Spg026685 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg026685
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
DescriptionUnknown protein
Locationscaffold6: 19832091 .. 19843046 (-)
RNA-Seq ExpressionSpg026685
SyntenySpg026685
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGAGCGATCCGCCTGGGGTACGGTTTGAGCTTGATCCAGAAATTGAGAGAACATTTAGGAACAGAAGGAGGGAGCAGCGCAGAAACCAGATGGAGAACGCCCCGCAACTTCCGCAGATTCCTGAAGGTCCAGCAGCAGTAAACCCCCAGCAGAATCCGTTGCTGCAGCAAAACCCACTGATTGCATTTTGCTGGAGCCCTATTTATTCACAACCGCTGACTAGAGCTAGAAAAGAAAGAGAGAGTGAAGAGGAGGAGGTGCCGGTTACGCCGGAAGTGCAGAAAGGAAAAACCAAGAAGAAAAGAACGCCGGAAGAGAAAGAAGTTAAGAGAAGGAGACGGCAACAGAGGGCTGAGGAACGAGAAAATGTCCAGAAAGCAACGGAAGAAGTGGTTGAAGAAGATCCGCAAGAACCTGTTGTACAGAACCCCGAGCAGGATGAGCCAAGAGTCGCGGATACAGAGGAAGTCCAAGAAACGGGACACACTGAGGAAAATCAAGAGCAACAGAATAAGGATATGCAGGCAGAGGGTGCGACTGAGGAGGAGCCAGTTCAGGAGGCTCGTGTTGAGGTCATCATGCCAGAACCTCCAAAACGTCGCCGCATTAAGCGGAAGGCTGGGCGCGTTCAGGTGATGCGGACTGATACCCCATCACCGCCGTCGCCGGATTCTGAGAAAGAGAAGGCAGAGCGAGAGGAACAAGAGAAAAAAGAAGCTGAGGAAAAAGCGCGAGAAGAAGCAAAGAAGGCTGAGGAAGAGATTTTGCGCAAGCGAAGAGAAGACAAGGGCAAAGGTATTGCCGAGGCATCAGGTGCGGCTGATGAGGTTGAAGCACAAGGGTTACCTTTTATTCGCTTCGTCAACAACCTTGCTCGAGCAAAATACCAGGAGATGCTGAAACGGGACTTTCTGTTCGAACGAGGATTTGGCAATGAGTTGCCACGGTTCTTGAGGACTGGAATAGAGAACCTCGGCTGGAGCCAATTTTGTGCGAAACCAGAGCCTGTGAATTCCAACTTTGTTCGGGAATTTTACGCAAATCTTGACGATAAGGAAGAATTTCAGGTTATAGTTCGAGGAGTCCCAGTGGATTGGAGCCCAGAAGCTGTTAATGACTTGTTTGATCTCCAGGATTTTCCGCATGCAGCCTTCAATGAGATGGTGGTTGCCCCATTTAACGACCAGTTAAGTGCGGCTGTCCGAGAGGTTGGCATTGAAGGGGCCCAGTGGAGGTTGTCGCAGACGCGGAAGCGCACATTTCAGGCAGCTTATTTGAAAAGCGAGGCCAACACCTGGATGGGTTTTATTAAGTTGCGCTTACTACCGACTACGCATGACTCCACAGTATCTCGGGACAGGGTATTGCTTGCCTTTGCTATTCTTCGCTCAATGAGTATTGATGTAGGAAAAATAATTTCGGCAGGGGTGCCAGAGAGTGAGGACGATATGATATTACCAGATAAGGGAATAATTGATACGCCAAATTTGGCTAGGCTTCAGAGAACACAGGAAGCACGCCAAGGGGGTTTGGTGTGCGGCATCCAACAAATTCAGGAGCTGTTGCAGTTGCATTCCAGCAGAATGGAATTCGCTGAAAGGCAATTTCAGACTTTCTGGGACTATGTAAAGAGAAGGGATGCCGCTCCGTCGCCGGCCACCGCCACCACTAACGCCGGCCGCCGACAACCTCAAAAGTTCTTCTTCTCCGACATAGTCCTTGTCGGCTCCGACGACGCCAAATCTGGTTTCTGCTCTCACGATCTCGTCGGATCTAGCCGTCTCAACGTGTGCTTTCATCCCGTCCTCCATCGATCCGAACCAGAAGCTTCCTCCCTGCTATACGTCCACGGCAGAGCCTTCTGCATCAAGCTTTCAGATTTCAGATCTGTCGTCGTCGTGGGTTCACTTGCCGCTAAGGGCGTCGCCGTGGGTTCACTTGTCGCCGTCTCCGTCGAGTACCAGATCTGTCGTCTTCCACTCGTTCCAGATCTCGATTTTTTCTTCTTCTTTGTTCCAGAACGAGCCTTGCTTCAATCATTTCAGCCCCGCTTCGTCGATTCGAACGAACCCTCGTCGATTCAAACGCTGGATCTGGAACGAGGCTCCCTTCCCTTCCCTCTCCGAACGTCGGATTTCCTAGTTGGTGATGAGCTTGAGGCAAGGGTATACTGCACCATAAAGTGGGTCATCTCATGCTTAAGAGCTTATGACTGTAAAGCTGCTCTAAGTCTGATAAATAAGCCCCCGAATCATTTTGCTGCAGCAGAGCTTGGTTTTGCAGAGTACTCAGATAAAGATTATGCTGCTGGGCGACTGGAGGGAGCAAATTCTGTGCTGCAGCAAAACTGGGAGCAGAAACTGCCACGTCACAGCTCGTTAGCCAACTTCATGAACCGACTTCTGTTGAGTTATTTTCGGGATAAAGGAGCAAGGAGAGCCTTACACGTGTCCTAG

