Sgr018143 (gene) Monk fruit (Qingpiguo) v1
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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.ATGTCCCGTGCGAGATCTAAGCGAGTTATACTGCCTCCGGCTCAAGAGGTAATCAATGTTCCAAAGTTGTTATTCGAGATCTTTCCCCCTCCTGAAACGATTGTTCATTTTTACGTTGGTTCCCAAAAAGTTAGAGGGAAGTTGTAGTGGTGATAAGAATTTTAAGACTCAATTTCAGTAATGGCGTTTCATTTCGTTATTATTTCATATGATTTGTTTTAACCGAAATACAGAAATTACATAACATTTGTTTTCACAATTACTTTTACGACAATCAATTTCTGACGAAAAAAGAAAAAAAAAAGTGACCCACAAATCGTTTAAGATGTCTTGTTTGGATCAAAGGAATGATATTTCATCGATTATGTTATTTGAACTTTGAAATGTGCACCTGGAATTATTAAAAAAAATGTAATAAAAGAAGAGACACCACCCTTTTAGTTCATTGAGCTGAAACCTTCTCCTCTATTCATTTTGATTACTCTTTGATACTCTACATATTTGCAACTACATTGTGTTTTTTTTAATTGCTTCATAGCTGGTTTTAACCGCTCCCACATTGATATTCAATTAACTTTTTTAGGCTAATATTTTGAAGCTTTTTTATTGTGTCGAGGAAATTTTTTAAAACTGCATTAACTTCTTTGAAGCTGCTAAATACAGAATATTGATAAGATAGGAGAAGTTGTGGAAGGCGGTGACTGCTATGGGGCTCAACAGATGTACAAATCTATCAGTGCAAGGTACAGTAATATCTTCTTCATTTGGTTTTGATCATTAATAGAAATTGCAAGGGGGTACCATAAAAGTAAGAGATCTACGAGCCAATAGAATATGATTCTGATTTGTAGATAAGTAATACTAATTAGTAGATAATCAATATTCACAATACCTTTGCTGCATTGCTTCTAGTGAAACTGGATACAACCCTTAACTGGCAATTTCTATCAATCACAAATACTAATAGACTTAATTTTTAAAATTACTCTTAAAACCATTTCATCACCCAAATGATTATGCAAAATGGGGATTTAGTCAATCAAACTGTCCGTTCATGAACATGTGTTTGTCTCATTACAGGTATGCGGCTGCACAAAGGTACTCAGAAGCCTTGGATATTCTTCAGTCAGGGGCATGCATCCAATTGAAACATGAGCAGGTCAAAGCTAGTTGCAACTTTTCTGCGTATGTAATTACTGGATTGGATGTTCTTTTAGCCTATGTAGCACATTGTATCATTATTTTAACATTTTGACTGACGTTATTGTTTAGGCCTTGAAATTTCAATTTCATTTCATTGCCCATATTTGAAGTCCACTACTCTAGAGAACAAGCGTAAAGTGTAGATCACTCTATATGGTAGTGTTGTTACTTGTAATATATTATGTTTAAATATTAAGAAACATGGATATAGACACGAGACACAACATAGAGATAGTGTGATAGACATCCAATTAGAAAGGTTTATGCCAGGAAGAGAGGAAGAGGAGGCAGGTTGCTTGAGTGCGTGAGTTTCTGTTATGGGTTGGACCCTTGTTATTTGAGGGTCGGGTTAATTTGGGTATTTGTAATTATAACTATATAGATGAATGTAAGAGAAAGGGGGGGGGGGTATATTTTGCCTGGATGGTAGTGAGTAGTTAGGAGAGGTCAGGGAGCTCTCGAATTCTCACTTGACTCTTGTAACTTCTCTCTAACTATCAATAATAGAAGTGAGTTCTATCATAGTGATATGCCATATCCCAAAAAATAAGACACAACACACAACAAGATAACATTCATTATAATATGTATGAATTGGTAAGAAACTAAATTTCATTGATAATATGAAATTGGAAAAAAAAAAAAAAGAAAGTTACAAAGGAGTTGCAAGAAAACAGTAGCGAAGGGGGAGTAATTACAAAAAAGGAAAAACGGATCTCAAGCTCTAGAGAGAAGCTACAAAAACCAAGGATTCCATCCTTAGGATCCTTGTTTTCTCAACTAGTCAATTTAATAAAACTTTGAATATGAAAAAAATTTATATTTATGTGATGATGTAATATTCTCCCCAAGAAGTTTATAAAATAAAATCAAATGTCTCACAAAATAAACAAGTCTCTCAAAGGAAAGTAGCCATATCTCAAAGATCATTACTCACATCATCTCAATCCTTGTCAACTCCAACAACGTCAATTTGATGAGTATTGTCAGGAAAACTATACCCTTGTATTTTGGTTTATCCTTAGATAGCCTCCCATTTATTACTAGGGTTTCATTTTCATCTTGGATCTAGTTTTTGGAGCCTCAATCCTTTAGGTGGGTTTTCTTCTGGTTCTTTTTCTCCCTCTTGTGTGGTTTTCCCCTTCCAAAGTCCTCTTTGTTTTCTTCATTATGGGAAGTTAGAGTCCCCAGAAGTTTAAATTCTTTGTCTAGCATGTCTTACATTGGAGGATTAACACTATTGATTTTATCCAAGGGCTTTCTCCATGTTGTTGGGTCTACAGTGGTGTATTTTATGTAAATATGCTTTTAAGAGTTTGTTCCATGTGCTTTGGAGTTGTATCTTTGCTACCTTGATTTGAGACACTTTTTTGGAGACTTTTGGTGTTCTTTTGGCTCATAATAGCTCGTTGCTCGATGTTGGAGGAGGTATTGTTCCATCCTCCTTTTAGAGACAAGGGAGGAGCCTCATGGAGCACAACCTTTTTGGCTATTTTGTAAAACATTTGGCTCAAGGGAAATAGAAGAATTTTGAGAGGGGTGGAGATGTCCAGGGGGACGTATAGACTTTGACTAGGTTCAATGCCTCCCTTTGAGTGTTTGTGACCAAAGGGTACTTATCCTTTGTCTATTATTCTCAACAATTGAAGCCTTTCTTTTTTAATGGTTTCTTTCTCTTTTAGCTTTTGTTGTCATTGTTTTTGTTTTGGCTCCTTTTGGTGATGGGTTGTTTTTTTAATTGCCACTTGTATATTCTTTTATTTGCTCCGTGAAAGTATTGTTTTACATTTAAAAAGGAAAAAAATAAAGAAAGATAGCCTCCAATTTTGGTCCATTAGAGATAAAGAGGCAAGTTTGCCAATGTCTTTTAGGGAATCCAATAAGTCTCTAGCAATGTCTCTAGCATTGTCATCGGTTACCATTTCTTTCATACTAGACTATTAATAAGTGCAATGCCCGGAAAGTTTTTAAATTTAACAAATCAAAATTTAAATGAATACAATTAATTGCCAATATCCTAACTAACATTGCCTAAAACAATTCGTGAGGTACTTTTTCCATCATAGATTCATAGTATACCATTTACCCAAATGTTAGAAATTGTATTTTCTCAACCTTTTCTTATTAGTTTTTTTTTATTCAGACAAAACAATGTAATTTAGTAAATGATGGATAGTTATTTTCTTATGTACCAATTTTTCTTCTAGTAATTAATATTTAATGATTTTATTCCTTGATAACCCTTAAATTGGTATAATAATAAAATATTTAATCGTTATTGTAAATTTCAATAAGTGTGTAAATTTGTTTTGTCTTATTTTATTTTGTTATACTTGGAGTACTGAGGCCCCCTCCTTATATTACATTCATGGCCCGCCCTCACTAATTCTTGGAGAGACTTTGCTCACCCCAAAGCCAACCTTGGGAGACCACAAGAGTTTTTAAGTTATTAAGATTTCAACTTGGGGCCTTGAATCCAGAATCTTGGAGGGTATCTTTAAACATCACTAGCCCATACTAAGTGTGTAAATAAAATTAATATGCATAAGATTGTACGATTATAACATATTTTATTATATAAATTAACACATAAGATTGTCTGATTGCAGTGTTCGCTTGATAATTGTTAACATGTTTTGTAGAATCTAAAATCGTGGCATGACTGTAAATTCTTCTTTTAGATAAGTTATTATTCGTACATATACTCATTTATGCAAGTTGTTAGGCATTAAACTTCAGTGAATGTTCATGGAGCATGTGAGATTACTAAATGAAGATAATGGATCAAACATATGTGTAAGTCATGCCACAATAGTCTACTTTAAATAGCGTGTATGTGCTTTTCTAGTTGAAAAGGTAATGTGTTCATTCTTTTAAATGTTAATGTTTATTAGGATTTGTGTGGAAAAGAAATTATGCCTTTAGTGTTGAGAAAGGAGAAATGAAGTTCAGATTTTTCATCAAACTAGTTGTAAATGGCTGAGGGTGACAATTTTTCAGGTAACTTGTGGAGCAGAGCTTGCCGTGTTATTCGTAGAGACACTTGTTAAGGGCAAAGTTCCTTATGATGATGATACTCTTGGTGAGTTCCATCCCCCCACCACCACATACACTTGAAGAAAAAACATTTGACATACTTGGCTATATTTTTTCCATTGCAGTTTGACTGTTTGTTATTCTGTATGTGCATTTCAATTTGGGATTCAGTTCCTTTTAGGTAACTTTGTCATATGTTCCTTTAGCTCTTTCTTAGACAAGTCTATATGAAGATTAATTTAGTTAACCCCAATTTGCAAGCAAATTTCTCATTTCTTTACTAGCTTTTGTTGTCTTCTGATGTATGAAGTACTAATGCTCATCTTTTCACGATTGTGACAAACATTATGTTAGATCGTGTCAGGAAAATTTACAAGAGTTTTCCTCAGATTCCGTTGCCACAACACTTGGGGGATGATGATGATGTGCAACAACTTTCTGAAGCACTTGGTGCGGCAAAAACACGTGTAGAAGGATGTTCCTCCTTTCTGAAAGCAGCTCTAAAGTGAGCCATTGTCCATTTTCTTCCCAGTAATTAATTATTTTTACAATGGTAATAAACGAAATAAGACAAAAATGAGTATCTTACTTTTAAGGTTTAGCTGTTTGAATTATCGGATATATTCATACGTATCAAGTTAGGTTTTTACTGTCTCGTTCAATCAGTTTTGAATGATCATTGTGTACTAAAGAAGAGTACATGCTTTCTACAAATCCTTTAATTTTCAGGTGGTCTATGGAGTTTGGACCGCATAGGAGTGGATCTTCAGAAATTCATGTCATGCTTGCTACATACATATATTCTGAATCACCAGAAGTGGTAGGTTTGACCGGAGAATATCACTGTTTGTACATGTTCTTTGTTTGCGAGAATTTGTGTTCTCTGTATGTATGATGAGTTCATTTTAAATGCAAATGACAGGTCTAATGTTTAGTCACTCCCTTTGGGGATAGAATAGTTATGTTACTTCAGTGTCTAATGTCCATGATGTCTAGATATTTGAGAGTTGACGTATCTGACTTATTAATAGAAACAAGATGTAGCATTTTGAGAATGATTGTTGATGGATTTTTGAGCTAGGGTCCTAAACCATTTGGATAGTTTGCTTTGTAGCTGAGCGAGGTAGATTTTTCTTATTTGAGTATGTAATTTGGCAATGACATGTTCTACTGCTGCTATAATATGTTTGCTGGCAAGGTTATGAGAAGTGTTTGCATGCCATTTCAACTCTTTGATATGGTTGTTGAAGTGTGGTCCAGGAACATGGACGATGAAACTGTTGTTGCTCGTCCTCTTTGACTGGTTTAATAGTATCTTCCAGCATTCTACTTGTTGCAGGACATGACCAGAGTATCATATCACTTTGTTCGAGGAAATAACCCCAAGAAGTTTGCTTCTATATTAGTGAATTTTATGGGCAAGGTTATTAGAGCTTTTCTTTATCTCTCATATTTCAAGGATCAGTATGCCGTCTTCATTAAGTCTTCATACTTATTGCCATAGTTGAAGTAAGATTTAAGTCATGTATTATTTTAATTGCTTCCGAACTTCTTATGTTCCTTAAGCGTATCTCTTTTTCTTCACATGATTTGTGGCCCTTACCCCTTTCAACAGATACTTATTTAGTTAAAGTACTTAGACAGCTATTAATCTGTATTTTTCAGAGATAGTTTGATGTAATTCCCTATTTACTAATTGTAAGAAAGGATTTAAACGTCGAGGCCTCAGTTTTATGGAAATGTCAATAAAAATAGTGATATCGATGGATATTTTTCAAAAAAAATCATAAAAAATATTTAATTTAATAAATAAGTATTTCACACTTTTTAAATAAGTTAAAATTTCTTATTATTACTATTTATATTTTTTTATATTCCATCGATATTCTTATGGTATGATGAAAACTTAATAACTCCTCGTATCGATGTTGAACCCTTAGATATATGGAAATGTCGTCATTGATAGATATTTAAAACCTTGATTTGTTAGTAGTGGGAGAACAGGTTTCCTAGTATTTGCTATTTTCATGTAAGTAAAAATAATCAAAATCATTTTTATTGTTTGTTATGCTTGTGAGATATTGTATTCTGTCTAGCTGATCATTTTGTTACCTGTTTTCTTGCTCTATTTCCTTTAATTAACTGAGCCAATGCTTTTTTCCAACCCTGCAGTGTTATCCAGGTGAAGATGATATGGCTATAGCACGGGCAGTTTTGATGTAAGACTAACAAAAAATCATTTATACTTGCCACCAATTGAAATCTCCCGAGTCAAGAAATTTTCATGGATTCATGTATATGGGAGAGATAATGAATTAATGATATGGACATATATTGACCCATAGCAAATCTATTGAAAGTAATGGAAATTTTGACTTAAGGGTATAGTTGCTAATAGTTTTAGGGCGTAAACATTAAGCAATTAGTTTTAAAGAATAACAAGTCACTTTGTAAAAGTCAAGCATTGGGTCTTTTTGCATCATTGCAAATATAGATTTTTGTTGTTATCAATTTTTTCTTTGAAAATTCCAGGCCGAGATGTGAGTAATAAATGTTTGTATAAATGGAACTTGCAGACCTGGGATTGTCAAGTGACTCACAGCTCCATGTGCTTTACTTTCATTAATATGGCTGTATAGGATGAAGAATTGGAATTTTTGTATTCTAAGGGCTAGGTTGTTATTTCTACTATTTCAGTGGCTTTAGGAAGGAAAACGGTTTCACTTGTGGCCATAATTTATGCTACTTGAACTACTGTTTCATAAGCAATGTATGTAATTTAGTTCTCTCGAGAGGTCGCCTCTTAAAGTGTCAAATAGTGTGCAGTTTGCACAAAAGTGGTTGAGGATATAGGCCATTGATATATTGATGTATTGCCAAATCATTTCCCTTTGTGGTGTAAATCTTTTTCAATGTTTTGGGGTATTATGGACCTAGAAATGCAACAGTAAAGCATTGTTAAGGAGCCTGAGTTATGGTCCTTTTTCATATATATTTTCTCTCTGCTTTGGACGGCTAGAATTATATTTTTGGAGTTATTTGGTTAGTCAGGAGTTGGCCGTTTTAAGATGTGAAAGTGCAGACCAAGCTTGCCTGTTTGCCAAAAGGTTGGAGAATGGTTGATGAATTTGAACTTTCTTTTGAATTGTGGAATGCCAACAAACACTCCTAACCAGTTGACATGCCTTCTTGTAGAGATTGGATAGAAGTTAGGAAAATCCATCTTCAGCTGTGGAACTTGGAGACTTTCAAACACATAGGCGATGCATATTTAGGCTTTGTGAATTGCCCCAAAAGGAATTCTTAGTAAACCCAACATTATGGAAGCCCTAATCGAGGTTAAACACAACTTCATGAGCTTTATTCCACAGAGATTGTTCTCCCTTCTTCCTCGGATGATTCATCAAGCTCTATCGCCCTTTAGCCCCTTTCTTTGATGCAAACTTGCTATCAATGTCATTGAAAACCCTCTATTGTTCCTTTCAAGCCAAAGGGACCAAAGAAATGCTTTAATAAAGTGGATCCACATTTTTTTTAACATTCTTGAAGAGATGACTCGTGAGGGTATAGGAGAGCAGATTTTTTGGATCCATTGGTAGCACCGTATTCCAATTAAAGATGGAGAGGATAAATGCCCAGAAATCTCCAGGGTATGGCAATTGAGAAAAATGTGGCTTTGTGTTTCACCATCCATTTTGCACAGGGGGCACCATCTAGGGGAGATAGATAATTTCGTATCCTCCATTATTTTTAAAAAAAGTCTTTGAACTTCGTATTCCCTATTGTCTGTGGATATAATAGGTAGTAAAATTATTGTCATCTAAAATAAACTGTTTGGGCACTTCATTTGGAGTCTTTGCAGTTATTGTGGTTAAGATGGATACATTGAAGGATATAGTTGCCTTATCAAGTGTTCAAACAACATTCATGTCTTCCCCTTTAAGGGTAATTAGCCACCTAGTTTACCCAATGCCCTCCAATTTCAAACGAAGCTCCAAGATAGAGTTTATTCTTTCCCAAACTATTACGGCATAGAAGACCGGGTCCAAAAGACAATGAAAGGAAGCCTTTTTGTTTCAGGACTTAAAAATATTTGATGTTCTATACGAGAGCATAGAGTTGTATGGGGATATACTCGCTTGACATTCATTTCAGATTTTTTTGGATCTAAACCGAGTGTACGTTTGTTTTTGTGTAGGTACTTGTCTCTTGGTAATTTAAGGGATGCTAATGGCCTGATTGATGCGTTAAAGAAGCAAGAAGAACGTGAGGAACTTGAGTTTCCTGATTCAGAATTGATTGAGTTTATCATCTATCTTTTGCTAACGTAAGGTCCATTTACGTTGTTTTGACTAAACTAGGCAACATTATATCTACTTCAGCAAGTGTAATTTATAAAGTATGAAGAATGATGGTAATAAAATCAATTAAGTGAACAAAGACTACCTTTTTTTGTTGTTTTCTTTACATTCCTTGAACCTGTGAGTGGAAATTTGCTAAAGAACCATGAAGTAGTGAATGATGCAAGAAGGCAACTTAGAATATTGGTAAATATTTATTTTTAGCGTGTTTGGGAGTGTTTTTTTAGATATTGTTAAAACTTTAATAGATGCTACAATTTAAAAAATATCTTTGAAAATTTCAAAAATACTTAGAAACCCGTTGCTTGAAGGAAGCAGGAAGCACTTGTGTTTTTATTTTTCCAAATATGTTAACAGAAAAAGTGTTTCAATTTAAAAATGACTCTCAGACGAACTCCGAGACACATTTAGTCTTGCTAGCTGGTTAAATTTTCAAGTCTGGTTTCTTCTGATTCTGTTCGCAGTATTGCAGTTCCTGGTAGATGTTTCTAGGAAGGTTTATGATTTTGATGGTCAGAACTTAATTATGCATTTGCAGGTTGGAGAGAGATGCTTTGCCACTTTTCAATATGCTGAGGATGAATTACAAGTCAAGTATAGAGAGAGAACCTGCCCTGAATGAGGTGCAACTCCTGTTACTCGTCAAAATCGTTGATAAATCACTTGTTGAAATGTGCTATAATCTCGCATCTTGAATTATATCGAGATGAAGCAGTGTAGAAGTTTAGTTAAAGTTAAATAATTGGATTCTAACTAAAGCATATCTTGCTTCAGTTGCTTGATGAAATTGCAGAGAAGTTCTACGGTGTACGTCGCAGAAATCCCTTGCAAGGGATGTTCGGAGATTTCCTGAAGGTGATTTTCACTGTCTCATAAACTTTATCCCCTGGATGGTTGAATTTATTAGGTAGTTACAAGATAGGAAATTCTAGACATCTATGAATATAATTGTATAGAATCTGACCATGGGTTGCGCAGATGATGGGCTAGCGAGGTCCGATCGCTTGCAGTTACTGTTGACTTGTCCAGCTCCTCTGCTTCTGTTGTTCTATATAAAGGTGGAATTGCATAACCACATGTTAGACTTTCTTTTTAAATGTTTTCAAATATAGTAGGTCATGTTTCCCCTATTTTTTTGCATGCACTATTTGTTATTGTTGTAAAAGTGACCTTTTTTCTTTAAACATTGATGACTTATCTCTGCATTATACAGCTTTATCCTTCAGAAACCTCCCTCTTTCTCTCATGGGGAAGCTTTGACTGTGTTTTGGGGGCAATTTATTAGAGCTTCTCTTTACACTTGCCCATCTAAACTTTGCTTTAATGTCTAATATGATGGATGAGTGCATGAGTACTTTCTTATGTATAGTTTGTACTTTTTTTTTCCCTGGTGGAAGTCTCATTGAGATTAACTACAAGGCACCAAATATCACAGAATTGTACAATGAGGTTGATAATGTACTTGTTTTACTTGCTGAGTTAGATGTTGCGATTAAATTAATAGTTAGTTTCTAAAACTTTAATAAGTTAATAGTGAGTTTTATGATACAAATACTAATTAGGTTCAATTATAAATTGTAATTTCATCTCATCTATGAAATTGTTTCTTATAAAAAAAAAAGTGTTTAATAGGTTTCTATCGTGGTGTTTAGTGACATAAGTGTTGAACCGACAAATTTAACGATAAAGATTTGTTGAGTAAAAAATTGGAAGCTCATGAATTTATTAAAATCTTTTTAAAGTCTAGAGATGGAATAGACAAATTTGAAAATTTAGAAATCTATTAAAAACTTTTAAAAGTATAGAGATTAAATAGATATAATTTTAAAAGTACAGAAACTAAACTTTTTCTTAGATAATGGATCATAGTCTATCAACCTTATTTAGTTTTCACATGGGATATTGGTGTGCCTCTTCTAAAGATCCTCTCTCTTTTTGTTTAAAGGCAAAAGTGTAGTAGTCATTGAAAATTACTTTTAAAAGGTAGTTGCAATTATAAACATATATTATAATTAGTAATAATTATTGTATTTGTTAATAGAGGTGTTAAAAAGGGTTATGTGTTTTTTTTTAAGTATATCATAACACAAATGGGGGGTGGGAGTTTGAACTTACGACCTTTTAGAAAAAGTAGTAATGTTTTAACCACTGAGCTATTGTCATGTTGGCAGTTAAAAGAGTTGTGTTAGGCATTCAATAAACAAAAAGTAGAATCGATCCTAACCAACAAGTTAACTTGACTTAGTGCTTTGCATCCTTCTTTTTTTTTCTTCTATAATTTATGTAGAATAGGGGTATCCAAATACCTAACTTTCTATCTTCTTTAATTTCTTGTTGATTTCTCTAATTCTGAGCTAAGAGTCTAAAGACAAGCTTTTTAAGTTTCTTTGAAAGAAAATTGAGGATTTTTCTCTTTGTATTTTACATGTGAAGGTCTAAATTTCTTTTGTTACTTTCTTTTCAAACTAAAGATGGCTGAGATTATTGCTTCAATTAACTAGTTGCTGCCTTCGAACCAAACTTTTAGTCTTTCCATCAACGTGATTAGTTAAAAGGAAAAGCCAAGTGAGAAGTCAACCCTGTTAAGTGTATTATTATTTGCTTAATTTTGGTTACTGTTTATTAGTGTTTTATTGTTATTATCTCACTGTACGGGTTCATTAGGCTTTTTGTTATTTTAGCCTCCAATAGTATCCATACACGTGTCCATGAACCTTTCTATTTAATATCATGTCTGGCCTCAATAGTGTTGTGCTGTGTGTCTGGATTATATTTGATTCGCTTTTGTTCTCTCTATACCCAACATTCGTACATGGTATCAGAGCTACAACTCATTGTCTGAAGTTTGAAAATGGCGTTCGGCTCCGACACATCGTCCACCAACAATACTCCAAACCGTTCAGTGATAAGCCCTGCAGCTCTGGTGAGTAATCCAAGAAGCCCACCTATGAATACTCCCCCTATAACTCAGCTAGTTATCCCTAATCCTCCCTAAACTCTGATTAACCCAGTACACCCGTACAGCCCTTTCGATTCAACAACCCTTTTTTCCTCAACTTCATCTGAATGTCCCCCATCAACCCCTTTTTCCTCAAATTCAACCTCCTTACTTTCCTTTTCCCCACACCTACAATCCAGCAATACCCCACTTATGCCAAATACCTAGCAACCAACACCGCCATTCTTTCCTGGGCTATCTTAACCTTCAGCCATTAAGCTCAGCAACAACAATTATCTCCTCTGAAAAAAGCAACTCCTGAATGTGGTCATTGTGAATGGGTTGGAAAACTTCCTCGATGGAACTTTGCCCTGTCCTCCTAAATTTCTTGATGAAAATCAATTGCAGGTTAACCTCCAATACTCTGTGTGGCAAAAATATAACTGCGTGGTTATGGGTTTTATGTACTCCTCTCTATCTAAGGACAAAGTGGGTGAAATAGTCAGTTGTAATTCAGCGTTTGAGATTTGGAAGTCACTTCGTCGTGTCTATGAATCCTCATCCACGGCTCATATAATGGCTCTTCGGTCTTAGTTGCAAAAAACTAAAAAGGATGGCCTCACCATAACTCAATACCTCGCACAGATTAAAGAGCTTGCTGACAAGTTTTCAGCCATTGGTGAACCATTGTCCTATAAGGATCACTTGGGGTATATTCTGGAAGGTCTTGGTCCTGAGTATAATGCCTTTGTTACTTCTATCCAAAACACAACCGATGGGCCATCGTTGGAAGATATTTTAAGTTTGATGTTGGCTTATGAGTCTCGGTTGGAAAAGCAAAGTGCAGTTGAACAGCTCAACCTAATTCATGCAAATATTGCAAACATTGCGTTTTCCCAAGGAAATAAAAGATTTCAAAAACATACCCAATCTCATGGAGGAGGTTGCGGTCGTAATTTCCAAAAAAATGGGATAGACATTAGGTAAATGTCCCGTGCGAGATCTAAGCGAGTTATACTGCCTCCGGCTCAAGAGAATATTGATAAGATAGGAGAAGTTGTGGAAGGCGGTGACTGCTATGGGGCTCAACAGATGTACAAATCTATCAGTGCAAGGTATGCGGCTGCACAAAGGTACTCAGAAGCCTTGGATATTCTTCAGTCAGGGGCATGCATCCAATTGAAACATGAGCAGGTAACTTGTGGAGCAGAGCTTGCCGTGTTATTCGTAGAGACACTTGTTAAGGGCAAAGTTCCTTATGATGATGATACTCTTGATCGTGTCAGGAAAATTTACAAGAGTTTTCCTCAGATTCCGTTGCCACAACACTTGGGGGATGATGATGATGTGCAACAACTTTCTGAAGCACTTGGTGCGGCAAAAACACGTGTAGAAGGATGTTCCTCCTTTCTGAAAGCAGCTCTAAAGTGGTCTATGGAGTTTGGACCGCATAGGAGTGGATCTTCAGAAATTCATGTCATGCTTGCTACATACATATATTCTGAATCACCAGAAGTGGACATGACCAGAGTATCATATCACTTTGTTCGAGGAAATAACCCCAAGAAGTTTGCTTCTATATTAGTGAATTTTATGGGCAAGTGTTATCCAGGTGAAGATGATATGGCTATAGCACGGGCAGTTTTGATGTACTTGTCTCTTGGTAATTTAAGGGATGCTAATGGCCTGATTGATGCGTTAAAGAAGCAAGAAGAACGTGAGGAACTTGAGTTTCCTGATTCAGAATTGATTGAGTTTATCATCTATCTTTTGCTAACGTTGGAGAGAGATGCTTTGCCACTTTTCAATATGCTGAGGATGAATTACAAGTCAAGTATAGAGAGAGAACCTGCCCTGAATGAGTTGCTTGATGAAATTGCAGAGAAGTTCTACGGTGTACGTCGCAGAAATCCCTTGCAAGGGATGTTCGGAGATTTCCTGAAGAATCTGACCATGGGTTGCGCAGATGATGGGCTAGCGAGGTCCGATCGCTTGCAGTTACTGTTGACTTGTCCAGCTCCTCTGCTTCTGTTGTTCTATATAAAGATTAAAGAGCTTGCTGACAAGTTTTCAGCCATTGGTGAACCATTGTCCTATAAGGATCACTTGGGGTATATTCTGGAAGGTCTTGGTCCTGAGTATAATGCCTTTGTTACTTCTATCCAAAACACAACCGATGGGCCATCGTTGGAAGATATTTTAAGTTTGATGTTGGCTTATGAGTCTCGGTTGGAAAAGCAAAGTGCAGTTGAACAGCTCAACCTAATTCATGCAAATATTGCAAACATTGCGTTTTCCCAAGGAAATAAAAGATTTCAAAAACATACCCAATCTCATGGAGGAGGTTGCGGTCGTAATTTCCAAAAAAATGGGATAGACATTAGGTAA ATGTCCCGTGCGAGATCTAAGCGAGTTATACTGCCTCCGGCTCAAGAGAATATTGATAAGATAGGAGAAGTTGTGGAAGGCGGTGACTGCTATGGGGCTCAACAGATGTACAAATCTATCAGTGCAAGGTATGCGGCTGCACAAAGGTACTCAGAAGCCTTGGATATTCTTCAGTCAGGGGCATGCATCCAATTGAAACATGAGCAGGTAACTTGTGGAGCAGAGCTTGCCGTGTTATTCGTAGAGACACTTGTTAAGGGCAAAGTTCCTTATGATGATGATACTCTTGATCGTGTCAGGAAAATTTACAAGAGTTTTCCTCAGATTCCGTTGCCACAACACTTGGGGGATGATGATGATGTGCAACAACTTTCTGAAGCACTTGGTGCGGCAAAAACACGTGTAGAAGGATGTTCCTCCTTTCTGAAAGCAGCTCTAAAGTGGTCTATGGAGTTTGGACCGCATAGGAGTGGATCTTCAGAAATTCATGTCATGCTTGCTACATACATATATTCTGAATCACCAGAAGTGGACATGACCAGAGTATCATATCACTTTGTTCGAGGAAATAACCCCAAGAAGTTTGCTTCTATATTAGTGAATTTTATGGGCAAGTGTTATCCAGGTGAAGATGATATGGCTATAGCACGGGCAGTTTTGATGTACTTGTCTCTTGGTAATTTAAGGGATGCTAATGGCCTGATTGATGCGTTAAAGAAGCAAGAAGAACGTGAGGAACTTGAGTTTCCTGATTCAGAATTGATTGAGTTTATCATCTATCTTTTGCTAACGTTGGAGAGAGATGCTTTGCCACTTTTCAATATGCTGAGGATGAATTACAAGTCAAGTATAGAGAGAGAACCTGCCCTGAATGAGTTGCTTGATGAAATTGCAGAGAAGTTCTACGGTGTACGTCGCAGAAATCCCTTGCAAGGGATGTTCGGAGATTTCCTGAAGAATCTGACCATGGGTTGCGCAGATGATGGGCTAGCGAGGTCCGATCGCTTGCAGTTACTGTTGACTTGTCCAGCTCCTCTGCTTCTGTTGTTCTATATAAAGATTAAAGAGCTTGCTGACAAGTTTTCAGCCATTGGTGAACCATTGTCCTATAAGGATCACTTGGGGTATATTCTGGAAGGTCTTGGTCCTGAGTATAATGCCTTTGTTACTTCTATCCAAAACACAACCGATGGGCCATCGTTGGAAGATATTTTAAGTTTGATGTTGGCTTATGAGTCTCGGTTGGAAAAGCAAAGTGCAGTTGAACAGCTCAACCTAATTCATGCAAATATTGCAAACATTGCGTTTTCCCAAGGAAATAAAAGATTTCAAAAACATACCCAATCTCATGGAGGAGGTTGCGGTCGTAATTTCCAAAAAAATGGGATAGACATTAGGTAA MSRARSKRVILPPAQENIDKIGEVVEGGDCYGAQQMYKSISARYAAAQRYSEALDILQSGACIQLKHEQVTCGAELAVLFVETLVKGKVPYDDDTLDRVRKIYKSFPQIPLPQHLGDDDDVQQLSEALGAAKTRVEGCSSFLKAALKWSMEFGPHRSGSSEIHVMLATYIYSESPEVDMTRVSYHFVRGNNPKKFASILVNFMGKCYPGEDDMAIARAVLMYLSLGNLRDANGLIDALKKQEEREELEFPDSELIEFIIYLLLTLERDALPLFNMLRMNYKSSIEREPALNELLDEIAEKFYGVRRRNPLQGMFGDFLKNLTMGCADDGLARSDRLQLLLTCPAPLLLLFYIKIKELADKFSAIGEPLSYKDHLGYILEGLGPEYNAFVTSIQNTTDGPSLEDILSLMLAYESRLEKQSAVEQLNLIHANIANIAFSQGNKRFQKHTQSHGGGCGRNFQKNGIDIR Homology
