Spg019899 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg019899
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
DescriptionRT_RNaseH_2 domain-containing protein
Locationscaffold5: 31842751 .. 31855330 (+)
RNA-Seq ExpressionSpg019899
SyntenySpg019899
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGCACTCGAGCATGTCAAGCTTGGAAGCTTATGCGCTAGAGCTTGATGAGTTAGGAGCTTGGAGCATGACATGCTGTAGCAGTCTGAAGCATGGAAAGCTTCAGCTGAAGCATGAAAAGCTTGATGTTGTAGTAGCTAGCGCATGGAAAGCTTATTGCTATAGTAGTCTAGCGCAAGGAATGCATGATGATGCTACAGCAACCTGTCGCATCCATATTTTATTCTTATTACCCCAGCACAACATCATTAGAATAGGATTTAATTTGAGATATTTTTACTACTCGCTCCTTCCCTGTGGATTCGACCCTAGAATACTCCAGGCTAAAGAATTAAAGAGAATCGAAGTTGGATCCACACCAAAGAGGGCTTGCCGAGGACCAGCGTCGAGACCCTTGCCAAAGGGCGTCTCGACGCTCCAACTTTCCCTTTCTGTTTCTGGCGACAACAGTCACAGCGTCTCGATGCTAGAATTGGGGTTGTGGAAGCTGAACAAAGTGGGGGAAAGCGGGATTCAAGGCTTTGTTCGTGGAGATCGTGACAGGGACATATTATATGTTTTAACCCATTTGGAAGAATGGAAGCTTTGGAAGTTATTTGGTGCAGAATATATTGCAAAGCGACTTGAGGGAGCAAAAGCTGTCCTAGAGCAAAGCTGGGAGCAAAACTGCCACGTCACAGCTCGTGTGAGTTTGGTGCATGAGCTATCTGCCTGGGGAAAGCATGAAGGATCTGACGGCCAGCACAACACTTACATGTCAACGGGATTCAAATTTTACCGATCCTTTAAATCTGATTACATGCAAATAGCGTCTTCAATAGCGAAAACGAGAGCAAGAAAAGAGAGAGACAATGAGGAAGAGGAGGTGTCTGTTACCCCCGAAGTACAGAAAGCTAAGGCAAAGAAAAAGAAAACACCAGAAGAGAAAGAGGCTAAGAAGAGAAGAAGACAGCAGAGGGCTGAGGACCAAGAAATAGTACAGAAGGTAGTCGAGGAGGTTGTTGCCGAAGCAGTTGAAGAAGGCAATCCGAAGGAACCTGAAGGACAAAACCCAGAGCAGACTGAGCCGAGAATTGCGGATACAGAGGAAATTCGAGAAGAAAATGCAGAGGAAGTTCAAGAAAGGCAAACTGAGGATAGAAGTGCAGAAAGAGAGGAACAGGAGAAAAAAGAGGCCGAGGATAAAGCAAGAGAGGAAGCAAAGAAAAAGGCTGAAGAAGAAAGATTGATCAAGCAAAGGGCAGGCAAGGGCAAGAGTGTTGCTGCGGCATCGGAGGAACCTGACGAGATAGAAGAGCCACAGTTGTCGTATGTCCTCTTCGTCAACCGTCTTACCAGAGCAAAGTATGATGAGTTGCTAAAGAGAGACTTCCTGTTCGAGAGAGGATTTAGTGGTGATCTTCCACATTTTCTGAGGGTCGGCATTACGAACCACGGCTGGGAGTTGTTTTGTTCTAAGCCTGAATCAATGAACGCGCAAGTAGTGCACGAATTTTATGCAAATATTGACGAGGAAGAAGGTTTCCAAATTATTGTTCGAGGTATAGAAGTTGGCTGGAGTCCTGGTGCCATTAACGCCCTGTATAACCTTCAAGATTTCCCCCACACAAGATACAATGAGATGGCTGTGGCGCCATCTAATGAGCAATTGAGCGATAGGTTGCTTCCAACGACTCATGACTCGACGGTTTCTAGGGAACGCGTTCTGCTGGCGTTTGCGATTTTAAGGTCTCTCAGTATTGATGTGGGCAAGATCATTGCGAGTGAGATATCTGGATGCTGGAAGAAGAAAGTTGGGAAGTTGTTTTTCCCGAATACAATTACAATGCTTTGCAAGAAAGCAGGGGTTCCGAAGAATGATGGAGATGTTATATTGTTCGACAAGGGAATCATCGATACGCCTAACTTGGCACGGCTTCAGCGTACGCAAGAGGCACGCCAGGGTGGGCTTGTTTTTGGCATTCACAACATTTTAGAACAACTTGCACTGTCGGCCAGCAGGCAAGAGTTTGCTGAGAGGCAATCTCTAACCTTCTGGAGCTATGTTAAACGTCGTGATGCCAACCTGAAGAAGGCGCTAGAGGAAAATTTTTCCAAACCATACCCAGACCTTCCGGTGTTCCCTGACGATTTATTGAACCCCTGGATTCCGCCGCCACCTGCTGAGAGAGAATAA