Coding sequence (CDS)

ATGAGCGATCCGCCTGGGGTACGGTTTGAGCTTGATCCAGAAATTGAGAGAACATTTAGGAACAGAAGGAGGGAGCAGCGCAGAAACCAGATGGAGAACGCCCCGCAACTTCCGCAGATTCCTGAAGGTCCAGCAGCAGTAAACCCCCAGCAGAATCCGTTGCTGCAGCAAAACCCACTGATTGCATTTTGCTGGAGCCCTATTTATTCACAACCGCTGACTAGAGCTAGAAAAGAAAGAGAGAGTGAAGAGGAGGAGGTGCCGGTTACGCCGGAAGTGCAGAAAGGAAAAACCAAGAAGAAAAGAACGCCGGAAGAGAAAGAAGTTAAGAGAAGGAGACGGCAACAGAGGGCTGAGGAACGAGAAAATGTCCAGAAAGCAACGGAAGAAGTGGTTGAAGAAGATCCGCAAGAACCTGTTGTACAGAACCCCGAGCAGGATGAGCCAAGAGTCGCGGATACAGAGGAAGTCCAAGAAACGGGACACACTGAGGAAAATCAAGAGCAACAGAATAAGGATATGCAGGCAGAGGGTGCGACTGAGGAGGAGCCAGTTCAGGAGGCTCGTGTTGAGGTCATCATGCCAGAACCTCCAAAACGTCGCCGCATTAAGCGGAAGGCTGGGCGCGTTCAGGTGATGCGGACTGATACCCCATCACCGCCGTCGCCGGATTCTGAGAAAGAGAAGGCAGAGCGAGAGGAACAAGAGAAAAAAGAAGCTGAGGAAAAAGCGCGAGAAGAAGCAAAGAAGGCTGAGGAAGAGATTTTGCGCAAGCGAAGAGAAGACAAGGGCAAAGGTATTGCCGAGGCATCAGGTGCGGCTGATGAGGTTGAAGCACAAGGGTTACCTTTTATTCGCTTCGTCAACAACCTTGCTCGAGCAAAATACCAGGAGATGCTGAAACGGGACTTTCTGTTCGAACGAGGATTTGGCAATGAGTTGCCACGGTTCTTGAGGACTGGAATAGAGAACCTCGGCTGGAGCCAATTTTGTGCGAAACCAGAGCCTGTGAATTCCAACTTTGTTCGGGAATTTTACGCAAATCTTGACGATAAGGAAGAATTTCAGGTTATAGTTCGAGGAGTCCCAGTGGATTGGAGCCCAGAAGCTGTTAATGACTTGTTTGATCTCCAGGATTTTCCGCATGCAGCCTTCAATGAGATGGTGGTTGCCCCATTTAACGACCAGTTAAGTGCGGCTGTCCGAGAGGTTGGCATTGAAGGGGCCCAGTGGAGGTTGTCGCAGACGCGGAAGCGCACATTTCAGGCAGCTTATTTGAAAAGCGAGGCCAACACCTGGATGGGTTTTATTAAGTTGCGCTTACTACCGACTACGCATGACTCCACAGTATCTCGGGACAGGGTATTGCTTGCCTTTGCTATTCTTCGCTCAATGAGTATTGATGTAGGAAAAATAATTTCGGCAGGGGTGCCAGAGAGTGAGGACGATATGATATTACCAGATAAGGGAATAATTGATACGCCAAATTTGGCTAGGCTTCAGAGAACACAGGAAGCACGCCAAGGGGGTTTGGTGTGCGGCATCCAACAAATTCAGGAGCTGTTGCAGTTGCATTCCAGCAGAATGGAATTCGCTGAAAGGCAATTTCAGACTTTCTGGGACTATGTAAAGAGAAGGGATGCCGCTCCGTCGCCGGCCACCGCCACCACTAACGCCGGCCGCCGACAACCTCAAAAGTTCTTCTTCTCCGACATAGTCCTTGTCGGCTCCGACGACGCCAAATCTGGTTTCTGCTCTCACGATCTCGTCGGATCTAGCCGTCTCAACGTGTGCTTTCATCCCGTCCTCCATCGATCCGAACCAGAAGCTTCCTCCCTGCTATACGTCCACGGCAGAGCCTTCTGCATCAAGCTTTCAGATTTCAGATCTGTCGTCGTCGTGGGTTCACTTGCCGCTAAGGGCGTCGCCGTGGGTTCACTTGTCGCCGTCTCCGTCGAGTACCAGATCTGTCGTCTTCCACTCGTTCCAGATCTCGATTTTTTCTTCTTCTTTGTTCCAGAACGAGCCTTGCTTCAATCATTTCAGCCCCGCTTCGTCGATTCGAACGAACCCTCGTCGATTCAAACGCTGGATCTGGAACGAGGCTCCCTTCCCTTCCCTCTCCGAACGTCGGATTTCCTAGTTGGTGATGAGCTTGAGGCAAGGGTATACTGCACCATAAAGTGGGTCATCTCATGCTTAAGAGCTTATGACTGTAAAGCTGCTCTAAGTCTGATAAATAAGCCCCCGAATCATTTTGCTGCAGCAGAGCTTGGTTTTGCAGAGTACTCAGATAAAGATTATGCTGCTGGGCGACTGGAGGGAGCAAATTCTGTGCTGCAGCAAAACTGGGAGCAGAAACTGCCACGTCACAGCTCGTTAGCCAACTTCATGAACCGACTTCTGTTGAGTTATTTTCGGGATAAAGGAGCAAGGAGAGCCTTACACGTGTCCTAG