BLAST of Sgr018143 vs. NCBI nr
Match: XP_038874694.1 (Golgi to ER traffic protein 4 homolog [Benincasa hispida]) HSP 1 Score: 575.9 bits (1483), Expect = 3.2e-160 Identity = 284/319 (89.03%), Postives = 305/319 (95.61%), Query Frame = 0
BLAST of Sgr018143 vs. NCBI nr
Match: XP_011656863.1 (Golgi to ER traffic protein 4 homolog isoform X1 [Cucumis sativus] >KGN46554.1 hypothetical protein Csa_004968 [Cucumis sativus]) HSP 1 Score: 568.5 bits (1464), Expect = 5.2e-158 Identity = 279/319 (87.46%), Postives = 302/319 (94.67%), Query Frame = 0
BLAST of Sgr018143 vs. NCBI nr
Match: XP_023006614.1 (Golgi to ER traffic protein 4 homolog isoform X1 [Cucurbita maxima]) HSP 1 Score: 567.8 bits (1462), Expect = 8.8e-158 Identity = 281/319 (88.09%), Postives = 300/319 (94.04%), Query Frame = 0
BLAST of Sgr018143 vs. NCBI nr
Match: XP_008459732.1 (PREDICTED: Golgi to ER traffic protein 4 homolog isoform X1 [Cucumis melo]) HSP 1 Score: 566.6 bits (1459), Expect = 2.0e-157 Identity = 279/319 (87.46%), Postives = 303/319 (94.98%), Query Frame = 0
BLAST of Sgr018143 vs. NCBI nr
Match: KAG6575235.1 (Golgi to ER traffic protein 4-like protein, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 565.8 bits (1457), Expect = 3.3e-157 Identity = 279/319 (87.46%), Postives = 300/319 (94.04%), Query Frame = 0
BLAST of Sgr018143 vs. ExPASy Swiss-Prot
Match: Q6GKV1 (Protein GET4 OS=Arabidopsis thaliana OX=3702 GN=MDC12.19 PE=1 SV=1) HSP 1 Score: 428.7 bits (1101), Expect = 8.4e-119 Identity = 211/322 (65.53%), Postives = 264/322 (81.99%), Query Frame = 0
BLAST of Sgr018143 vs. ExPASy Swiss-Prot
Match: Q54TH4 (Golgi to ER traffic protein 4 homolog OS=Dictyostelium discoideum OX=44689 GN=DDB_G0281815 PE=3 SV=1) HSP 1 Score: 146.4 bits (368), Expect = 8.3e-34 Identity = 96/299 (32.11%), Postives = 149/299 (49.83%), Query Frame = 0
BLAST of Sgr018143 vs. ExPASy Swiss-Prot
Match: A0MT11 (Golgi to ER traffic protein 4 homolog OS=Salmo salar OX=8030 GN=get4 PE=2 SV=1) HSP 1 Score: 126.3 bits (316), Expect = 8.9e-28 Identity = 86/313 (27.48%), Postives = 165/313 (52.72%), Query Frame = 0
BLAST of Sgr018143 vs. ExPASy Swiss-Prot
Match: B5KFI0 (Golgi to ER traffic protein 4 homolog OS=Taeniopygia guttata OX=59729 GN=GET4 PE=2 SV=1) HSP 1 Score: 125.9 bits (315), Expect = 1.2e-27 Identity = 90/313 (28.75%), Postives = 160/313 (51.12%), Query Frame = 0
BLAST of Sgr018143 vs. ExPASy Swiss-Prot
