I   H+ F D + DL
Sbjct: 121 RKNFRETLEESSSNPNISRKQSFIEYLIAKLTDNIQIYIERIHLRFEDNLSDL 173

[Close]
BLAST of Sgr016693 vs. ExPASy Swiss-Prot
Match: Q54LB8 (Putative vacuolar protein sorting-associated protein 13A OS=Dictyostelium discoideum OX=44689 GN=vps13A PE=2 SV=1)

HSP 1 Score: 48.9 bits (115), Expect = 4.1e-05
Identity = 31/106 (29.25%), Postives = 52/106 (49.06%), Query Frame = 0 

Query: 2   VGRLSIKIPWKKLGWDPIIIILEDIY-VSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 61
           +G+L +K+PWK L   P+II ++ IY ++  Q  + ++      K++   KK K+   E 
Sbjct: 64  LGKLDLKVPWKDLKSKPVIINIDCIYALAVPQTQNYKYDEKEEAKKQAELKKKKLENYEW 123

Query: 62  AKLSRRVCDN-------RAGQSFISYITAKILDNIQISIRNFHVMF 100
            K  +   +N           SF   +  KI+DN+QI I   H+ F
Sbjct: 124 IKSIKDAEENEISSLQSEKSDSFTDRLVTKIIDNLQIVINKVHIRF 169

[Close]
BLAST of Sgr016693 vs. ExPASy Swiss-Prot
Match: Q555C6 (Putative vacuolar protein sorting-associated protein 13B OS=Dictyostelium discoideum OX=44689 GN=vps13B PE=3 SV=1)

HSP 1 Score: 47.8 bits (112), Expect = 9.1e-05
Identity = 28/107 (26.17%), Postives = 60/107 (56.07%), Query Frame = 0 

Query: 2   VGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAELA 61
           +G L++KIPW  L   P+I  ++ I + A  +   +++ +  +K +   K+ K+   EL 
Sbjct: 61  IGTLTLKIPWTNLKSSPVIFDIDCISLYAIPQTGFDYNEEEEKKNQLELKRKKLEKFELI 120

Query: 62  KLSRR--VCDNRAGQ--SFISYITAKILDNIQISIRNFHVMFFDMIG 105
           +  +     D +  +  +F++ +  KIL+NIQ+ I++FH+ + ++ G
Sbjct: 121 RSFKEGSGADQKTTKQDTFMTSVMTKILNNIQVKIQSFHLRYEEIKG 167

[Close]
BLAST of Sgr016693 vs. ExPASy TrEMBL
Match: A0A6J1D8L0 (uncharacterized protein LOC111018256 isoform X2 OS=Momordica charantia OX=3673 GN=LOC111018256 PE=3 SV=1)

HSP 1 Score: 204.1 bits (518), Expect = 2.8e-49
Identity = 102/106 (96.23%), Postives = 104/106 (98.11%), Query Frame = 0 

Query: 1   RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 60
           RVGRLSIKIPWKKLGWDPIIIILEDIY+SASQRDDEEWSSDAVE+REFAGKKAKIAAAEL
Sbjct: 60  RVGRLSIKIPWKKLGWDPIIIILEDIYISASQRDDEEWSSDAVERREFAGKKAKIAAAEL 119

Query: 61  AKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDMIGDL 107
           AKLSRRVCDN AGQSFISYITAKILDNIQISIRNFHVMF DMIGDL
Sbjct: 120 AKLSRRVCDNHAGQSFISYITAKILDNIQISIRNFHVMFLDMIGDL 165

[Close]
BLAST of Sgr016693 vs. ExPASy TrEMBL
Match: A0A6J1D861 (uncharacterized protein LOC111018256 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111018256 PE=3 SV=1)

HSP 1 Score: 204.1 bits (518), Expect = 2.8e-49
Identity = 102/106 (96.23%), Postives = 104/106 (98.11%), Query Frame = 0 

Query: 1   RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 60
           RVGRLSIKIPWKKLGWDPIIIILEDIY+SASQRDDEEWSSDAVE+REFAGKKAKIAAAEL
Sbjct: 60  RVGRLSIKIPWKKLGWDPIIIILEDIYISASQRDDEEWSSDAVERREFAGKKAKIAAAEL 119

Query: 61  AKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDMIGDL 107
           AKLSRRVCDN AGQSFISYITAKILDNIQISIRNFHVMF DMIGDL
Sbjct: 120 AKLSRRVCDNHAGQSFISYITAKILDNIQISIRNFHVMFLDMIGDL 165

[Close]
BLAST of Sgr016693 vs. ExPASy TrEMBL
Match: A0A5A7T5L4 (Putative vacuolar protein sorting-associated protein 13A isoform X1 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold270G00620 PE=4 SV=1)

HSP 1 Score: 200.7 bits (509), Expect = 3.1e-48
Identity = 101/106 (95.28%), Postives = 102/106 (96.23%), Query Frame = 0 

Query: 1   RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 60
           RVGRLSIKIPWKKLGWDPIIIILEDIY+SASQRDD EWSSDAVEKREFAGKKAKIAAAEL
Sbjct: 62  RVGRLSIKIPWKKLGWDPIIIILEDIYISASQRDDGEWSSDAVEKREFAGKKAKIAAAEL 121

Query: 61  AKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDMIGDL 107
           AKLSRRVCDN AGQSFISYITAKILDNIQISIRNFHVMF DM GDL
Sbjct: 122 AKLSRRVCDNHAGQSFISYITAKILDNIQISIRNFHVMFLDMTGDL 167

[Close]
BLAST of Sgr016693 vs. ExPASy TrEMBL
Match: A0A0A0M352 (Chorein_N domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_1G653320 PE=4 SV=1)

HSP 1 Score: 200.7 bits (509), Expect = 3.1e-48
Identity = 101/106 (95.28%), Postives = 102/106 (96.23%), Query Frame = 0 

Query: 1   RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 60
           RVGRLSIKIPWKKLGWDPIIIILEDIY+SASQRDD EWSSDAVEKREFAGKKAKIAAAEL
Sbjct: 4   RVGRLSIKIPWKKLGWDPIIIILEDIYISASQRDDGEWSSDAVEKREFAGKKAKIAAAEL 63

Query: 61  AKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDMIGDL 107
           AKLSRRVCDN AGQSFISYITAKILDNIQISIRNFHVMF DM GDL
Sbjct: 64  AKLSRRVCDNHAGQSFISYITAKILDNIQISIRNFHVMFLDMTGDL 109

[Close]
BLAST of Sgr016693 vs. ExPASy TrEMBL
Match: A0A1S3B8J3 (putative vacuolar protein sorting-associated protein 13A isoform X1 OS=Cucumis melo OX=3656 GN=LOC103487212 PE=3 SV=1)

HSP 1 Score: 200.7 bits (509), Expect = 3.1e-48
Identity = 101/106 (95.28%), Postives = 102/106 (96.23%), Query Frame = 0 

Query: 1   RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 60
           RVGRLSIKIPWKKLGWDPIIIILEDIY+SASQRDD EWSSDAVEKREFAGKKAKIAAAEL
Sbjct: 60  RVGRLSIKIPWKKLGWDPIIIILEDIYISASQRDDGEWSSDAVEKREFAGKKAKIAAAEL 119

Query: 61  AKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDMIGDL 107
           AKLSRRVCDN AGQSFISYITAKILDNIQISIRNFHVMF DM GDL
Sbjct: 120 AKLSRRVCDNHAGQSFISYITAKILDNIQISIRNFHVMFLDMTGDL 165

[Close]
BLAST of Sgr016693 vs. TAIR 10
Match: AT5G24740.1 (Protein of unknown function (DUF1162) )

HSP 1 Score: 153.3 bits (386), Expect = 1.1e-37
Identity = 71/101 (70.30%), Postives = 91/101 (90.10%), Query Frame = 0 

Query: 1   RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 60
           RVG+LSIKIPWKKL  DP+ I++ED+++ ASQR+D+EWSSD VEKREFAGKKAK+A+AEL
Sbjct: 63  RVGKLSIKIPWKKLHRDPVTIMIEDVFICASQRNDQEWSSDVVEKREFAGKKAKLASAEL 122

Query: 61  AKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFD 102
           AKLSRRV DN  G S++SYITAKILD++Q+SI+NFH+++ D
Sbjct: 123 AKLSRRVFDNPGGNSYMSYITAKILDSVQVSIKNFHILYSD 163

[Close]
BLAST of Sgr016693 vs. TAIR 10
Match: AT5G24740.2 (Protein of unknown function (DUF1162) )

HSP 1 Score: 153.3 bits (386), Expect = 1.1e-37
Identity = 71/101 (70.30%), Postives = 91/101 (90.10%), Query Frame = 0 

Query: 1   RVGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAEL 60
           RVG+LSIKIPWKKL  DP+ I++ED+++ ASQR+D+EWSSD VEKREFAGKKAK+A+AEL
Sbjct: 63  RVGKLSIKIPWKKLHRDPVTIMIEDVFICASQRNDQEWSSDVVEKREFAGKKAKLASAEL 122

Query: 61  AKLSRRVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFD 102
           AKLSRRV DN  G S++SYITAKILD++Q+SI+NFH+++ D
Sbjct: 123 AKLSRRVFDNPGGNSYMSYITAKILDSVQVSIKNFHILYSD 163

[Close]
BLAST of Sgr016693 vs. TAIR 10
Match: AT1G48090.1 (calcium-dependent lipid-binding family protein )

HSP 1 Score: 58.5 bits (140), Expect = 3.7e-09
Identity = 31/104 (29.81%), Postives = 56/104 (53.85%), Query Frame = 0 

Query: 2   VGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDDEEWSSDAVEKREFAGKKAKIAAAELA 61
           VG +++K+PWK LG +P+I++++ ++V A    D+    +   ++    K  +I  AE A
Sbjct: 80  VGTITLKVPWKSLGKEPVIVLIDRVFVLAYPAPDDRTLKEEDREKLLETKLQQIEEAETA 139

Query: 62  KLSRRVCDNRA----GQSFISYITAKILDNIQISIRNFHVMFFD 102
            L  R          G S++  I A I+ N+++SI N H+ + D
Sbjct: 140 TLEARAKSKLGSPPQGNSWLGSIIATIIGNLKVSISNVHIRYED 183

[Close]
BLAST of Sgr016693 vs. TAIR 10
Match: AT4G17140.1 (pleckstrin homology (PH) domain-containing protein )

HSP 1 Score: 48.9 bits (115), Expect = 2.9e-06
Identity = 28/103 (27.18%), Postives = 56/103 (54.37%), Query Frame = 0 

Query: 2   VGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDD-EEWSSDAVEKREFAGKKAKIAAAEL 61
           +G + +K+PW +LG +P+++ L+ I+V A    D E  S D++++     K+  I   E 
Sbjct: 61  LGSVKLKVPWTRLGQEPVVVYLDRIFVLAEPATDVEGLSEDSIQE----AKRNLIREMET 120

Query: 62  AKLSR-RVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDM 103
             + R R       +S++  +   I+ N+++SI N H+ + D+
Sbjct: 121 KLVERARRLQTEMNKSWMGSVINTIVGNLKLSISNIHIRYEDL 159

[Close]
BLAST of Sgr016693 vs. TAIR 10
Match: AT4G17140.2 (pleckstrin homology (PH) domain-containing protein )