Protein sequence

MSDPPGVRFELDPEIERTFRNRRREQRRNQMENAPQLPQIPEGPAAVNPQQNPLLQQNPLIAFCWSPIYSQPLTRARKERESEEEEVPVTPEVQKGKTKKKRTPEEKEVKRRRRQQRAEERENVQKATEEVVEEDPQEPVVQNPEQDEPRVADTEEVQETGHTEENQEQQNKDMQAEGATEEEPVQEARVEVIMPEPPKRRRIKRKAGRVQVMRTDTPSPPSPDSEKEKAEREEQEKKEAEEKAREEAKKAEEEILRKRREDKGKGIAEASGAADEVEAQGLPFIRFVNNLARAKYQEMLKRDFLFERGFGNELPRFLRTGIENLGWSQFCAKPEPVNSNFVREFYANLDDKEEFQVIVRGVPVDWSPEAVNDLFDLQDFPHAAFNEMVVAPFNDQLSAAVREVGIEGAQWRLSQTRKRTFQAAYLKSEANTWMGFIKLRLLPTTHDSTVSRDRVLLAFAILRSMSIDVGKIISAGVPESEDDMILPDKGIIDTPNLARLQRTQEARQGGLVCGIQQIQELLQLHSSRMEFAERQFQTFWDYVKRRDAAPSPATATTNAGRRQPQKFFFSDIVLVGSDDAKSGFCSHDLVGSSRLNVCFHPVLHRSEPEASSLLYVHGRAFCIKLSDFRSVVVVGSLAAKGVAVGSLVAVSVEYQICRLPLVPDLDFFFFFVPERALLQSFQPRFVDSNEPSSIQTLDLERGSLPFPLRTSDFLVGDELEARVYCTIKWVISCLRAYDCKAALSLINKPPNHFAAAELGFAEYSDKDYAAGRLEGANSVLQQNWEQKLPRHSSLANFMNRLLLSYFRDKGARRALHVS
Homology
[Close]
BLAST of Spg026685 vs. NCBI nr
Match: PON46472.1 (hypothetical protein PanWU01x14_251180, partial [Parasponia andersonii])

