Sgr016453 (gene) Monk fruit (Qingpiguo) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGCAGCTCCAGTAACGAAAGCAGTGTGTCTCGGCCATATAGCAAGAGAATCTTCGGATATTCATCGCCTCTCTGAATTCTACAAAGAGGTCCACAAATTCTATCTTCCACCTTTCTGTTCTTTCATTGTCAATGGATTTGTTCATGACGGTTGTTATTTGGTGTGCAGATATTTGGATTCGAGGAAATTGAGAGTCCAAATTTCGGAGAACTCAAGGTTATATGGCTAAATCTTCCTTCTGCCTTTCAACTTCACCTCATCGACAGAGACCCTAAATCCAAACTTCCCGAAGGTCCATGGAGCTCCACGTCACCCATTGCCGACCCTAGCCATCTTCCCCGAGGTCACCACATCTGCTTCTCTTTCTCCAGCTCCAACTTTGACTCTGTCGCCATACTCTCAAGGTAAATTTATAAATTATTCTTTTGCTTTTGATTTTTTCGTCATAGTAATTTGGAAAGCACTCGAGATTTACGCTCTATCCATATATTTAATCATATATTAGGGTTTATTTAGACTAAGCTAAGCATCAAAAAGTCTGCGATTTCGAGATGAACTATAGGATTTATTTTAAGAATTAATTTCTGATTGTCTGGCTCTATAATTTGCTAATTGGGAGGAATTTTAGATCAAATCCCGACTAAGACTTGAGTATTGAACTGTCAGAAATCTTCTTTGAAAAAAAATGAGAATTGTTGAGTATTATAGTGTATGTTTTTAAAATATTGAAGTTTCAAGAGTATATGTTAATGCGCCAACTTGAACCCAATTTAACTGGTTAAAGCATTTGCAACTTCCTTTAGGTCAGACATTCAATTCTCCACCCACCTCCTTGTTTGAACTCCAAATATATATATATATATATATATATATATTTTTAATGCTACAGAGAAAAGTGAAAAAGTGACATGTTGAATTAATATCCATAGAGAAAAAAAGGAATAAAGTTCAAACTCTTCGGTTTATAAAATCGCATGTAGAAATGATTCTTTGAAAATATTTTCTGTTTCTCACGGTTTATAAAAAGTTCGTGCTTGGCTGTTACATGCCTTACAGATACAAAGATATCAGATATGGCTAGACTAATTTTGATTTTCTGCAGGAAAAGGGGATCCAGACTTTTGAGAAGACCCTACCAAATGGGAAGGTGAAGCAAGTCTTCTTCTTTGATCCGGATGGTAAGTTTTTGCCAAACCAATCTTTTCCTTTTCTTTTTGTGCGTGTAAAGTTATGATTAACATACCTCCTTTTACTGGACTCTTCTCTGTTATCAGCTTTCATCTTTTGATCATTTGCTCTATTGTTCCAACATGCTTGATATATAAATTTAGTTTTTGTGGAGTCTGTTTGCTGACTGATGAGTAGTACTTGGGATGTTTAGACGTTCTGATATTCAATCATTTGATAAGCAATCCATCTCTCTGCAGGTAATGGATTGGAGATTGCAAGTCGGGAAGATGTGTAAATATTATAGTCGAATGTAGTCTTGTTAAGGGGCTTAAAAAGGGTCCATAGTAGAGTCTTGTATCCTGTTCGACTGAAGATCGACGTGCATGACCATATATTATACTACTAAATCTGTTCATAATCCACCCCCCCCACACACATTTAAAATATTTCTGTTGGAATGGATGGACTTGTGTTGTGTGTTGGAAAAGATAAAAAGAGAGTCGTCTAGTTAAAAGATATAAGGATAGGCATGTTTTACTACCACTTTCGAGTGGGAATGTAGGGAACTGATATCAAAATCAACGAAAATTGGCTATTGAGAACAAATCAAATCATATGATTCAATTGTCTCTATTTGACCAATGCATGTTTGCCAAAACTATTTGGAATTGTAATTAGATTCTTAGGCATGTTGGAATGATATCATTAGAATTTTCACTACAGGAAAATGGGTAGGTATGGGCTGATGTTTGGGTGGTGAATAAATGGTGATCTTGGAAGTGAGTACAAAGTAAGTTTCAGTCAAATGGTGAGGATGTCAAAACAATTTTGTTCAGCAAATTAAAAGGTGAAGGGAATAGTCCAAACTTTCCAAATAGTTGTGGTTCATGAGGTATCGGGCAAGAACATATACGCAAGCCTCAGTGAGAGTGGTGGGTTTGAGCAACTCAAAATAAAATATTACTGGTGGAAACTTACCAATTGATGCAAAAATTCCTGTACCTGAGAGATGCCATGACCAGTTGACCACCACCCATTTAGAATAGAGATTTTATGTGAAAGTCCTTGTGAAAAAAATACAGATGAAGGAGGAAACTTCACCTAATTAAAAATTTGGTACAAGGATTTCCAATGTGCCGATACAAAATATAAACTATTTGTAACTATCCAAAGCACAAAAATTAACCATGCTTTGCCCTCGCACTCTAACAAAATCAGTGTTGGGTTCTGGTCTTGAACTTACGCGATACCGTTTTTCTATTATCACTTACATTTTCCGTTTTCAATGTGTGCACAAGAAATTTCTCCTGAGTCGGACCATGAAAAATTTGAATCACCCATGTCTAACGGATTTGTGTATTTCTCATGGATCAGCTTTCTGAAACTGTTCTATTACTTTTTTCTTTAAAAAATTATACGGGTTACTTTTTGGTTTGCACTTATTTCGACTACATAGGGTTCGAACTCCTAGTTGTTCTTAGGCATATTTGTTCTCCTCTTTTGCCATGTGAAGAGGAGAAAGTAAGTATAGATTGAAGATATTCACCTGCTCGCTTTGTGTTCATTGTGGTGAAGGGACAACTCTGTCGTCCCCACTTCCAATAAGAGCTTCAGCTTCAATGCGTCTCCAGTAGGGTGTAGCTAAAAAGACGAAAGAGCATCAAATATAAGGTGCCTTCTGTTACAGTAGCACTAGCATGCTGGTACCTTAGGGCACTCAACAGCTGGTCCTCCCTGCTAATGAAACCTGTAACATTGAGTCAATAGAATTCAACACGTGTCTGTTCGAACCCACGTGTCATTAGCCTTCCCTTCCAACGACCACCGTTTTAATCCCTCTCCTCGACCTGCAACATTCCCTCCATCTCTGCGAAGATTGTTGTTACAGTATCCTTCACTTCAGGAAGCAAATGAGCCAAGAACAGCCGCGGCGCCATGAACAGAAAGAGCCCATCAGGTACGGCGACGTTTTCAACGTCTCTGGAGACCTTGCCTCCAAGGTTATACCGCCGGTGGACGCTGACATGATGCAAACCGCCGAGACCATGGTGTTCGGTCAAACCCAGAAGGGCGGCCCTGCCGCTACCATGCAGTCTGCCGCCTCCCGGAATGAGCGTTCCGGCTTCGTCGGCCACGACGATGTCAGTGACGCTGCCAGAGACCAAGGAGTTGCCGTTAAAGAGACCGATATCCCAGGAAGTCGCATTATCACCGAAACAGTCGCTGGACAGGTTCTCTTTTCAAGATTCTTTACATTCTGCTTATCTTTTGATTAAGCCTTGAACTGTTTAAATCAAAAAATCAAATCTTGGAAGGATAGACTTTACGTCAATCGATTCTCAAATAATTGATTATACCATAAAGTTGCATGAACAAGACTTCTCAAACATACTCTGTTTTGCATTAATTATAATCTTTAAAGATTTGTTTCTCTTTCCGAGTGCAGATTGTTGGGCAGTTTGTGGAGCCTACACCCTTCATCAGAGCAGCCGCAGTAGTGCAGAACGCGGTCACCATAGGACAAGCTCTAGAAGCGACCGCTCACACTGCAGGTTATAAACCGGTCGACCAGAGCGATGCGGCGGCCATTCAAGCAGCAGAGGTCAGGGCAACTGGAAGCAATGCCATAATACCGGGCGGACTCGCCGCCAGCGCTCAGTCGGCAGCTTCTTTCAACGCCGGGGTTACCAAGGATGAAGATAAGATTAAACTGAACGACATCTTATTGGTACATAATGAACTAAAAAAACTCAAAACAACCAATCACGTATGAAACTTACTTCAAAAACTGTCATGACAGGGTGCGGCGACGAGGCTGCCGGCGGATAAAGTGGTGACAAAGCCGGACGCGGAAGGGGTGATGAGTGCAGAGCTGAGGAACAACCCGAGACTGGCGGTGCATCCCGGTGGGGTGGCGGAGTCCATGACGGAAGCCGCCAGGCTCAATGAGAACGTCAATGTGCCACAGTGAGCGTGAGAGGTGGTGATGAATATGTGTTTCGTCTGTATAATACGTTTGAGTTGGCTTCTTGTGTTTTTGCAGTGATAAAACTTTCCAAAGAAAATGACATCGCAACGCAACGGATTTCAATAAAGATCCGACGTTGCTCAATAAATGAACAGTTGAATAAGACGTATGGAATTGACCAAGATTCACATGCAAGCGTAGAATATAACAATGGGCGGTCCAGTTTCGTCGGGTGTACTGAATCTGAGAATGGAAAAGTGCCGAAGAGGAAATGGGTTGGCCCTGCAGCTGTGGGGAGGGCTGCTGCCATACGAAAGCTGCAGAGCTTGCAGCAGCCTCAGGTTCATTTAAAAGATGAAAGCTGCTTCCTTTTTCAATCACAATCCAACAGTAGGACCCTCTTTTCTTTTTACCTAATTTACCATTAAATTAAAGCATGACCAACCCACATCAAATTCAGGGATCTCCTGTATCCTGCAGGCATTTTGTCATTTTCTTTAATTTTTAGAAAAATGGTGAGGAGTTTAAATTTGAGTTAAGTTTTGGTTGAGTAAAAGCAATACAATAGATTCTTCCCACTGCTAAGAAAGCATGGCCTTAGGAAACGTCACTATCGGAAGCCACATGCATCTAAAATTTGGGTCTCGTTCCACTGTTTGAACTTTTTGTATGACACAGTTATGGTAAAAACACATGTGGGCTTCTTTAATTTTGCAAACCTTTTGCTATCACTTTCAGTACTATCATCCCACAGTTGAAAGTTCCAAATATTAAACAGCACCCCCAAATACAACAAATAAATAATGGACCCCTTCAATTTGTTCTCTCCGTAGTTTTTACCCAATTCCTCTTTACTCTCTCCCTGCCCCAGATGTAGTCAAAGTTATATATTGATTAGAGAGAGATGGTTAAAGTGGTCAGCATCATTTACTTCATAATCTAATTGCCCCATATAAAAAGAATTGACGTATTGACCTAGATAAAAGAAAATTCTTAAATATGATTTCAATTGGCATATTGACCTAGAGTGAACCAAATTCTCCGTAAAAGGACAAATGATTAATGGCTATTTGAAGAAAGGGCTTAATAAAAAATGGATTTGTCTTGGATGTAATTAAATTTCACGGACAATTGTCTTAATGTAAGATATTTTAAACAATCATTAATTTAAGTGTGCATGGTCCTTTTGAATTTGTTTAAAAGAGATGATTCTTAACGGCGTTTTTAATTTAAAATTAATAGAACAACCAAAACTTAATCCTTCAAAAACAAGTTTTAAAAAGATGCAGCATAACTTGTGGATCACATGATATTTGAATTAGAATAATAATTTCATTCAATAAAATATGTCAAATTGTGCATTTATTAGTTGGAGCTTAATTCAAAAGAGTTTGAGAAGAATTTAAAAAGGTTGCAAATTGCAATAGTAATAATAACAACCACAACAACAAAAGAAAATTAATTGGCTTGCTTTGGTTTTCAATATTGGTCGATTTGGTTTTTATTTAAAAAAATTAGTTAGACTACATATTTACATTAAACGATAATGTTAGGGGCAGGGGCGGAGAAGAGGCAAGTAAAGGTTTAAAGAACTTTTCTTAAATTTTTAAAATTGAAAGATTATATATATAAAAAGTTAAAATGTAAAAATTTATTCCTCAAATTAAATGATATGTACAACATATTTCATGTCGGATTTGTGGTACTCTATTTATCTGATAGTGCACTTCTTTCTACCTTTAATTTAACAGGCATGTCATGATAAAATAGGTCATCATTAAGTTAATATTCTTAACATTAAGAATTATATAGAATAAAATTAAAGATGGAATTGAGATTTTTCAAAAAAAAATTCGATACTAAATTTATAATTTAATTACTTAATTCTAAAATTAAATTAAAAATCCAACCAAAATAACAGCAGGCGCGAGAGCTTTAAATCTCTCTCTCTCTCTGTGCAGCGATGGCACCGTGAAAAATGTCGAACGTCTTTCGCAAGAACTTCCACCTCTTCTTCTCCAAACTCAAATGCTTACCGGCCGCCGGCCAGACCCCATCTCCGACCACCCATTACCATGACTTCCCCGATCGGTCCAACTCCGACTGCTACTTCACCCCCAACCCCTTATCCGTCGCATCTTCCTCCACTGCCGATGGCTACTTATCTTCCTCGGACGACGACTCCGTCTCCGACCTCACTGCCGTCTAGCTCTCAGCGCTTCTTCTTTTCTTCGCCCGGCCGCTCCAACTCCATATTCGACTCCTCCGGCGCCCGACGCGGATCCCACGACGTCGCTTCAGTTGCAGAAGGTGTGAAAGTTCCCAAGTATTCGGTAGACCCGTATGCGGACTTCCGGCGGTCGATGCAGGAGATGATAGAAGCTCGAGAGATGGAGAACGTGAGAAGCGATTGGGAGTACTTGCGGGAGCTGCTCTCTTGCTATCTCCTGTTGAATCCGAAGGACACCCACAAGTTCATTATCAGCGCCTTCTCTGACCTCGTCCTTTGCTTATTGGCAACCTCGCCAACTCCGGCGGCTGACCATCCCAAAAGTCGGCGGAAATATGTTATATTACGGTAA ATGGCAGCTCCAGTAACGAAAGCAGTGTGTCTCGGCCATATAGCAAGAGAATCTTCGGATATTCATCGCCTCTCTGAATTCTACAAAGAGATATTTGGATTCGAGGAAATTGAGAGTCCAAATTTCGGAGAACTCAAGGTTATATGGCTAAATCTTCCTTCTGCCTTTCAACTTCACCTCATCGACAGAGACCCTAAATCCAAACTTCCCGAAGGTCCATGGAGCTCCACGTCACCCATTGCCGACCCTAGCCATCTTCCCCGAGGTCACCACATCTGCTTCTCTTTCTCCAGCTCCAACTTTGACTCTGAAAAGGGGATCCAGACTTTTGAGAAGACCCTACCAAATGGGAAGGTGAAGCAAGTCTTCTTCTTTGATCCGGATGTACTTGGGATGTTTAGACGTTCTGATATTCAATCATTTGATAAGCAATCCATCTCTCTGCAGGGCACTCAACAGCTGGTCCTCCCTGCTAATGAAACCTGTAACATTGAGTCAATAGAATTCAACACGAAGCAAATGAGCCAAGAACAGCCGCGGCGCCATGAACAGAAAGAGCCCATCAGGTACGGCGACGTTTTCAACGTCTCTGGAGACCTTGCCTCCAAGGTTATACCGCCGGTGGACGCTGACATGATGCAAACCGCCGAGACCATGGTGTTCGGTCAAACCCAGAAGGGCGGCCCTGCCGCTACCATGCAGTCTGCCGCCTCCCGGAATGAGCGTTCCGGCTTCGTCGGCCACGACGATGTCAGTGACGCTGCCAGAGACCAAGGAGTTGCCGTTAAAGAGACCGATATCCCAGGAAGTCGCATTATCACCGAAACAGTCGCTGGACAGATTGTTGGGCAGTTTGTGGAGCCTACACCCTTCATCAGAGCAGCCGCAGTAGTGCAGAACGCGGTCACCATAGGACAAGCTCTAGAAGCGACCGCTCACACTGCAGGTTATAAACCGGTCGACCAGAGCGATGCGGCGGCCATTCAAGCAGCAGAGGTCAGGGCAACTGGAAGCAATGCCATAATACCGGGCGGACTCGCCGCCAGCGCTCAGTCGGCAGCTTCTTTCAACGCCGGGGTTACCAAGGATGAAGATAAGATTAAACTGAACGACATCTTATTGGGTGCGGCGACGAGGCTGCCGGCGGATAAAGTGGTGACAAAGCCGGACGCGGAAGGGGTGATGAGTGCAGAGCTGAGGAACAACCCGAGACTGGCGGTGCATCCCGGTGGGGTGGCGGAGTCCATGACGGAAGCCGCCAGGCTCAATGAGAACGTCAATGTGCCACATTTCGTCGGGTGTACTGAATCTGAGAATGGAAAAGTGCCGAAGAGGAAATGGGTTGGCCCTGCAGCTGTGGGGAGGGCTGCTGCCATACGAAAGCTGCAGAGCTTGCAGCAGCCTCAGCGATGGCACCGTGAAAAATGTCGAACGTCTTTCGCAAGAACTTCCACCTCTTCTTCTCCAAACTCAAATGCTTACCGGCCGCCGGCCAGACCCCATCTCCGACCACCCATTACCATGACTTCCCCGATCGGTCCAACTCCGACTGCTACTTCACCCCCAACCCCTTATCCGTCGCATCTTCCTCCACTGCCGATGGCTACTTATCTTCCTCGGACGACGACTCCGTCTCCGACCTCACTGCCGTCTAGCTCTCAGCGCTTCTTCTTTTCTTCGCCCGGCCGCTCCAACTCCATATTCGACTCCTCCGGCGCCCGACGCGGATCCCACGACGTCGCTTCAGTTGCAGAAGGTGTGAAAGTTCCCAAGTATTCGGTAGACCCGTATGCGGACTTCCGGCGGTCGATGCAGGAGATGATAGAAGCTCGAGAGATGGAGAACGTGAGAAGCGATTGGGAGTACTTGCGGGAGCTGCTCTCTTGCTATCTCCTGTTGAATCCGAAGGACACCCACAAGTTCATTATCAGCGCCTTCTCTGACCTCGTCCTTTGCTTATTGGCAACCTCGCCAACTCCGGCGGCTGACCATCCCAAAAGTCGGCGGAAATATGTTATATTACGGTAA ATGGCAGCTCCAGTAACGAAAGCAGTGTGTCTCGGCCATATAGCAAGAGAATCTTCGGATATTCATCGCCTCTCTGAATTCTACAAAGAGATATTTGGATTCGAGGAAATTGAGAGTCCAAATTTCGGAGAACTCAAGGTTATATGGCTAAATCTTCCTTCTGCCTTTCAACTTCACCTCATCGACAGAGACCCTAAATCCAAACTTCCCGAAGGTCCATGGAGCTCCACGTCACCCATTGCCGACCCTAGCCATCTTCCCCGAGGTCACCACATCTGCTTCTCTTTCTCCAGCTCCAACTTTGACTCTGAAAAGGGGATCCAGACTTTTGAGAAGACCCTACCAAATGGGAAGGTGAAGCAAGTCTTCTTCTTTGATCCGGATGTACTTGGGATGTTTAGACGTTCTGATATTCAATCATTTGATAAGCAATCCATCTCTCTGCAGGGCACTCAACAGCTGGTCCTCCCTGCTAATGAAACCTGTAACATTGAGTCAATAGAATTCAACACGAAGCAAATGAGCCAAGAACAGCCGCGGCGCCATGAACAGAAAGAGCCCATCAGGTACGGCGACGTTTTCAACGTCTCTGGAGACCTTGCCTCCAAGGTTATACCGCCGGTGGACGCTGACATGATGCAAACCGCCGAGACCATGGTGTTCGGTCAAACCCAGAAGGGCGGCCCTGCCGCTACCATGCAGTCTGCCGCCTCCCGGAATGAGCGTTCCGGCTTCGTCGGCCACGACGATGTCAGTGACGCTGCCAGAGACCAAGGAGTTGCCGTTAAAGAGACCGATATCCCAGGAAGTCGCATTATCACCGAAACAGTCGCTGGACAGATTGTTGGGCAGTTTGTGGAGCCTACACCCTTCATCAGAGCAGCCGCAGTAGTGCAGAACGCGGTCACCATAGGACAAGCTCTAGAAGCGACCGCTCACACTGCAGGTTATAAACCGGTCGACCAGAGCGATGCGGCGGCCATTCAAGCAGCAGAGGTCAGGGCAACTGGAAGCAATGCCATAATACCGGGCGGACTCGCCGCCAGCGCTCAGTCGGCAGCTTCTTTCAACGCCGGGGTTACCAAGGATGAAGATAAGATTAAACTGAACGACATCTTATTGGGTGCGGCGACGAGGCTGCCGGCGGATAAAGTGGTGACAAAGCCGGACGCGGAAGGGGTGATGAGTGCAGAGCTGAGGAACAACCCGAGACTGGCGGTGCATCCCGGTGGGGTGGCGGAGTCCATGACGGAAGCCGCCAGGCTCAATGAGAACGTCAATGTGCCACATTTCGTCGGGTGTACTGAATCTGAGAATGGAAAAGTGCCGAAGAGGAAATGGGTTGGCCCTGCAGCTGTGGGGAGGGCTGCTGCCATACGAAAGCTGCAGAGCTTGCAGCAGCCTCAGCGATGGCACCGTGAAAAATGTCGAACGTCTTTCGCAAGAACTTCCACCTCTTCTTCTCCAAACTCAAATGCTTACCGGCCGCCGGCCAGACCCCATCTCCGACCACCCATTACCATGACTTCCCCGATCGGTCCAACTCCGACTGCTACTTCACCCCCAACCCCTTATCCGTCGCATCTTCCTCCACTGCCGATGGCTACTTATCTTCCTCGGACGACGACTCCGTCTCCGACCTCACTGCCGTCTAGCTCTCAGCGCTTCTTCTTTTCTTCGCCCGGCCGCTCCAACTCCATATTCGACTCCTCCGGCGCCCGACGCGGATCCCACGACGTCGCTTCAGTTGCAGAAGGTGTGAAAGTTCCCAAGTATTCGGTAGACCCGTATGCGGACTTCCGGCGGTCGATGCAGGAGATGATAGAAGCTCGAGAGATGGAGAACGTGAGAAGCGATTGGGAGTACTTGCGGGAGCTGCTCTCTTGCTATCTCCTGTTGAATCCGAAGGACACCCACAAGTTCATTATCAGCGCCTTCTCTGACCTCGTCCTTTGCTTATTGGCAACCTCGCCAACTCCGGCGGCTGACCATCCCAAAAGTCGGCGGAAATATGTTATATTACGGTAA MAAPVTKAVCLGHIARESSDIHRLSEFYKEIFGFEEIESPNFGELKVIWLNLPSAFQLHLIDRDPKSKLPEGPWSSTSPIADPSHLPRGHHICFSFSSSNFDSEKGIQTFEKTLPNGKVKQVFFFDPDVLGMFRRSDIQSFDKQSISLQGTQQLVLPANETCNIESIEFNTKQMSQEQPRRHEQKEPIRYGDVFNVSGDLASKVIPPVDADMMQTAETMVFGQTQKGGPAATMQSAASRNERSGFVGHDDVSDAARDQGVAVKETDIPGSRIITETVAGQIVGQFVEPTPFIRAAAVVQNAVTIGQALEATAHTAGYKPVDQSDAAAIQAAEVRATGSNAIIPGGLAASAQSAASFNAGVTKDEDKIKLNDILLGAATRLPADKVVTKPDAEGVMSAELRNNPRLAVHPGGVAESMTEAARLNENVNVPHFVGCTESENGKVPKRKWVGPAAVGRAAAIRKLQSLQQPQRWHREKCRTSFARTSTSSSPNSNAYRPPARPHLRPPITMTSPIGPTPTATSPPTPYPSHLPPLPMATYLPRTTTPSPTSLPSSSQRFFFSSPGRSNSIFDSSGARRGSHDVASVAEGVKVPKYSVDPYADFRRSMQEMIEAREMENVRSDWEYLRELLSCYLLLNPKDTHKFIISAFSDLVLCLLATSPTPAADHPKSRRKYVILR Homology
BLAST of Sgr016453 vs. NCBI nr
Match: KAA8548647.1 (hypothetical protein F0562_000331 [Nyssa sinensis]) HSP 1 Score: 466.1 bits (1198), Expect = 5.2e-127 Identity = 259/430 (60.23%), Postives = 308/430 (71.63%), Query Frame = 0
BLAST of Sgr016453 vs. NCBI nr
Match: EXB63456.1 (hypothetical protein L484_005419 [Morus notabilis]) HSP 1 Score: 451.4 bits (1160), Expect = 1.3e-122 Identity = 242/386 (62.69%), Postives = 290/386 (75.13%), Query Frame = 0
BLAST of Sgr016453 vs. NCBI nr
Match: XP_038876298.1 (late embryogenesis abundant protein D-34-like [Benincasa hispida]) HSP 1 Score: 434.1 bits (1115), Expect = 2.2e-117 Identity = 231/254 (90.94%), Postives = 242/254 (95.28%), Query Frame = 0
BLAST of Sgr016453 vs. NCBI nr
Match: XP_021897120.1 (late embryogenesis abundant protein D-34-like isoform X1 [Carica papaya]) HSP 1 Score: 431.8 bits (1109), Expect = 1.1e-116 Identity = 242/428 (56.54%), Postives = 288/428 (67.29%), Query Frame = 0