HSP 1 Score: 48.9 bits (115), Expect = 2.9e-06
Identity = 28/103 (27.18%), Postives = 56/103 (54.37%), Query Frame = 0 

Query: 2   VGRLSIKIPWKKLGWDPIIIILEDIYVSASQRDD-EEWSSDAVEKREFAGKKAKIAAAEL 61
           +G + +K+PW +LG +P+++ L+ I+V A    D E  S D++++     K+  I   E 
Sbjct: 61  LGSVKLKVPWTRLGQEPVVVYLDRIFVLAEPATDVEGLSEDSIQE----AKRNLIREMET 120

Query: 62  AKLSR-RVCDNRAGQSFISYITAKILDNIQISIRNFHVMFFDM 103
             + R R       +S++  +   I+ N+++SI N H+ + D+
Sbjct: 121 KLVERARRLQTEMNKSWMGSVINTIVGNLKLSISNIHIRYEDL 159

The following BLAST results are available for this feature:
BLAST of Sgr016693 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_022149964.15.8e-4996.23uncharacterized protein LOC111018256 isoform X2 [Momordica charantia][more]
XP_022149963.15.8e-4996.23uncharacterized protein LOC111018256 isoform X1 [Momordica charantia][more]
KAA0038223.16.4e-4895.28putative vacuolar protein sorting-associated protein 13A isoform X1 [Cucumis mel... [more]
KGN66651.16.4e-4895.28hypothetical protein Csa_007236 [Cucumis sativus][more]
XP_011660209.16.4e-4895.28uncharacterized protein LOC101204937 isoform X1 [Cucumis sativus][more]
BLAST of Sgr016693 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
A1Z7133.2e-1034.65Vacuolar protein sorting-associated protein 13 OS=Drosophila melanogaster OX=722... [more]
Q078783.6e-0931.58Vacuolar protein sorting-associated protein 13 OS=Saccharomyces cerevisiae (stra... [more]
P873191.2e-0732.74Vacuolar protein sorting-associated protein 13a OS=Schizosaccharomyces pombe (st... [more]
Q54LB84.1e-0529.25Putative vacuolar protein sorting-associated protein 13A OS=Dictyostelium discoi... [more]
Q555C69.1e-0526.17Putative vacuolar protein sorting-associated protein 13B OS=Dictyostelium discoi... [more]
BLAST of Sgr016693 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1D8L02.8e-4996.23uncharacterized protein LOC111018256 isoform X2 OS=Momordica charantia OX=3673 G... [more]
A0A6J1D8612.8e-4996.23uncharacterized protein LOC111018256 isoform X1 OS=Momordica charantia OX=3673 G... [more]
A0A5A7T5L43.1e-4895.28Putative vacuolar protein sorting-associated protein 13A isoform X1 OS=Cucumis m... [more]
A0A0A0M3523.1e-4895.28Chorein_N domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_1G653320 P... [more]
A0A1S3B8J33.1e-4895.28putative vacuolar protein sorting-associated protein 13A isoform X1 OS=Cucumis m... [more]
BLAST of Sgr016693 vs. TAIR 10
Match NameE-valueIdentityDescription
AT5G24740.11.1e-3770.30Protein of unknown function (DUF1162) [more]
AT5G24740.21.1e-3770.30Protein of unknown function (DUF1162) [more]
AT1G48090.13.7e-0929.81calcium-dependent lipid-binding family protein [more]
AT4G17140.12.9e-0627.18pleckstrin homology (PH) domain-containing protein [more]
AT4G17140.22.9e-0627.18pleckstrin homology (PH) domain-containing protein [more]
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR026854Vacuolar protein sorting-associated protein 13-like, N-terminal domainPFAMPF12624Chorein_Ncoord: 2..56
e-value: 3.9E-12
score: 46.3

Relationships

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

Feature NameUnique NameType
Sgr016693.1Sgr016693.1mRNA