Sgr026437 (gene) Monk fruit (Qingpiguo) v1

Overview
NameSgr026437
Typegene
OrganismSiraitia grosvenorii (Monk fruit (Qingpiguo) v1)
DescriptionReceptor-like protein kinase
Locationtig00153031: 5333993 .. 5350947 (-)
RNA-Seq ExpressionSgr026437
SyntenySgr026437
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGTATTTGGAAATCAATTCTCCTTTGGGATTGGATTGCATACTTTTGAATGAAAATAAAAGCGATTTTTACAGCGGAATCAATCTAGTCAATTACAGCGGCAGAAGAAGTCGTCGTCGTCATCGTCGTCAATACGCCAATCCAAAATCTGAGAAAACGACGTCGTCACAAGCAAATGCAGACCCGAATAGCTCGGATAATGACCGGGATGATACTGCCTTTGATGAATCCGAGACAACCGGCGAACGGATTCCCGACGGAGAATCGGAGCCAGATACGGTGGAAAAAGTTCGGGCCGGCGGAATAGGAAGAAGCGGACATGGGTTGGAGGTAAGCCCAAGCAGCCTGCTTAACGAGGCGGTTGCGGATCGAGATTTCGTAGCCGGAGTTAGCGGAGGAAACGGCCGTCGGGGAGTTAACGGCGGCGGCGGAGGGGAGGATGTCCTTGAGGGAGTGTACGATTGTGAAGAGGACTTGAGAGAGAGAAGCCTCAAGTCAATCGCGACAGTGGTGGTGGTGGAGGATGTTCTGGAGGTGGGGAAACGGTGCCGTTTTGCTTCGTCTTGGAGGAAGCCATGGCCGGCGAGGGAATCGAGTTTCTGCGGCGGAGATATGAGGATGATAGCGACGGAGGTGGCTGAGTTATTTGTGTGGCGGAGTCGGCCATGGTGATGGGATGGTCCAAAAGGCTAGAGAGAGAAACAGGAGAGAGAAGATCGTCGTCTTGTTTGGTCCGAGGTAAAGGAAAGAAAAACGTTTTAGGGAAACTCGGCGGGCTTCGCGTCTGCAATAATTGGGCCAAAGTTGTCTCTTTCTGACGTGCTTTCCTTTCTTTTTTTTATTATTATTTACCAAAAACATTTATGTGCCTAATTTTTTTTAATGTTTTTAAATTAAATTACAAATTTAACCTCTATCATTTTAAAACTTCAATTTAGTATTTATAATTTAAATTTTTTAAATTAATCTCGATAGTTTGTTAAATCTCACAAATAATTCATAAACTATCTTTTACCCACTCGAATATCTCACTTATTTCTTTTATTTTTTATTAGGTCCTATATTTAAGACGGTCAACTAACACAGTTTGTCAAATAGAAAATATCAGCTCATTATCATGTAAAAAAATGTGTCAATATGATAACAATATGAGATTTGACTAAATTATGGAGACCAAATTGAAACTTTTAAACTTCAAGGACTACATTGAACTAAGCTCAAACTATAAATAAATTGAAACTTTTAACATCATAGGAATTGACTTATTTGGCCAAAGTGACTTGCCTACATCAATTCGTCTAATTAATCTTATAAAATAATGATCTTATAATATTCATTAATTTGATATCTTTCTTATTATAGGTTCAAAATTGTTAGTAGACTTACCACTTAAGGATAAATGACAGAGCATTTTTCTAAGTTATTAGAATCTTTTTTTTTTTTTTTTGTTATTAATTCGTGGTTTGTGGGTTCCACTTTACATTACAATGTCTGAAATTGGAGGTCGACTTACCTCTCAAGAGTAAATGACAAAATATTTTCTAAACTATTAGAATTATTCTTAGGTTATTGATTTGTAATTTGTGGGTACCACTTTAAATTAAAAATCAAGTCTGATGTTAGTGAAATGAGATCCTCTTTAAAAGGAAAAAAATCTCATTCCGATTCTTAAATTTGTAAAATTTGTGATTATATATATTTTTTATCTCAACTTTTACGATGGATTCTACCAATAATTTAAATGGATAATTATTCCAAGTGTTTAGTAACCAAAATTAATTGTAATTCCCACTTTAATGTTTGTACCATTCATATCTTATATTGGATATTGTTTGTAACATTATAAAGAAAAATTGTACAATTGCATGTATGAAATGGTAAAGTCTGTTAAACAAGGGATCTTTTAGCCTCCTCTCTATGAATATGGCTTTTGAACTCTTCTTCCAAACATCCCTTGAAGTCTAAACAAGTCTAGAGTTTGGTAAATACCCTAAAAGAAAGTCATTAAGCCAAGAAACTCTGAATCTTTTGACTTAAAGCAAGGATTGAGTAAAGTTTAGGAGGACTCATACTTGCTAGAAGATTAATAAGTTGTTGTGGTTATAGAATTAATTGAGTTTCTATTTCTTTTTTCTTTTGCACCAAGTCTCGTCGGAAGAGTGATCAAGTATTTTGCACTGGCTCAAAGTTGTCTAGATATCGTAAAAAGTATTTAATCTTCCTTCAAAATTAGACTTGTCTAGTTTGTGGAGAGATCTAGCATTTAACCTCACTAAAAGTGCCTAGATTTTGTTTGAGTTCTTGTTCTTTTGGGATTTGTAATATTCATTTGGTCATTAGAAGATTTGTAAATACTTGTGTTGACTTCTTTTACGTAGTTAGAAGATCTAAAACTATCTAACACAATATCACCAATCAATTTTAAAAACAGTCAAAACTAGAAAATTATACAAACATATATATAATTTAATGTAAATATTTTTCTTTTTTTTTCTTTTTTTTTTTTTTTGCAAAATAACAGAAGTAGTCTTTATCTAATATCAATTTTTTTAAAAAATGTCTTAGAATTAAAAAAAATACATAACTATCTAAATAAACAAATATTTTGGCTTTGCATGGGATGGAGAATAGTAGTTAAAAGTGAAGAGGACATTCATCAAACAAGCTTTTTCTAAACTAAAATATGAGTATAAATGATAATTGGGCATTATCAAAGTCAAAGGTGCATTCTCTTTGTTTGGTTTAAGAAACTAAAGCAAATTCAAAAACTCCAAACAAAGATCCAGTTCAATGTGTCTCCATTCCCCCATTTTGTTATTGTTTTTTAATTTAAATAATTTTGCAAACAAAAAATGAATCATAGATTAATCAATATATACAAAAGTAACATTATTTGGGCCAAAAAAGGAATGAAATTATGATTTAATGAATATTAGATTAAATAAATAAATTCATGAAGATGGATTACAAAAAGGTTAACAATTATATTTTTAAAAATTAAAAGTTTATGGTGGTTCAAACCCACTCTAGTCCAATCAGAGAATTTTTTGGCGTATTAGAATCAGATCTCCACCCAACTTTTGTGAAGCCTATATACTAAGATTTCTATCACATAAAGTTGGAGGGGTTAGATAGGATGCTTTTAAAATTTCATACAATAAAGAATTTTTTCTTTTTTCTTTTTTTGAGCATATAGCATTACCATGTAATAGAGTTCTCATAACCATTAGATTAGATAATTAAAAATTATGGATCAAAATAGAAACTATTCAATATAGTTATCATTCTCGTAACCACATATTAAAAATCATCTTTTTATTTTTTTATGAATAATATAAAACAGCTACATTATGCATAGTTTAAAAATTATTTCCCCAACTAGGAGACGTTTGGTGGAAACAAGTTTCGTCTCATTTTTTTTTAATCTTCAAGTAGGAAATTTCAAGGTAATGGAGAGGTTCCACAGTCATAAGGCATTCAGCAAATTATATAATTCATCAAAATTATAAATAATATTTGACTTTTTAACCTAATTATTTTTCAAATAATAAATCATTTAGACATCTCTTTTGTCCCAATTTTACAATTCTAAAATAGCAAACTTATTTTATGAAGCATTCTGACTTCTTATTGAAAATATTCAATGGCTTTTACTTGATTTCAAAGCCTCAGATTAGGTTGCATGCTTATTATTTAGACTACCAACAAAATATTTAAGTAGCTTGTAAGTATAAATTAAAAGTTAAATTATACGTTTCATCTTCATACTTTCACATTTGTGTCAACTGTCAATTTCATCTCTAGACTTTCATAAAAGTTTTATTTTCATCCTAAAACATTTTAATTTATTCTTCTCAATGATCCTGCACTAATAGGTTGTTAGAAAATTTTGGCTATAGCAACCCATGCAAGTCTATAAGTCATATTAGCCCACATCACCACCACTTTAATTTGTCATTACATTTAACCCTACCCATTGACAGTATTTTTTAACTACCATAACAGACACTTGAAGAAGCCCATGCTAATAGACTTTATGGAATTCTTTAGTAGTCTATGGTTTCCAATTTTCCATTATCTTTGGCTAACAACAATCGGCCATTCCAAGTTTTCAATTTTTAGTTTATCTGTCAAACAAAAAGTAGTATAAAAGAAAATTTTAACCCATTGTCACATAAAATTTCAATTACTAAGTGTGCAAATCAATCTACTTCCCCTTAATGTTAAAATGGATTTGAGACTGAAGATGAAAAGTTTTACCAAAGTATTAGCTCTTGCCGGCCTGATAATAACTGGAAATATCGTACATGCTGCCCATCCGCTACCTTACAAATGGTTGTTTCCATTTCCTGAAATAATTCGAGTTCATCAACGATCAAACAGAATAGAGTTCAAAGCATGAGATTGCATATGTAAATACTAACCTCTGCATTCCACGCGTCCACGCAATGTATTCATTTCCGTGCTTGAAAAATTTTCCCAGTATATTACTTGGGTTATACAAATTTAACTGTACAGTGAGCTTGAGTTCCTGTAAGATTTAATTGTTTGTTTGGCTACAATCTTGAGTAATGAGGATGGAACAGACCATTAATGGATTAGGTCAGATCTGTTGCTTTGTCACCTCTGTCTTAAGTTAGCATCTGATGGCGCTTCGGCCGTCTCTGGCCGTGGACTTGCTGGACTTGGCCTTTGGGCAATAACATCAGATATCACAAAGTCGTGAGGAACCATATCTGACTGATCCCATGCAATATCTGCTGTAACTAAAGTGAAAGGATTAACCTCAGATGCACTAGGACACATACAGATAACACAATGTTAATCGTAAAGACAACAATTTAGAAAAGGATACAATCTGTTCTCCACATATCTGTAATGCTAACTTCAGCATCAGATAACAGCCAGTAATCTGCATCATTCTGCAATAATATAATAGGTGCATATAAAAAGCAATCAGCCATGATCTGAACTAATGAATAGATTGACCTAAGTCTTTTACGTAGATCCAAGCAAGTTATAACTGGGTATCCACTAAGAGTATAATCAATCTCCTGTGTTCACTCTTTTATTTACGACAGGAATGTGTTCAATCTTTTATTAACTTTCAGTTTTTATGTCTGGGTCCTCCATATAATTCATTATAGTTAAATGAATTAAAATGAGTAAAAGAAAACAAAATCGTTTTTCTGGACATGCCTATGTCCAAATCTACTTTTGATTTTTTCTTTTTCGGCAAAGGACATGTAGTCGCATATTTGTCTATGCTTCTTTGATATGTTTCTAAATGTGAATAAATAAGGATGATATGCTTACATCAACTTCTGAAGGAATTATCTTCATCATTCCACCAGGAAACTCATTTGAACCATTCACGTCACAGCTGCTGCTGTGCTGGGACAGATGTGCTTGAGGTTCAATTTCCTTTCTACTACTCTCCCCGATGATTACTTCTGTTGCTAGATGTTCGTTAGATCCTGAACTGGAAGCATGTAGCAAGCTACTAGGTGGCTGGACCACATTCATCTCCTCAAACTTTTCCTCAAATTGACTAAGGAACAAGGAAAATTTTAATATGAAAAACAATTAAATTCTTGTTTGCATAAAAAAGGTAGCAGTAACAATATAAGAAAGACTGAACACAGGAAAAAGAATATGTGAACTATCACTTAATTAACTCTTAAAAGATTTTAGTATATTACAATCATCAGCCTCTGAAGAGGATAAACTTACTGATGTAGAGAAAAGGATACCTGACAAGATATACATCAATAGGACCCATCGTGCTCCTAAGAACTATTCTATATCTTCTCTGTGAATAATCAACAGTCTAGCATGATGAAAATGAGAACATCCTTTTAGTTATCAGAAAGAGGGAGATCAAAAAGGATATCAAGCTAACAAACCGCTTTCTTAAAACTTTATGCTCATTACTTCATCGGGATCAGGAACTTCCAATGTGGTTCCATGAGGAGCCTTAATTGCTATCAGCGTTTCATTCTGCCCAAGCAAGGATAGCTAGTTTAATTAAAACTTTTAGGCAAGGTTGTCAAATTATGAACAAAACGTGTACTGTTTCATGTAAAAGAATATTATCATATATATTAACAAACATTGGATGCAACTCTATCCTTTAACATATTTATTGTTCCCAACTATTTTTCTTACATTTACTATCACAACTAAAATTTCATCTCATCATCATTATCATAAGGTTATTTTTTTAACATTTAACATCACAACTAAAATTTCCAGTACACTTGAGGAGAGTTTGAGAGCTCCTCTTACCTCCCAAAAGGCCTCCCAAAATCTGCCTACCTCACGCGTACTTTCCCCCCAGCTATATACATTCATCTTATATTTAGTTTGTTACGTGGTCTGACCCCACACATTCTTTGCTAACTACTTTCGTGCGAGCTAACCTGATTTCCCTTACTGCTCTCTCTTTCCAGCTCTTCTCGCGTAAGAGTGTATACTACATAGGAGGCCTATCATAATTCTAGATAGGAAACATTGTCTTAATCAAAGAACAAATGGACAAGATGAATTGGTAAAAATGCCCTCCTTTACAAGTGAGGATGTTATGCTGAATCCTTTCTAGTCGGATAAATGACTTCTCAGATGTGGAAGTAAGGATATTGTGAGGCAGCTGTATAGTTATAAAGGTTGGGAATACCTCAGTGACTTTGCTGTCAAATTAGAGAGGTGGAACATCGACAAACATGGGTGAGTTGACATCATCCCTTCTTAAGGTGGATGGTAGAAGATCACACCACTTACACTGAAGCCAGAGTTATTTATGGAGATTGGAGATCACACCAAATATCTTCCCACAAACTATCCACCATTAATCTAGAAAATTTGGGGTGTTTCTAGCTATTCAACCTCTCCCTGATGTAATTTCACCCCCGCTCTTTCTCCTCAATGCTTTAGTTCCTCCATGAAATAACCCATGCATCTGGGTATATTAAATGCAAAACAATGAGATTTTAAGGTGGACGGTAGAAGATCACACCACTTACACTGAAGCCAAGTTTATTTATGGAGATTGGAGATCACACCAAATATCTTCCCACAAACTATCCACCATTAATCTAGAAAATTTGGGGTGTTTCTAGCTATTCAACCTCTCCCTGAAGTAATTTCACCCCCGCTCTTTCTCCTCAATGCTTTAGTTCCTCCATGAAATAACCCATGCATCTGGGTATATTAAATGCAAAACAATGAGATTTTAAAAAGGCAAAACAAAAACAAAATTTTTTATATTTGTGGGTGTCAACGTCAGCTTCCACATTTACATCGACTGGTTAGCTCTACCCTGACTATAATCTCCATCTAACCTGGGAATGTTCAGAACCGAGAAACTCATGGCATATTAATATCGTAAGTGCCAACCAAATTTGAACTCATAATCTAAAAAATCATTCAAGTTTATAGTTTGCTCCTTTAATAGACCAACCCAAAGAGGTTTGCATATGAGTTGCAGTGCTCGATTTTGCAAGGAAAAAACAAAAGTAATCGTTGAAAAAAAAAACAGAAGAACTTCCTTCCTATTTGCAAATTGAAAAGCCAAATTCCTTTAGCACCACTTATATGATTTTGCACTCTGTACATCATATTGAATCCTATCCATTGAATCATATGATCCACCCTGTTTGGAATTTCATATTCCAATTTGTATCAATGTCTTAGTTTTCCTCTTCCATTATTTTCTTTCATTTTATTTCTTTGTGAAGTGCCATTGTCCTAGTTAGGATATGATTAGTGCATTTTGAATCCTCAAACATATAGAATCACTACTCAAAACCATGTAATCATGCAGATTAGTGTTAAAATTAGAAGTAATATGTGAGCTTTAAATAAAGTATTTATGACAAGTTCACCTGGAAGCAAGGCAAGCTTTTAATGTCTTCTTCTGTCACAAAAAGCCATCTACCATAATTGGAAAACAAATGCTACGTTGTTATTTAATTCATATACCACTATGTGGAAAATGGAACAGAATGGAGAGGACAAGAACTTTTACTTTTGGAGATTTTCATCTTCACTCAGATTCCTCAGTCTTTCCTGCAATGCTCTGCAAATTTAATTATGGAATATGAGTTTATCATTTGTGATTCAAAATATAGAAAGTAATAACAGATTAAATATGTAACCTTATCTTATCATCTAATCTACGTTCTTCAAAAGAAAGGTTTTCAACATCCACCTGCAGGATACATGTGCAATCTCAAATTATGACTAGTTACCCAGGATAGATTCTAGTTAGTCAATTAGACATTCCAATAATTAGTTGACAAGAGAAAACTAGACCCTTCTTTATAATAATTCTTACAAACATAAATTCCATGGTTTTAAAACCAAAAGACAGTATTCAAAGCGACAAACCTGCAATATGGAGTATCACTATCCACATTTCCCGGAATTGTTGCATTGAATCCCCTGAACAATATTAAATAGATTCTTAATAATTCATTGCTTCAACTTCTTATCAGAGTTTCTATTTAACAAGCTAAATGAAAAATTTTAGACCAACACGTGGATCAACATTACTTCCAATATATTATGTTTTTCAGCTTCTTTTCTATGAGACCTATGCCTTCCAAAACATTTGTTATGTCATATATTCTCCTCTTCTGCACCTGTGTCATGAATATCTCATATTAATCACCACTATACAGAAAATTGAAATTTTATGTATTTATAATTATTACCTTCAAAGTTTCTGCAGCTTTGTTTAAGTCAAGAATGCCATCCCTTGCTTGCTTTATTAAGTTGATGAATTTTTTTGTCAGGAGACCTAAAAGTTTCAGAATACTTTTAAAGACAGTTGATTTGACCCAAAACTATGCATCAATGTAGGTTGGACAGAATGAATAAATTAAATTGGCAAGAATTTCAAAGTTACCTAGAGAACTGTCATATCGACAGTTTCCAGCTGGAGTAAAAGAAGAAAAAGTGCCTGCTATTCGAGAAAAACTAATTAATAATATTCATGTTGCTTCAATGTCCATCAAAGTTTTATATAATTAAAATTTTATTTTATTTTTTAAAAATATTGGCAAGAAAGAAAATGTACTCCATAACCACCCCACCAAAGAAAAACAAGATTCAATATATTAACCAATTTATGTTCATCAACGATTTCATAAAAAAAGTTAAAACTATCAACCTAAAAATGTTAAAAGATATAAAATTTCTCACTAGTGTCTGAGATAGGTGTTTGAGGCCCAGACGTTGTTCTCCTTGAAGCCTTTGACTTACTGTACACGCTTCCTCCTTTTGCAGACACAGGTGTCTGTATTGAACTTAGACCATCTATTGAAGATCCTTGATCGTGCATGCAGTCATTAGATTCAACCATATTGTTATACATAGCACCCTTTTGCTTTAGTTTCTGAAAAAAATCAAGGAGTTGCCAATATTTAAATTTAGAAGCAAATAGAAAAATTATTTGAAGAGGGGCAAAATAAGAATCCTTTTCGTTTTTGCAAAACTACAACCATAATGATATGGCCTACAAAAACAATCTTTAGAATTAAAATTGATCGTACTGTACCTAAAGAAAGAATAAAAAAGAGAAAAAATAGCATGATATATATGCAATTGCAATGGAATTGGAAACTAAGATCAGGTCAGAATACATGTTCTTTATAACTGGAGCTCCAAAGGTCAGCAGCACTATCCTTCCAGCATAAGCTAAAACTCTCAAAGATCAACAGGAATATTATACAATTAAATGATCATCATGGCGAACATTGTGCAAACAATTATACCAATATGCATAATTACATACTTAGTGCCCCTACAAGGCTGCGGCAAATAATTTAATAATTTTGCAAATGATGTTATAGGGCAGGCAAAGTTTGTGGGTCCTATTATGCATTCAAACACATTTTGTAGTCATAAACTCAAAGTTGGTCGTAGAAGTGAGTTCTTCTGCATAAGTACATACTTAATGCCCCTACAAGGTTGCTGCAAGTAATTTATAATTTTGCTAATGATGTTGTAGGGCGGGCAAAGGTTGTGGGTTATTATGCATTCAAACACATTTTTTTAGTCATAAACTAAAAATTGGTCATGGAAGTGAGTTCTTCTGTTAACCATGTTACAATAGCTATCAATGATTTACACTTAAGAAACACAAGATGATATAACTCAATAACCATCATTGAAAATCATTCTGAAAAGTATTGGTATTTACATACAATTGGATCAAAGTCAATGATGTTACTAAAATTCAGCTATTTGACTTGATAGAAATCTCAAAATGTAATCTAAAGCATCCACATGCCTCAATAGCAGCAGCCCACAATTTTTTTTCCTTTGCTTTATTGAGAAGTTAACAAAGATAATTTTAAAAAAACAATAATAATAATAATAATAATAATAATAAATCCTTGAGTTGGCATGAATAGAAGAACTAGTATAATTTTAGTTTTAAAAAAAAAATTTATAATTTCAAGCCCTTGTTGTCTCCCAAAACTAGAATGGAATGAGTGAAGCCTCCCTTAGAATTAGTAGGGGGTGGGCCATGAGCATAATGCAAGGGGTGAGGCACCCCAACACCCCAGTTGTAAAAAAAAAAATGCATAATTACAAAACTCTTCACTCATAGATACTAAAAAAGAGGCATTAAAGTGAGCCACAGCTCATACCTTAAGAGCCCTCTAAAATATCTCTTATTTCTCTCCAGCTAAATGTTCCACAAAATAATCAAAAAGATAGCACACCAAAGATGAAAGAACTCATCCCTTACCCCGAAGAGGCAAATAAAAAGGCACTACCATTTTTTAGAGCATGAAGCGCACTAAAGCACAATAGTCTTTTAAGGCTAAACGCAAGGTGCAAAAGAATTAGGGCTTCAATAAGGTGAAGGCGTGAAGCGTGCAATATATATAGAAGACACATTTATAGGATTAAAAGTCAACATGAAGTATGAGATAGAGAAAATAAAAAACTAACAACTATTAAAGACAAACAAAGTTCAAGTACAAAGAGCTATAAAATCTTTAAAATAAACTACAAAATCATATTGCAAAAACCTAAAAATTAAAACCCATCATCATTAAACAGGTCTTCATCTTCATTTTCTCATTCCCTCCATATTTTCCTCTATAGTTTAGTCATATTTACATGTACCTCTAATAGATAGAGCGAAGGCGCACTTCAATCTTCGAATGAGAAGGCCAAACAAAAAAGAGCCAAAAGCTACCTATTCAAGTTTCCTTTCTTTACTTAATTTAATCATAGGTTATTTAAAAAAATGCAACATTTAAGCAAGTGCATAGTTAACAAGGCAAGACATCTAATCTAGCTTAAGCGTGAAGCGCACACGTTTTTTAGCTTTTTAAAACAATTAGAAGCACCTCCTCCAACATCAAACGACAAAGACATGTCACAAGCCAAATTCACACCAAAACTCTCTAAAAAGTTATTCCAAATCAAAATGCAACTAAAACTACGTTCAGTTTTTGTCTAGAGAGCTCCAACATGAGACCAAACAACATAAGGAATCCCATAAAAAAGGAAAAGTATTATCCAATCCTAGGATGAGCCTCTTATTCCTCTTCAACCAAACGTTTGATAAGATGGGCCTCATGAGGTAGACGATAAAACTTTAGCCTTTTGTAGAAAGGGTTCAAGTAAAAGATGATGAAGAAGCTAAGGAACAAACCAAGGAAGGTGTAATGAAAGTTATTTCATTGAAAATAGCCAATCAAAGCTAAAGTTTAAAGGGGTAGGACACGTGTATATGGTTGGAAGATTTTTTGTGTCCACAAAGGCACTACACGATAGCAACATCTGACGTTCTTAAATGCTTGTCATTGTCATTGGAATTGTTTCTTTCAAGAGCCAAGACCCAAAAACAGAATCAAATACTTAAGTACTTTCCTTTCCAATGGATTTGAGGAAATCATTTCAAAAAAGGTTCCTTGAAGTTATGAGGTTAGCAAGCGGGATCTAGCAAAAGTTGAATGTCCAATCAGTATTTTAAACTCTTCAATTCCTAGAATCACAGCATCAAGGAGTCAATTCAAGAGCTCAAAAATCCACTCACTAACCACCTTGTCATCGAGATTGTATATGAAACAAAAATTCCAACCATTTTCAACAACACTCCAGCAACTTCTAATCCTAGTGAGCTTACAACAAGCCAGTGCATACAATCTCAAAAAAGAAACAGATAAGTCGTCATCACCAATTCAAGTGGCATCCCAAAATCTAACTGTCTCCACATCAAACTTTTAAGGAAAATCCTTCAATCACCAAAGAAGTGCACTTAGCTAATATACCATCCAAAAGGATCGGTGCCCATTTTCTAGGAATAATTTTACATCAAATGGTGTATTTTTTATAATTGAAATCTCCAAAGCCATTTCGCAAGGAGAGAAGCACTCCATTTACTAAAACTTCCTATTCTCTGTTACCAAACCTCCATCCTTCAAGGGGCAAATAAACAACCTTACAGGCACCAAGTGACAGCTACCACTGAGTCCCACCCCTTCGGAAAAAAGTACCTAAGGAATGTTTCAGCCTGGCTGGCCACTTTACTTGGTATTTGAAGAAGGAGATAAAGTAAGTGGGAATATTGGCCATGTCCAATAGGACTGATATACAAGCCTTCCTCCTCTCGAGTCTCGACATATAAAACTTGATCCATTTTGAAAGCTTTTTCTAATTATATACATTATGGGGTCCAAAAACTCAATCTTCCTGGGATTACCTCCAAGGGGCAAGCCTAAGCAAGAGAAAATCCAAGAGGAAGTGCTGCAACCATACAGACTAGCCAAAGAATCAATCTCTTGTTATAGTTGATCCCAACAATGGAAGACTTGAGGAAAAAAATTTCAGGCCTAAAGCAAACTCAAGAGCTTTGATAACTCTGAAAAGATTCTCAGCCCACAATTAAATCTAAAGCAACAATTCTCAAAAATTATGTAAGTTTTATGTATGTTTACACTAATTCATCACTTATATCCATAAAATGCATTGCCAGATAAGAAAAATAAATTATTGTTGGTATATCTTAAACATCCACCTACATGTGAGACAAATTTTATATTGATGATTGAGGTGCAAAACATAAATTATTAATTCTTATAACGAGCAAAAAGGTGATAATGCAGAGATCTAACTTCAAATTTTATTCGATAAGACATGAGAAAGACTTTTACACCAAAGTTCGGAAACCTTTAACTATAAATAACTTTTACTCATGCACGCGTCAGCGAAGGGTAAAGAAAAATATGTGCACAATAAATCACCATGATGAGAAAACATAAATTTTCAATTAGCTCGACTGAGGTTAATAGACGAATTAACCAACCTTGAAAGCTCCATAAGAGTAGAATTGTAAAATCAAATTCTTCGGACAGTGTCGAGAGAATTTAAACATACAAGCAGACACAACCAAGGAGCAGGGGTACAGGAATCCGTATATGGTTTGAAATCAATTCAAAATCGACATCAAGGAAGAAGGGAAATAAAAAGAATAATAGACAGCTAAAAGCTATTTACAACGTGGTAACAAGTAACAAGGAAGCAATAGCCAATGATGCAACAATGCAGAAGAGAGACAAGGCAATAGATAAACTGTAGTACTCACGAGAGGTTTAACAACGATAGCTTCAGGTTTTTGATCATGGGCATTGGAAGTACCGCCACCAAAGTGGTAATAGTCACCTGGAGGAACGAATGGCGGCTTAGTAGACTCGAAAGCTAGCTGCCGCTTAAGAGGCGGCAGGATCTGGCCTGTTTGCGACTGTGGTAGTGGCTCCGACTTGTTCGGAGCTCGAGAGCCGCCACGCATGGAGGATCAAAAGCCAAGGAAAATCCAATACAGTCGATTGCAGAAATTATCTGCTAGCAATGGAAGATAGAAATGGCATGAAAGCTGAGCTGAGGAAGAATAGGGTTCTCGGATCAAAGTGGAACTAAAGGTGAGGATTAAGGAATAGCATTTGGGTAGCTTTTAGATGCGAGGAGGGAAATTTGTTTAGATGGATGTGGAGGGAAGCGTGGTGGAACAAAAAGAATTTACAACTATTTGTATTTTGGCCTCTGGAAACCACCCATATTGCATAATGACCCAAAATGACGTCACTTCCACCTACCTACCTACTGCTATAGTACCTTCGTCTTGTTACCTTCCAAAGTATATTTATATCTAATCAAGCCATGGATCGAAATATCAACAATATTATCAATATTATTAGTGATATATCGGTATAGTAAAAAGTCATTTTTTGAATACGTGACAATGTACTGTTGAAATACTAACAATATTTCTATAGTCATTGATATAGAATGACTGTAGCACATTAATTGTTTAACTATTTGTATATGACCAAATATGAATGGATATTGAGTTTATTATTGACAATATACAGTATAAATCAATTGAAGATTGTACCAAAGTTAACTCTTGAAAATGGATAATCTCTTGCTCTCATTCTATCAATCAATATTAAATTATTTTTGTTAACAATTTGAACTATGCATGTAATTGAATTGTGGTACTTATTGTTTGTGCATCTCTTTAACATATGGTACTTATTGTTTGTGCATATTTGTTTTGTCATTGAATTGTGGATGATGTGAAACAAATTGTCTCATCATTACACTAGTGAATCTTCTTTTAATTTGTTTTTAAACATTTTCGATTATACTAGAAATCATATAGTATCTTGTTCTAATTCGATTTTGGGATTGTTTCATCAATGATGCAATTCAAACTTTGAAGTGAAATTGATCACTTGCTCTGAGCTATAGTTTGTGAGTTAACGATTGCAAAGTAAGAGATCGAACCATCGACCTTTAGGATGGTAATAAGTGTTTTATCCATTTAGCTATGCTCGAATTGGCCTCTAAACCATAATTTGGGTAACCAAAATACCATGATAAGTGAACTTTTGAACTAGAATTAAAGATACGACAATTATGCTTCATAAGAAAATGACTTAGAAGTTGTATGAAAATTACTTTCAAAATAGTTGTATATTTTGTAGAACAAAAATTATGTAAATATTTGCTACAAAAACTGTTTTATTTTTATTTTTTTAATTTTAGTATGTTTTCATAAATAACTTAATCTTAAAAACAACAGAGTTATTATTTCTAAAATCACCGATTAGTGAGCTACCCACTTTCAAATTTTATAATCAACAACCATAGTTATCACATTTACCATAGTCGGAGAAATGTAAAAATTGTTAGAGCACTCGTGGTGTTTGAAAACGTTAGAGGCACCTGAGCTACTATACATAAGCAAAATATATTAACCCAGACCAAAGGAAAAATCATTCATCAATGTCACAGTATAACTGTCACTCTTGTTGAATGCATAGTAAAAAAATATATAGTTTTTTAAAAAATTTCTTATTCATTCTACCTTTCATAAAAAGTCAGCAGCTTCAAATCCCCACTCCCTCGAGATGGAGCTATGTGAAACATTAGGACTGTCCTCCAAGAATCAGAACCAGAACCAGAACAGCCTATTCTTTAAATCTGTTTAGACTTGAAAGCAGCAAATCAAATGATCTTGAGTTGCATGATTCTCTTCTCACCTCTGTTTTATACAACTCAAAGGGGATTCAGATTCACTTCAGTTCATTAAACATATAACAAAATACCAGGCCTCTGCGGTCTACACAGATGCCAAACTTTCTTAAACCATAGCTTAAAGTATAATTTTGTTCCAAGTGTTGGTCAATGGAAAAGACTAATTCAGAACAGATGTTGCCACTTTTGATGGAGTTTCCAAATTTAGAAAAATTGAGTATTTTTTTTTCCTCACTAACAATTTATTTTTATTCATTTGAAACCATTGAAACCAGAGTGAAATAAACAAGAAAGCATTTAAACAATTGGGAAAATGGGATCATAAGAGGAGAATTGACACCATATAAATGAACTCAGAAATGGAAGCAGACAGAAACAGGGTTCTGAAATGAACTCTATATTTGATTTGATTGAATATCACAATTTTGTACACACCACAAAGGAGAAGTTCGAAAGGGTATGGAAGAATCACAACATACCTCCAATTTTTCACTGAAATTCATCTCACTGGTTTTTAACAACACCGGCAATGGAAAACACACTCCCTTCTCCACACAGCTTTGATGTCTCGGCTTAATCCTATTCTCTAAGCTAAACGAAAAGTAATGGGGAAACTCCTTCAATTCCTTCAGTTCCCTTCCCATTTCCACCACGAAGTAATTCAGCTTCGGCTCCAAATTCTCCTTGATGCTGTAGCAGAACAGCTGCGGGAATCGCCGGAACAATATCACGGCGTCCCGGCGGGAAAACCCTAGGTTCTCGAAGAATTCGATTCTTGGAATCAGCTTTTCTTCGACGCTACATGAGAGTAAGGAGGTGTGCTTGTGTACCTCTGATATCCCGATGCTTTGGAGAAGTACAGAGTGGGACGGAGCCGATTCTTCACGCTACAGGCGAGTAATCTAGGGCGCCGATTTATAACGCGTTTGATGTCGGAGCCGTCGACTCGAGCCTCCCGGAGGAGGAAGGTGAAGACCGGGACGATATCGGAAACTCGAGAAGTGAGGATCTCGGGGCACATGCCGACGATTCTCCGGAACTCGACAGCGGTGAAGTTCATCGAGGTCATGAAATCGACGGCCGATCTAATGTCTGCGAGGGACGCGGCGGCAACCGGAGGATGGTCTTTGATGACAGAGAAGAAGTCATCCCAATGGAGTCCAGAAAGAGCATTTTCTCCTGAAACTCGGCGTGAGGATCACGGTGGGGCGGCGGCGGGAGGGGCGGAGATAAGGGGGAATCTCGGGGTTCCGAGGGGGGAGTTTAGAAGGCAAGAGGAAGCTGATCTGGCATTGGAAAGAACGGGGAACTGGAGGTTTCTGGAGCGGGAAAGAGAGGGAAAGAGAGGTGAAGGAGAAGAGTGGATGAGTTTGCCATTGGAGAGAAGATGA

