Sgr020143 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr020143
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionNucleotide-diphospho-sugar transferases superfamily protein
Locationtig00153449: 218534 .. 236036 (+)
RNA-Seq ExpressionSgr020143
SyntenySgr020143
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.
ATGTGGAGCAGTGCGTACAAATCCTTGTTGGGAGGCCCAGCTTTTTCTTCTTCCTCCATTTCTAGGGTTTTGCAGCAAACGCCAGAGGTTTAGCAGACAGCGACAGTGGAAGAACTGCTTGCTTTGTGGGGTTTAGGGGCTTTTGCCGACCCGCGGGCGGAGGAGCTGTCAGGTCAGCAAGGTTACCCGCTCGTGTTGTTAACATTGCCCATCCAGTGATGAATACTTATTTGAAAATTGTATTTAAAAATCATTATCTAATAAAATTTGGAGAAAAATTCAATTTTTAACCATACTTAGTTTACTCTACGATTTTAATTTCATCAAATTAGATCTTAGACTTAGATAAGTGTTACAATTTTTATCTTATGTTAGATTTTCGTTTGAACAATTGCTAAAAAAATATTCTCATGTGCATTCATTAGATTACAATATGAGGTTTGGTACAAAATTAATATTGCATTAGAGAAAAACGACACTAAAGCTGGATTTTAAAAAAAAAATTGTGAGTTTGGATAGATGTATTCAATAATTGGTCTTGTGCATTGATTTGCTCGAGCTTAATTTTGTACATTTAATATGTTAAGGCCTGGTTTTTATTAAAATTAGTGAGTTTTAGAGACTTTTACGTTGTTGCATTTTGTTCAAATTGGTGGGTGAATGAAACGGAAATCTAAATAAAGTAAAAATTACAACACTTTTTAGGTTTAAGGTTTAATTTGATGGAATTGGAAGTGAAAGAAAAAAATTAGCTAATTTTGTCTAAGGCAAAAAATTGAATTTTTTTTCCTAAAATTTAAAACATAGAATAGCTTTATCGCCTCAAATGGTTGTTTTTGGTATTTTCATTTTGGATAGTTGAGAAATTTTTTTACATATTTGTCCTTAAATTTTCAAACTTACCTCTAATAATGATAATGATACATAGCTTATGCTCTATCTATTTTATTATTTTTATTAAAATTAAAATAAAATTTATGTCTTCTAATTAAAATAAATCACATTAAATAAAAAATGTTAGTAAAATCTTAATCAAATTTAAGAAATAAAAAATATATTTTTTAAAATCCATGTTTTGTTTTCAAGTTACTTAAGATTTAAAATATAACTTTTAAAAATAAAACATAAAATTATTATCAAATGTAGTTTTAAAATTTAAAAATACGTCACATGTACAATTTACAAGTAAAAAATTTCTAGTGGTATAAAAAAAATGATAAAATGGATATGTAACTTGTAAAGCCATTTGATTAGTTTACCAAACACCTTTTTATTATTATTATTATTTTCACAGTATTCATTGTCTTCAAAAATATAAAAATGAGAATGGATCGTAAACCAAGTGGGGTTTTATATCCCTTTTATATTTGAATATATTTTCATTATAATTTATCATATATATTTATTTATTGTATTTAATATTTGACACTAAATTTGATGATTGGAGTTGGAATAAGCCAAACATTATGTTGGGCTTGGAGAATTTTTCTTTTGATATGCTTTTTGCAAAGTTCTTCTCAATGGCTCAATAGGAAGATGGTTCATAGTGTTGGATATTATTGGGATTTTTTAAATTCTATGTCTTGGAAAATTGTGGATAGGAGTCTCTTGGAGGAGGAATTTTGTAGAGCTCAAAGGCCTTTTGGAACTTTTGAAAATGGCAATTTTGGGACCTTGTGATCATAGAAGAATCTAGAGGATGTTAGCTTAGTTCCTAGCCAAGAACTTAGTGTCAACATCTTTGAATAATTGAGGGTACAAGTCCAAATAAATAAATAATTTATCAAAAAAACGACGAAACAGGTTGAATTGAGTTGGTTCGATTAGTTTGAGATAGACTTATCGATTCGATCAGTTTTTAGAGTATAAAATCGAAAAATAGTTGATAAGTTTGATTTGAATACATTTTTTTCGATATTAGTTTGATTCAATTTGTCGGTCTATCAATTCAATTCGTTTGATTTTAAAAAAAAAAAATCAATTCATGCGTTGATTTTAAATTTTTCTTTAAATGATATGTTGATTCAATATTGATTTTGGCCAAAAATTGATCCAAACTAATAATTGATGTAGAACTGAACTGCTTACACGTCTATACTTAGAATCAACAAGTCTTAGTTAAAGTCTTGTTGGAAGACCAAGAACCCTAAGAAGAATTATCTATTTGTATACCGTTAGCCCAATAGGATAAGTTTTTTTTTTCTTTATTATTTCAAATATAAGGGTGATATTGGAACATTGTGTTGATGTTGAATCCTTTTGAAGACTTTTTTTCAAAGAACTTTTCAATATTTTTAATCTAACTTGGATGTTTGATAAAAGATCAAAGGAGAATATAAATTTCAACTTCTTAATGCTTAAGGAAAAAGCTAGCTTATTATAGAAAAATATTTTCAAAGTTATTCTTTTGGAGTTTAGTTTAGAAGGAATCAAAGAATCCTTTGAACAAAAACTCTTTGATTGTGTCAATTGATGGGATTGTGCTAAAAGTATTTTGCTTGTTCTTTGACAATTCAATTTTCTTAAATACTTGGTTCATGTAATTAATTTTAATTAGAGTTTTTCTTTTTATAAGGATTGGCGTGTGCGCACGCTTGCATGTGGGTGCGTGGATTTGATCCTACAACTTTTTCAAGGGATTGTTTGTTTAGTGGGAATCTAAGATATCCTCATCTCATGGGCATTCAGATTATTCTCATGCTTGAATTGTGGCGTAATCTCGAGATAGTCAGGTATCTTAGGATGTCGGACATCTTAGAAAGCCTTCTTTTTAAGCTATTTTCCTTTTCGTTAAAAAGACAAATTTTTAAGATACCTTTATCCCGCACATTGCAAAATGACCCCTTTTTACTTCTATCCCTAATTATTACTCACATCCCACTAACCACTTTCTCTTCCTCCAAAAGTTAGATTAGTCACTTTATCTCTCCAAAAAGTCATTTCATTTGTCTCTCTCTCTAAAATTCACAATCAGAACTCAAAGAATAGGAAGACAACAACTATGTATGCATCGAGAATTTTTTGTAATTGAAATCTACAATACAATCTTCCATTTATTTTTATTTCTCCTTCAAGATCAAATAGTTATCCAATATTCTACCTTTTGTGAGTTGGTTTTCTTTTTCGTTTACTTTGAATTTTATATGTGTGTGATTGGAAATTATTTAACACTATTCTACCTTTTATGGATTTTAGTCACGTCTTATTAGTCTAGGTTATATGAAAAACTAATAGAAGTATCGTACTTTTTAATATTCTGTTTTAGCTAAACTTTGCATAAAAACTTTTTACCATTAAATTATTTTTATATAAATTATTTAACAGAAACCTAACATAATATTAGTAAGTTTTTTTTTTCACCTAATCATTAAATATCTACAGTGAGCAAGTGTTTGAAGTCATATCAAATGTCGAGTTTCAAAATAGATTCAAATTTTTGTTAAATGAGTGATGAAAATTTAACGACGACAGGGATTAAAATAACTTTTTATGCAAAGTTTATTAAGTAAAACAAAATATTTGAATTTGAGAGACCAAAACAAAAATGTTTAAAAGTTTAAGAGTCAAAATGAAATAAGTATAAAAGTTGAGAAACGAAAATATGATTTAAAAAGAAAAAAATCAAACACAATCTTAATTAATTAATTTTTATTGGGTCAACTTAACAGAACAAGATTTGTACGCATAATTTGTTTTTTAATCAGTTATTTAGCATTGTAGTTATAGTCCTTTTTTTTTTTTTTTTTCCTTTTTTGAGTTCGTAGTTATAGTCCAATTAATTATATATTTCCTTCAAAAAAATTAATTAAATATTTAGATTGTTGAAAAAGACCTTTTCACTTCGGATAAACATAATAATTATCGCAACATCAAAAAAATAATAATAACATAATAATTATCGCCACCTTGGCTCATACCAGATATCTTTCTATTTAAAAAATAATAATAAGGTCATTTTCAAAAAGAAATAAAATCAAAATTCAATTAGATTTTTATATACATCATAATCTAATATTTTATAAGTTAAACTACAAATTACTCTAAAAAAAACTACAAATTTCATTTTTGCCGAATAAGTATGGTGTCTACATAGTTCGTGAATCTTAAAAAACTTCAATTATGTTTCTAGACTTTGAATTATGTTTATTTTTAATTTTTACCGTTAATACTGACTAACAGAATGCTGACATAACATTCTATTAGGCAAAATCAAGATGAGGTTACTTCATTTACAACAACTAATTCAATCAATGTCTATCTTGACAAGGGTTTTTTAAAAAAGCTAAGTGTTTGAATTTTGAAATGAAATTTGATTTTTATTAGGTTTAAATCCTATTTGGTTCATGTACTTTTAATTTTCATCTATTTTGGTCTTTGTACTTTCAAAACGTCTATTCTAATACCTTTACTTTAACTTTTTGTTCATTTTAGTCATTGTACTTTTAAAACATCGGTTTTACTTTTGAAAAGTGACAACTTTAGTCATTTTTTTTTCTTTTTTATCTCATTTTTTTAATCACAGATTTAGCACAACACTACACTCAATACATTTCTTGCAATATTGTCATAGTTTTGTATTAAAGTGTTTCGTTGTGTATAAAATTTGTGTTAAGATTTTACAAACCGAGACCAAAACGGTCATTTTTCAAAAGTATAGAGATTAAAATGGACAAAAGTTAAAAATATAGTGACCAAAATAGATTTTTTCTAAAGTACAATGATCAAATTAGACAAAAGCTGAAAATACAGAGGTCAAAATATAATTTAAACCATTAAAATTATTTTTGATAATGACTAAAATACTTTTTTTTATTCAAAATTTATGAATTATAATTGAACAATTGAAAGTTTAGAGTCTAAAATATAAAAAGTATAAAAGTTATGACCAAAATAAAAGTTCAAACAAATCTTATATTCACTCATTTGAGGTAAAAGTTTGAAAGAGAAGGAAATGACATCAATGGAATTAATTATGTATAGTCATAGCAATAAAGACTAACCTAAAATAAATAAACATTCTTTTTATAAAAAAAAAAACCTAAAATAATTAAATAAACAAAAAAGGAAAGGAACATTTAAGAACTCTCCAATTCTATCTCAATTTTCTTAAAATATAAAAAGATGACTAATATATTTAAGGTTCAAATCTTAGAGTCATCTATAAACTTTTATTTTGACAATGTTTTTTAGTCTCTAAAATTTTTTTAGAAAAAACTTTATTTTAGTTTTTGCATAAAAAATTATTTTAATTATTACGGTAAGTTTTTCATAATCATTTAGTAGAAATTCGACATGACAGGTCTTTTATTTATTTACTTCTGGGAATGCAAGCCAAAATTGAATAAACCAATGAAATAGAGTCAATTGAATCAATTCAGCCGATTTGAAAAATAAGTGTTAGTCTGTTGAATATTACAAAATATCAAATCGAAAAACAGCCGCTCCATTGTCATCCCACAAATTTATTCTCCTTTGAAAGGGGGCACTTATCCACGTCACATCAATTGGGGAAGAACCACCCAAGTTGCGTTGCATTTGTCTCTGTTTTGTTGGAGGCAAAGAGGTCAAAAAACCACTACACAGAAATGTAATTGGTGCCTATATTTATAAGCCAGTCAAGCCACCCAGAACGACACAGCGTTTACTGGTCAAAACGCCTAAAGACGCGTACGACACATCGTCAACACTGGCGGCGGCTCTTCCCCAGCTTGGCCCCCTCTCCGCTCGGCTTCCCCACGCCGCTTCTCAATTTTATATAAACTTAAATTATAAGTTTAGTCCTCGAACTTTTAAAATTGTGTCAAATAAATTCTTACTTAAAATTATTAAATAGTTCTTTAAATTTTTTATTTTGTGTCTAGTAGATCTATACATTTTAAAGATGTCTAATAAGTCTTTAAACTTTTAATTTTGTGTCTAATAGGTCTTTTAACTTATTAGACATTTTTTAAAATTCATGAATATTTTAGACACAATATTGAAAGATCAGTAATTTATTAGACACAAGATTGAAGTTTGTGTATAATGGTATGTTAATTTTTAAAAATATTCAATAAATTAGAAACTTATTAGACACAAAATTGAAAGTTTAGGAACTTATTAGATATTTTTAAAGTTCAGTGACCTATTATACATAAAATTAAAAGTTTATAAACCTATTCAACACGTTTTAAAGTTCAGGAACCTATTTGACACAATCCTAAAAGTTCAAAAACTAAACTTGTAATTTAACATTTATATAATTAACACATGGAATTTTAATTTTTTTTTCAAAAATAGGTTCAATTACAAATTTAGTCCTAAAACTTTCAATTTTGGATTTATTTAGTCCATATTCTTTATAAAGTTTCTAATAAATCCCTAAAATTTCAAGGTTGTGTCTATCTAGTCCCAATATTATATAAAATTTTTAATAGATCTCTGAACTTCCAAGACTGTATTATTTAAGAATTACTTGACAGGCTAATTGCAGACAGGTTGTGGCATTTAGTAGCGTAATAGTTAAACTAATGGAGTGGATATAAGGACCTATTAGAAACAAAATTGAAAGTTCAGAAATCTATTAAAAACTTTTAAAGTACAAGAGCCAAGTAGATACAACCTTGAAAGTTTATGGACTTATTTGAAACTTTTTAAAGTATAATAACTAAATAAACACAACTAAGTTCAATAACCAAATTTATAATTTTATCTTAAAAATATTAACAAAAATATAGAAGTAATATTGATATTAATAGATATTTTGTTATATTTTAGTCTCTATACTTTTAATTGTGCAAATTTATTTAATCCCTATACTTTTAACCCAAATTAAATGTGTGGATTATTTTTTGAAATACATAAACTAAATTTGAACATTTGAAAGTATAGAGACTAAAATAGAAAAAGGCTTAGTTTGAAATGGTTATGACCATTAAAATAATTGCTTTAACTGTGCTTTAAGAAAAATTAGTTGTAATATGAAGTAAATTAGTGTTTGATAAATTTCAATTTTAAAATTGAAAAAGTAGATTACAATGTTTAGTAAATTAATAGTAAAATTCCTACGATTTAGCTATAATATCCAAAGTAGATATATTATTTTAATTATTTTTACATTGATACTTAATATCTAAATTTGTTATAATATAATTATTTAAAATTTTATATGATTTAAATTACAAATTATATTTTGTTTACTCTTAATTTAATAAAATATTAGAAAAAACAATTGTTACAACAAATTGTAGTAAAAAAAATTTCGTTTCAATTTAAATACAAAAAGTATAAGAAAAAAAAAATAATGTAATCTATCTTGCTCTCATCAAACTTGTAGCAATATTGTATCTAACGTGAAAAGAAACATATACAAATTTGGGAAGAACACAACAATAATTTTTTAAAATTTGTTAGAGAAGGTGCCTAATTTTTAGGAAAATTAATTTAAAAAGCTACTATTTATAACAGTTAAAATTCTCCAACAATCACTTTTAACCTCTACAAAATCAATCCCAAACAAAGCCTAAGTCTCTCCAAGTACAACACCAAAATGGGATTATAACCTAGATATTTTATAAAAAAAAAATTACGAATATTACAAAAAAAAATGGTAAAATTATATAGGTTTAAATCAAATTTTGGTCTCCAAACTTTTATGTTTATGTTGTTTTAGTTCATAAATTTTCAATTCTTCTATTTTAATCTTTTAACTTTGAATAAAAAAATCATTTTAGTCAATGTTGTTAATTTTCCATAGATCTTTAACGAAAATTTGATATGACATGTCTTTTTGTCATTTTTTTTTTTTTTTGTTCAATGAGTGTAGGGGTGGGAGATCGAACTTTCAACCTCAAGAAATGTGCTTGATACCTTATTTACTGAGTTATATTCAAATTAACTACTTTTTTGTTATTTACTTGATGAATACTTGAAACCACACATAGCAGTTTACATTTTGGTTTCAAAATAGACCAAGACTTCTTATTTCTATTAATGATAATGACTATAATAATTTCTTGTACAAAGTTCAGACACTTAAACAAAACACATAAAATTTTAAGAATTAAGATAGTAAAGTAAAATAAATCAATTTAATTACTGAAACAGTAAAGTATAAATATGATGGTATGGTACAAAGACTAAGATAGAATTTTAAATTAAATATTTAAATAAAAAAATAAAAGATTAATGCTTTTTTAAGTAGTTATAATTGTCATCATTATTTATATTTATATAATTAATATTTTTAATATTTTTACAAAAATTATAAAAGAAATATTTATCTCTAACATATCATGGATGAGGAACCTAGATTTTTTTGTTCAAAACAATTTTATTTTTTATCTTAAAAATTATGATATTAAAGACTCATTTGGCTTTTTTTTTTCCAAAAAAAAATTATTTTTATCTTAAAAATTATGACAGGTTATTCATAAACGAATTTTTAATAAACAAAGTTTGAAAATTTCATTCTTAAAAAAAAAATAATAAAAATAGTTCCCAAATATGTCCTAATATGATATTTTGTCAGGGCGTTTAAGAAATTGAAAAATTATCAAATTGGTCCAAACAAATGGATTCAATATAATTTCTGATATCGTTTTCTCAGTTTTATTCGATTTAAATAATAAGAAATCATTGATTTAGTTTGGTCTTGATTTTTAAATTTTGAAATAATCAAACTAAAACACCTATTTCAAATAATAGAACATTTGTTTTTTAAAGAAAGAAAGATAATAAATTAAGTTAAATCTTAAAAAAAAAAATAATCAAGTTAAAAATATTGAATTAAATAAGTAACTTTTTTATATAAATAATAATAACTAAAAAAATTAAATAGCTGCATTTAAGACAAATATTACAGGAAAGTTTACTCTACAATCAATTCAAATTTGATTTTTAGAATTTATACTATTTTAGATGTTATATTTTGTTTAAATTTTGTTGGTCAGAAAACTTTCATATTTATTTCATTTTGGTTTATAAACTTCCAAATGTTTTGTTTTAATCCCACAACTTTCAAGTATTATGTGTATAAAAAATTATTTACAGTGAATCCTATCTATTGATTTTTTTTTTTATCATTGAAATTTTTTTTTTATCATTGAAAAATTTTTGTTTATTCATTTTGAAATTTAACCCATGACCTAATATATTTAGCTTCAAATATTTGTCGTAAACATTTATTTATTAGGTAAATGAACAAAAGACATATCTTTGTTAGATTTATATCAAATAATTTACAAAAAAAAAAATCAAATGAGTTTTCTATGCAAAATTTAAAAACGAAAGTAGAATATTTAAATTTTAAGTACCAAATTTAAAAAGAAAAAAAAACACACGAACATTTGAAAACCAAAATAAGATTTTTAAATCAATTCATGTGATAGGTTACAACATAGCCAGATGAAATACAACAAATTATTATTTATGATAAACAATTATAATGTAACTATCAAAATGTAACGACATAGCGTACCAGTCTTTTTTTTATATATAATTTTTAATAATTAGAGTTTGAATATTTTCTAGAAAAGAACGTAATTATAATTTAAACTTAAAACATTCAATCGATTATTTTACAAAATTAAATAAATTAACATTAATTAATAAATAAAGTTTGAAATTTTTAAGTAATAATAAAATGTAGGCTAAATTACAAGTTTGATCCTTAATTTTTGGAGTTGTGTCTAATAAATCTATGTATTTTTAAAAGTTTTTAATAAGTCTTAGAATTTTCAAAATTGTATAGATCTCTACACTTTTAAAAAAAAATTAACAGGTTCTTAAACTTTTAATTTTTGTGACTAATAGATCACTGTCATTAATTTCATCAATATAACACTTACGTTGCATGTTGATTGTATTATTTATAAACCATGTTGTAGACTAATTTCGAGCAAGTTCAGGTATTTAATAACTTAAGTATTGAACGAATAGAGTTAATGATAATGACGTTTTAGACACAAAATTAAAAATTTAAAAATTTATTATAAACATTTTAAAGTACAACTACTTATTCAATGCAATTTTAAAAATTCAAAACTTATTAAAAAAATTTAAAATACAAAAATTTATTATACAGAATTCGGAGAGTTAATGGACGAAACTTTTAATTTAAGTTTTTTTTTTAGAACAACTAATAATTTACGTTAAAACATAATCCAAGGTGGTGAATCAGGCGAGTGGTGACGGCTTTATTGATAAACCAGGGAAAATTCAGGTGGGGGCGAACCCACTGGTGCCGGTCAAACTCGTGCAGGTCTTTAAGATCGACGGGTGAGATTCAAAGTTACAGAAACTAAACGCGTCCATTATATTTTATAACGCAGAGATCCCAGCCAACCTCTTCTCTCTCTAAACCTCCTCCCCCAAACCCCACCTCTTGAGCCCCTTAGCCCTTTCGTCTTCCCGCTTGAATAACGCTTCCTCGCCGTCGCCGGTTTCTCCGCCGATTCCGGCGACTCTCCATTTCCTCTCTTGAGCCAGCTTCCCCGAGCTTACTCGCCGGATATCGCACAGCTTTCCAAACACTGTGCCTTTCAGAAGGCGGAAGATTCGAGAGAGAGAGGTTTTGATTGGTTGATCGATGCTGTCTCTGAGTTTCAGTGGATGAGTGTTTTTTGGAAAATCGGAGGGGCGACGATGAGATTCGGCGGAGTTTTAAGGATTTTGGTGTTGCTGGCGGTGGTGATGGTGGCGGAGGTTGAGGAAACGGCGGCGGAGTATACGAAGACGAAGACGACGAAGAAGACGCACAGAAACGCTTACGCTTCGATGATGTACATGGGGACGCCTAGAGACTACGAGTTCTACGTAGCGACGCGAGTGCTGATCAGATCGCTGGCGAAGCTCAACGTCGACGCCGATCTCGTCGTCATTGCGTCCCGCGACGTCCCCGTCCGATGGGTCCGCGCTCTGTAAGATTCCGCATCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTAGAATCTTCTTTTTCGCAATTTCCGCCTCCGTATGCTCTGCGTTGGCTGCAACTGACGCCGTTAAGTCATTCCATTTCGGATTAAGCCCTCCGGCGGGGGCCCGACTATCAGGTGGGCACATAACAATTAGGTTCAAAATCGTAGTGTTCTTAGCCTTGTCCGTTGATTGAATCATAGTCGTCAAACGAGTGACCTGATTGGTGGAAAGTTTTTCAACTTTCATTGTTTGCGTAACACCAGAACCTTCTCTCTCTGTCCGGGAACCCATCCCATGGGGTGGAAATCTCTAAAAAAAATTAGCAAAGTTAATTAACTTGAGTCGGTTTTATTGGTCTGAATAGACATCGACTTTCTCTTTTTTTTTTCCTCCTTCAAGAGAGAAGTAATGTCTTGATCACTCTGTGTAACTAGTCTGACTTAATTCAATTGGAATTAGCTTTAAAATTAGACATCAATTTTTATTTGTTAAATTATAAATTTAGTTCATAAACTTTTAAAATTGTATTTAATAAGTTTTTAAACTTTAAAAGCGTGGACCTATCGGATATTTTTTAAATTTTACGGTTTTATTTTATAAATAATTAAAAAGTTAGAAATTTATTAGACACAAAATTTAAAATTTAAGAACTTATAAATATTTTTTAAAGTTTAAAAATTTATTAGTTACAATATTAAAAGTTTATAAATTATATAGGTATTTTTTAAAGTTTCTGTCAATTACGAGTGTCGAATCATCGATTTTTTTATGTAGATTGAAAGTTGGATGGCGTGAGTTGGGAACTTAACTATTTATATTTTTCTTAAACTTATTATGTATATTAACTTAAGATCAATTTGGCCAAAAATCGACGGGTTTAGTCCGCTCTTCTATTGAAAGTCGTCAGAGTAGGGGAATATAGCCGGCCAGTAGTGGGAGGGGAGGCGATCAGGCCGTACAAATGGATGACGCGTGGATGATCTAGAGGACGAAAGACGATCATGCATTGGCGTTGGAGGTTTTTTTTTATTATTAGTTTGATTTTGGACGGATCGATAAGGGCTCCTGATGCGGGGAGGTACTGTAAAAAAGTGTCTGAGCGACTTTATGTAATTGTCGTTCAGCTTGAAATTAATTATACTCTCCTTAACAGATAAGCCTTGGGGCATTTTCTTGAACATGCCCCTCTCTCTCCCTCTCTCTCTCTCTCTCCCTCTCCTCTCTAGAATTTAAAACATCCTTTTTAGAGCGAGAGAGAGATGTGAAAAAAGAGTTTTTGCATTTTTTGGGTTTTGATTTTTTTTTTTTTGGTATTTTGTGTTCATGGTCTATTCCTACTAATTCTCAAACAAATTTTGCCCACCTTATTAATGTGAGCTTTGAGAGACAACAAAGATTTTAGGTTATTTATTTTTTAACATGAGCTTGAATCGAGGATCTTAGAGTGTAACTTCAAACATCTCAAACTTTATCACGAGGATACTTTGTTTAGGGTATTTATATTAGAATTTGATAATTTTTCAAATCTATTGATTTATTATTATTTCTTGTCTATTTTAATCTCTTTCTATAATCTTGGGTGGAGAAGGGAAAGGTTTGAGAAGTTTAGAATTGTATAGTTTATGTCTAGATTGTAGAGAAGAACGAGTTTCAAAAGTCTAAGTTCATATAGCTTATACTTAGTTTGTACACGTATAATTTGTACAAGAAGTAGATTTCAAATTTCTAGGTATATGTAGGGTTGTGCAAGCTCTCGACTTCCTAAGTTTAAAATATGCAAAATCGAAACTCAACTAGGGGCGGAGTTTGAAATTTCTTTGGGAGGGGGCAATTTTTTTATTTTAAAAATTTTTGGAGGGAAAAATTAAAATTGTTTTGAACTAACGGCAATTTAAAGAGAGCAATTGCCCCCTCCCTTCTTAGCTCTATCCTTGAACTTGACAACTAGTGAGAAAAAGTCATCTTAGGGTTATGAAATTTTGTATTAGAACTTTGATAATTTCTTCAATCTAGTTATTTATTATTGTTTTGTTTGTCCGTTTTAATGGTATATTAAAAATCATGGTTGGAGTTTTATATTAAAAAAATTGGAAATAGGGATAAAGTCAGCTAGATTTGAAATGTCGGGTGTAAAGGGGTGATAAGGCTTTGGAAAAAGCATATGCCATATGGTGCCGTGGAATTCCATGGTGGGATGCGGGTTCGCAGAAGCTTCTTAGCCTTTTTTTCTCCTTTTTCATCGCTAATTGTTTGGTTTTGTCATCATTACTTTTTATAATTTTAGTGGGATAAGTCATTATCTTCTCTAAGAATAATCTAATTTTCGTTCAAATTCTTTTGTCTTATGTTTACTTAGTCTTTCCAACTTTAACCACCGTCTTAAACTTTTTTTAATTAATTATTTGACAAAAAAATATTGAAATTTGACTTTTGAGAATTCAACCACTTTGTTAATGTAGACACTTGCACTCACTATATAAGCACTTATGCAATATGTTTGGTGTGAAGGTTTGAGTTTGGATAAATTTAGTTTAAGATGTCGAATCCATGTTTGCTTCGTGTATTCGTTGGACAGACCCATAGGTTTCAACAGTACCTCAAACCTATCCCTTAACTTAGTCTCATAGTTTTTCTAAACTTAAGCTTTGTAAACCTACATCTCAAACATGGACGCTTAAATTTCTAGGCTTAATATTTTTAGGCTTAAGATGTCGAATCCACACACTCTAGACACTCCCTAACAGTTATTTACTATGGATTAGTCTGATGGTCATTGGAACAAGTGAAAAGTAAAAAAAAAAAAATTTGGGTATAGTTTCAAATATTACGATGGCCACTTATTTAGAATATTGAAATTCTAAAAATTTTATGACAATTAACTATTAAAATAATTTTTTTATATATAGTTTAGGAGTTAAAATATAATGGTTGATAGTTTAGAGACGTAAATAAAATAAGCGCAAATGTTCACGGACGAAAATAAGAGATAAAATTATATCTTAAATAATTTTTTTAATGGCTCCTTAATCTTATCGTTTTGAATAGTTATTACAGAGACACCGACAGGCTGTGAGTCACCATGGAAATATGGACCATCAGGTTACGTCTTCTTGTTGATGTTTTTTTTTGTTTTTTTATTTTTTTGTATGCGTTGGAAAACCAGAAAAAGGGTTTATTGGTAAACATTTAAAATATTTATTAATTATTAATATCTATTTTGTAAATATAATATTTTAAAATGTAATTGCAAATGTATTATTTCTTTTTTTAATTAAAAAAACCATTATTTATCAATTGACTTGATTATAATAGTCTGTGTATATTTAATTTTTTTTTCACAGCAATTGATGATTAAATATTCATAATTATCGATCGACCTTTATTTTCCTTTAAATTACATTAACAATTATTGTTACATTTTTTTTTATTGAGTTGTTATTATTCTATTTCACAACTAGTTTGTTCTCTCAGAGATTATTCGGTATGGCTGAAATAAATGTAGTCGACAGTTTCTTATTGTTAGACTTATAAAAGAGAAATTAAAAAATATATATTTAAAAGTGCATCAAGTAGTTATTAAATAAGTTGTAACGATCATATTTAATAATTTTTTTTATCCTTTGTCTATCTCTCTATGTTTTTTGTCACCAATCTATGATTGGAGGACGAAAAGGCCAAGGGGGAAAGTCAGGAGAAAACATGGACGGGACCGTTTATGTAGAATTTAGAATAAGGACTTTTTAAAGATAGATAAAAGCGAACAACCTCCTCCCTCTTTTATTTTTATTTTTTTCAGATATTTATTTATTTGGACAATGTCAAAGATTAGGCTTGAAGTGAAGAAGTCCACCACATGAGTTTGAAAGAAAAAGAAACAAGCTTTTACCAACCCTCTCTTTTCTTTTTTTTTTTTGTTTGAAATTATCGACCAAGAAGAATTTGTAATGTATTTGGTTTCGTGCATCCCAACTTCTGAAAAAGTAAAAGAAAATAAAATGAGTTTAAATGTCTAATGAAGAGAAGAATAGTCTGTGGAGTCTAGCTGGTGGGAACTGATATTCCGAAGAAAAAAAACCCTTATGAAATGTTTTTTTTTTTTTTTTTCCGTTTTACCTATTTGGTTTTATGGCTAAGTTTGGATATTTTTATGATTGGGTTTGAGCATTTTTATAGCTTGGTTTTGAGTGTTTTGCTGATTAAATTTTATGTGATTTATTGGTTTGTTCATAGGTATTTTTCTAATTTAGATTTGACTAAGAGGTATTAATTTCATTATTTATTTTAAGTTTATATTAAATTTAATGAAACTAAAAATTTAGGGTTAGAACATACTCATAAAAACTTTGAAAATAGGTCTTTTTTTTTTTTTTTTAATTTGTGATTAACTATCAGTATTTGTTAGGTAGATGAGACTATTTTTGTGAGTATGAGTTCTTTTATTTGAGTAAGATGCTGGTTTAGTTAGATTTGAGTATTTGAATTTGTCAAGCTTCTCACCTTCATGACTTTGTGGTTAGATTTAGATACTTTTATGAAGTTTAGAGGCATTTTTATAACTTGATTTTGACGGTTTTATTAGTTAAATTATAAATTTGGTCAATAAACTTTCAAGTTATGTCGGTCTCTAAAATATTTTTAACGTTGTATCTAAAATAGGTTTTTGTGTTTTATGTCTAATAAGGCTCTGTCATCAACTGTACAAAAACTTGCGTCATTGAATGCTTGAACTTACTAGCATGCAACGTAAATGTTAAATTAATGAGAGATTTATTAGACATAATGTTAAAAAGTTTAGGGACCAAACTAACGTTGGATTTTGGTGATGAGTTGTGAATTGTAAATAATTAATTAGTGTTTGGGTTTGGGGGCATATACAGGGAGGAAGAAGATGGAGCGAAGGTGGTGAGGGTAGAGAATGTGAAGAACCCATACAAGAACCAGTCGAACTTCGACAGGAGGTTCAAGCTGACACTGAACAAACTGTACGCATGGAGCTTGGTGGAGTACGAGAGAGTGGTGATGTTGGATTCCGACAACCTCTTCCTCCACAAAACCGATGAGCTCTTCCAGTGTGGTCAGTTCTGTGCTGTCTTCATCAACCCCTGTATCTTCCACACTGGCCTCTTCGTTCTCCAGGTACCACTAACCCTAATCCCTCCTTTTTATTTTATTAACATTACAACTTCGAATTGAAATTATTTGGGATGAATGGCAGCCATCGAAGAGGGTATTTGATGACATGATTCATGAGGTGGGGGTGGGGAGAGAGAACCCAGATGGTGCGGACCAAGGCTTCATTGGCAGCTACTTCCCTGATCTTCTAAACCAGCCAATGTTCTATCCCCCCTCCAATGGCTCCACTCTTGATGGCAACTATAGGCTCCCCTTGGGCTACCAAATGGATGCTTCTTACTATTGTAAGTCCTTCCTTTTTCCTCTTTCTATTCATTCCCCCCAATCCCTTTTTTTATTATAGTAAAAGTTTTGCCTGAATTACCATTCTAATCTATGTCAAGTACAAAAAGTTTGAAAGTGTGTAGCTTCAAATTAAAAAGTTTAGGTCAACGTGAACATAATTTAGTAGTTAAGTCATCTGTACTTCCCTTCAAGAATCATAAGTTCACATCTTCATTTCTTCATTTCCACATTTGTGAAGAGAAACATATCTTTTTGTCCTCGAGGTTGGAAAGTTTTATTTCCATTTGGTCCTTAGAATTTCAAAATCTAACACTTTTTGTCCACGAAATTTCAAACGTGCTTCCCCTAAAAATGATGGATACTAAGTTCATTACCTTTGTGGTATAGATTTGAGACTGCGATGGAGCATCCCCTGCGGTCCGAACAGCGTAATTACCTTCCCGGGCGCGCCGTGGCTGAAGCCATGGTACTGGTGGTCTTGGCCTGTGCTCCCTCTTGGCCTCCAATGGCACGAACAACGCCGCCGCACTCTCGGGTAATCCAATTCTCCCTTTCTTTTCTCATTCATTCATTTGATCAACTTCTTCTCTATCTTCGTCTGATCTTTCATTCCTCGAACAGTTACGGTGCTGAGATGCCGCTGGTTCTGATTCAAATCCTCCTCTACCTCGGGATTCTCGCCATGATCCGTCTCGCTCGTCCCAACCTCGCCAAGCTCTGCTACCGCCGATCGGAAAAAACCGCCGCCTCCTTCCAAACCGCACTCAAATTCGCCCTGCTATGGTCCATCCTCGCCGCCTACGCGATTCCTTTCTTCATCATTCCGACGACCATCCATCCAGTTATCGGGTGGGGATTGTACTTGCTCGGCTCCTTCACGTTCTCCTTGCTGGCGACCAGCGTGTTTCTCCTCCCGGTGCTCCCCGTTCTGGTTCCTTGCATCGGCGTGTTCGGCGTGCTTCTGGTGATGGCGTATCCGTGGTACTCGGACGGAGTTGTGAGAGGGCTGAGCGTGTTCGGATACGCGTTCTGCGCGGCGCCGTTCGTGTGGTCGTCGGCGGTGAGGATAATGGCGTCGATTCAGTCGTCGCTCGATAGAGATGCTTTCTTCGCCATTAAATCAGGTGAACGTTCGCCGACTTCTAGATTTAACAAATGGTGTTGA