Coding sequence (CDS)

ATGCACTCGAGCATGTCAAGCTTGGAAGCTTATGCGCTAGAGCTTGATGAGTTAGGAGCTTGGAGCATGACATGCTGTAGCAGTCTGAAGCATGGAAAGCTTCAGCTGAAGCATGAAAAGCTTGATGTTGTAGTAGCTAGCGCATGGAAAGCTTATTGCTATAGTAGTCTAGCGCAAGGAATGCATGATGATGCTACAGCAACCTGTCGCATCCATATTTTATTCTTATTACCCCAGCACAACATCATTAGAATAGGATTTAATTTGAGATATTTTTACTACTCGCTCCTTCCCTGTGGATTCGACCCTAGAATACTCCAGGCTAAAGAATTAAAGAGAATCGAAGTTGGATCCACACCAAAGAGGGCTTGCCGAGGACCAGCGTCGAGACCCTTGCCAAAGGGCGTCTCGACGCTCCAACTTTCCCTTTCTGTTTCTGGCGACAACAGTCACAGCGTCTCGATGCTAGAATTGGGGTTGTGGAAGCTGAACAAAGTGGGGGAAAGCGGGATTCAAGGCTTTGTTCGTGGAGATCGTGACAGGGACATATTATATGTTTTAACCCATTTGGAAGAATGGAAGCTTTGGAAGTTATTTGGTGCAGAATATATTGCAAAGCGACTTGAGGGAGCAAAAGCTGTCCTAGAGCAAAGCTGGGAGCAAAACTGCCACGTCACAGCTCGTGTGAGTTTGGTGCATGAGCTATCTGCCTGGGGAAAGCATGAAGGATCTGACGGCCAGCACAACACTTACATGTCAACGGGATTCAAATTTTACCGATCCTTTAAATCTGATTACATGCAAATAGCGTCTTCAATAGCGAAAACGAGAGCAAGAAAAGAGAGAGACAATGAGGAAGAGGAGGTGTCTGTTACCCCCGAAGTACAGAAAGCTAAGGCAAAGAAAAAGAAAACACCAGAAGAGAAAGAGGCTAAGAAGAGAAGAAGACAGCAGAGGGCTGAGGACCAAGAAATAGTACAGAAGGTAGTCGAGGAGGTTGTTGCCGAAGCAGTTGAAGAAGGCAATCCGAAGGAACCTGAAGGACAAAACCCAGAGCAGACTGAGCCGAGAATTGCGGATACAGAGGAAATTCGAGAAGAAAATGCAGAGGAAGTTCAAGAAAGGCAAACTGAGGATAGAAGTGCAGAAAGAGAGGAACAGGAGAAAAAAGAGGCCGAGGATAAAGCAAGAGAGGAAGCAAAGAAAAAGGCTGAAGAAGAAAGATTGATCAAGCAAAGGGCAGGCAAGGGCAAGAGTGTTGCTGCGGCATCGGAGGAACCTGACGAGATAGAAGAGCCACAGTTGTCGTATGTCCTCTTCGTCAACCGTCTTACCAGAGCAAAGTATGATGAGTTGCTAAAGAGAGACTTCCTGTTCGAGAGAGGATTTAGTGGTGATCTTCCACATTTTCTGAGGGTCGGCATTACGAACCACGGCTGGGAGTTGTTTTGTTCTAAGCCTGAATCAATGAACGCGCAAGTAGTGCACGAATTTTATGCAAATATTGACGAGGAAGAAGGTTTCCAAATTATTGTTCGAGGTATAGAAGTTGGCTGGAGTCCTGGTGCCATTAACGCCCTGTATAACCTTCAAGATTTCCCCCACACAAGATACAATGAGATGGCTGTGGCGCCATCTAATGAGCAATTGAGCGATAGGTTGCTTCCAACGACTCATGACTCGACGGTTTCTAGGGAACGCGTTCTGCTGGCGTTTGCGATTTTAAGGTCTCTCAGTATTGATGTGGGCAAGATCATTGCGAGTGAGATATCTGGATGCTGGAAGAAGAAAGTTGGGAAGTTGTTTTTCCCGAATACAATTACAATGCTTTGCAAGAAAGCAGGGGTTCCGAAGAATGATGGAGATGTTATATTGTTCGACAAGGGAATCATCGATACGCCTAACTTGGCACGGCTTCAGCGTACGCAAGAGGCACGCCAGGGTGGGCTTGTTTTTGGCATTCACAACATTTTAGAACAACTTGCACTGTCGGCCAGCAGGCAAGAGTTTGCTGAGAGGCAATCTCTAACCTTCTGGAGCTATGTTAAACGTCGTGATGCCAACCTGAAGAAGGCGCTAGAGGAAAATTTTTCCAAACCATACCCAGACCTTCCGGTGTTCCCTGACGATTTATTGAACCCCTGGATTCCGCCGCCACCTGCTGAGAGAGAATAA

