Sgr020317 (gene) Monk fruit (Qingpiguo) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGAAAGTAGTAATTCCCTTGGAGGCGGCAACCAAGGCGATCGAGGGCTTGGCCGGTCTCCCGGATCCAGAATCCGACAGTGTAGATTGCCTTTCCCAATGTTCCCATCTTCTACACTTGTTCGTCGTCTTCTTCGTTAGTCTTCAATCTTTTACTTCAATTACAGATGAAGAAATGTGGATTAAGAAGGCAAAGGGCTTAGTTGGAGGGAGTAAGTTCATCATTTTTTTTTTTCTTTTTTTTTATATTTGTGGACCTATGGTGAGTGCGAAAGAATGACTCTATTCATTCACACACAGAGTTGTTGTTGTTATTATTATTATTATTATTATTATTTTATTTTACTTTCTTACAAAACAAGGTATTAAAGACCGACATGAGCATAATTTAACTGATCAAAATATTACTTACCTCGAGATTCAAATCCCCACTCCTGTTTGAACTCAAAAAATAATAATAATAATAAATAAGATATCAATGAATTTGATTGAATGTGAAATAAGTTTCAAATAAAATATCAATAATGTAAATGCACTTGATTAAAAGTTTAAATTTCATTTTTAGTATCCAAAGTTTAATTTATTTTGATCTCTAAAACTTTAAAATGTCTATTTTAGTTGATGAATTTCAAAAAATTATCATCTTAATTCTTACCATTACTCTTATGTCAATTATTTGACACATGGTTGATGTAGTTAGAACATGTGTCACATAGACCAGACAGATTTTATGACCCAAATCGTATTTATATAGCTTGTTTTTCTGTACTTATTGCACAAATTATGCCCTAGAAAACCTTGAGCCCCTTTTTTAGGAATGATTCGCCTCTTCCTTTTTTTTTTTTTAGTCAACTATTGCGGGGTGGAGGCATCAACTTTTGAGATGTAATAAGTGTCTTCTCACTGAGCTATGCTTGGATTGCCCCACCTCTTCCTTTGTTTTTTTTTTCCCTTTTTTGCTAGTGACGAGTCAATCCTAATTAATGTAATAGAAGTAATTGTGTCATATTTGAACCTCAACACTTGTCTAGGCTCAGCCATCCTATATGACTTCAATATACGTACCAATATCAGCATATCAATACACATATTCAAAACTTTATCATCCATTTATTAAATAATTGACGACATAATAATGGCAAGAATTAAAATTATTGCTTTTTTAAAGTTCAAGAACAAAAATTGACTCCAATCCGAGCCTAACTAATGGATAAGACATCTATTACCATCTTAAAAGTCAATGGTTCGATCCTCTATCCTGCAATTGTTGAACTAAAAAAAAAATAAAAATTGACATTTTCAAAGTTGAGACTAAAATTAGATTTAATCTATTTTATTTTACTTTTTTTATCAAATAAGATTTAAATAAATTTGATTAAATGTTAATAATATAATTATTGATTAAAATAAGTTTAAAATAATATCAATAATGTAAATGCACTTTAAAAAATAACATAACTGAATATGATTAAAGGTTAAAGCTTATTTTGAACTATGAACCTTTATTTTATTTTAATTGTTGAACTTCAAAGTATATATTTTAGTCTTTAAACTTTAAAAAATAATCATTTTAGTAATTGTCTTATTCTACCACCAATTATATTAATGAATAGATGATCTGACTTCGAATACGTATATTAACTTTTTGATTAAGCATGTATTAAAGTCATATAGGCTAGTAGGTATTGAGTGAGGTGAATATTAATTATGTAGACTCAACTTAGATGTTTATAGCTCGTTTTTTTCTTTACTTATCGCATAAATTGTACTTTAGAAAGTCATGAGCCTCTTCTTTTGTAATCGCTCCATTCTCTTCCCTCAATTTCTCCTTTCTTGTTGGTGTATAATTACTTATAATTAATATTATAGATTCTGTAGTAAATGAGTCACATTTGAAGGATAGATGATCAAAATAGAATTAAACATCAATCAAAATTGACAATTTTAATTATGTTAAAATAATTATGAATTCCTAAATTGCTTTTTTTTTTTTTTTTTTGAAAAAACTCTCTAAATTAATCTTTTCTAACGTAATAAAATTCTGTTCGTTAAATTCAACTTTGTCTATTTATAGTTTATAGATACATTTTTGTTATTTGATAAAATAAAATATCATATAATATATGTTCCATTTTATAATAGAAAAAAAAAACTCTAAATTGTTAAATCTAAAATGTATAGTATATTAAAAGGGATTTGAAAGAGAAAAAATCTTAATGACCTTTTTCTCTAATTTTTCTTTGTATAGTAAAAATATAGTTGAAATATTAAAAAAAATTGTCTAATATGAATGTAAATATTAATAATAAATATGCTTAACTTATTCCAAAAAGTGTGGAATGCTTATTTATTAATTCAAATATTTTTATGAAATCATTGATTTGCATGATTTTTTCAAGATTATCTATTGATATCCATATTATAAAATTCCGTTGTGGTCCAATTCTGACTGGTAAGTATCTTAAAAATTAGATAATCTCAACAAATCTCTAAATCATGCGGAGAAATTTCTTTTACTGATATTCTTGATGGATCCAAATCCAATAAAAAAAATACATCAATTCATCTCTTCCTTAATAAGCCACTAGCCACGATGACTCTAGTGTATATAATTATTATAAATAATAAGTTATGTACATAAATATAATTTCAATTGATATTTTTATAAAATTGAGATTTTGACATTTTCTCCGATATCGATATTTAATCGTTGCTTTGAAGATTAATTTCTAATTTGTAAAGGGACAAATAGTTTGCTTTCAAAGGAATATAGTTAAGATGAAAAAGAAGAAGTCTAAAAAACAGAAGCTTCAAAGCAATGAAACATTGGTCAACACATTGTTTTTGGCCATTACTTGTTCAAATCAACATATATATATATATTTGGAGAGAAGTCATAGTCATGGTTGTTAATGTAGCTTTTAGTCCCTTCTCATCATTTTGGTATTTGGTAGGGGAAAGTTTTACCTTCAATACTTTGTGGAAAAGAGAGTTCTTCATTCTATTCATCTACTTGTTTGTTTTACTTAGTATGGCCATTCTCAAACTATAGATAACTTTTTCGATTGAGAGGTTTCTCTTGAATTATGATTTTTAAAACATATATAAGTTTTATGGATGTCATAAAACATTTGCATTGGCATAAATTGTAGCTATGCTTTACAAACTGATTTGAAAAATAATGCTAAATACCGGTACGTTTTTTTAGAACTATTGGTCCGTGTTTAAGTTACTTTAAATGTATAGCCTTCTAGGATGGAGGGAATGAAGATTGAAGAGACGGTAGGAGAAGATGGACAAACTCTCTACTTTCCTCTCCCTTGCCACAGAAAACCTATATTGATTATTCCGTTGCTGTCTACCACCTTTTCCAATTGAGCCTTCTCTTGTTTCTTTGTCATTGTTATCATTAGAGCTTCTTAGATTGACTCTACACTAGTGTCCTCTAACAACATAATCTTTTCCTTTTATTTTAACAAGTAGAGATCAAATTTTGACAACAAATTTTCAAGACCCAAAAACATTTTAAAATTAATATAATTGGTATATTTTATACGTAATAAATATTTTTTTCTAAAAATGAAAATTTATGATTTGCAAATTTATGAAGAATTTTTTTTTTTTGTAATATCATATCACAAAAGTAGAATGAGATTGAAACCTATAACCACTTAAAAAAAATAAGGATATCTGAATCAGTAAACTATGCTCACGTTGACGATCTCAAAGAGATGTTTAAAATGATTTTTAAGATAGAGAGATGTAATTTACCAAATAAATAAGATCATAAGAATGTAATTTACAAATAGATTTGATCTCAAATAGGAGAGAGAGTAAACATAATATCGAAAAAAAAATAAGAGAGAGAGAGAGAAAGTGGAAGAAGAGATAGAGAAAGAGAGGAAGGAGAGAGAGAGAGAGAAGAATGTTAAAAGAAGAGGCCGGCTGGGCCTGCACATTTCCTCTGTATCGTATTCCTGCATCCTGCTGTTATTGGTCTTTTCTTATTTTTCAGGTACAGTTGCAAAGCTCTTTAATTACAACACAACATCATCTGACAATTCGATCTTCTCCTGCTCAGTTTGGTTCTTTCTTCGTCATCAATCGCTATTTTCTGTTTCCGTTCTTCGATTGCATATTTCACTTTGAACTTCATTTTCCACTTAGAAGTTCTGCCCCTTTCTTCTTTTCGCCGTTTCCATCATCAGTGTGATTTTCTCGATTATTCTTGCTGTTTCTTCCTGGGTTCTTTTCGTTTGTTTGAAGCCTTGAATTTGATTGAGATCAGGTAATATTTGGGGTATTCCGTTGGTGCTTCGTGACCGGATTTTAGGGTTTTTGGGTGACTTTTTCGAGCCGATGCGACTACTTTGGTCTTTTTTCTTCATTGATTCGAGTTTTTTCTCCCTTGCGTATGGATGCCTTTCTAGGAATCTGAGAACTTTGAGCTCGGACTCGCTCTAGATTTACTGTGTATTATCTGGTACATTCAAATTTCGTTTGCTCGATCCTTGAATGCTAGTTCTAGTTAAACCAATTTTGATGAAGGCATAAGTTATTTATACTCAGTTATCTACTTGTGTTAGCGAAATATCTTTTATGTACGATGTAGCTCGTGAGATGCTGGATACCTTCTTTCCTTTAGCTTGTAGATACTGTGGTGCTTGAGCTTTTTAAAGGCCTAGATGTTATATATATAATTTCAATGCGGTACACTCATGGTGTTTGCACTGTCTGTCTCTTGGATGTCAATGTTTTCCTTTCGGGAGCTTATGTTTTCCATTTCTGTTCGCACAGAACTATCGACAGTACGGTCATGGCCACAGAGAAGATCTTGATCTGTCAACTTTGAAAACTCAGCTCAGCGAAACAAATGAAACTTGGAAGCATGAAATGGAACGGCGCCAATCAGAAGTAGATGTGTTGCAAGCAAGGCTTATGGAGGTAAAGTCTTCTATAGATGGTTCTGAGGAAGACTCAAGAAAGGAGCTAGAGGTTCTTTGGCGAAGAGTTAAGACAACTTCTACATTGTTGACATACTTGAAATCAAAAGCTAGAATGTTGGCAGTTCCCCATTTGGCTCACTCTTCATGTGGCATTAAACACTTAGAAGGGGTAGGGTTTGTTGACAAAAGTGGAACCCCACTGTCTGGTTGGTCTAAAAGTATTGATCTTTCTTCATTTGATGGTCCTGAAGAGGAATCGTTGATTGGTATTGGCAAGCCATCTGGTTTATTGGATGAACAAGATGCAGCTTATATCAGCAAAATACTGAAGTCTGTTCAGATGGTTTCAGATGTAATGGAAGCACTTGTTAAGAGGGTTATTTTGGCAGAATCTGAAACTGCTGAAGAGAAAGAAAAGGTATACATGGGTCAGGAAGAAATTAAAAAGAAATCAATCCAGATTGAGAACATGTCCACAAAACTAGAGGAAATGGAACAATTTGCTGTCGGTACTAATGGCATTCTAAATGAAATGCGGCAGAGAGTTGAGGATCTGGTTGAAGAAACGTGTAGACAGAGGCAAAGAGCTGCTGAAAATGAGCAGGAACTATGTCGTGTTAAGCGGGACTTCGAGTCTTTGAAATCATATGTCAGTAGTCTCATCACTGTTAGAGAAACACTTTTGTCATCAGAAAAACAGTTTCAGACAATTGAGAGGCTGTTTGAACGGTTCGTATGTCTTTTATGTCCTATTGTTTTGGCCATGATTGCTTTTTTCTTTGATTACCAAGAATGTCTCATTTATTTGGTAGGTTTCCTGGATGATATAATTTTGAGTCCTTTCTTTCATTATACTCATAGCTTTATCATTTTCTTTCAACTCTCACTACACATATACGATCTTCAATGCACTAAGATTTTTTTGTACTTGTATTGCTAGCCAGCTCATGGCAGACCTTTATTTGAATGTGGAGTTCTATAGCGTGGCTATGTAATGGATTCTCTTTCCTGCTGCTGTGTTTTGCTCGAAACAATAATAGCAAAATGCATTGATTGCAAACAGTTTACACGCTGTGAGCTTAGTCTCTGAATTTTCAAATTCTTTTGATGTGAAATTAGCAGATATTCAGAATAGTAGTTTGTAACAATTGTATCATGTCATAAATTTATGTTGAGTAGAACCCCTCACACCCTAAACACCAAACGAAAACCCCCCTACAGGCATAACTTCATATCATATGGCTGAACATATTGGATTGTGGAATCCAGCTGGGCCATGGAAATGTCAACTTTTTCCACCCCCCCACAATACCCACCCACCCAACCCCCTGCCTGCAAATAAGAAATAAAAGAGGTGGGGGTTCACTGGGAGTTCTAACTCATGATCTTTCCTTGTCATCTTGTCCAGTTCAAGCTCTTATAAATTGTTTTCACTGGCTTTAACTTCATTGCCATGAAACAGGCTAGTTGCTAAGACAACACAGCTGGAGGGTGAGAAAATGCAGAAAGAAGTGGAAGTCCAGAAACTTATGGAAGAAAATGTGAGGTTGAGTGCCCTTCTTGACAAGAAAGAGGCTCAACTTTTAGCCATGAATGAACAATGCAAGGTAATGGCCTTGAGTGCTTCACATATTTAACCCAAATACTTGTTCTCCTTGCTCATCGGCCAGCTTAGCAAGGCTTCATCTCGGTTCATGATCCCGGGCCAAGCAAGCAACTGGCAGTGACAATGATTGGCAACCATGGAGGCAAGCATCAGGTATTGTATTTGTGAAAACCCTTGTGGACTTTGTTGTGTAGTTCCATAGTTTAGTTGTTCCATCTGCTGCTACAGAGAGAACTTCACAAGGTTTTCTTCATTGGAATTTAAACTTCGTTTGTGAATCGTTCCCAAATACCGAGATGTGTATGTATGATTCAAAAGTTGCTATCTTTCTGCTCTCTGATGTCTACATAAATTTCCCTTCTGGCTCTACAATTTCTTTTTAGTCTTTTATCAGTTGGATACAATGCTGCAAAAAATTCTTACGAGGAGGTTGTTCTGGGCTGCATTCTGATAACTCCGTGGTTCCCAGTTTTGAAAATATTATGCTTTTCTTTTTCTTTAATCTTCTTTCTTAACTCGATTTTGGGATTTTTTTTTTTAAGTAAAAACATGATATTTTCGAATGTATTTATTCATCAAATGGATGAGAAATGAGAAACAAAAAATAAAGATGTTATCAACTTTCATGTGAAGACATGATATATGGAATATGCTATTTCTGCTGTCACAATTAACCTATTATTAATTGTAATTTACTTTTTCACTAATTTTAATTGATTAAAATATTAACAATTTAAGAACTTGGATAATGATTTTTATTTTTACTCTTTTGTTTGTTTTTTTTTTTTAATTTTATATGGTAAAGAATTCCTTTCTGTTGTTCTTAACTATTGAAACACTTTCTACGTTTTAGTCATTTTTTTTTCCTTAAATGTAGGTTTTTGAAAAATATTTTTTTAGTTTTGAAAATTTGATTTAGATTTCCAAGTGTTCTTAAAACCTTAAAAGTAACATGATAAATCATTAATAAATAAACTTGTTTAAAATATAGAAAATAAAAATAAAAAGATTATTAATGGATCCTTACATTTTAATTATATGATGTAGCATCTACAAATTGAAATTTAATTTGATTGTAAGAAAAATGAATAATTATCTTTTTCAACATTTATATTTTTAATGGAGAATTTATACCTTTTATGATGGCAAGCGGTTGGGTTGAGAATAACTTAGACGGTTTGCTTCCACTCCTTGCTCAGTTGAGGTGAGAAGTGTATCAATTTTTTTTTAGTTCAAAAGTATATTATTATTGATCCGTCAACCTGAATATAGCTCGGTGATTAAGACATGTTTATCTCCTCTAAAATGTTATAGATTTGAATCTTTATATTTTATTTGTGATATAATATGCATTTAAAAAAAAAATATTATTGATTGAGTTAATCAATATCTAAGTTAATCATCAAATTATATAAATAAATAACCATCACATCAAATAAAAACATACTCATTACTATTGTAAAAATAATTAGTGATGGATAAGTTTTTTTTATTAAAAAAAACCTTATATTTGTAATTATTTTTTCCTTAAGAAGTTATATTATAATTATTTTTATAAAAATACAAATTTGTAAATATTTTAGAAAATGGTACAATCCATTTAGTTTTGAAAATATATTAATTCATCACTTACTCAAATGCTTAAACTTTAATGTTTGTGTATATTTAGTCCCTAAGATTTAACAAATTTCAATTATATTCTCAAAATTTTGATTTTGATTTTAATAAATCTATGCTATTAACAATTTTATTTAAATGTTGACATGTTGGCATAATATGCTAATTGGACTAAAGAGTGATAATTTTGCATGACGCAGTACAAAGGATGAGTTAGATAAAATAAGGACGATTTTTAACTATAGAGATTTATTAAAATCAAAATCAAAAGTTCAAGAACATAATTGCAATTTTAAAATTTATAATTAAATAACATAACTATTAAAATCTAAGACTAAATTTCTAATTTAACCAAATTAACAAACTATGAAATGAAGAAAAAGAAAAAAAAAGGGTTGTTCACTCCCTTTATCTTGTCTAGAGATTCAAATCAAAATCAAAGTTGAAGAATGTAATTACAATTTTTTAAAACGAAAATCTAAACCTTAAGATATAATTATTACTTTTTAAAATTTATGGATTAAATAAACAAACTATCCAAATTTAAACTAAATTTTAATTTAATCAAATTTAAAAAACAATATATATGAATTGAGAAAAAAAAAAAAAAAAAAAAGAACACGAAACAATAGGCCGTTGCTCCAGTTATCGCGAATTGGTTTTCTCTGGAGATTCAAACAATCTCGAATCTTATCTGGCGCATATCCAGGGAAGTTGGAGGCTGCAGAGAGATGGCCGCAGCCAAATCACCATTTCAGGTTTGCTTTATTACCGCAGCATTTGCTTTGTTTTCTAGTTCTGATCTTCTCTTGCCTACCGTGATGTATGAAAGAACGTCTCTGAGAATGTATGATTGTCCGCGTTTGAAATTTTCCGCTACTGGATTTTGTGTTTGCTATTGTTTGTTCATTCAAAGAGCAGAAAGTCTGTAGAAAAAGGATATATGGAGTATTCCATAGGTAGTCTTCCTTTAGGCTTAATCAAACACTGGCTACTCTTCGGAAGTAGGTAGCCGCAATTTGAAGCCGCTTTCGTTTTCGTAAATATCATTAAGTTCCTATTTCATATAACCTGTCCCCCCTCTGTCTCTCTTCTTTTACTGGTTTTTTTGTTTCTTTCCTGTTTAATATGCTGTTTCAATTAATTTATCTCAAGGTCGGTTGTGGCGAAATTTGTTTCGATCCCATTTTTGCATTTGTTTTCTGTGGGCAGATAATATTAGGTTCATCGTCCATGGCTCGCCGGCGTATCTATCAGAGATGGGATATGAGTTCACTATAATGGTGAATTTTCTTATTGGGTATTCCCCTTTCTTCTTGTTTACTTGTTGGAAGACTGACGTGGCTTATTCTTTGTCAGACAGCAGACATTGATGAGAAAGCGATTCGGAAGGAAAAGCCAGAAGAACTGGTGATGGCTCTGGCTGAGGCAAAGGTTTGACTCATTTTTACTTTAGAAATGTTTTTAGCTATACGTTAAATGTTAATGAAGCGGTATATAGCTGGTATACTATTATAGTTCCAATATCAATTTGGGAACCATTATAGGCTTTGCTCTAATTTCAGCCATTGCATCTTTTGCCTTGTACTTGGAAATAAAGTAACATTTTTTTTTAATCTCGTTTGTAATTCAAGTGAATGACGAAAGGTTGAAGGTTAGTTCGTATTCATTTTTCTAAGCATATAGTTCACGTAGCCCTTCAAACTCGTAGAGCCAAGCAAGCCTGCTTAGTAAGTGCGGTTAGAACTTTGCATGATTCGAAAGTAAAGCTGTGTTACTTAGAAGCACAATAACTTTTTCTTGCATCCAAAGTACTATGCAATTAGCAGAAAGTTCTTGTTGGACTTCCATCAGTCGTAAAGTTTTGGTCCTCGAGCTGTAGTCGTAGAGTATAATAAATAGTAGCACTTTGACATATTGATAGCAGGAAAAGGCTTTGGTCTTGAAGCATCATGCAACAGAGTCTAGCAGATTCAACATTTCAGTGAAGTTCACTGTTGCGCCATGCCACTTTGAGAGAAAGGGATTACTTATCCGATATATTTTCATGTTATTAAGTCTTTGATTTATAAGATCATGAGAAGGGCTTCTATCTGATGGTTTCACTTGATTTCGCTTAGGCAGATGCAATTATATCAAGAATTCAAGCCACAGGTCAACTGGGCAATGATGCGCCTGCTACATTGTTAATCACTGCAGACACA ATGAAAGTAGTAATTCCCTTGGAGGCGGCAACCAAGGCGATCGAGGGCTTGGCCGGTCTCCCGGATCCAGAATCCGACAGTGTAGATTGCCTTTCCCAATGTTCCCATCTTCTACACTTGTTCGTCGTCTTCTTCGTTAGTCTTCAATCTTTTACTTCAATTACAGATGAAGAAATGTGGATTAAGAAGGCAAAGGGCTTAGTTGGAGGGAGTAAGTTCATCATTTTTTTTTTTCTTTTTTTTTATATTTGTGGACCTATGAACTATCGACAGTACGGTCATGGCCACAGAGAAGATCTTGATCTGTCAACTTTGAAAACTCAGCTCAGCGAAACAAATGAAACTTGGAAGCATGAAATGGAACGGCGCCAATCAGAAGTAGATGTGTTGCAAGCAAGGCTTATGGAGGTAAAGTCTTCTATAGATGGTTCTGAGGAAGACTCAAGAAAGGAGCTAGAGGTTCTTTGGCGAAGAGTTAAGACAACTTCTACATTGTTGACATACTTGAAATCAAAAGCTAGAATGTTGGCAGTTCCCCATTTGGCTCACTCTTCATGTGGCATTAAACACTTAGAAGGGGTAGGGTTTGTTGACAAAAGTGGAACCCCACTGTCTGGTTGGTCTAAAAGTATTGATCTTTCTTCATTTGATGGTCCTGAAGAGGAATCGTTGATTGGTATTGGCAAGCCATCTGGTTTATTGGATGAACAAGATGCAGCTTATATCAGCAAAATACTGAAGTCTGTTCAGATGGTTTCAGATGTAATGGAAGCACTTGTTAAGAGGGTTATTTTGGCAGAATCTGAAACTGCTGAAGAGAAAGAAAAGGTATACATGGGTCAGGAAGAAATTAAAAAGAAATCAATCCAGATTGAGAACATGTCCACAAAACTAGAGGAAATGGAACAATTTGCTGTCGGTACTAATGGCATTCTAAATGAAATGCGGCAGAGAGTTGAGGATCTGGTTGAAGAAACGTGTAGACAGAGGCAAAGAGCTGCTGAAAATGAGCAGGAACTATGTCGTGTTAAGCGGGACTTCGAGTCTTTGAAATCATATGTCAGTAGTCTCATCACTGTTAGAGAAACACTTTTGTCATCAGAAAAACAGTTTCAGACAATTGAGAGGCTGTTTGAACGGCTAGTTGCTAAGACAACACAGCTGGAGGGTGAGAAAATGCAGAAAGAAGTGGAAGTCCAGAAACTTATGGAAGAAAATGTGAGGTTGAGTGCCCTTCTTGACAAGAAAGAGGCTCAACTTTTAGCCATGAATGAACAATGCAAGCAAGGCTTCATCTCGGTTCATGATCCCGGGCCAAGCAAGCAACTGGCAGTGACAATGATTGGCAACCATGGAGGCAAGCATCAGGCCGTTGCTCCAGTTATCGCGAATTGGTTTTCTCTGGAGATTCAAACAATCTCGAATCTTATCTGGCGCATATCCAGGGAAGTTGGAGGCTGCAGAGAGATGGCCGCAGCCAAATCACCATTTCAGGTTTGCTTTATTACCGCAGCATTTGCTTTGTTTTCTAGTTCTGATCTTCTCTTGCCTACCGTGATAAAGTCTGTAGAAAAAGGATATATGGAGTATTCCATAGGTAGTCTTCCTTTAGGCTTAATCAAACACTGGCTACTCTTCGGAAATAATATTAGGTTCATCGTCCATGGCTCGCCGGCGTATCTATCAGAGATGGGATATGAGTTCACTATAATGACAGCAGACATTGATGAGAAAGCGATTCGGAAGGAAAAGCCAGAAGAACTGGTGATGGCTCTGGCTGAGGCAAAGGCAGATGCAATTATATCAAGAATTCAAGCCACAGGTCAACTGGGCAATGATGCGCCTGCTACATTGTTAATCACTGCAGACACA ATGAAAGTAGTAATTCCCTTGGAGGCGGCAACCAAGGCGATCGAGGGCTTGGCCGGTCTCCCGGATCCAGAATCCGACAGTGTAGATTGCCTTTCCCAATGTTCCCATCTTCTACACTTGTTCGTCGTCTTCTTCGTTAGTCTTCAATCTTTTACTTCAATTACAGATGAAGAAATGTGGATTAAGAAGGCAAAGGGCTTAGTTGGAGGGAGTAAGTTCATCATTTTTTTTTTTCTTTTTTTTTATATTTGTGGACCTATGAACTATCGACAGTACGGTCATGGCCACAGAGAAGATCTTGATCTGTCAACTTTGAAAACTCAGCTCAGCGAAACAAATGAAACTTGGAAGCATGAAATGGAACGGCGCCAATCAGAAGTAGATGTGTTGCAAGCAAGGCTTATGGAGGTAAAGTCTTCTATAGATGGTTCTGAGGAAGACTCAAGAAAGGAGCTAGAGGTTCTTTGGCGAAGAGTTAAGACAACTTCTACATTGTTGACATACTTGAAATCAAAAGCTAGAATGTTGGCAGTTCCCCATTTGGCTCACTCTTCATGTGGCATTAAACACTTAGAAGGGGTAGGGTTTGTTGACAAAAGTGGAACCCCACTGTCTGGTTGGTCTAAAAGTATTGATCTTTCTTCATTTGATGGTCCTGAAGAGGAATCGTTGATTGGTATTGGCAAGCCATCTGGTTTATTGGATGAACAAGATGCAGCTTATATCAGCAAAATACTGAAGTCTGTTCAGATGGTTTCAGATGTAATGGAAGCACTTGTTAAGAGGGTTATTTTGGCAGAATCTGAAACTGCTGAAGAGAAAGAAAAGGTATACATGGGTCAGGAAGAAATTAAAAAGAAATCAATCCAGATTGAGAACATGTCCACAAAACTAGAGGAAATGGAACAATTTGCTGTCGGTACTAATGGCATTCTAAATGAAATGCGGCAGAGAGTTGAGGATCTGGTTGAAGAAACGTGTAGACAGAGGCAAAGAGCTGCTGAAAATGAGCAGGAACTATGTCGTGTTAAGCGGGACTTCGAGTCTTTGAAATCATATGTCAGTAGTCTCATCACTGTTAGAGAAACACTTTTGTCATCAGAAAAACAGTTTCAGACAATTGAGAGGCTGTTTGAACGGCTAGTTGCTAAGACAACACAGCTGGAGGGTGAGAAAATGCAGAAAGAAGTGGAAGTCCAGAAACTTATGGAAGAAAATGTGAGGTTGAGTGCCCTTCTTGACAAGAAAGAGGCTCAACTTTTAGCCATGAATGAACAATGCAAGCAAGGCTTCATCTCGGTTCATGATCCCGGGCCAAGCAAGCAACTGGCAGTGACAATGATTGGCAACCATGGAGGCAAGCATCAGGCCGTTGCTCCAGTTATCGCGAATTGGTTTTCTCTGGAGATTCAAACAATCTCGAATCTTATCTGGCGCATATCCAGGGAAGTTGGAGGCTGCAGAGAGATGGCCGCAGCCAAATCACCATTTCAGGTTTGCTTTATTACCGCAGCATTTGCTTTGTTTTCTAGTTCTGATCTTCTCTTGCCTACCGTGATAAAGTCTGTAGAAAAAGGATATATGGAGTATTCCATAGGTAGTCTTCCTTTAGGCTTAATCAAACACTGGCTACTCTTCGGAAATAATATTAGGTTCATCGTCCATGGCTCGCCGGCGTATCTATCAGAGATGGGATATGAGTTCACTATAATGACAGCAGACATTGATGAGAAAGCGATTCGGAAGGAAAAGCCAGAAGAACTGGTGATGGCTCTGGCTGAGGCAAAGGCAGATGCAATTATATCAAGAATTCAAGCCACAGGTCAACTGGGCAATGATGCGCCTGCTACATTGTTAATCACTGCAGACACA