BLAST of Sgr016453 vs. NCBI nr
Match: XP_008447154.1 (PREDICTED: late embryogenesis abundant protein D-34-like [Cucumis melo]) HSP 1 Score: 430.3 bits (1105), Expect = 3.2e-116 Identity = 232/266 (87.22%), Postives = 245/266 (92.11%), Query Frame = 0
BLAST of Sgr016453 vs. ExPASy Swiss-Prot
Match: P09444 (Late embryogenesis abundant protein D-34 OS=Gossypium hirsutum OX=3635 PE=3 SV=1) HSP 1 Score: 333.6 bits (854), Expect = 5.3e-90 Identity = 180/263 (68.44%), Postives = 213/263 (80.99%), Query Frame = 0
BLAST of Sgr016453 vs. ExPASy Swiss-Prot
Match: Q9LJ97 (Late embryogenesis abundant protein 31 OS=Arabidopsis thaliana OX=3702 GN=RAB28 PE=1 SV=1) HSP 1 Score: 304.3 bits (778), Expect = 3.4e-81 Identity = 165/261 (63.22%), Postives = 200/261 (76.63%), Query Frame = 0
BLAST of Sgr016453 vs. ExPASy Swiss-Prot
Match: Q9LJ95 (Late embryogenesis abundant protein 32 OS=Arabidopsis thaliana OX=3702 GN=ECP31 PE=2 SV=1) HSP 1 Score: 285.4 bits (729), Expect = 1.7e-75 Identity = 159/259 (61.39%), Postives = 195/259 (75.29%), Query Frame = 0
BLAST of Sgr016453 vs. ExPASy Swiss-Prot
Match: Q8GWT7 (Late embryogenesis abundant protein 47 OS=Arabidopsis thaliana OX=3702 GN=At5g27980 PE=2 SV=1) HSP 1 Score: 141.0 bits (354), Expect = 5.0e-32 Identity = 74/127 (58.27%), Postives = 96/127 (75.59%), Query Frame = 0
BLAST of Sgr016453 vs. ExPASy Swiss-Prot
Match: Q9SA57 (Late embryogenesis abundant protein 3 OS=Arabidopsis thaliana OX=3702 GN=At1g03120 PE=3 SV=1) HSP 1 Score: 134.0 bits (336), Expect = 6.2e-30 Identity = 79/152 (51.97%), Postives = 102/152 (67.11%), Query Frame = 0
BLAST of Sgr016453 vs. ExPASy TrEMBL
Match: A0A5J5C3Z3 (VOC domain-containing protein OS=Nyssa sinensis OX=561372 GN=F0562_000331 PE=3 SV=1) HSP 1 Score: 466.1 bits (1198), Expect = 2.5e-127 Identity = 259/430 (60.23%), Postives = 308/430 (71.63%), Query Frame = 0
BLAST of Sgr016453 vs. ExPASy TrEMBL
Match: W9R0U6 (VOC domain-containing protein OS=Morus notabilis OX=981085 GN=L484_005419 PE=3 SV=1) HSP 1 Score: 451.4 bits (1160), Expect = 6.4e-123 Identity = 242/386 (62.69%), Postives = 290/386 (75.13%), Query Frame = 0