mRNA sequence

ATGTATTTGGAAATCAATTCTCCTTTGGGATTGGATTGCATACTTTTGAATGAAAATAAAAGCGATTTTTACAGCGGAATCAATCTAGTCAATTACAGCGGCAGAAGAAGTCGTCGTCGTCATCGTCGTCAATACGCCAATCCAAAATCTGAGAAAACGACGTCGTCACAAGCAAATGCAGACCCGAATAGCTCGGATAATGACCGGGATGATACTGCCTTTGATGAATCCGAGACAACCGGCGAACGGATTCCCGACGGAGAATCGGAGCCAGATACGGTGGAAAAAGTTCGGGCCGGCGGAATAGGAAGAAGCGGACATGGGTTGGAGGTAAGCCCAAGCAGCCTGCTTAACGAGGCGGTTGCGGATCGAGATTTCGTAGCCGGAGTTAGCGGAGGAAACGGCCGTCGGGGAGTTAACGGCGGCGGCGGAGGGGAGGATGTCCTTGAGGGAGTGTACGATTGTGAAGAGGACTTGAGAGAGAGAAGCCTCAAGTCAATCGCGACAGTGGTGGTGGTGGAGGATGTTCTGGAGGTGGGGAAACGGTGCCGTTTTGCTTCGTCTTGGAGGAAGCCATGGCCGGCGAGGGAATCGAGTTTCTGCGGCGGAGATATGAGGATGATAGCGACGGAGGTGGCTGAGTTATTTGTGTGGCGGAGTCGGCCATGGTCAGATCTGTTGCTTTGTCACCTCTGTCTTAAGTTAGCATCTGATGGCGCTTCGGCCGTCTCTGGCCGTGGACTTGCTGGACTTGGCCTTTGGGCAATAACATCAGATATCACAAAGTCATGTGGAAGTAAGGATATTGTGAGGCAGCTGTATAGTTATAAAGGTTGGGAATACCTCAGTGACTTTGCTGTCAAATTAGAGAGGTGGAACATCGACAAACATGGCAGAACAGCTGCGGGAATCGCCGGAACAATATCACGGCGTCCCGGCGGGAAAACCCTAGGTTCTCGAAGAATTCGATTCTTGGAATCAGCTTTTCTTCGACGCTACATGAGAGTAAGGAGAGTGGGACGGAGCCGATTCTTCACGCTACAGGCGAGTAATCTAGGGCGCCGATTTATAACGCGTTTGATGTCGGAGCCGTCGACTCGAGCCTCCCGGAGGAGGAAGGTGAAGACCGGGACGATATCGGAAACTCGAGAAGTGAGGATCTCGGGGCACATGCCGACGATTCTCCGGAACTCGACAGCGGTGAAGTTCATCGAGGTCATGAAATCGACGGCCGATCTAATGTCTGCGAGGGACGCGGCGGCAACCGGAGGATGGTCTTTGATGACAGAGAAGAAGTCATCCCAATGGAGTCCAGAAAGAGCATTTTCTCCTGAAACTCGGCGTGAGGATCACGGTGGGGCGGCGGCGGGAGGGGCGGAGATAAGGGGGAATCTCGGGGTTCCGAGGGGGGAGTTTAGAAGGCAAGAGGAAGCTGATCTGGCATTGGAAAGAACGGGGAACTGGAGGTTTCTGGAGCGGGAAAGAGAGGGAAAGAGAGGTGAAGGAGAAGAGTGGATGAGTTTGCCATTGGAGAGAAGATGA

Coding sequence (CDS)

ATGTATTTGGAAATCAATTCTCCTTTGGGATTGGATTGCATACTTTTGAATGAAAATAAAAGCGATTTTTACAGCGGAATCAATCTAGTCAATTACAGCGGCAGAAGAAGTCGTCGTCGTCATCGTCGTCAATACGCCAATCCAAAATCTGAGAAAACGACGTCGTCACAAGCAAATGCAGACCCGAATAGCTCGGATAATGACCGGGATGATACTGCCTTTGATGAATCCGAGACAACCGGCGAACGGATTCCCGACGGAGAATCGGAGCCAGATACGGTGGAAAAAGTTCGGGCCGGCGGAATAGGAAGAAGCGGACATGGGTTGGAGGTAAGCCCAAGCAGCCTGCTTAACGAGGCGGTTGCGGATCGAGATTTCGTAGCCGGAGTTAGCGGAGGAAACGGCCGTCGGGGAGTTAACGGCGGCGGCGGAGGGGAGGATGTCCTTGAGGGAGTGTACGATTGTGAAGAGGACTTGAGAGAGAGAAGCCTCAAGTCAATCGCGACAGTGGTGGTGGTGGAGGATGTTCTGGAGGTGGGGAAACGGTGCCGTTTTGCTTCGTCTTGGAGGAAGCCATGGCCGGCGAGGGAATCGAGTTTCTGCGGCGGAGATATGAGGATGATAGCGACGGAGGTGGCTGAGTTATTTGTGTGGCGGAGTCGGCCATGGTCAGATCTGTTGCTTTGTCACCTCTGTCTTAAGTTAGCATCTGATGGCGCTTCGGCCGTCTCTGGCCGTGGACTTGCTGGACTTGGCCTTTGGGCAATAACATCAGATATCACAAAGTCATGTGGAAGTAAGGATATTGTGAGGCAGCTGTATAGTTATAAAGGTTGGGAATACCTCAGTGACTTTGCTGTCAAATTAGAGAGGTGGAACATCGACAAACATGGCAGAACAGCTGCGGGAATCGCCGGAACAATATCACGGCGTCCCGGCGGGAAAACCCTAGGTTCTCGAAGAATTCGATTCTTGGAATCAGCTTTTCTTCGACGCTACATGAGAGTAAGGAGAGTGGGACGGAGCCGATTCTTCACGCTACAGGCGAGTAATCTAGGGCGCCGATTTATAACGCGTTTGATGTCGGAGCCGTCGACTCGAGCCTCCCGGAGGAGGAAGGTGAAGACCGGGACGATATCGGAAACTCGAGAAGTGAGGATCTCGGGGCACATGCCGACGATTCTCCGGAACTCGACAGCGGTGAAGTTCATCGAGGTCATGAAATCGACGGCCGATCTAATGTCTGCGAGGGACGCGGCGGCAACCGGAGGATGGTCTTTGATGACAGAGAAGAAGTCATCCCAATGGAGTCCAGAAAGAGCATTTTCTCCTGAAACTCGGCGTGAGGATCACGGTGGGGCGGCGGCGGGAGGGGCGGAGATAAGGGGGAATCTCGGGGTTCCGAGGGGGGAGTTTAGAAGGCAAGAGGAAGCTGATCTGGCATTGGAAAGAACGGGGAACTGGAGGTTTCTGGAGCGGGAAAGAGAGGGAAAGAGAGGTGAAGGAGAAGAGTGGATGAGTTTGCCATTGGAGAGAAGATGA