MKVVIPLEAATKAIEGLAGLPDPESDSVDCLSQCSHLLHLFVVFFVSLQSFTSITDEEMWIKKAKGLVGGSKFIIFFFLFFYICGPMNYRQYGHGHREDLDLSTLKTQLSETNETWKHEMERRQSEVDVLQARLMEVKSSIDGSEEDSRKELEVLWRRVKTTSTLLTYLKSKARMLAVPHLAHSSCGIKHLEGVGFVDKSGTPLSGWSKSIDLSSFDGPEEESLIGIGKPSGLLDEQDAAYISKILKSVQMVSDVMEALVKRVILAESETAEEKEKVYMGQEEIKKKSIQIENMSTKLEEMEQFAVGTNGILNEMRQRVEDLVEETCRQRQRAAENEQELCRVKRDFESLKSYVSSLITVRETLLSSEKQFQTIERLFERLVAKTTQLEGEKMQKEVEVQKLMEENVRLSALLDKKEAQLLAMNEQCKQGFISVHDPGPSKQLAVTMIGNHGGKHQAVAPVIANWFSLEIQTISNLIWRISREVGGCREMAAAKSPFQVCFITAAFALFSSSDLLLPTVIKSVEKGYMEYSIGSLPLGLIKHWLLFGNNIRFIVHGSPAYLSEMGYEFTIMTADIDEKAIRKEKPEELVMALAEAKADAIISRIQATGQLGNDAPATLLITADT Homology
BLAST of Sgr020317 vs. NCBI nr
Match: KAA0044792.1 (uncharacterized protein E6C27_scaffold74G00830 [Cucumis melo var. makuwa]) HSP 1 Score: 652.9 bits (1683), Expect = 2.8e-183 Identity = 382/528 (72.35%), Postives = 406/528 (76.89%), Query Frame = 0
BLAST of Sgr020317 vs. NCBI nr
Match: KAG6577222.1 (hypothetical protein SDJN03_24796, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 596.3 bits (1536), Expect = 3.1e-166 Identity = 322/363 (88.71%), Postives = 341/363 (93.94%), Query Frame = 0
BLAST of Sgr020317 vs. NCBI nr
Match: KAG7015314.1 (hypothetical protein SDJN02_22949 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 592.4 bits (1526), Expect = 4.5e-165 Identity = 322/373 (86.33%), Postives = 341/373 (91.42%), Query Frame = 0
BLAST of Sgr020317 vs. NCBI nr
Match: XP_022136802.1 (uncharacterized protein LOC111008412 [Momordica charantia] >XP_022136803.1 uncharacterized protein LOC111008412 [Momordica charantia] >XP_022136804.1 uncharacterized protein LOC111008412 [Momordica charantia] >XP_022136805.1 uncharacterized protein LOC111008412 [Momordica charantia]) HSP 1 Score: 585.1 bits (1507), Expect = 7.1e-163 Identity = 317/331 (95.77%), Postives = 326/331 (98.49%), Query Frame = 0
BLAST of Sgr020317 vs. NCBI nr
Match: TYK16672.1 (uncharacterized protein E5676_scaffold21G005030 [Cucumis melo var. makuwa]) HSP 1 Score: 579.3 bits (1492), Expect = 3.9e-161 Identity = 314/331 (94.86%), Postives = 324/331 (97.89%), Query Frame = 0
BLAST of Sgr020317 vs. ExPASy TrEMBL
Match: A0A5A7TN92 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold74G00830 PE=3 SV=1) HSP 1 Score: 652.9 bits (1683), Expect = 1.3e-183 Identity = 382/528 (72.35%), Postives = 406/528 (76.89%), Query Frame = 0
BLAST of Sgr020317 vs. ExPASy TrEMBL