mRNA sequence

ATGTGGAGCAGTGCGTACAAATCCTTGTTGGGAGGCCCAGCTTTTTCTTCTTCCTCCATTTCTAGGGTTTTGCAGCAAACGCCAGAGGGGCTTTTGCCGACCCGCGGGCGGAGGAGCTGTCAGGCGAGTGGTGACGGCTTTATTGATAAACCAGGGAAAATTCAGGTGGGGGCGAACCCACTGGTGCCGGTCAAACTCGTGCAGCTTCCCCGAGCTTACTCGCCGGATATCGCACAGCTTTCCAAACACTGTGCCTTTCAGAAGGCGGAAGATTCGAGAGAGAGAGGTTTTGATTGGTTGATCGATGCTGTCTCTGAGTTTCAGTGGATGAGTGTTTTTTGGAAAATCGGAGGGGCGACGATGAGATTCGGCGGAGTTTTAAGGATTTTGGTGTTGCTGGCGGTGGTGATGGTGGCGGAGGTTGAGGAAACGGCGGCGGAGTATACGAAGACGAAGACGACGAAGAAGACGCACAGAAACGCTTACGCTTCGATGATGTACATGGGGACGCCTAGAGACTACGAGTTCTACGTAGCGACGCGAGTGCTGATCAGATCGCTGGCGAAGCTCAACGTCGACGCCGATCTCGTCGTCATTGCGTCCCGCGACGTCCCCGTCCGATGGGTCCGCGCTCTGGAGGAAGAAGATGGAGCGAAGGTGGTGAGGGTAGAGAATGTGAAGAACCCATACAAGAACCAGTCGAACTTCGACAGGAGGTTCAAGCTGACACTGAACAAACTGTACGCATGGAGCTTGGTGGAGTACGAGAGAGTGGTGATGTTGGATTCCGACAACCTCTTCCTCCACAAAACCGATGAGCTCTTCCAGTGTGGTCAGTTCTGTGCTGTCTTCATCAACCCCTGTATCTTCCACACTGGCCTCTTCGTTCTCCAGCCATCGAAGAGGGTATTTGATGACATGATTCATGAGGTGGGGGTGGGGAGAGAGAACCCAGATGGTGCGGACCAAGGCTTCATTGGCAGCTACTTCCCTGATCTTCTAAACCAGCCAATGTTCTATCCCCCCTCCAATGGCTCCACTCTTGATGGCAACTATAGGCTCCCCTTGGGCTACCAAATGGATGCTTCTTACTATTATTTGAGACTGCGATGGAGCATCCCCTGCGGTCCGAACAGCGTAATTACCTTCCCGGGCGCGCCGTGGCTGAAGCCATGGTACTGGTGGTCTTGGCCTGTGCTCCCTCTTGGCCTCCAATGGCACGAACAACGCCGCCGCACTCTCGGTTACGGTGCTGAGATGCCGCTGGTTCTGATTCAAATCCTCCTCTACCTCGGGATTCTCGCCATGATCCGTCTCGCTCGTCCCAACCTCGCCAAGCTCTGCTACCGCCGATCGGAAAAAACCGCCGCCTCCTTCCAAACCGCACTCAAATTCGCCCTGCTATGGTCCATCCTCGCCGCCTACGCGATTCCTTTCTTCATCATTCCGACGACCATCCATCCAGTTATCGGGTGGGGATTGTACTTGCTCGGCTCCTTCACGTTCTCCTTGCTGGCGACCAGCGTGTTTCTCCTCCCGGTGCTCCCCGTTCTGGTTCCTTGCATCGGCGTGTTCGGCGTGCTTCTGGTGATGGCGTATCCGTGGTACTCGGACGGAGTTGTGAGAGGGCTGAGCGTGTTCGGATACGCGTTCTGCGCGGCGCCGTTCGTGTGGTCGTCGGCGGTGAGGATAATGGCGTCGATTCAGTCGTCGCTCGATAGAGATGCTTTCTTCGCCATTAAATCAGGTGAACGTTCGCCGACTTCTAGATTTAACAAATGGTGTTGA

Coding sequence (CDS)