Protein sequence

MHSSMSSLEAYALELDELGAWSMTCCSSLKHGKLQLKHEKLDVVVASAWKAYCYSSLAQGMHDDATATCRIHILFLLPQHNIIRIGFNLRYFYYSLLPCGFDPRILQAKELKRIEVGSTPKRACRGPASRPLPKGVSTLQLSLSVSGDNSHSVSMLELGLWKLNKVGESGIQGFVRGDRDRDILYVLTHLEEWKLWKLFGAEYIAKRLEGAKAVLEQSWEQNCHVTARVSLVHELSAWGKHEGSDGQHNTYMSTGFKFYRSFKSDYMQIASSIAKTRARKERDNEEEEVSVTPEVQKAKAKKKKTPEEKEAKKRRRQQRAEDQEIVQKVVEEVVAEAVEEGNPKEPEGQNPEQTEPRIADTEEIREENAEEVQERQTEDRSAEREEQEKKEAEDKAREEAKKKAEEERLIKQRAGKGKSVAAASEEPDEIEEPQLSYVLFVNRLTRAKYDELLKRDFLFERGFSGDLPHFLRVGITNHGWELFCSKPESMNAQVVHEFYANIDEEEGFQIIVRGIEVGWSPGAINALYNLQDFPHTRYNEMAVAPSNEQLSDRLLPTTHDSTVSRERVLLAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKKAGVPKNDGDVILFDKGIIDTPNLARLQRTQEARQGGLVFGIHNILEQLALSASRQEFAERQSLTFWSYVKRRDANLKKALEENFSKPYPDLPVFPDDLLNPWIPPPPAERE
Homology
[Close]
BLAST of Spg019899 vs. NCBI nr
Match: PON46472.1 (hypothetical protein PanWU01x14_251180, partial [Parasponia andersonii])

HSP 1 Score: 158.3 bits (399), Expect = 2.5e-34
Identity = 112/348 (32.18%), Postives = 159/348 (45.69%), Query Frame = 0 