Match: A4QNE0 (Golgi to ER traffic protein 4 homolog OS=Xenopus tropicalis OX=8364 GN=get4 PE=2 SV=1) HSP 1 Score: 125.6 bits (314), Expect = 1.5e-27 Identity = 91/313 (29.07%), Postives = 160/313 (51.12%), Query Frame = 0
BLAST of Sgr018143 vs. ExPASy TrEMBL
Match: A0A0A0KCK7 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_6G108520 PE=3 SV=1) HSP 1 Score: 568.5 bits (1464), Expect = 2.5e-158 Identity = 279/319 (87.46%), Postives = 302/319 (94.67%), Query Frame = 0
BLAST of Sgr018143 vs. ExPASy TrEMBL
Match: A0A6J1L2N7 (Golgi to ER traffic protein 4 homolog isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111499290 PE=3 SV=1) HSP 1 Score: 567.8 bits (1462), Expect = 4.3e-158 Identity = 281/319 (88.09%), Postives = 300/319 (94.04%), Query Frame = 0
BLAST of Sgr018143 vs. ExPASy TrEMBL
Match: A0A1S3CAY3 (Golgi to ER traffic protein 4 homolog isoform X1 OS=Cucumis melo OX=3656 GN=LOC103498774 PE=3 SV=1) HSP 1 Score: 566.6 bits (1459), Expect = 9.5e-158 Identity = 279/319 (87.46%), Postives = 303/319 (94.98%), Query Frame = 0
BLAST of Sgr018143 vs. ExPASy TrEMBL
Match: A0A6J1H5V6 (Golgi to ER traffic protein 4 homolog OS=Cucurbita moschata OX=3662 GN=LOC111460396 PE=3 SV=1) HSP 1 Score: 565.8 bits (1457), Expect = 1.6e-157 Identity = 279/319 (87.46%), Postives = 300/319 (94.04%), Query Frame = 0
BLAST of Sgr018143 vs. ExPASy TrEMBL
Match: A0A6J1HL00 (Golgi to ER traffic protein 4 homolog OS=Cucurbita moschata OX=3662 GN=LOC111464505 PE=3 SV=1) HSP 1 Score: 558.9 bits (1439), Expect = 2.0e-155 Identity = 277/319 (86.83%), Postives = 298/319 (93.42%), Query Frame = 0
BLAST of Sgr018143 vs. TAIR 10
Match: AT5G63220.1 (unknown protein; CONTAINS InterPro DOMAIN/s: Uncharacterised protein family UPF0363 (InterPro:IPR007317); Has 304 Blast hits to 301 proteins in 161 species: Archae - 0; Bacteria - 0; Metazoa - 110; Fungi - 121; Plants - 35; Viruses - 0; Other Eukaryotes - 38 (source: NCBI BLink). ) HSP 1 Score: 428.7 bits (1101), Expect = 5.9e-120 Identity = 211/322 (65.53%), Postives = 264/322 (81.99%), Query Frame = 0
BLAST of Sgr018143 vs. TAIR 10
Match: AT1G34070.1 (CONTAINS InterPro DOMAIN/s: Retrotransposon gag protein (InterPro:IPR005162); BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT5G48050.1); Has 648 Blast hits to 647 proteins in 29 species: Archae - 0; Bacteria - 0; Metazoa - 16; Fungi - 25; Plants - 607; Viruses - 0; Other Eukaryotes - 0 (source: NCBI BLink). ) HSP 1 Score: 45.8 bits (107), Expect = 1.1e-04 Identity = 20/85 (23.53%), Postives = 48/85 (56.47%), 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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