Match: A0A6J1C8J4 (uncharacterized protein LOC111008412 OS=Momordica charantia OX=3673 GN=LOC111008412 PE=4 SV=1) HSP 1 Score: 585.1 bits (1507), Expect = 3.5e-163 Identity = 317/331 (95.77%), Postives = 326/331 (98.49%), Query Frame = 0
BLAST of Sgr020317 vs. ExPASy TrEMBL
Match: A0A5D3CYN0 (Uncharacterized protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold21G005030 PE=4 SV=1) HSP 1 Score: 579.3 bits (1492), Expect = 1.9e-161 Identity = 314/331 (94.86%), Postives = 324/331 (97.89%), Query Frame = 0
BLAST of Sgr020317 vs. ExPASy TrEMBL
Match: A0A1S4DYX9 (LOW QUALITY PROTEIN: uncharacterized protein LOC103493201 OS=Cucumis melo OX=3656 GN=LOC103493201 PE=4 SV=1) HSP 1 Score: 577.0 bits (1486), Expect = 9.4e-161 Identity = 313/331 (94.56%), Postives = 323/331 (97.58%), Query Frame = 0
BLAST of Sgr020317 vs. ExPASy TrEMBL
Match: A0A0A0KUI9 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G046630 PE=4 SV=1) HSP 1 Score: 572.0 bits (1473), Expect = 3.0e-159 Identity = 310/331 (93.66%), Postives = 322/331 (97.28%), Query Frame = 0
BLAST of Sgr020317 vs. TAIR 10
Match: AT2G17990.1 (BEST Arabidopsis thaliana protein match is: kinectin-related (TAIR:AT5G66250.3); Has 7578 Blast hits to 6129 proteins in 783 species: Archae - 220; Bacteria - 1045; Metazoa - 3605; Fungi - 575; Plants - 442; Viruses - 38; Other Eukaryotes - 1653 (source: NCBI BLink). ) HSP 1 Score: 343.2 bits (879), Expect = 4.4e-94 Identity = 197/337 (58.46%), Postives = 263/337 (78.04%), Query Frame = 0
BLAST of Sgr020317 vs. TAIR 10
Match: AT5G66250.1 (kinectin-related ) HSP 1 Score: 286.6 bits (732), Expect = 4.9e-77 Identity = 180/340 (52.94%), Postives = 235/340 (69.12%), Query Frame = 0
BLAST of Sgr020317 vs. TAIR 10
Match: AT5G66250.2 (kinectin-related ) HSP 1 Score: 286.6 bits (732), Expect = 4.9e-77 Identity = 180/340 (52.94%), Postives = 235/340 (69.12%), Query Frame = 0
BLAST of Sgr020317 vs. TAIR 10
Match: AT5G66250.3 (kinectin-related ) HSP 1 Score: 286.6 bits (732), Expect = 4.9e-77 Identity = 180/340 (52.94%), Postives = 235/340 (69.12%), Query Frame = 0
BLAST of Sgr020317 vs. TAIR 10
Match: AT5G66250.4 (kinectin-related ) HSP 1 Score: 274.6 bits (701), Expect = 1.9e-73 Identity = 180/360 (50.00%), Postives = 235/360 (65.28%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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