Query: 438 VLFVNRLTRAKYD-ELLKRDFLFERGF-------SGDLPHFLRVGITNHGWELFCSKPES 497
           V F       +Y+  +  R    E+GF        G LP   +V IT H W+ FC+ PE 
Sbjct: 23  VKFETEAAATRYENNIQNRPLNAEKGFVLDNSETMGQLPFIAQV-ITQHNWKQFCAHPED 82

Query: 498 MNAQVVHEFYANIDEEEGFQIIVRGIEVGWSPGAINALYNLQDFPHTRYNEM-------- 557
               +V EFYAN+ + E   + VRG++V WS  AINA++ L D P   ++E         
Sbjct: 83  PIVPLVREFYANLTDPEENTVYVRGVQVSWSEEAINAVFGLGD-PVDEHSEFIQNITQQD 142

Query: 558 ----------------------------AVAPSNEQ----LSDRLLPTTHDSTVSRERVL 617
                                       A+ P+ +     L  RLLPTTH  TVS++R+L
Sbjct: 143 LITVLETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLLPTTHGKTVSKDRML 202

Query: 618 LAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKKAGVPKNDGDVILFDKG 677
           L  ++L   SI+VG++I SEI  C  +K G LFFP+ IT LC+ A  P    +  L + G
Sbjct: 203 LLHSMLIGKSINVGRMIHSEIRACAARKTGALFFPSLITRLCRNARAPFLVNEEKLHNTG 262

Query: 678 IIDTPNLARL------QRTQEA-----------RQGGLVFGIHNILEQLALSASRQEF-- 713
            ID   +AR+      + TQ+            R  G +      LEQ       Q++  
Sbjct: 263 EIDAIAVARIAQEGPTESTQQPSSSRPATASSNRTNGDILQQLKALEQRLSQQEVQQYHM 322

[Close]
BLAST of Spg019899 vs. NCBI nr
Match: PON78020.1 (hypothetical protein PanWU01x14_023740 [Parasponia andersonii])

HSP 1 Score: 136.3 bits (342), Expect = 1.0e-27
Identity = 95/275 (34.55%), Postives = 130/275 (47.27%), Query Frame = 0 

Query: 494 VVHEFYANIDEEEGFQIIVRGIEVGWSPGAINALYNLQD--FPHTRYNEMAVAPS----- 553
           +V EFYAN+ + E   I VRG++V WS  AINA++ L D    H+ + E    P      
Sbjct: 16  LVREFYANLTDPEENTIYVRGVQVSWSEEAINAVFGLGDPVDEHSEFIENITEPELITVL 75

Query: 554 --------------------------------NEQLSDRLLPTTHDSTVSRERVLLAFAI 613
                                              L  RLLPTTH   VS++R+LL  ++
Sbjct: 76  ETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLLPTTHGKIVSKDRMLLLHSM 135

Query: 614 LRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKKAGVPKNDGDVILFDKGIIDTP 673
           L   SI+VG++I SEI  C  +K G LFFP+ IT LC+ A    N+    L + G ID  
Sbjct: 136 LNGKSINVGRMIHSEIRACAAQKTGALFFPSLITRLCRNAPFLVNEEK--LHNTGEIDAI 195

Query: 674 NLARL------QRTQE-----------ARQGGLVFGIHNILEQLALSASRQEFAERQSLT 713
            +AR+      + TQ+           +R  G V      LEQ     S+QE   +Q   
Sbjct: 196 AVARITQEGPTESTQQPSSSRPAAASSSRTNGDVLQQLKALEQ---RLSQQEHTHKQQQQ 255

[Close]
BLAST of Spg019899 vs. NCBI nr
Match: PON35554.1 (hypothetical protein PanWU01x14_335450, partial [Parasponia andersonii])

HSP 1 Score: 121.7 bits (304), Expect = 2.6e-23
Identity = 86/254 (33.86%), Postives = 121/254 (47.64%), Query Frame = 0 

Query: 438 VLFVNRLTRAKYD-ELLKRDFLFERGF-------SGDLPHFLRVGITNHGWELFCSKPES 497
           V F       +Y+  +  R    E+GF        G LP   +V IT H W+ FC+ PE 
Sbjct: 14  VKFETEAAETRYENNIQNRPLNAEKGFVLDNSETMGQLPFIAQV-ITQHNWKQFCAHPED 73

Query: 498 MNAQVVHEFYANIDEEEGFQIIVRGIEVGWSPGAINALYNLQD--FPHTRYNE------- 557
               +V EFYAN+ +     + VRG++V WS  AINA++ L D    H+ + E       
Sbjct: 74  PIVPLVREFYANLTDPVENTVYVRGVQVSWSEEAINAVFGLGDPVDEHSEFIENITEHDL 133

Query: 558 ------MAVAPSNEQLS------------------------DRLLPTTHDSTVSRERVLL 617
                 +AVA +   +S                          LLPTTH  TVS++R+LL
Sbjct: 134 ITVLETVAVAGAEWNVSAQGAYTCIRSALTPAAKVWFHFLKSHLLPTTHGKTVSKDRMLL 193

Query: 618 AFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKKAGVPKNDGDVILFDKGI 645
             ++L   SI+VG++I SEI  C  +K G LFFP+ IT LC+ A  P    +  L + G 
Sbjct: 194 LHSMLIGKSINVGRMIHSEIRACAARKTGALFFPSLITRLCRNARAPFLVNEEKLHNTGE 253

[Close]
BLAST of Spg019899 vs. NCBI nr
Match: KAE8695166.1 (hypothetical protein F3Y22_tig00110733pilonHSYRG00282 [Hibiscus syriacus])

HSP 1 Score: 119.8 bits (299), Expect = 9.8e-23
Identity = 92/326 (28.22%), Postives = 138/326 (42.33%), Query Frame = 0 

Query: 433 PQLSYVLFVNRLTRAKYDELLKRDFLFERGFSGDLPHFLRVG------ITNHGWELFCSK 492
           P  S   FV+   +  Y  +  R   FE GF         +G      +T H W+ F   
Sbjct: 8   PPPSPPCFVDEAAKEHYQTIKNRRVFFELGFVFSEAENANLGSEVLDVVTKHKWQKFAKH 67

Query: 493 PESMNAQVVHEFYANIDEEEGFQIIVRGIEVGWSPGAINALYNLQ--------------- 552
           P  +NA +V EFY+NI E     ++VRGI + ++P AIN  + LQ               
Sbjct: 68  PVPVNATIVKEFYSNITEPNQHAVMVRGISIRFTPTAINRYFKLQVADDHNTSFAQEVDH 127

Query: 553 ----------DFPHTRYNEMAVAPS--------------NEQLSDRLLPTTHDSTVSRER 612
                       P TR+N   +                 N  +  +L+PT+H++TVS +R
Sbjct: 128 ETYQGILEDLCLPGTRWNGQQLKRKTVDRDRLLPHVKLWNHFMKHKLMPTSHNTTVSCQR 187

Query: 613 VLLAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKKAGVPKNDGDVILFD 672
           +LL  +IL   +ID+GKII      C K++   L FPN IT LC+K  V +   D IL  
Sbjct: 188 MLLLHSILTGRTIDIGKIIVEHAHLCLKRQASALVFPNLITALCRKKKVREEMFDEILSG 247

Query: 673 KGIIDTPNLARLQRTQEAR------------QGGLVFGIHNILEQLALSASRQEFAERQS 700
              ++   +  L   +EA+                V      LEQ A+  + Q   +   
Sbjct: 248 IAGLNKAKIPMLLGYKEAKGKKHEATTSRVASSPHVRASSTDLEQ-AVQRTHQHVGQLSD 307

[Close]
BLAST of Spg019899 vs. NCBI nr
Match: PON59596.1 (hypothetical protein PanWU01x14_158080 [Parasponia andersonii])

HSP 1 Score: 115.2 bits (287), Expect = 2.4e-21
Identity = 71/188 (37.77%), Postives = 98/188 (52.13%), Query Frame = 0 