Protein sequence

MYLEINSPLGLDCILLNENKSDFYSGINLVNYSGRRSRRRHRRQYANPKSEKTTSSQANADPNSSDNDRDDTAFDESETTGERIPDGESEPDTVEKVRAGGIGRSGHGLEVSPSSLLNEAVADRDFVAGVSGGNGRRGVNGGGGGEDVLEGVYDCEEDLRERSLKSIATVVVVEDVLEVGKRCRFASSWRKPWPARESSFCGGDMRMIATEVAELFVWRSRPWSDLLLCHLCLKLASDGASAVSGRGLAGLGLWAITSDITKSCGSKDIVRQLYSYKGWEYLSDFAVKLERWNIDKHGRTAAGIAGTISRRPGGKTLGSRRIRFLESAFLRRYMRVRRVGRSRFFTLQASNLGRRFITRLMSEPSTRASRRRKVKTGTISETREVRISGHMPTILRNSTAVKFIEVMKSTADLMSARDAAATGGWSLMTEKKSSQWSPERAFSPETRREDHGGAAAGGAEIRGNLGVPRGEFRRQEEADLALERTGNWRFLEREREGKRGEGEEWMSLPLERR
Homology
[Close]
BLAST of Sgr026437 vs. NCBI nr
Match: OMO52466.1 (receptor-like protein kinase [Corchorus olitorius])

HSP 1 Score: 102.4 bits (254), Expect = 1.2e-17
Identity = 60/99 (60.61%), Postives = 65/99 (65.66%), Query Frame = 0 

Query: 335 RVRRVGRSRFFTLQASNLGRRFITRLMSEPSTRASRRRKVKTGTISETREVRISGHMPTI 394
           R  RVGRS F TL  SNLGRR IT   SEP T ASRRRKVK G   E  EVRISGHM  I
Sbjct: 4   RKYRVGRSWFSTLHVSNLGRRLITLFKSEPLTHASRRRKVKIGRSEEGLEVRISGHMEKI 63

Query: 395 LRNSTAVKFIEVMKSTADLMSARDAAATGGWSLMTEKKS 434
            RNS+AVKF+EV  ST D  S++     GGW  + EKKS
Sbjct: 64  RRNSSAVKFMEVRNSTVDFRSSKQVVMIGGWCSIKEKKS 102

[Close]
BLAST of Sgr026437 vs. NCBI nr
Match: PON31718.1 (hypothetical protein PanWU01x14_367520 [Parasponia andersonii])

HSP 1 Score: 83.2 bits (204), Expect = 7.2e-12
Identity = 55/98 (56.12%), Postives = 63/98 (64.29%), Query Frame = 0 

Query: 357 ITRLMSEPSTRASRRRKVKTGTISETREVRISGHMPTILRNSTAVK-FIEVMKSTADLMS 416
           +T L SEP TRAS  R V TGTISETRE R SGH+PTILRNSTAV   +EV KST DL+S
Sbjct: 1   MTLLRSEPFTRASLIRNVNTGTISETREDRTSGHIPTILRNSTAVNPAVEVTKSTVDLIS 60

Query: 417 ARDAAATGGWSLMTEKKSSQW-SPERAFSPETRREDHG 453
                  GGWS + E+KS    S    FS ++  ED G
Sbjct: 61  DSGEERIGGWSSIRERKSMPMESRYSIFSSKSEDEDAG 98

[Close]
BLAST of Sgr026437 vs. NCBI nr
Match: PON99359.1 (hypothetical protein TorRG33x02_049020 [Trema orientale])

HSP 1 Score: 82.0 bits (201), Expect = 1.6e-11
Identity = 54/98 (55.10%), Postives = 63/98 (64.29%), Query Frame = 0 

Query: 357 ITRLMSEPSTRASRRRKVKTGTISETREVRISGHMPTILRNSTAVK-FIEVMKSTADLMS 416
           +T L SEP TRAS  R V TGTISETRE R SGH+PTILRNSTAV   +EV KST DL+S
Sbjct: 1   MTLLRSEPFTRASLIRNVNTGTISETREERTSGHIPTILRNSTAVNPAVEVTKSTVDLIS 60

Query: 417 ARDAAATGGWSLMTEKKSSQW-SPERAFSPETRREDHG 453
                  GGWS + E+KS    S    FS ++  E+ G
Sbjct: 61  HSGEERIGGWSSIRERKSMPMESRYSIFSSKSEDEEAG 98

[Close]
BLAST of Sgr026437 vs. NCBI nr
Match: TQD87128.1 (hypothetical protein C1H46_027268 [Malus baccata])

HSP 1 Score: 62.8 bits (151), Expect = 1.0e-05
Identity = 44/86 (51.16%), Postives = 49/86 (56.98%), Query Frame = 0 

Query: 65  SDNDRDDTAFDESETTGERIPDGESEPDTVEKVRAGGIGRSGHGLEVSPSSLLNEAVADR 124
           S  + DD   +E E  GE + +   E      V A   G  GHGLEV P  LL+EAVAD 
Sbjct: 243 SGEEGDDAVGEEGEAGGELLAEAAKE------VWARWAGGGGHGLEVGPGGLLHEAVADG 302

Query: 125 DFVAGVSGGNGRRGVNGGGGGEDVLE 151
           DFVAGV GG G  GVN GGGGE V E
Sbjct: 303 DFVAGVVGGGGGGGVN-GGGGEQVFE 321

[Close]
BLAST of Sgr026437 vs. NCBI nr
Match: PSS23569.1 (Protein Shroom3 like [Actinidia chinensis var. chinensis])

HSP 1 Score: 60.5 bits (145), Expect = 5.0e-05
Identity = 47/99 (47.47%), Postives = 58/99 (58.59%), Query Frame = 0 

Query: 61  DPNSSDNDRDDTAFDESETTGERIPD-------GESEPDTVEKVRA-GGIGRSGHGLEVS 120
           DPN S N  + + +D S    E I D       GES P+ VE+V A GG+ R GHGLEV 
Sbjct: 22  DPNRSQNPVEGSGYDPS-NRAEEIGDGALGEVAGESGPEAVEEVVAVGGVRRGGHGLEVG 81

Query: 121 PSSLLNEAVADRDFVAGVSGGNGRRGVNGGGGGEDVLEG 152
           P  LL+E VAD D     SGG G  G++ GGG ++VLEG
Sbjct: 82  PGGLLDEVVADGDLATAASGGGG--GLD-GGGRKEVLEG 116