ATGTGGAGCAGTGCGTACAAATCCTTGTTGGGAGGCCCAGCTTTTTCTTCTTCCTCCATTTCTAGGGTTTTGCAGCAAACGCCAGAGGGGCTTTTGCCGACCCGCGGGCGGAGGAGCTGTCAGGCGAGTGGTGACGGCTTTATTGATAAACCAGGGAAAATTCAGGTGGGGGCGAACCCACTGGTGCCGGTCAAACTCGTGCAGCTTCCCCGAGCTTACTCGCCGGATATCGCACAGCTTTCCAAACACTGTGCCTTTCAGAAGGCGGAAGATTCGAGAGAGAGAGGTTTTGATTGGTTGATCGATGCTGTCTCTGAGTTTCAGTGGATGAGTGTTTTTTGGAAAATCGGAGGGGCGACGATGAGATTCGGCGGAGTTTTAAGGATTTTGGTGTTGCTGGCGGTGGTGATGGTGGCGGAGGTTGAGGAAACGGCGGCGGAGTATACGAAGACGAAGACGACGAAGAAGACGCACAGAAACGCTTACGCTTCGATGATGTACATGGGGACGCCTAGAGACTACGAGTTCTACGTAGCGACGCGAGTGCTGATCAGATCGCTGGCGAAGCTCAACGTCGACGCCGATCTCGTCGTCATTGCGTCCCGCGACGTCCCCGTCCGATGGGTCCGCGCTCTGGAGGAAGAAGATGGAGCGAAGGTGGTGAGGGTAGAGAATGTGAAGAACCCATACAAGAACCAGTCGAACTTCGACAGGAGGTTCAAGCTGACACTGAACAAACTGTACGCATGGAGCTTGGTGGAGTACGAGAGAGTGGTGATGTTGGATTCCGACAACCTCTTCCTCCACAAAACCGATGAGCTCTTCCAGTGTGGTCAGTTCTGTGCTGTCTTCATCAACCCCTGTATCTTCCACACTGGCCTCTTCGTTCTCCAGCCATCGAAGAGGGTATTTGATGACATGATTCATGAGGTGGGGGTGGGGAGAGAGAACCCAGATGGTGCGGACCAAGGCTTCATTGGCAGCTACTTCCCTGATCTTCTAAACCAGCCAATGTTCTATCCCCCCTCCAATGGCTCCACTCTTGATGGCAACTATAGGCTCCCCTTGGGCTACCAAATGGATGCTTCTTACTATTATTTGAGACTGCGATGGAGCATCCCCTGCGGTCCGAACAGCGTAATTACCTTCCCGGGCGCGCCGTGGCTGAAGCCATGGTACTGGTGGTCTTGGCCTGTGCTCCCTCTTGGCCTCCAATGGCACGAACAACGCCGCCGCACTCTCGGTTACGGTGCTGAGATGCCGCTGGTTCTGATTCAAATCCTCCTCTACCTCGGGATTCTCGCCATGATCCGTCTCGCTCGTCCCAACCTCGCCAAGCTCTGCTACCGCCGATCGGAAAAAACCGCCGCCTCCTTCCAAACCGCACTCAAATTCGCCCTGCTATGGTCCATCCTCGCCGCCTACGCGATTCCTTTCTTCATCATTCCGACGACCATCCATCCAGTTATCGGGTGGGGATTGTACTTGCTCGGCTCCTTCACGTTCTCCTTGCTGGCGACCAGCGTGTTTCTCCTCCCGGTGCTCCCCGTTCTGGTTCCTTGCATCGGCGTGTTCGGCGTGCTTCTGGTGATGGCGTATCCGTGGTACTCGGACGGAGTTGTGAGAGGGCTGAGCGTGTTCGGATACGCGTTCTGCGCGGCGCCGTTCGTGTGGTCGTCGGCGGTGAGGATAATGGCGTCGATTCAGTCGTCGCTCGATAGAGATGCTTTCTTCGCCATTAAATCAGGTGAACGTTCGCCGACTTCTAGATTTAACAAATGGTGTTGA

Protein sequence

MWSSAYKSLLGGPAFSSSSISRVLQQTPEGLLPTRGRRSCQASGDGFIDKPGKIQVGANPLVPVKLVQLPRAYSPDIAQLSKHCAFQKAEDSRERGFDWLIDAVSEFQWMSVFWKIGGATMRFGGVLRILVLLAVVMVAEVEETAAEYTKTKTTKKTHRNAYASMMYMGTPRDYEFYVATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDRRFKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQPSKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSTLDGNYRLPLGYQMDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGAEMPLVLIQILLYLGILAMIRLARPNLAKLCYRRSEKTAASFQTALKFALLWSILAAYAIPFFIIPTTIHPVIGWGLYLLGSFTFSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYSDGVVRGLSVFGYAFCAAPFVWSSAVRIMASIQSSLDRDAFFAIKSGERSPTSRFNKWC
Homology
[Close]
BLAST of Sgr020143 vs. NCBI nr
Match: XP_023007807.1 (putative glucuronosyltransferase PGSIP8 [Cucurbita maxima])

HSP 1 Score: 818.9 bits (2114), Expect = 2.8e-233
Identity = 400/476 (84.03%), Postives = 435/476 (91.39%), Query Frame = 0 

Query: 121 MRFGGVLRILVLLAVVMVA-EVEETAAEYTKTKTTKKTHRNAYASMMYMGTPRDYEFYVA 180
           MRF GVLRI  +L VV+ A  VEE++AEYTK KT    HRNAYA+MMYMGTPRDYEFYVA
Sbjct: 1   MRFDGVLRISAVLVVVLAAVMVEESSAEYTKMKTKTMKHRNAYATMMYMGTPRDYEFYVA 60

Query: 181 TRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDRR 240
           TRVLIRSLAKLNV+ADLVVIASRDVP RWVRAL+EEDGAKVV V+NV NPY+NQSNFD+R
Sbjct: 61  TRVLIRSLAKLNVEADLVVIASRDVPDRWVRALKEEDGAKVVSVDNVNNPYRNQSNFDQR 120

Query: 241 FKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQP 300
           FKLTLNKLYAWSLV+Y+RVVMLDSDNLFL KTDELFQCGQFCAVFINPCIFHTGLFVLQP
Sbjct: 121 FKLTLNKLYAWSLVDYDRVVMLDSDNLFLQKTDELFQCGQFCAVFINPCIFHTGLFVLQP 180

Query: 301 SKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSTLDGNYRLPLGYQ 360
           SKRVFDDMI+EV VGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGS LDGN+RLPLGYQ
Sbjct: 181 SKRVFDDMINEVRVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSILDGNFRLPLGYQ 240

Query: 361 MDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGAE 420
           MDA+YYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYG E
Sbjct: 241 MDATYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGGE 300

Query: 421 MPLVLIQILLYLGILAMIRLARPNLAKLCYRRSEKTAASFQTALKFALLWSILAAYAIPF 480
           +P+V IQILLYLGILAMIRLARPNL KL +RRSEK AASFQ ALK A  WSILAAYAIPF
Sbjct: 301 LPVVFIQILLYLGILAMIRLARPNLTKLSHRRSEKPAASFQYALKLAAFWSILAAYAIPF 360

Query: 481 FIIPTTIHPVIGWGLYLLGSFTFSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYSDG 540
            IIPTTIHP++GWGL+LLGS+TFS LA +VFLLP+L VLVP +G+FGVLLVMA+PWY DG
Sbjct: 361 LIIPTTIHPLLGWGLFLLGSYTFSFLAATVFLLPILSVLVPSLGIFGVLLVMAFPWYPDG 420

Query: 541 VVRGLSVFGYAFCAAPFVWSSAVRIMASIQSSLDRDAFFAIKSGERSPTSRFNKWC 596
           VVRGL +F YAFCAAP VW++AVR+ A+I+SS+DRDAFFA+KSGE    SRFNKWC
Sbjct: 421 VVRGLCIFVYAFCAAPVVWTAAVRMAAAIRSSIDRDAFFAVKSGESLSPSRFNKWC 476

[Close]
BLAST of Sgr020143 vs. NCBI nr
Match: XP_023538774.1 (putative glucuronosyltransferase PGSIP8 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 817.4 bits (2110), Expect = 8.1e-233
Identity = 401/477 (84.07%), Postives = 433/477 (90.78%), Query Frame = 0 

Query: 120 TMRFGGVLRILVLLAVVMVAE-VEETAAEYTKTKTTKKTHRNAYASMMYMGTPRDYEFYV 179
           TMR GGVLRIL ++ VV+ AE VEE+ AEYTK KTT K HRNAYASMMYMGTPRDYEFYV
Sbjct: 6   TMRIGGVLRILAVVLVVLAAEVVEESVAEYTKAKTTTK-HRNAYASMMYMGTPRDYEFYV 65

Query: 180 ATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDR 239
           ATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALE+EDGA+VV V+NV NPY+NQSNFD+
Sbjct: 66  ATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEQEDGARVVSVDNVNNPYRNQSNFDK 125

Query: 240 RFKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQ 299
           RFKLTLNKLYAWSLV+Y+RVVMLDSDNLFL KTDELFQCGQFCAVFINPCIFHTGLFVL+
Sbjct: 126 RFKLTLNKLYAWSLVDYDRVVMLDSDNLFLQKTDELFQCGQFCAVFINPCIFHTGLFVLE 185

Query: 300 PSKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSTLDGNYRLPLGY 359
           PSKRVFDDMI+EV VGR+NPDGADQGFIGSYFPDLLNQPMFYPPSNGS LDGNYRLPLGY
Sbjct: 186 PSKRVFDDMINEVRVGRKNPDGADQGFIGSYFPDLLNQPMFYPPSNGSVLDGNYRLPLGY 245

Query: 360 QMDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA 419
           QMDASYYYL+LRWSIPCGPNSVITFPGA WLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA
Sbjct: 246 QMDASYYYLKLRWSIPCGPNSVITFPGASWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA 305

Query: 420 EMPLVLIQILLYLGILAMIRLARPNLAKLCYRRSEKTAASFQTALKFALLWSILAAYAIP 479
           EMPLVLI+ILL LGIL MIRLARPNL KL +RR EK AASFQ ALK A  WSI+ AY++P
Sbjct: 306 EMPLVLIEILLCLGILTMIRLARPNLIKLSHRRLEKPAASFQPALKLAAFWSIIVAYSVP 365

Query: 480 FFIIPTTIHPVIGWGLYLLGSFTFSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYSD 539
           F IIPTTIHP +GW LYLLGS T S LA +VFLLP+L VLVP  G+FGVLLVMAYPWYSD
Sbjct: 366 FLIIPTTIHPFLGWLLYLLGSSTLSFLAATVFLLPILSVLVPSAGIFGVLLVMAYPWYSD 425

Query: 540 GVVRGLSVFGYAFCAAPFVWSSAVRIMASIQSSLDRDAFFAIKSGERSPTSRFNKWC 596
           GVVRGL +F YAFC AP +W++ VRI A+IQSS+DRDAFF +KSGE SP+SRFNKWC
Sbjct: 426 GVVRGLCIFLYAFCVAPVLWTAVVRIAAAIQSSIDRDAFFVVKSGETSPSSRFNKWC 481

[Close]
BLAST of Sgr020143 vs. NCBI nr
Match: KAG7028387.1 (putative glucuronosyltransferase PGSIP7 [Cucurbita argyrosperma subsp. argyrosperma])

HSP 1 Score: 817.4 bits (2110), Expect = 8.1e-233
Identity = 401/477 (84.07%), Postives = 433/477 (90.78%), Query Frame = 0 

Query: 120 TMRFGGVLRILVLLAVVMVAE-VEETAAEYTKTKTTKKTHRNAYASMMYMGTPRDYEFYV 179
           TMR GGVLRIL ++ VV+ AE VEE+ AEYTK KTT K HRNAYASMMYMGTPRDYEFYV
Sbjct: 6   TMRIGGVLRILAVVLVVLAAEVVEESVAEYTKAKTTTK-HRNAYASMMYMGTPRDYEFYV 65

Query: 180 ATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDR 239
           ATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALE+EDGA+VV V+NV NPYKNQSNFD+
Sbjct: 66  ATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEQEDGARVVSVDNVNNPYKNQSNFDK 125

Query: 240 RFKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQ 299
           RFKLTLNKLYAWSLV+Y+RVVMLDSDNLFL KTDELFQCGQFCAVFINPCIFHTGLFVL+
Sbjct: 126 RFKLTLNKLYAWSLVDYDRVVMLDSDNLFLQKTDELFQCGQFCAVFINPCIFHTGLFVLE 185

Query: 300 PSKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSTLDGNYRLPLGY 359
           PSKRVFDDMI+EV VGR+NPDGADQGFIGSYFPDLLNQPMFYPPSNGS L GNYRLPLGY
Sbjct: 186 PSKRVFDDMINEVRVGRKNPDGADQGFIGSYFPDLLNQPMFYPPSNGSVLGGNYRLPLGY 245

Query: 360 QMDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA 419
           QMDASYYYL+LRWSIPCGPNSVITFPGA WLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA
Sbjct: 246 QMDASYYYLKLRWSIPCGPNSVITFPGASWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA 305

Query: 420 EMPLVLIQILLYLGILAMIRLARPNLAKLCYRRSEKTAASFQTALKFALLWSILAAYAIP 479
           EMPL+LI+ILL LGIL MIRLARPNL KL +RR EK AASFQ ALK A  WSI+ AY++P
Sbjct: 306 EMPLILIEILLCLGILTMIRLARPNLIKLSHRRLEKPAASFQPALKLAAFWSIIVAYSVP 365