Query: 550 LSDRLLPTTHDSTVSRERVLLAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITM 609
           L  RLLPTTH  TVS++R+LL +++L   SI+VG++I SEI  C  +K G LFFP+ IT 
Sbjct: 52  LKSRLLPTTHGKTVSKDRMLLLYSMLTGKSINVGRMIHSEIRACAARKSGALFFPSLITQ 111

Query: 610 LCKKAGVPKNDGDVILFDKGIIDTPNLARL------QRTQE-----------ARQGGLVF 669
           LC+ A  P    +  L   G ID   +AR+      + TQ+           +R  G + 
Sbjct: 112 LCRNARAPFLVNEEKLHITGEIDAIAVARITQEGQTELTQQPSTSRPTVASSSRANGDIL 171

Query: 670 GIHNILEQLALSASRQEF--------AERQSLTFWSYVKRRDANLKKALEENFSKPYPDL 713
                LEQ       Q++          +Q   FW+Y K RD  LKKAL+ NF++P P  
Sbjct: 172 QQLKALEQRLSQQEVQQYHMMSLLQHTHKQQQQFWAYSKERDTALKKALQNNFTRPIPTF 231

[Close]
BLAST of Spg019899 vs. ExPASy TrEMBL
Match: A0A2P5BCG4 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_251180 PE=4 SV=1)

HSP 1 Score: 158.3 bits (399), Expect = 1.2e-34
Identity = 112/348 (32.18%), Postives = 159/348 (45.69%), Query Frame = 0 

Query: 438 VLFVNRLTRAKYD-ELLKRDFLFERGF-------SGDLPHFLRVGITNHGWELFCSKPES 497
           V F       +Y+  +  R    E+GF        G LP   +V IT H W+ FC+ PE 
Sbjct: 23  VKFETEAAATRYENNIQNRPLNAEKGFVLDNSETMGQLPFIAQV-ITQHNWKQFCAHPED 82

Query: 498 MNAQVVHEFYANIDEEEGFQIIVRGIEVGWSPGAINALYNLQDFPHTRYNEM-------- 557
               +V EFYAN+ + E   + VRG++V WS  AINA++ L D P   ++E         
Sbjct: 83  PIVPLVREFYANLTDPEENTVYVRGVQVSWSEEAINAVFGLGD-PVDEHSEFIQNITQQD 142

Query: 558 ----------------------------AVAPSNEQ----LSDRLLPTTHDSTVSRERVL 617
                                       A+ P+ +     L  RLLPTTH  TVS++R+L
Sbjct: 143 LITVLETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLLPTTHGKTVSKDRML 202

Query: 618 LAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKKAGVPKNDGDVILFDKG 677
           L  ++L   SI+VG++I SEI  C  +K G LFFP+ IT LC+ A  P    +  L + G
Sbjct: 203 LLHSMLIGKSINVGRMIHSEIRACAARKTGALFFPSLITRLCRNARAPFLVNEEKLHNTG 262

Query: 678 IIDTPNLARL------QRTQEA-----------RQGGLVFGIHNILEQLALSASRQEF-- 713
            ID   +AR+      + TQ+            R  G +      LEQ       Q++  
Sbjct: 263 EIDAIAVARIAQEGPTESTQQPSSSRPATASSNRTNGDILQQLKALEQRLSQQEVQQYHM 322

[Close]
BLAST of Spg019899 vs. ExPASy TrEMBL
Match: A0A2P5DXM3 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE=4 SV=1)

HSP 1 Score: 136.3 bits (342), Expect = 4.9e-28
Identity = 95/275 (34.55%), Postives = 130/275 (47.27%), Query Frame = 0 

Query: 494 VVHEFYANIDEEEGFQIIVRGIEVGWSPGAINALYNLQD--FPHTRYNEMAVAPS----- 553
           +V EFYAN+ + E   I VRG++V WS  AINA++ L D    H+ + E    P      
Sbjct: 16  LVREFYANLTDPEENTIYVRGVQVSWSEEAINAVFGLGDPVDEHSEFIENITEPELITVL 75

Query: 554 --------------------------------NEQLSDRLLPTTHDSTVSRERVLLAFAI 613
                                              L  RLLPTTH   VS++R+LL  ++
Sbjct: 76  ETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLLPTTHGKIVSKDRMLLLHSM 135

Query: 614 LRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKKAGVPKNDGDVILFDKGIIDTP 673
           L   SI+VG++I SEI  C  +K G LFFP+ IT LC+ A    N+    L + G ID  
Sbjct: 136 LNGKSINVGRMIHSEIRACAAQKTGALFFPSLITRLCRNAPFLVNEEK--LHNTGEIDAI 195

Query: 674 NLARL------QRTQE-----------ARQGGLVFGIHNILEQLALSASRQEFAERQSLT 713
            +AR+      + TQ+           +R  G V      LEQ     S+QE   +Q   
Sbjct: 196 AVARITQEGPTESTQQPSSSRPAAASSSRTNGDVLQQLKALEQ---RLSQQEHTHKQQQQ 255

[Close]
BLAST of Spg019899 vs. ExPASy TrEMBL
Match: A0A2P5AGA5 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_335450 PE=4 SV=1)

HSP 1 Score: 121.7 bits (304), Expect = 1.3e-23
Identity = 86/254 (33.86%), Postives = 121/254 (47.64%), Query Frame = 0 

Query: 438 VLFVNRLTRAKYD-ELLKRDFLFERGF-------SGDLPHFLRVGITNHGWELFCSKPES 497
           V F       +Y+  +  R    E+GF        G LP   +V IT H W+ FC+ PE 
Sbjct: 14  VKFETEAAETRYENNIQNRPLNAEKGFVLDNSETMGQLPFIAQV-ITQHNWKQFCAHPED 73

Query: 498 MNAQVVHEFYANIDEEEGFQIIVRGIEVGWSPGAINALYNLQD--FPHTRYNE------- 557
               +V EFYAN+ +     + VRG++V WS  AINA++ L D    H+ + E       
Sbjct: 74  PIVPLVREFYANLTDPVENTVYVRGVQVSWSEEAINAVFGLGDPVDEHSEFIENITEHDL 133

Query: 558 ------MAVAPSNEQLS------------------------DRLLPTTHDSTVSRERVLL 617
                 +AVA +   +S                          LLPTTH  TVS++R+LL
Sbjct: 134 ITVLETVAVAGAEWNVSAQGAYTCIRSALTPAAKVWFHFLKSHLLPTTHGKTVSKDRMLL 193

Query: 618 AFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKKAGVPKNDGDVILFDKGI 645
             ++L   SI+VG++I SEI  C  +K G LFFP+ IT LC+ A  P    +  L + G 
Sbjct: 194 LHSMLIGKSINVGRMIHSEIRACAARKTGALFFPSLITRLCRNARAPFLVNEEKLHNTGE 253

[Close]
BLAST of Spg019899 vs. ExPASy TrEMBL
Match: A0A6A2ZUE4 (Uncharacterized protein OS=Hibiscus syriacus OX=106335 GN=F3Y22_tig00110733pilonHSYRG00282 PE=4 SV=1)

HSP 1 Score: 119.8 bits (299), Expect = 4.8e-23
Identity = 92/326 (28.22%), Postives = 138/326 (42.33%), Query Frame = 0 

Query: 433 PQLSYVLFVNRLTRAKYDELLKRDFLFERGFSGDLPHFLRVG------ITNHGWELFCSK 492
           P  S   FV+   +  Y  +  R   FE GF         +G      +T H W+ F   
Sbjct: 8   PPPSPPCFVDEAAKEHYQTIKNRRVFFELGFVFSEAENANLGSEVLDVVTKHKWQKFAKH 67

Query: 493 PESMNAQVVHEFYANIDEEEGFQIIVRGIEVGWSPGAINALYNLQ--------------- 552
           P  +NA +V EFY+NI E     ++VRGI + ++P AIN  + LQ               
Sbjct: 68  PVPVNATIVKEFYSNITEPNQHAVMVRGISIRFTPTAINRYFKLQVADDHNTSFAQEVDH 127