HSP 1 Score: 125.6 bits (314), Expect = 2.0e-24
Identity = 102/324 (31.48%), Postives = 145/324 (44.75%), Query Frame = 0 

Query: 285 IRFVNNLARAKYQEMLK-RDFLFERGF-------GNELPRFLRTGIENLGWSQFCAKPEP 344
           ++F    A  +Y+  ++ R    E+GF         +LP F+   I    W QFCA PE 
Sbjct: 23  VKFETEAAATRYENNIQNRPLNAEKGFVLDNSETMGQLP-FIAQVITQHNWKQFCAHPED 82

Query: 345 VNSNFVREFYANLDDKEEFQVIVRGVPVDWSPEAVNDLFDLQDFPHAAFNEMVVAPFNDQ 404
                VREFYANL D EE  V VRGV V WS EA+N +F L D P    +E +       
Sbjct: 83  PIVPLVREFYANLTDPEENTVYVRGVQVSWSEEAINAVFGLGD-PVDEHSEFIQNITQQD 142

Query: 405 LSAAVREVGIEGAQWRLSQTRKRTFQAAYLKSEANTWMGFIKLRLLPTTHDSTVSRDRVL 464
           L   +  V   GA+W +S     T   + L   A  W  F+K RLLPTTH  TVS+DR+L
Sbjct: 143 LITVLETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLLPTTHGKTVSKDRML 202

Query: 465 LAFAILRSMSIDVGKII--------------------------SAGVPESEDDMILPDKG 524
           L  ++L   SI+VG++I                          +A  P   ++  L + G
Sbjct: 203 LLHSMLIGKSINVGRMIHSEIRACAARKTGALFFPSLITRLCRNARAPFLVNEEKLHNTG 262

Query: 525 IIDTPNLARLQR---TQEARQ---------------GGLVCGIQQI------QELLQLH- 550
            ID   +AR+ +   T+  +Q               G ++  ++ +      QE+ Q H 
Sbjct: 263 EIDAIAVARIAQEGPTESTQQPSSSRPATASSNRTNGDILQQLKALEQRLSQQEVQQYHM 322

[Close]
BLAST of Spg026685 vs. NCBI nr
Match: PON35554.1 (hypothetical protein PanWU01x14_335450, partial [Parasponia andersonii])

HSP 1 Score: 120.6 bits (301), Expect = 6.5e-23
Identity = 75/201 (37.31%), Postives = 103/201 (51.24%), Query Frame = 0 

Query: 285 IRFVNNLARAKYQEMLK-RDFLFERGF-------GNELPRFLRTGIENLGWSQFCAKPEP 344
           ++F    A  +Y+  ++ R    E+GF         +LP F+   I    W QFCA PE 
Sbjct: 14  VKFETEAAETRYENNIQNRPLNAEKGFVLDNSETMGQLP-FIAQVITQHNWKQFCAHPED 73

Query: 345 VNSNFVREFYANLDDKEEFQVIVRGVPVDWSPEAVNDLFDLQDFPHAAFNEMVVAPFNDQ 404
                VREFYANL D  E  V VRGV V WS EA+N +F L D P    +E +       
Sbjct: 74  PIVPLVREFYANLTDPVENTVYVRGVQVSWSEEAINAVFGLGD-PVDEHSEFIENITEHD 133

Query: 405 LSAAVREVGIEGAQWRLSQTRKRTFQAAYLKSEANTWMGFIKLRLLPTTHDSTVSRDRVL 464
           L   +  V + GA+W +S     T   + L   A  W  F+K  LLPTTH  TVS+DR+L
Sbjct: 134 LITVLETVAVAGAEWNVSAQGAYTCIRSALTPAAKVWFHFLKSHLLPTTHGKTVSKDRML 193

Query: 465 LAFAILRSMSIDVGKIISAGV 478
           L  ++L   SI+VG++I + +
Sbjct: 194 LLHSMLIGKSINVGRMIHSEI 212

[Close]
BLAST of Spg026685 vs. NCBI nr
Match: PON70375.1 (hypothetical protein PanWU01x14_080440 [Parasponia andersonii])

HSP 1 Score: 115.9 bits (289), Expect = 1.6e-21
Identity = 68/198 (34.34%), Postives = 104/198 (52.53%), Query Frame = 0 