[Close]
BLAST of Sgr026437 vs. ExPASy TrEMBL
Match: A0A1R3G311 (Receptor-like protein kinase OS=Corchorus olitorius OX=93759 GN=COLO4_37153 PE=4 SV=1)

HSP 1 Score: 102.4 bits (254), Expect = 5.6e-18
Identity = 60/99 (60.61%), Postives = 65/99 (65.66%), Query Frame = 0 

Query: 335 RVRRVGRSRFFTLQASNLGRRFITRLMSEPSTRASRRRKVKTGTISETREVRISGHMPTI 394
           R  RVGRS F TL  SNLGRR IT   SEP T ASRRRKVK G   E  EVRISGHM  I
Sbjct: 4   RKYRVGRSWFSTLHVSNLGRRLITLFKSEPLTHASRRRKVKIGRSEEGLEVRISGHMEKI 63

Query: 395 LRNSTAVKFIEVMKSTADLMSARDAAATGGWSLMTEKKS 434
            RNS+AVKF+EV  ST D  S++     GGW  + EKKS
Sbjct: 64  RRNSSAVKFMEVRNSTVDFRSSKQVVMIGGWCSIKEKKS 102

[Close]
BLAST of Sgr026437 vs. ExPASy TrEMBL
Match: A0A2P5A5B7 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_367520 PE=4 SV=1)

HSP 1 Score: 83.2 bits (204), Expect = 3.5e-12
Identity = 55/98 (56.12%), Postives = 63/98 (64.29%), Query Frame = 0 

Query: 357 ITRLMSEPSTRASRRRKVKTGTISETREVRISGHMPTILRNSTAVK-FIEVMKSTADLMS 416
           +T L SEP TRAS  R V TGTISETRE R SGH+PTILRNSTAV   +EV KST DL+S
Sbjct: 1   MTLLRSEPFTRASLIRNVNTGTISETREDRTSGHIPTILRNSTAVNPAVEVTKSTVDLIS 60

Query: 417 ARDAAATGGWSLMTEKKSSQW-SPERAFSPETRREDHG 453
                  GGWS + E+KS    S    FS ++  ED G
Sbjct: 61  DSGEERIGGWSSIRERKSMPMESRYSIFSSKSEDEDAG 98

[Close]
BLAST of Sgr026437 vs. ExPASy TrEMBL
Match: A0A2P5FNJ5 (Uncharacterized protein OS=Trema orientale OX=63057 GN=TorRG33x02_049020 PE=4 SV=1)

HSP 1 Score: 82.0 bits (201), Expect = 7.8e-12
Identity = 54/98 (55.10%), Postives = 63/98 (64.29%), Query Frame = 0 

Query: 357 ITRLMSEPSTRASRRRKVKTGTISETREVRISGHMPTILRNSTAVK-FIEVMKSTADLMS 416
           +T L SEP TRAS  R V TGTISETRE R SGH+PTILRNSTAV   +EV KST DL+S
Sbjct: 1   MTLLRSEPFTRASLIRNVNTGTISETREERTSGHIPTILRNSTAVNPAVEVTKSTVDLIS 60

Query: 417 ARDAAATGGWSLMTEKKSSQW-SPERAFSPETRREDHG 453
                  GGWS + E+KS    S    FS ++  E+ G
Sbjct: 61  HSGEERIGGWSSIRERKSMPMESRYSIFSSKSEDEEAG 98

[Close]
BLAST of Sgr026437 vs. ExPASy TrEMBL
Match: A0A7C9CWV6 (Uncharacterized protein OS=Opuntia streptacantha OX=393608 PE=4 SV=1)

HSP 1 Score: 63.2 bits (152), Expect = 3.8e-06
Identity = 44/87 (50.57%), Postives = 50/87 (57.47%), Query Frame = 0 

Query: 335 RVRRVGRSRFFTLQASNLGRRFITRLMSEPSTRASRRRKVKTGTISETREVRISGHMPTI 394
           R  +VGRSR       + GRR +TR  S  +T ASRRRKVKTGT S  R  RISGHM T 
Sbjct: 4   RKYKVGRSRVSASDTRSRGRRHMTRRRSAAATLASRRRKVKTGTTSFRRRERISGHMDTT 63

Query: 395 LRNSTAVKFIEVMKSTADLMSARDAAA 422
            R S   +  E   S   L SAR+AAA
Sbjct: 64  RRRSGPERPNEPRYSNRSLSSAREAAA 90

[Close]
BLAST of Sgr026437 vs. ExPASy TrEMBL
Match: A0A540LKX7 (HVA22-like protein OS=Malus baccata OX=106549 GN=C1H46_027268 PE=3 SV=1)

HSP 1 Score: 62.8 bits (151), Expect = 4.9e-06
Identity = 44/86 (51.16%), Postives = 49/86 (56.98%), Query Frame = 0 

Query: 65  SDNDRDDTAFDESETTGERIPDGESEPDTVEKVRAGGIGRSGHGLEVSPSSLLNEAVADR 124
           S  + DD   +E E  GE + +   E      V A   G  GHGLEV P  LL+EAVAD 
Sbjct: 243 SGEEGDDAVGEEGEAGGELLAEAAKE------VWARWAGGGGHGLEVGPGGLLHEAVADG 302

Query: 125 DFVAGVSGGNGRRGVNGGGGGEDVLE 151
           DFVAGV GG G  GVN GGGGE V E
Sbjct: 303 DFVAGVVGGGGGGGVN-GGGGEQVFE 321

The following BLAST results are available for this feature:
BLAST of Sgr026437 vs. NCBI nr
Match NameE-valueIdentityDescription
OMO52466.11.2e-1760.61receptor-like protein kinase [Corchorus olitorius][more]
PON31718.17.2e-1256.12hypothetical protein PanWU01x14_367520 [Parasponia andersonii][more]
PON99359.11.6e-1155.10hypothetical protein TorRG33x02_049020 [Trema orientale][more]
TQD87128.11.0e-0551.16hypothetical protein C1H46_027268 [Malus baccata][more]
PSS23569.15.0e-0547.47Protein Shroom3 like [Actinidia chinensis var. chinensis][more]
BLAST of Sgr026437 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Sgr026437 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A1R3G3115.6e-1860.61Receptor-like protein kinase OS=Corchorus olitorius OX=93759 GN=COLO4_37153 PE=4... [more]
A0A2P5A5B73.5e-1256.12Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_367520 PE... [more]
A0A2P5FNJ57.8e-1255.10Uncharacterized protein OS=Trema orientale OX=63057 GN=TorRG33x02_049020 PE=4 SV... [more]
A0A7C9CWV63.8e-0650.57Uncharacterized protein OS=Opuntia streptacantha OX=393608 PE=4 SV=1[more]
A0A540LKX74.9e-0651.16HVA22-like protein OS=Malus baccata OX=106549 GN=C1H46_027268 PE=3 SV=1[more]
BLAST of Sgr026437 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Monk fruit (Qingpiguo) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 493..513
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 429..470
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 64..97
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 35..111
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 49..63

Relationships

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

Feature NameUnique NameType
Sgr026437.1Sgr026437.1mRNA