Query: 553 ----------DFPHTRYNEMAVAPS--------------NEQLSDRLLPTTHDSTVSRER 612
                       P TR+N   +                 N  +  +L+PT+H++TVS +R
Sbjct: 128 ETYQGILEDLCLPGTRWNGQQLKRKTVDRDRLLPHVKLWNHFMKHKLMPTSHNTTVSCQR 187

Query: 613 VLLAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITMLCKKAGVPKNDGDVILFD 672
           +LL  +IL   +ID+GKII      C K++   L FPN IT LC+K  V +   D IL  
Sbjct: 188 MLLLHSILTGRTIDIGKIIVEHAHLCLKRQASALVFPNLITALCRKKKVREEMFDEILSG 247

Query: 673 KGIIDTPNLARLQRTQEAR------------QGGLVFGIHNILEQLALSASRQEFAERQS 700
              ++   +  L   +EA+                V      LEQ A+  + Q   +   
Sbjct: 248 IAGLNKAKIPMLLGYKEAKGKKHEATTSRVASSPHVRASSTDLEQ-AVQRTHQHVGQLSD 307

[Close]
BLAST of Spg019899 vs. ExPASy TrEMBL
Match: A0A2P5CEY2 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_158080 PE=4 SV=1)

HSP 1 Score: 115.2 bits (287), Expect = 1.2e-21
Identity = 71/188 (37.77%), Postives = 98/188 (52.13%), Query Frame = 0 

Query: 550 LSDRLLPTTHDSTVSRERVLLAFAILRSLSIDVGKIIASEISGCWKKKVGKLFFPNTITM 609
           L  RLLPTTH  TVS++R+LL +++L   SI+VG++I SEI  C  +K G LFFP+ IT 
Sbjct: 52  LKSRLLPTTHGKTVSKDRMLLLYSMLTGKSINVGRMIHSEIRACAARKSGALFFPSLITQ 111

Query: 610 LCKKAGVPKNDGDVILFDKGIIDTPNLARL------QRTQE-----------ARQGGLVF 669
           LC+ A  P    +  L   G ID   +AR+      + TQ+           +R  G + 
Sbjct: 112 LCRNARAPFLVNEEKLHITGEIDAIAVARITQEGQTELTQQPSTSRPTVASSSRANGDIL 171

Query: 670 GIHNILEQLALSASRQEF--------AERQSLTFWSYVKRRDANLKKALEENFSKPYPDL 713
                LEQ       Q++          +Q   FW+Y K RD  LKKAL+ NF++P P  
Sbjct: 172 QQLKALEQRLSQQEVQQYHMMSLLQHTHKQQQQFWAYSKERDTALKKALQNNFTRPIPTF 231

The following BLAST results are available for this feature:
BLAST of Spg019899 vs. NCBI nr
Match NameE-valueIdentityDescription
PON46472.12.5e-3432.18hypothetical protein PanWU01x14_251180, partial [Parasponia andersonii][more]
PON78020.11.0e-2734.55hypothetical protein PanWU01x14_023740 [Parasponia andersonii][more]
PON35554.12.6e-2333.86hypothetical protein PanWU01x14_335450, partial [Parasponia andersonii][more]
KAE8695166.19.8e-2328.22hypothetical protein F3Y22_tig00110733pilonHSYRG00282 [Hibiscus syriacus][more]
PON59596.12.4e-2137.77hypothetical protein PanWU01x14_158080 [Parasponia andersonii][more]
BLAST of Spg019899 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Spg019899 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A2P5BCG41.2e-3432.18Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1... [more]
A0A2P5DXM34.9e-2834.55Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE... [more]
A0A2P5AGA51.3e-2333.86Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1... [more]
A0A6A2ZUE44.8e-2328.22Uncharacterized protein OS=Hibiscus syriacus OX=106335 GN=F3Y22_tig00110733pilon... [more]
A0A2P5CEY21.2e-2137.77Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_158080 PE... [more]
BLAST of Spg019899 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableCOILSCoilCoilcoord: 375..409
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 338..427
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 275..324
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 356..414

Relationships

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

Feature NameUnique NameType
Spg019899.1Spg019899.1mRNA