Query: 285 IRFVNNLARAKYQE-------MLKRDFLFERGFGNELPRFLRTGIENLGWSQFCAKPEPV 344
           ++F +  A  +Y+E        ++++F+++     E P F+   I    W  FCA PE  
Sbjct: 44  VKFESKAAEIRYEENIQNRPLSVEKEFVWDNSKPLEQPPFIADVIIQHNWQLFCAHPEDP 103

Query: 345 NSNFVREFYANLDDKEEFQVIVRGVPVDWSPEAVNDLFDLQD--FPHAAFNEMVVAPFND 404
               VREFY N+ + ++  V +RGV V  S EA+N +F L D    H+ F E +  P   
Sbjct: 104 IVPLVREFYTNMTNPDDDTVYIRGVQVPLSVEAINTIFSLGDPIDEHSEFVEDITKP--- 163

Query: 405 QLSAAVREVGIEGAQWRLSQTRKRTFQAAYLKSEANTWMGFIKLRLLPTTHDSTVSRDRV 464
           +L   +  V I GA+W +S     T   + L   A  W  F+K RLLPTTH  TVS++ V
Sbjct: 164 ELVIVLETVAIVGAEWNVSSQGAYTCLRSSLNPPAKVWYHFLKSRLLPTTHGKTVSKEHV 223

Query: 465 LLAFAILRSMSIDVGKII 474
            L +++L   SI+VG++I
Sbjct: 224 SLLYSMLTGKSINVGRMI 238

[Close]
BLAST of Spg026685 vs. NCBI nr
Match: EXB53755.1 (hypothetical protein L484_022412 [Morus notabilis])

HSP 1 Score: 109.8 bits (273), Expect = 1.2e-19
Identity = 66/215 (30.70%), Postives = 104/215 (48.37%), Query Frame = 0 

Query: 315 PRFLRTGIENLGWSQFCAKPEPVNSNFVREFYANLDDKEEFQVIVRGVPVDWSPEAVNDL 374
           P F+   I   GW QFC  P       VREFYANL D  +  V V+ V V ++  A+N +
Sbjct: 4   PAFITRVIHQHGWRQFCQHPSNPIVPLVREFYANLLDFNQETVFVQNVKVPFTARAINSI 63

Query: 375 FDLQDFPHAAFNEMVVAPFNDQLSAAVREVGIEGAQWRLSQTRKRTFQAAYLKSEANTWM 434
           F L++     + +      ++QL   + EV IEGA W++S     T     LK  A  W 
Sbjct: 64  FGLEEVVD-EYVDFASEVTDEQLEVVLAEVAIEGATWQISPQGAYTCIRKELKRHAQIWY 123

Query: 435 GFIKLRLLPTTHDSTVSRDRVLLAFAILRSMSIDVGKI---------------------- 494
            F+  R +P+TH  TV++DRVLL ++IL  +S+++ +I                      
Sbjct: 124 HFLTARFMPSTHGKTVAKDRVLLLYSILTGISVNIEEITIKEIKACSAARKRGGLYFPSL 183

Query: 495 -----ISAGVPESEDDMILPDKGIIDTPNLARLQR 503
                + A VP  +D+ I+ + G I T +++R+ +
Sbjct: 184 ITQLWLKANVPYHKDEAIVHNAGAISTLSISRISQ 217

[Close]
BLAST of Spg026685 vs. NCBI nr
Match: PON78020.1 (hypothetical protein PanWU01x14_023740 [Parasponia andersonii])

HSP 1 Score: 109.8 bits (273), Expect = 1.2e-19
Identity = 86/251 (34.26%), Postives = 119/251 (47.41%), Query Frame = 0 

Query: 342 VREFYANLDDKEEFQVIVRGVPVDWSPEAVNDLFDLQD--FPHAAFNEMVVAPFNDQLSA 401
           VREFYANL D EE  + VRGV V WS EA+N +F L D    H+ F E +  P   +L  
Sbjct: 17  VREFYANLTDPEENTIYVRGVQVSWSEEAINAVFGLGDPVDEHSEFIENITEP---ELIT 76

Query: 402 AVREVGIEGAQWRLSQTRKRTFQAAYLKSEANTWMGFIKLRLLPTTHDSTVSRDRVLLAF 461
            +  V   GA+W +S     T   + L   A  W  F+K RLLPTTH   VS+DR+LL  
Sbjct: 77  VLETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLLPTTHGKIVSKDRMLLLH 136