BLAST of Sgr016453 vs. ExPASy TrEMBL
Match: A0A0A0K7E4 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_7G234140 PE=3 SV=1) HSP 1 Score: 430.3 bits (1105), Expect = 1.5e-116 Identity = 229/266 (86.09%), Postives = 246/266 (92.48%), Query Frame = 0
BLAST of Sgr016453 vs. ExPASy TrEMBL
Match: A0A1S3BGR9 (late embryogenesis abundant protein D-34-like OS=Cucumis melo OX=3656 GN=LOC103489671 PE=3 SV=1) HSP 1 Score: 430.3 bits (1105), Expect = 1.5e-116 Identity = 232/266 (87.22%), Postives = 245/266 (92.11%), Query Frame = 0
BLAST of Sgr016453 vs. ExPASy TrEMBL
Match: A0A5A7TCZ1 (Late embryogenesis abundant protein D-34-like OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold306G00210 PE=3 SV=1) HSP 1 Score: 428.7 bits (1101), Expect = 4.5e-116 Identity = 231/266 (86.84%), Postives = 244/266 (91.73%), Query Frame = 0
BLAST of Sgr016453 vs. TAIR 10
Match: AT3G22490.1 (Seed maturation protein ) HSP 1 Score: 304.3 bits (778), Expect = 2.4e-82 Identity = 165/261 (63.22%), Postives = 200/261 (76.63%), Query Frame = 0
BLAST of Sgr016453 vs. TAIR 10
Match: AT3G22500.1 (Seed maturation protein ) HSP 1 Score: 285.4 bits (729), Expect = 1.2e-76 Identity = 159/259 (61.39%), Postives = 195/259 (75.29%), Query Frame = 0
BLAST of Sgr016453 vs. TAIR 10
Match: AT2G32090.1 (Lactoylglutathione lyase / glyoxalase I family protein ) HSP 1 Score: 189.5 bits (480), Expect = 8.8e-48 Identity = 88/128 (68.75%), Postives = 107/128 (83.59%), Query Frame = 0
BLAST of Sgr016453 vs. TAIR 10
Match: AT2G32090.2 (Lactoylglutathione lyase / glyoxalase I family protein ) HSP 1 Score: 155.2 bits (391), Expect = 1.8e-37 Identity = 71/108 (65.74%), Postives = 88/108 (81.48%), Query Frame = 0
BLAST of Sgr016453 vs. TAIR 10
Match: AT5G27980.1 (Seed maturation protein ) HSP 1 Score: 141.0 bits (354), Expect = 3.6e-33 Identity = 74/127 (58.27%), Postives = 96/127 (75.59%), 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:
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