Query: 480 FFIIPTTIHPVIGWGLYLLGSFTFSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYSD 539
           F IIPTTIHP +GW LYLLGS T S LA +VFLLP+L VLVP  G+FGVLLVMAYPWYSD
Sbjct: 366 FLIIPTTIHPFLGWFLYLLGSSTLSFLAATVFLLPILSVLVPSAGIFGVLLVMAYPWYSD 425

Query: 540 GVVRGLSVFGYAFCAAPFVWSSAVRIMASIQSSLDRDAFFAIKSGERSPTSRFNKWC 596
           GVVRGL +F YAFC AP +W++ VRI A+IQSS+DRDAFFA+KSGE SP+SRFNKWC
Sbjct: 426 GVVRGLCIFLYAFCVAPVLWTAVVRIAAAIQSSIDRDAFFAVKSGETSPSSRFNKWC 481

[Close]
BLAST of Sgr020143 vs. NCBI nr
Match: XP_038905290.1 (putative glucuronosyltransferase PGSIP8 [Benincasa hispida])

HSP 1 Score: 816.2 bits (2107), Expect = 1.8e-232
Identity = 401/478 (83.89%), Postives = 435/478 (91.00%), Query Frame = 0 

Query: 121 MRFGGVLRILVLLAVVMVAE--VEETAAEYTKTKTTKKTHRNAYASMMYMGTPRDYEFYV 180
           MRF GVLRI  +L VV++A   VE +AA+YTK KT    HRNAYASMMYMGTPRDYEFYV
Sbjct: 1   MRFDGVLRISAVLLVVVLAALVVEGSAADYTKMKTKTTNHRNAYASMMYMGTPRDYEFYV 60

Query: 181 ATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDR 240
           ATRVLIRSLAKLNV+ADLVVIASRDVPVRWVRALEEEDGAKV  V+NV NPY+NQSNFDR
Sbjct: 61  ATRVLIRSLAKLNVEADLVVIASRDVPVRWVRALEEEDGAKVASVDNVNNPYRNQSNFDR 120

Query: 241 RFKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQ 300
           RFKLTLNKLYAWSL +Y+RVVMLDSDNLFL KTDELFQCGQFCAVFINPCIFHTGLFVLQ
Sbjct: 121 RFKLTLNKLYAWSLTDYDRVVMLDSDNLFLQKTDELFQCGQFCAVFINPCIFHTGLFVLQ 180

Query: 301 PSKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSTLDGNYRLPLGY 360
           PSKRVFDDM++EV VGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGS LDGN+RLPLGY
Sbjct: 181 PSKRVFDDMMNEVRVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSILDGNFRLPLGY 240

Query: 361 QMDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA 420
           QMDA+YYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA
Sbjct: 241 QMDATYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA 300

Query: 421 EMPLVLIQILLYLGILAMIRLARPNLAKLCYRRSEKTAASF-QTALKFALLWSILAAYAI 480
           EMPLVLIQILLYLGILAMIRLARPNL KL +RRSEK AASF  +A K A  WSILAAYA+
Sbjct: 301 EMPLVLIQILLYLGILAMIRLARPNLTKLSHRRSEKPAASFHHSAFKLAAFWSILAAYAL 360

Query: 481 PFFIIPTTIHPVIGWGLYLLGSFTFSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYS 540
           PFFIIPTTIHP++GWGLYLLGS T S LA +VFLLP+LP+LVP +G+FGVLLVMA+P+YS
Sbjct: 361 PFFIIPTTIHPLLGWGLYLLGSSTLSFLAATVFLLPLLPLLVPSLGIFGVLLVMAFPFYS 420

Query: 541 DGVVRGLSVFGYAFCAAPFVWSSAVRIMASIQSSLDRDAFFAIKSGERSPTSRFNKWC 596
           DGV+RGL +F YAFCAAP VW++ VR  A+IQSS+DRDAFF +KSGE  P+SRFNKWC
Sbjct: 421 DGVIRGLCIFLYAFCAAPVVWTAVVRTAAAIQSSIDRDAFFVVKSGETLPSSRFNKWC 478

[Close]
BLAST of Sgr020143 vs. NCBI nr
Match: XP_023552292.1 (putative glucuronosyltransferase PGSIP8 [Cucurbita pepo subsp. pepo])

HSP 1 Score: 815.1 bits (2104), Expect = 4.0e-232
Identity = 398/476 (83.61%), Postives = 434/476 (91.18%), Query Frame = 0 

Query: 121 MRFGGVLRILVLLAVVMVA-EVEETAAEYTKTKTTKKTHRNAYASMMYMGTPRDYEFYVA 180
           MRF GVLRI  +L VV+ A  VEE++AEYTK KT    HRNAYA+MMYMGTPRDYEFYVA
Sbjct: 1   MRFDGVLRISAVLVVVLAAVMVEESSAEYTKMKTKTMKHRNAYATMMYMGTPRDYEFYVA 60

Query: 181 TRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDRR 240
           TRVLIRSLAKLNV+ADLVVIASRDVPVRW RAL+EEDGAKVV V+NV NPY+NQSNFD+R
Sbjct: 61  TRVLIRSLAKLNVEADLVVIASRDVPVRWERALKEEDGAKVVSVDNVNNPYRNQSNFDKR 120

Query: 241 FKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQP 300
           FKLTLNKLYAWSLV+Y+RVVMLDSDNLFL KTDELFQCGQFCAVFINPCIFHTGLFVLQP
Sbjct: 121 FKLTLNKLYAWSLVDYDRVVMLDSDNLFLQKTDELFQCGQFCAVFINPCIFHTGLFVLQP 180

Query: 301 SKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSTLDGNYRLPLGYQ 360
           SKRVFDDMI+EV VGRENPDGADQGFIGSYFP+LLNQPMFYPPSNGS LDGN+RLPLGYQ
Sbjct: 181 SKRVFDDMINEVRVGRENPDGADQGFIGSYFPELLNQPMFYPPSNGSILDGNFRLPLGYQ 240

Query: 361 MDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGAE 420
           MDA+YYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYG E
Sbjct: 241 MDATYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGGE 300

Query: 421 MPLVLIQILLYLGILAMIRLARPNLAKLCYRRSEKTAASFQTALKFALLWSILAAYAIPF 480
           +P+V IQILLYLGILAMIRLARPNL +L +RRSEK AASFQ ALK A  WSILAAYAIPF
Sbjct: 301 LPVVFIQILLYLGILAMIRLARPNLTRLSHRRSEKPAASFQFALKLAAFWSILAAYAIPF 360

Query: 481 FIIPTTIHPVIGWGLYLLGSFTFSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYSDG 540
            IIPTTIHP++GWGL+LLGS TFS LA +VFLLP+L VLVP +G+FGVLLVMA+PWY DG
Sbjct: 361 LIIPTTIHPLLGWGLFLLGSSTFSFLAATVFLLPILSVLVPSLGIFGVLLVMAFPWYPDG 420

Query: 541 VVRGLSVFGYAFCAAPFVWSSAVRIMASIQSSLDRDAFFAIKSGERSPTSRFNKWC 596
           VVRGL +F YAFCAAP VW++AVR+ A+I+SS+DRDAFFA+KSGE    SRFNKWC
Sbjct: 421 VVRGLCIFVYAFCAAPVVWTAAVRMAAAIRSSIDRDAFFAVKSGESLSPSRFNKWC 476

[Close]
BLAST of Sgr020143 vs. ExPASy Swiss-Prot
Match: Q8VZP6 (Putative glucuronosyltransferase PGSIP8 OS=Arabidopsis thaliana OX=3702 GN=PGSIP8 PE=2 SV=1)

HSP 1 Score: 648.7 bits (1672), Expect = 6.6e-185
Identity = 307/442 (69.46%), Postives = 362/442 (81.90%), Query Frame = 0 

Query: 152 KTTKKTHRNAYASMMYMGTPRDYEFYVATRVLIRSLAKLNVDADLVVIASRDVPVRWVRA 211
           KT +  H+NAYA+MMYMGTPRDYEFYVATRVLIRSL  L+V+ADLVVIAS DVP+RWV+ 
Sbjct: 55  KTRRPEHKNAYATMMYMGTPRDYEFYVATRVLIRSLRSLHVEADLVVIASLDVPLRWVQT 114

Query: 212 LEEEDGAKVVRVENVKNPYKNQSNFDRRFKLTLNKLYAWSLVEYERVVMLDSDNLFLHKT 271
           LEEEDGAKVVRVENV NPY+ Q+NF+ RFKLTLNKLYAW+L +Y+RVVMLD+DNLFL K 
Sbjct: 115 LEEEDGAKVVRVENVDNPYRRQTNFNSRFKLTLNKLYAWALSDYDRVVMLDADNLFLKKA 174

Query: 272 DELFQCGQFCAVFINPCIFHTGLFVLQPSKRVFDDMIHEVGVGRENPDGADQGFIGSYFP 331
           DELFQCG+FCAVFINPCIFHTGLFVLQPS  VF DM+HE+ VGR+NPDGADQGF+ SYF 
Sbjct: 175 DELFQCGRFCAVFINPCIFHTGLFVLQPSVEVFKDMLHELQVGRKNPDGADQGFLVSYFS 234

Query: 332 DLLNQPMFYPPSNGSTLDGNYRLPLGYQMDASYYYLRLRWSIPCGPNSVITFPGAPWLKP 391
           DLL+QP+F PPSNGS L+G+ RLPLGYQMDASY+YL+LRW+IPCGPNSVITFPGA WLKP
Sbjct: 235 DLLDQPLFSPPSNGSVLNGHLRLPLGYQMDASYFYLKLRWNIPCGPNSVITFPGAVWLKP 294

Query: 392 WYWWSWPVLPLGLQWHEQRRRTLGYGAEMPLVLIQILLYLGILAMIRLARPNLAKLCYRR 451
           WYWWSWPVLPLG  WHEQRR T+GY AEMPLV+IQ + YLGI+ + RLARPN+ KLCYRR
Sbjct: 295 WYWWSWPVLPLGFSWHEQRRATIGYSAEMPLVIIQAMFYLGIIVVTRLARPNITKLCYRR 354

Query: 452 SEKTAASFQTALKFALLWSILAAYAIPFFIIPTTIHPVIGWGLYLLGSFTFSLLATSVFL 511
           S++   + Q   K   L S++AAY  PFF IP TIHP+IGW LYL+ SF  S ++ +  L
Sbjct: 355 SDRNLTTIQAGFKLIALLSVVAAYIFPFFTIPHTIHPLIGWSLYLMASFALSSISINTLL 414

Query: 512 LPVLPVLVPCIGVFGVLLVMAYPWYSDGVVRGLSVFGYAFCAAPFVWSSAVRIMASIQSS 571
           LP LPVL P +G+ G LLVMA+PWY DGVVR LSVF YAFC APFVW S  +I + +Q  
Sbjct: 415 LPTLPVLTPWLGILGTLLVMAFPWYPDGVVRALSVFAYAFCCAPFVWVSFRKITSHLQVL 474

Query: 572 LDRDAFFAIKSGERSPTSRFNK 594
           ++++  F  + G+   TS F+K
Sbjct: 475 IEKEVLFP-RLGDSGVTSGFSK 495

[Close]
BLAST of Sgr020143 vs. ExPASy Swiss-Prot
Match: F4JMI5 (Putative glucuronosyltransferase PGSIP7 OS=Arabidopsis thaliana OX=3702 GN=PGSIP7 PE=3 SV=1)

HSP 1 Score: 645.6 bits (1664), Expect = 5.6e-184
Identity = 314/452 (69.47%), Postives = 364/452 (80.53%), Query Frame = 0 

Query: 144 TAAEYTKTKTTKK-THRNAYASMMYMGTPRDYEFYVATRVLIRSLAKLNVDADLVVIASR 203
           TA      KT ++  H+NAYA+MMYMGTPRDYEFYVATRVLIRSL  L+VDAD+VVIAS 
Sbjct: 42  TAVMERGLKTQRRPEHKNAYATMMYMGTPRDYEFYVATRVLIRSLKSLHVDADIVVIASL 101

Query: 204 DVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDRRFKLTLNKLYAWSLVEYERVVMLD 263
           DVP+ W+ ALEEEDGAKVVRVEN++NPYK Q+NFD RFKL+LNKLYAWSL +Y+RVVMLD
Sbjct: 102 DVPINWIHALEEEDGAKVVRVENLENPYKKQTNFDNRFKLSLNKLYAWSLSDYDRVVMLD 161

Query: 264 SDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQPSKRVFDDMIHEVGVGRENPDGAD 323
            DNLFL  TDELFQCGQFCAVFINPCIFHTGLFVLQPS  VF DM+HE+ V R+NPDGAD
Sbjct: 162 VDNLFLKNTDELFQCGQFCAVFINPCIFHTGLFVLQPSMEVFRDMLHELEVKRDNPDGAD 221

Query: 324 QGFIGSYFPDLLNQPMFY-PPSNGSTLDGNYRLPLGYQMDASYYYLRLRWSIPCGPNSVI 383
           QGF+ SYF DLLNQP+F  PP N + L G++RLPLGYQMDASYYYL+LRW++PCGPNSVI
Sbjct: 222 QGFLVSYFSDLLNQPLFRPPPDNRTALKGHFRLPLGYQMDASYYYLKLRWNVPCGPNSVI 281

Query: 384 TFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGAEMPLVLIQILLYLGILAMIRLAR 443
           TFPGA WLKPWYWWSWPVLPLGL WH QRR T+ Y AEMP VL Q + YLGI+ + RLAR
Sbjct: 282 TFPGAVWLKPWYWWSWPVLPLGLSWHHQRRYTISYSAEMPWVLTQAVFYLGIILVTRLAR 341

Query: 444 PNLAKLCYRRSEKTAASFQTALKFALLWSILAAYAIPFFIIPTTIHPVIGWGLYLLGSFT 503
           PN+ KLCYRRS+K  +  QTA KF  L  IL+AY IPFFIIP TIHP+IGW LYL GSF 
Sbjct: 342 PNMTKLCYRRSDKNLSMIQTAFKFVALLFILSAYIIPFFIIPQTIHPLIGWSLYLTGSFA 401

Query: 504 FSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYSDGVVRGLSVFGYAFCAAPFVWSSA 563
            S +  + FLLP+LPV+ P +G+FG LLVMA+P Y DGVVR LSVFGYAFC APF+W S 
Sbjct: 402 LSTIPINAFLLPILPVITPWLGIFGTLLVMAFPSYPDGVVRALSVFGYAFCCAPFLWVSF 461

Query: 564 VRIMASIQSSLDRDAFFAIKSGERSPTSRFNK 594
           V+I + +Q  +D++  F  + GE   TS  +K
Sbjct: 462 VKITSHLQIMIDKEVLFP-RLGESGVTSGLSK 492

[Close]
BLAST of Sgr020143 vs. ExPASy Swiss-Prot
Match: Q8GWB7 (Inositol phosphorylceramide glucuronosyltransferase 1 OS=Arabidopsis thaliana OX=3702 GN=IPUT1 PE=1 SV=1)

HSP 1 Score: 118.2 bits (295), Expect = 3.1e-25
Identity = 81/256 (31.64%), Postives = 129/256 (50.39%), Query Frame = 0 

Query: 161 AYASMMYMGTPRDYEFYVATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKV 220
           AY +++Y       EF +  RVL +S+       D+V + S  V   + + L + DG KV
Sbjct: 32  AYVTLLY-----GDEFLLGVRVLGKSIRDTGSTKDMVALVSDGVS-DYSKKLLKADGWKV 91

Query: 221 VRVENVKNPYKNQSNFDRRFKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQF 280
            ++  + NP  NQ +   RF     KL  +++ +Y++VV LD+D + +   ++LF+C +F
Sbjct: 92  EKISLLANP--NQVH-PTRFWGVYTKLKIFNMTDYKKVVYLDADTIVVKNIEDLFKCSKF 151

Query: 281 CAVFINPCIFHTGLFVLQPSKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFY 340
           CA   +    ++G+ V++PS+ +F+DM+ +V     +  G DQGF+ SY+PD  N  +F 
Sbjct: 152 CANLKHSERLNSGVMVVEPSEALFNDMMRKVKT-LSSYTGGDQGFLNSYYPDFPNARVFD 211

Query: 341 PPSNGSTL-----DGNYRLPLGYQMDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWW 400
           P      L         RL   Y  D   Y L  +W +      VI +   P LKPW WW
Sbjct: 212 PSVTPEVLKTRPVPAMERLSTLYNADVGLYMLANKWMVDDSKLHVIHYTLGP-LKPWDWW 271

Query: 401 -SWPVLPLGLQWHEQR 411
            +W V P+   WH  R
Sbjct: 272 TAWLVKPVD-AWHSIR 275

[Close]
BLAST of Sgr020143 vs. ExPASy Swiss-Prot
Match: O15488 (Glycogenin-2 OS=Homo sapiens OX=9606 GN=GYG2 PE=1 SV=2)

HSP 1 Score: 75.9 bits (185), Expect = 1.8e-12
Identity = 52/154 (33.77%), Postives = 76/154 (49.35%), Query Frame = 0 

Query: 242 LTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQFCAVFIN--PCIFHTGLFVLQP 301
           LTL KL+ W+L  Y + V LD+D L L   DELF  G+F A      P  F++G+FV QP
Sbjct: 115 LTLTKLHCWTLTHYSKCVFLDADTLVLSNVDELFDRGEFSAAPDPGWPDCFNSGVFVFQP 174

Query: 302 SKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSTLDGNYRLPLGYQ 361
           S      ++ +  +   + DGADQG + S+F             N ST D +  LP  Y 
Sbjct: 175 SLHT-HKLLLQHAMEHGSFDGADQGLLNSFF------------RNWSTTDIHKHLPFIYN 234

Query: 362 MDASYYYLRLRWSIPCGPNS-VITFPGAPWLKPW 393
           + ++  Y         G ++ V+ F G+  +KPW
Sbjct: 235 LSSNTMYTYSPAFKQFGSSAKVVHFLGS--MKPW 253

[Close]
BLAST of Sgr020143 vs. ExPASy Swiss-Prot
Match: F4HZC3 (Putative UDP-glucuronate:xylan alpha-glucuronosyltransferase 5 OS=Arabidopsis thaliana OX=3702 GN=GUX5 PE=2 SV=1)

HSP 1 Score: 73.6 bits (179), Expect = 8.7e-12
Identity = 52/197 (26.40%), Postives = 100/197 (50.76%), Query Frame = 0 

Query: 139 AEVEETAAEYTKTKTTKKT---HRNAYASMMYMGTPRDYEFYVATRV-LIRSLAKLNVDA 198
           A +++     T  KTT  +    R AY ++++       E YV   + L +S+ +     
Sbjct: 254 AWIQDKNRNLTSEKTTLSSFTAQRVAYVTLLHSS-----EVYVCGAIALAQSIRQSGSTK 313

Query: 199 DLVVIASRDVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDRRFKLTLNKLYAWSLVE 258
           D++++    +    +  L    G K+ RVE +++P+  + +++   +   +KL  W + +
Sbjct: 314 DMILLHDDSITNISLIGLSLA-GWKLRRVERIRSPFSKKRSYN---EWNYSKLRVWQVTD 373

Query: 259 YERVVMLDSDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQPSKRVFDD-MIHEVGV 318
           Y+++V +D+D + +   D LF   Q  A   N  +F++G+ VL+PS  +F+D M+    +
Sbjct: 374 YDKLVFIDADFIIVKNIDYLFSYPQLSAAGNNKVLFNSGVMVLEPSACLFEDLMLKSFKI 433

Query: 319 GRENPDGADQGFIGSYF 331
           G  N  G DQGF+  YF
Sbjct: 434 GSYN--GGDQGFLNEYF 439

[Close]
BLAST of Sgr020143 vs. ExPASy TrEMBL
Match: A0A6J1KZQ0 (putative glucuronosyltransferase PGSIP8 OS=Cucurbita maxima OX=3661 GN=LOC111500305 PE=4 SV=1)

HSP 1 Score: 818.9 bits (2114), Expect = 1.4e-233
Identity = 400/476 (84.03%), Postives = 435/476 (91.39%), Query Frame = 0 

Query: 121 MRFGGVLRILVLLAVVMVA-EVEETAAEYTKTKTTKKTHRNAYASMMYMGTPRDYEFYVA 180
           MRF GVLRI  +L VV+ A  VEE++AEYTK KT    HRNAYA+MMYMGTPRDYEFYVA
Sbjct: 1   MRFDGVLRISAVLVVVLAAVMVEESSAEYTKMKTKTMKHRNAYATMMYMGTPRDYEFYVA 60

Query: 181 TRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDRR 240
           TRVLIRSLAKLNV+ADLVVIASRDVP RWVRAL+EEDGAKVV V+NV NPY+NQSNFD+R
Sbjct: 61  TRVLIRSLAKLNVEADLVVIASRDVPDRWVRALKEEDGAKVVSVDNVNNPYRNQSNFDQR 120

Query: 241 FKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQP 300
           FKLTLNKLYAWSLV+Y+RVVMLDSDNLFL KTDELFQCGQFCAVFINPCIFHTGLFVLQP
Sbjct: 121 FKLTLNKLYAWSLVDYDRVVMLDSDNLFLQKTDELFQCGQFCAVFINPCIFHTGLFVLQP 180

Query: 301 SKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSTLDGNYRLPLGYQ 360
           SKRVFDDMI+EV VGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGS LDGN+RLPLGYQ
Sbjct: 181 SKRVFDDMINEVRVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSILDGNFRLPLGYQ 240

Query: 361 MDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGAE 420
           MDA+YYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYG E
Sbjct: 241 MDATYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGGE 300

Query: 421 MPLVLIQILLYLGILAMIRLARPNLAKLCYRRSEKTAASFQTALKFALLWSILAAYAIPF 480
           +P+V IQILLYLGILAMIRLARPNL KL +RRSEK AASFQ ALK A  WSILAAYAIPF
Sbjct: 301 LPVVFIQILLYLGILAMIRLARPNLTKLSHRRSEKPAASFQYALKLAAFWSILAAYAIPF 360

Query: 481 FIIPTTIHPVIGWGLYLLGSFTFSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYSDG 540
            IIPTTIHP++GWGL+LLGS+TFS LA +VFLLP+L VLVP +G+FGVLLVMA+PWY DG
Sbjct: 361 LIIPTTIHPLLGWGLFLLGSYTFSFLAATVFLLPILSVLVPSLGIFGVLLVMAFPWYPDG 420

Query: 541 VVRGLSVFGYAFCAAPFVWSSAVRIMASIQSSLDRDAFFAIKSGERSPTSRFNKWC 596
           VVRGL +F YAFCAAP VW++AVR+ A+I+SS+DRDAFFA+KSGE    SRFNKWC
Sbjct: 421 VVRGLCIFVYAFCAAPVVWTAAVRMAAAIRSSIDRDAFFAVKSGESLSPSRFNKWC 476

[Close]
BLAST of Sgr020143 vs. ExPASy TrEMBL
Match: A0A6J1KZ14 (putative glucuronosyltransferase PGSIP8 OS=Cucurbita maxima OX=3661 GN=LOC111498393 PE=4 SV=1)

HSP 1 Score: 813.9 bits (2101), Expect = 4.4e-232
Identity = 399/477 (83.65%), Postives = 433/477 (90.78%), Query Frame = 0 

Query: 120 TMRFGGVLRILVLLAVVMVAE-VEETAAEYTKTKTTKKTHRNAYASMMYMGTPRDYEFYV 179
           TMR GGVLRIL ++ VV+ AE VEE+AAEYTK KTT K HRNAYASMMYMGTPRDYEFYV
Sbjct: 6   TMRIGGVLRILTVVLVVLAAEVVEESAAEYTKAKTTTK-HRNAYASMMYMGTPRDYEFYV 65

Query: 180 ATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDR 239
           ATRVLIRSL KLNVDADLVVIASRDVPVRWVRALE+EDGA+VV V+NV NPY+NQSNFD+
Sbjct: 66  ATRVLIRSLGKLNVDADLVVIASRDVPVRWVRALEQEDGARVVSVDNVNNPYRNQSNFDK 125

Query: 240 RFKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQ 299
           RFKLTLNKLYAWSLV+Y+RVVMLDSDNLFL KTDELFQCGQFCAVFINPCIFHTGLFVL+
Sbjct: 126 RFKLTLNKLYAWSLVDYDRVVMLDSDNLFLQKTDELFQCGQFCAVFINPCIFHTGLFVLE 185

Query: 300 PSKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSTLDGNYRLPLGY 359
           PSKRVFDDMI+EV VGR+NPDGADQGFIGS+FPDLLNQPMFYPPSNGS LDGNYRLPLGY
Sbjct: 186 PSKRVFDDMINEVRVGRKNPDGADQGFIGSFFPDLLNQPMFYPPSNGSVLDGNYRLPLGY 245

Query: 360 QMDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA 419
           QMDASYYYL+LRWSIPCGPNSVITFPGA WLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA
Sbjct: 246 QMDASYYYLKLRWSIPCGPNSVITFPGASWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA 305

Query: 420 EMPLVLIQILLYLGILAMIRLARPNLAKLCYRRSEKTAASFQTALKFALLWSILAAYAIP 479
           EMPLVLI+ILL LGIL MIRLARPNL KL +RR EK AASFQ ALK A  WSI+ AY++P
Sbjct: 306 EMPLVLIEILLCLGILTMIRLARPNLIKLSHRRLEKPAASFQPALKLAAFWSIIIAYSVP 365

Query: 480 FFIIPTTIHPVIGWGLYLLGSFTFSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYSD 539
           F IIPTTIHP +GW LYLLGS T S LA +VFLLP+L VL+P  G+FGVLLVMAYPWYSD
Sbjct: 366 FLIIPTTIHPFLGWLLYLLGSSTLSFLAATVFLLPILSVLLPSAGIFGVLLVMAYPWYSD 425

Query: 540 GVVRGLSVFGYAFCAAPFVWSSAVRIMASIQSSLDRDAFFAIKSGERSPTSRFNKWC 596
           GVVRGL +F YAFC AP +W++ VRI A+IQSS+DRDAFF +KSGE SP+SRFNKWC
Sbjct: 426 GVVRGLCIFLYAFCVAPVLWTAVVRIAAAIQSSIDRDAFFLVKSGETSPSSRFNKWC 481

[Close]
BLAST of Sgr020143 vs. ExPASy TrEMBL
Match: A0A6J1GIG5 (putative glucuronosyltransferase PGSIP8 OS=Cucurbita moschata OX=3662 GN=LOC111454186 PE=4 SV=1)

HSP 1 Score: 813.1 bits (2099), Expect = 7.4e-232
Identity = 399/477 (83.65%), Postives = 433/477 (90.78%), Query Frame = 0 

Query: 120 TMRFGGVLRILVLLAVVMVAE-VEETAAEYTKTKTTKKTHRNAYASMMYMGTPRDYEFYV 179
           TMR GGVLRIL ++ VV+ AE VEE+ AEYTK KTT K HRNAYASMMYMGTPRDYEFYV
Sbjct: 6   TMRIGGVLRILAVVLVVLAAEVVEESVAEYTKAKTTTK-HRNAYASMMYMGTPRDYEFYV 65

Query: 180 ATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDR 239
           ATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALE+EDGA+VV V+NV NPY+NQSNFD+
Sbjct: 66  ATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEQEDGARVVSVDNVNNPYRNQSNFDK 125

Query: 240 RFKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQ 299
           RFKLTLNKLYAWSLV+Y+RVVMLDSDNLFL KTDELFQCGQFCAVFINPCIFHTGLFVL+
Sbjct: 126 RFKLTLNKLYAWSLVDYDRVVMLDSDNLFLQKTDELFQCGQFCAVFINPCIFHTGLFVLE 185

Query: 300 PSKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSTLDGNYRLPLGY 359
           PSKRVFDDMI+EV VGR+NPDGADQGFIGSYFPDLLN+PMFYPPSNGS L GNYRLPLGY
Sbjct: 186 PSKRVFDDMINEVRVGRKNPDGADQGFIGSYFPDLLNRPMFYPPSNGSVLGGNYRLPLGY 245

Query: 360 QMDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA 419
           QMDASYYYL+LRWSIPCGPNSVIT+PGA WLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA
Sbjct: 246 QMDASYYYLKLRWSIPCGPNSVITYPGASWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA 305

Query: 420 EMPLVLIQILLYLGILAMIRLARPNLAKLCYRRSEKTAASFQTALKFALLWSILAAYAIP 479
           EMPLVLI+ILL LGIL MIRLARPNL KL +RR EK AASFQ ALK A  WSI+ AY++P
Sbjct: 306 EMPLVLIEILLCLGILTMIRLARPNLIKLSHRRLEKPAASFQPALKLAAFWSIIVAYSVP 365

Query: 480 FFIIPTTIHPVIGWGLYLLGSFTFSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYSD 539
           F IIPTTIHP +GW LYLLGS T S LA +VFLLP+L VLVP  G+FGVLLVMAYPWYSD
Sbjct: 366 FLIIPTTIHPFLGWLLYLLGSSTLSFLAATVFLLPILSVLVPSAGIFGVLLVMAYPWYSD 425

Query: 540 GVVRGLSVFGYAFCAAPFVWSSAVRIMASIQSSLDRDAFFAIKSGERSPTSRFNKWC 596
           GVVRGL +F YAFC AP +W++ VRI A+IQSS+DRDAFFA+KSGE SP+SRFNKWC
Sbjct: 426 GVVRGLCIFLYAFCIAPVLWTAVVRIAAAIQSSIDRDAFFAVKSGETSPSSRFNKWC 481

[Close]
BLAST of Sgr020143 vs. ExPASy TrEMBL
Match: A0A6J1E970 (putative glucuronosyltransferase PGSIP8 OS=Cucurbita moschata OX=3662 GN=LOC111431047 PE=4 SV=1)

HSP 1 Score: 809.7 bits (2090), Expect = 8.2e-231
Identity = 396/476 (83.19%), Postives = 431/476 (90.55%), Query Frame = 0 

Query: 121 MRFGGVLRILVLLAVVMVA-EVEETAAEYTKTKTTKKTHRNAYASMMYMGTPRDYEFYVA 180
           MRF GVLRI  +L VV+ A  VEE++AEY+K KT    HRNAYA+MMYMGTPRDYEFYVA
Sbjct: 1   MRFDGVLRISAVLMVVLAAVMVEESSAEYSKMKTKTMKHRNAYATMMYMGTPRDYEFYVA 60

Query: 181 TRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDRR 240
           TRVLIRSLAKLNV+ADLVVIASRDVPVRWVRAL+EEDGAKVV V+NV NPY+NQSNFD+R
Sbjct: 61  TRVLIRSLAKLNVEADLVVIASRDVPVRWVRALKEEDGAKVVSVDNVNNPYRNQSNFDKR 120

Query: 241 FKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQP 300
           FKLTLNKLYAWSLV+Y+RVVMLDSDNLFL KTDELFQCGQFCAVFINPCIFHTGLFVLQP
Sbjct: 121 FKLTLNKLYAWSLVDYDRVVMLDSDNLFLQKTDELFQCGQFCAVFINPCIFHTGLFVLQP 180

Query: 301 SKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSTLDGNYRLPLGYQ 360
           SKRVFDDMI+EV VGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGS LDGN+RLPLGYQ
Sbjct: 181 SKRVFDDMINEVRVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSILDGNFRLPLGYQ 240

Query: 361 MDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGAE 420
           MDA+YYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQR RTLGYG E
Sbjct: 241 MDATYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRHRTLGYGGE 300

Query: 421 MPLVLIQILLYLGILAMIRLARPNLAKLCYRRSEKTAASFQTALKFALLWSILAAYAIPF 480
           +P+V IQILLYLGILAMIRLARPNL KL +RRSEK  ASFQ ALK A  WSILAAYAIPF
Sbjct: 301 LPVVFIQILLYLGILAMIRLARPNLTKLSHRRSEKPPASFQFALKLAAFWSILAAYAIPF 360

Query: 481 FIIPTTIHPVIGWGLYLLGSFTFSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYSDG 540
            IIPTTIHP++GWGL+LLGS T S LA +VFLLP+L VLVP +G+FGVLLVMA+PWY DG
Sbjct: 361 LIIPTTIHPLLGWGLFLLGSSTLSFLAATVFLLPILSVLVPSLGIFGVLLVMAFPWYPDG 420

Query: 541 VVRGLSVFGYAFCAAPFVWSSAVRIMASIQSSLDRDAFFAIKSGERSPTSRFNKWC 596
           VVRGL +F YAFCAAP VW++AVR+ A+I+SS+DRDAF A+KSGE    SRFNKWC
Sbjct: 421 VVRGLCIFVYAFCAAPVVWTAAVRMAAAIRSSIDRDAFLAVKSGESLSPSRFNKWC 476

[Close]
BLAST of Sgr020143 vs. ExPASy TrEMBL
Match: A0A5A7TDP1 (Putative glucuronosyltransferase PGSIP8 OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold477G00620 PE=4 SV=1)

HSP 1 Score: 800.0 bits (2065), Expect = 6.5e-228
Identity = 394/477 (82.60%), Postives = 427/477 (89.52%), Query Frame = 0 

Query: 121 MRFGGVLRILVLLAVVM--VAEVEETAAEYTKTKTTKKTHRNAYASMMYMGTPRDYEFYV 180
           M F GVLRI  LL V++   A VEE+ AEYTK  T    HRNAYASMMYMGTPRDYEFYV
Sbjct: 1   MSFNGVLRISALLFVLVFATAVVEESVAEYTKMTTKTTKHRNAYASMMYMGTPRDYEFYV 60

Query: 181 ATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDR 240
           ATRVLIRSL KLNVDADLVVIASRDVPVRWVRALEEEDGAKVV V+NV NPY+NQSNFDR
Sbjct: 61  ATRVLIRSLVKLNVDADLVVIASRDVPVRWVRALEEEDGAKVVSVDNVNNPYRNQSNFDR 120

Query: 241 RFKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQ 300
           RFKLTLNKLYAWSL +Y+RVVMLD+DNLFL KTDELFQCGQFCAVFINPC+FHTGLFVLQ
Sbjct: 121 RFKLTLNKLYAWSLTDYDRVVMLDADNLFLQKTDELFQCGQFCAVFINPCVFHTGLFVLQ 180

Query: 301 PSKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNGSTLDGNYRLPLGY 360
           PSKRVFDDM++EV VGRENPDGADQGFIGSYFPDLLNQPMFYPPSN S LDGN+RLPLGY
Sbjct: 181 PSKRVFDDMMNEVRVGRENPDGADQGFIGSYFPDLLNQPMFYPPSNSSILDGNFRLPLGY 240

Query: 361 QMDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGA 420
           QMDA+YYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWP+LPLGLQWHEQRR TLGYGA
Sbjct: 241 QMDATYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWWSWPILPLGLQWHEQRRHTLGYGA 300

Query: 421 EMPLVLIQILLYLGILAMIRLARPNLAKLCYRRSEKTAASFQTALKFALLWSILAAYAIP 480
           EMPLVLIQILLYLGILAMIRLARPNL KL +RRSEK  ASF +ALK    WSILAAYA+P
Sbjct: 301 EMPLVLIQILLYLGILAMIRLARPNLIKLSHRRSEKLTASFHSALKLTAFWSILAAYALP 360

Query: 481 FFIIPTTIHPVIGWGLYLLGSFTFSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYSD 540
           FFIIPTTIHP++GWGLYLLGS TFS LA++VFLLP+LP+++P IG+ G LLVMA+P+YSD
Sbjct: 361 FFIIPTTIHPLLGWGLYLLGSSTFSFLASTVFLLPLLPLILPSIGILGALLVMAFPFYSD 420

Query: 541 GVVRGLSVFGYAFCAAPFVWSSAVRIMASIQSSLDRDAFFAIKSGERSPTSRFNKWC 596
           GVVRGLS+F YAFCAAP VWS+AVR  A+IQSS    AFF +KSGE  P+SRFNKWC
Sbjct: 421 GVVRGLSIFLYAFCAAPVVWSAAVRTAAAIQSS----AFFVVKSGETLPSSRFNKWC 473

[Close]
BLAST of Sgr020143 vs. TAIR 10
Match: AT2G35710.1 (Nucleotide-diphospho-sugar transferases superfamily protein )

HSP 1 Score: 648.7 bits (1672), Expect = 4.7e-186
Identity = 307/442 (69.46%), Postives = 362/442 (81.90%), Query Frame = 0 

Query: 152 KTTKKTHRNAYASMMYMGTPRDYEFYVATRVLIRSLAKLNVDADLVVIASRDVPVRWVRA 211
           KT +  H+NAYA+MMYMGTPRDYEFYVATRVLIRSL  L+V+ADLVVIAS DVP+RWV+ 
Sbjct: 55  KTRRPEHKNAYATMMYMGTPRDYEFYVATRVLIRSLRSLHVEADLVVIASLDVPLRWVQT 114

Query: 212 LEEEDGAKVVRVENVKNPYKNQSNFDRRFKLTLNKLYAWSLVEYERVVMLDSDNLFLHKT 271
           LEEEDGAKVVRVENV NPY+ Q+NF+ RFKLTLNKLYAW+L +Y+RVVMLD+DNLFL K 
Sbjct: 115 LEEEDGAKVVRVENVDNPYRRQTNFNSRFKLTLNKLYAWALSDYDRVVMLDADNLFLKKA 174

Query: 272 DELFQCGQFCAVFINPCIFHTGLFVLQPSKRVFDDMIHEVGVGRENPDGADQGFIGSYFP 331
           DELFQCG+FCAVFINPCIFHTGLFVLQPS  VF DM+HE+ VGR+NPDGADQGF+ SYF 
Sbjct: 175 DELFQCGRFCAVFINPCIFHTGLFVLQPSVEVFKDMLHELQVGRKNPDGADQGFLVSYFS 234

Query: 332 DLLNQPMFYPPSNGSTLDGNYRLPLGYQMDASYYYLRLRWSIPCGPNSVITFPGAPWLKP 391
           DLL+QP+F PPSNGS L+G+ RLPLGYQMDASY+YL+LRW+IPCGPNSVITFPGA WLKP
Sbjct: 235 DLLDQPLFSPPSNGSVLNGHLRLPLGYQMDASYFYLKLRWNIPCGPNSVITFPGAVWLKP 294

Query: 392 WYWWSWPVLPLGLQWHEQRRRTLGYGAEMPLVLIQILLYLGILAMIRLARPNLAKLCYRR 451
           WYWWSWPVLPLG  WHEQRR T+GY AEMPLV+IQ + YLGI+ + RLARPN+ KLCYRR
Sbjct: 295 WYWWSWPVLPLGFSWHEQRRATIGYSAEMPLVIIQAMFYLGIIVVTRLARPNITKLCYRR 354

Query: 452 SEKTAASFQTALKFALLWSILAAYAIPFFIIPTTIHPVIGWGLYLLGSFTFSLLATSVFL 511
           S++   + Q   K   L S++AAY  PFF IP TIHP+IGW LYL+ SF  S ++ +  L
Sbjct: 355 SDRNLTTIQAGFKLIALLSVVAAYIFPFFTIPHTIHPLIGWSLYLMASFALSSISINTLL 414

Query: 512 LPVLPVLVPCIGVFGVLLVMAYPWYSDGVVRGLSVFGYAFCAAPFVWSSAVRIMASIQSS 571
           LP LPVL P +G+ G LLVMA+PWY DGVVR LSVF YAFC APFVW S  +I + +Q  
Sbjct: 415 LPTLPVLTPWLGILGTLLVMAFPWYPDGVVRALSVFAYAFCCAPFVWVSFRKITSHLQVL 474

Query: 572 LDRDAFFAIKSGERSPTSRFNK 594
           ++++  F  + G+   TS F+K
Sbjct: 475 IEKEVLFP-RLGDSGVTSGFSK 495

[Close]
BLAST of Sgr020143 vs. TAIR 10
Match: AT4G16600.1 (Nucleotide-diphospho-sugar transferases superfamily protein )

HSP 1 Score: 645.6 bits (1664), Expect = 3.9e-185
Identity = 314/452 (69.47%), Postives = 364/452 (80.53%), Query Frame = 0 

Query: 144 TAAEYTKTKTTKK-THRNAYASMMYMGTPRDYEFYVATRVLIRSLAKLNVDADLVVIASR 203
           TA      KT ++  H+NAYA+MMYMGTPRDYEFYVATRVLIRSL  L+VDAD+VVIAS 
Sbjct: 42  TAVMERGLKTQRRPEHKNAYATMMYMGTPRDYEFYVATRVLIRSLKSLHVDADIVVIASL 101

Query: 204 DVPVRWVRALEEEDGAKVVRVENVKNPYKNQSNFDRRFKLTLNKLYAWSLVEYERVVMLD 263
           DVP+ W+ ALEEEDGAKVVRVEN++NPYK Q+NFD RFKL+LNKLYAWSL +Y+RVVMLD
Sbjct: 102 DVPINWIHALEEEDGAKVVRVENLENPYKKQTNFDNRFKLSLNKLYAWSLSDYDRVVMLD 161

Query: 264 SDNLFLHKTDELFQCGQFCAVFINPCIFHTGLFVLQPSKRVFDDMIHEVGVGRENPDGAD 323
            DNLFL  TDELFQCGQFCAVFINPCIFHTGLFVLQPS  VF DM+HE+ V R+NPDGAD
Sbjct: 162 VDNLFLKNTDELFQCGQFCAVFINPCIFHTGLFVLQPSMEVFRDMLHELEVKRDNPDGAD 221

Query: 324 QGFIGSYFPDLLNQPMFY-PPSNGSTLDGNYRLPLGYQMDASYYYLRLRWSIPCGPNSVI 383
           QGF+ SYF DLLNQP+F  PP N + L G++RLPLGYQMDASYYYL+LRW++PCGPNSVI
Sbjct: 222 QGFLVSYFSDLLNQPLFRPPPDNRTALKGHFRLPLGYQMDASYYYLKLRWNVPCGPNSVI 281

Query: 384 TFPGAPWLKPWYWWSWPVLPLGLQWHEQRRRTLGYGAEMPLVLIQILLYLGILAMIRLAR 443
           TFPGA WLKPWYWWSWPVLPLGL WH QRR T+ Y AEMP VL Q + YLGI+ + RLAR
Sbjct: 282 TFPGAVWLKPWYWWSWPVLPLGLSWHHQRRYTISYSAEMPWVLTQAVFYLGIILVTRLAR 341

Query: 444 PNLAKLCYRRSEKTAASFQTALKFALLWSILAAYAIPFFIIPTTIHPVIGWGLYLLGSFT 503
           PN+ KLCYRRS+K  +  QTA KF  L  IL+AY IPFFIIP TIHP+IGW LYL GSF 
Sbjct: 342 PNMTKLCYRRSDKNLSMIQTAFKFVALLFILSAYIIPFFIIPQTIHPLIGWSLYLTGSFA 401

Query: 504 FSLLATSVFLLPVLPVLVPCIGVFGVLLVMAYPWYSDGVVRGLSVFGYAFCAAPFVWSSA 563
            S +  + FLLP+LPV+ P +G+FG LLVMA+P Y DGVVR LSVFGYAFC APF+W S 
Sbjct: 402 LSTIPINAFLLPILPVITPWLGIFGTLLVMAFPSYPDGVVRALSVFGYAFCCAPFLWVSF 461

Query: 564 VRIMASIQSSLDRDAFFAIKSGERSPTSRFNK 594
           V+I + +Q  +D++  F  + GE   TS  +K
Sbjct: 462 VKITSHLQIMIDKEVLFP-RLGESGVTSGLSK 492

[Close]
BLAST of Sgr020143 vs. TAIR 10
Match: AT2G35710.2 (Nucleotide-diphospho-sugar transferases superfamily protein )

HSP 1 Score: 556.2 bits (1432), Expect = 3.1e-158
Identity = 260/381 (68.24%), Postives = 308/381 (80.84%), Query Frame = 0 

Query: 213 EEEDGAKVVRVENVKNPYKNQSNFDRRFKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTD 272
           EEEDGAKVVRVENV NPY+ Q+NF+ RFKLTLNKLYAW+L +Y+RVVMLD+DNLFL K D
Sbjct: 8   EEEDGAKVVRVENVDNPYRRQTNFNSRFKLTLNKLYAWALSDYDRVVMLDADNLFLKKAD 67

Query: 273 ELFQCGQFCAVFINPCIFHTGLFVLQPSKRVFDDMIHEVGVGRENPDGADQGFIGSYFPD 332
           ELFQCG+FCAVFINPCIFHTGLFVLQPS  VF DM+HE+ VGR+NPDGADQGF+ SYF D
Sbjct: 68  ELFQCGRFCAVFINPCIFHTGLFVLQPSVEVFKDMLHELQVGRKNPDGADQGFLVSYFSD 127

Query: 333 LLNQPMFYPPSNGSTLDGNYRLPLGYQMDASYYYLRLRWSIPCGPNSVITFPGAPWLKPW 392
           LL+QP+F PPSNGS L+G+ RLPLGYQMDASY+YL+LRW+IPCGPNSVITFPGA WLKPW
Sbjct: 128 LLDQPLFSPPSNGSVLNGHLRLPLGYQMDASYFYLKLRWNIPCGPNSVITFPGAVWLKPW 187

Query: 393 YWWSWPVLPLGLQWHEQRRRTLGYGAEMPLVLIQILLYLGILAMIRLARPNLAKLCYRRS 452
           YWWSWPVLPLG  WHEQRR T+GY AEMPLV+IQ + YLGI+ + RLARPN+ KLCYRRS
Sbjct: 188 YWWSWPVLPLGFSWHEQRRATIGYSAEMPLVIIQAMFYLGIIVVTRLARPNITKLCYRRS 247

Query: 453 EKTAASFQTALKFALLWSILAAYAIPFFIIPTTIHPVIGWGLYLLGSFTFSLLATSVFLL 512
           ++   + Q   K   L S++AAY  PFF IP TIHP+IGW LYL+ SF  S ++ +  LL
Sbjct: 248 DRNLTTIQAGFKLIALLSVVAAYIFPFFTIPHTIHPLIGWSLYLMASFALSSISINTLLL 307

Query: 513 PVLPVLVPCIGVFGVLLVMAYPWYSDGVVRGLSVFGYAFCAAPFVWSSAVRIMASIQSSL 572
           P LPVL P +G+ G LLVMA+PWY DGVVR LSVF YAFC APFVW S  +I + +Q  +
Sbjct: 308 PTLPVLTPWLGILGTLLVMAFPWYPDGVVRALSVFAYAFCCAPFVWVSFRKITSHLQVLI 367

Query: 573 DRDAFFAIKSGERSPTSRFNK 594
           +++  F  + G+   TS F+K
Sbjct: 368 EKEVLFP-RLGDSGVTSGFSK 387

[Close]
BLAST of Sgr020143 vs. TAIR 10
Match: AT5G18480.1 (plant glycogenin-like starch initiation protein 6 )

HSP 1 Score: 118.2 bits (295), Expect = 2.2e-26
Identity = 81/256 (31.64%), Postives = 129/256 (50.39%), Query Frame = 0 

Query: 161 AYASMMYMGTPRDYEFYVATRVLIRSLAKLNVDADLVVIASRDVPVRWVRALEEEDGAKV 220
           AY +++Y       EF +  RVL +S+       D+V + S  V   + + L + DG KV
Sbjct: 32  AYVTLLY-----GDEFLLGVRVLGKSIRDTGSTKDMVALVSDGVS-DYSKKLLKADGWKV 91

Query: 221 VRVENVKNPYKNQSNFDRRFKLTLNKLYAWSLVEYERVVMLDSDNLFLHKTDELFQCGQF 280
            ++  + NP  NQ +   RF     KL  +++ +Y++VV LD+D + +   ++LF+C +F
Sbjct: 92  EKISLLANP--NQVH-PTRFWGVYTKLKIFNMTDYKKVVYLDADTIVVKNIEDLFKCSKF 151

Query: 281 CAVFINPCIFHTGLFVLQPSKRVFDDMIHEVGVGRENPDGADQGFIGSYFPDLLNQPMFY 340
           CA   +    ++G+ V++PS+ +F+DM+ +V     +  G DQGF+ SY+PD  N  +F 
Sbjct: 152 CANLKHSERLNSGVMVVEPSEALFNDMMRKVKT-LSSYTGGDQGFLNSYYPDFPNARVFD 211

Query: 341 PPSNGSTL-----DGNYRLPLGYQMDASYYYLRLRWSIPCGPNSVITFPGAPWLKPWYWW 400
           P      L         RL   Y  D   Y L  +W +      VI +   P LKPW WW
Sbjct: 212 PSVTPEVLKTRPVPAMERLSTLYNADVGLYMLANKWMVDDSKLHVIHYTLGP-LKPWDWW 271

Query: 401 -SWPVLPLGLQWHEQR 411
            +W V P+   WH  R
Sbjct: 272 TAWLVKPVD-AWHSIR 275

[Close]
BLAST of Sgr020143 vs. TAIR 10
Match: AT2G35710.3 (Nucleotide-diphospho-sugar transferases superfamily protein )

HSP 1 Score: 97.1 bits (240), Expect = 5.2e-20
Identity = 47/61 (77.05%), Postives = 54/61 (88.52%), Query Frame = 0 

Query: 152 KTTKKTHRNAYASMMYMGTPRDYEFYVATRVLIRSLAKLNVDADLVVIASRDVPVRWVRA 211
           KT +  H+NAYA+MMYMGTPRDYEFYVATRVLIRSL  L+V+ADLVVIAS DVP+RWV+ 
Sbjct: 55  KTRRPEHKNAYATMMYMGTPRDYEFYVATRVLIRSLRSLHVEADLVVIASLDVPLRWVQT 114

Query: 212 L 213
           L
Sbjct: 115 L 115

The following BLAST results are available for this feature:
BLAST of Sgr020143 vs. NCBI nr
Match NameE-valueIdentityDescription
XP_023007807.12.8e-23384.03putative glucuronosyltransferase PGSIP8 [Cucurbita maxima][more]
XP_023538774.18.1e-23384.07putative glucuronosyltransferase PGSIP8 [Cucurbita pepo subsp. pepo][more]
KAG7028387.18.1e-23384.07putative glucuronosyltransferase PGSIP7 [Cucurbita argyrosperma subsp. argyrospe... [more]
XP_038905290.11.8e-23283.89putative glucuronosyltransferase PGSIP8 [Benincasa hispida][more]
XP_023552292.14.0e-23283.61putative glucuronosyltransferase PGSIP8 [Cucurbita pepo subsp. pepo][more]
BLAST of Sgr020143 vs. ExPASy Swiss-Prot
Match NameE-valueIdentityDescription
Q8VZP66.6e-18569.46Putative glucuronosyltransferase PGSIP8 OS=Arabidopsis thaliana OX=3702 GN=PGSIP... [more]
F4JMI55.6e-18469.47Putative glucuronosyltransferase PGSIP7 OS=Arabidopsis thaliana OX=3702 GN=PGSIP... [more]
Q8GWB73.1e-2531.64Inositol phosphorylceramide glucuronosyltransferase 1 OS=Arabidopsis thaliana OX... [more]
O154881.8e-1233.77Glycogenin-2 OS=Homo sapiens OX=9606 GN=GYG2 PE=1 SV=2[more]
F4HZC38.7e-1226.40Putative UDP-glucuronate:xylan alpha-glucuronosyltransferase 5 OS=Arabidopsis th... [more]
BLAST of Sgr020143 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A6J1KZQ01.4e-23384.03putative glucuronosyltransferase PGSIP8 OS=Cucurbita maxima OX=3661 GN=LOC111500... [more]
A0A6J1KZ144.4e-23283.65putative glucuronosyltransferase PGSIP8 OS=Cucurbita maxima OX=3661 GN=LOC111498... [more]
A0A6J1GIG57.4e-23283.65putative glucuronosyltransferase PGSIP8 OS=Cucurbita moschata OX=3662 GN=LOC1114... [more]
A0A6J1E9708.2e-23183.19putative glucuronosyltransferase PGSIP8 OS=Cucurbita moschata OX=3662 GN=LOC1114... [more]
A0A5A7TDP16.5e-22882.60Putative glucuronosyltransferase PGSIP8 OS=Cucumis melo var. makuwa OX=1194695 G... [more]
BLAST of Sgr020143 vs. TAIR 10
Match NameE-valueIdentityDescription
AT2G35710.14.7e-18669.46Nucleotide-diphospho-sugar transferases superfamily protein [more]
AT4G16600.13.9e-18569.47Nucleotide-diphospho-sugar transferases superfamily protein [more]
AT2G35710.23.1e-15868.24Nucleotide-diphospho-sugar transferases superfamily protein [more]
AT5G18480.12.2e-2631.64plant glycogenin-like starch initiation protein 6 [more]
AT2G35710.35.2e-2077.05Nucleotide-diphospho-sugar transferases superfamily protein [more]
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR029044Nucleotide-diphospho-sugar transferasesGENE3D3.90.550.10Spore Coat Polysaccharide Biosynthesis Protein SpsA; Chain Acoord: 159..409
e-value: 2.2E-38
score: 134.1
IPR029044Nucleotide-diphospho-sugar transferasesSUPERFAMILY53448Nucleotide-diphospho-sugar transferasescoord: 173..398
NoneNo IPR availablePANTHERPTHR11183:SF128GLUCURONOSYLTRANSFERASE PGSIP7-RELATEDcoord: 130..587
NoneNo IPR availablePANTHERPTHR11183GLYCOGENIN SUBFAMILY MEMBERcoord: 130..587
NoneNo IPR availableCDDcd02537GT8_Glycogenincoord: 160..411
e-value: 8.73937E-68
score: 218.284

Relationships

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

Feature NameUnique NameType
Sgr020143.1Sgr020143.1mRNA


GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
cellular_component GO:0016021 integral component of membrane
molecular_function GO:0016757 glycosyltransferase activity