Query: 462 AILRSMSIDVGKIISAGV------------------------PESEDDMILPDKGIIDTP 521
           ++L   SI+VG++I + +                        P   ++  L + G ID  
Sbjct: 137 SMLNGKSINVGRMIHSEIRACAAQKTGALFFPSLITRLCRNAPFLVNEEKLHNTGEIDAI 196

Query: 522 NLARL------QRTQE-----------ARQGGLVCGIQQIQELLQLHSSRMEFAERQFQT 550
            +AR+      + TQ+           +R  G V  +QQ++ L Q   S+ E   +Q Q 
Sbjct: 197 AVARITQEGPTESTQQPSSSRPAAASSSRTNGDV--LQQLKALEQ-RLSQQEHTHKQQQQ 256

[Close]
BLAST of Spg026685 vs. ExPASy TrEMBL
Match: A0A2P5BCG4 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_251180 PE=4 SV=1)

HSP 1 Score: 125.6 bits (314), Expect = 9.8e-25
Identity = 102/324 (31.48%), Postives = 145/324 (44.75%), Query Frame = 0 

Query: 285 IRFVNNLARAKYQEMLK-RDFLFERGF-------GNELPRFLRTGIENLGWSQFCAKPEP 344
           ++F    A  +Y+  ++ R    E+GF         +LP F+   I    W QFCA PE 
Sbjct: 23  VKFETEAAATRYENNIQNRPLNAEKGFVLDNSETMGQLP-FIAQVITQHNWKQFCAHPED 82

Query: 345 VNSNFVREFYANLDDKEEFQVIVRGVPVDWSPEAVNDLFDLQDFPHAAFNEMVVAPFNDQ 404
                VREFYANL D EE  V VRGV V WS EA+N +F L D P    +E +       
Sbjct: 83  PIVPLVREFYANLTDPEENTVYVRGVQVSWSEEAINAVFGLGD-PVDEHSEFIQNITQQD 142

Query: 405 LSAAVREVGIEGAQWRLSQTRKRTFQAAYLKSEANTWMGFIKLRLLPTTHDSTVSRDRVL 464
           L   +  V   GA+W +S     T   + L   A  W  F+K RLLPTTH  TVS+DR+L
Sbjct: 143 LITVLETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLLPTTHGKTVSKDRML 202

Query: 465 LAFAILRSMSIDVGKII--------------------------SAGVPESEDDMILPDKG 524
           L  ++L   SI+VG++I                          +A  P   ++  L + G
Sbjct: 203 LLHSMLIGKSINVGRMIHSEIRACAARKTGALFFPSLITRLCRNARAPFLVNEEKLHNTG 262

Query: 525 IIDTPNLARLQR---TQEARQ---------------GGLVCGIQQI------QELLQLH- 550
            ID   +AR+ +   T+  +Q               G ++  ++ +      QE+ Q H 
Sbjct: 263 EIDAIAVARIAQEGPTESTQQPSSSRPATASSNRTNGDILQQLKALEQRLSQQEVQQYHM 322

[Close]
BLAST of Spg026685 vs. ExPASy TrEMBL
Match: A0A2P5AGA5 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_335450 PE=4 SV=1)

HSP 1 Score: 120.6 bits (301), Expect = 3.2e-23
Identity = 75/201 (37.31%), Postives = 103/201 (51.24%), Query Frame = 0 

Query: 285 IRFVNNLARAKYQEMLK-RDFLFERGF-------GNELPRFLRTGIENLGWSQFCAKPEP 344
           ++F    A  +Y+  ++ R    E+GF         +LP F+   I    W QFCA PE 
Sbjct: 14  VKFETEAAETRYENNIQNRPLNAEKGFVLDNSETMGQLP-FIAQVITQHNWKQFCAHPED 73

Query: 345 VNSNFVREFYANLDDKEEFQVIVRGVPVDWSPEAVNDLFDLQDFPHAAFNEMVVAPFNDQ 404
                VREFYANL D  E  V VRGV V WS EA+N +F L D P    +E +       
Sbjct: 74  PIVPLVREFYANLTDPVENTVYVRGVQVSWSEEAINAVFGLGD-PVDEHSEFIENITEHD 133

Query: 405 LSAAVREVGIEGAQWRLSQTRKRTFQAAYLKSEANTWMGFIKLRLLPTTHDSTVSRDRVL 464
           L   +  V + GA+W +S     T   + L   A  W  F+K  LLPTTH  TVS+DR+L
Sbjct: 134 LITVLETVAVAGAEWNVSAQGAYTCIRSALTPAAKVWFHFLKSHLLPTTHGKTVSKDRML 193

Query: 465 LAFAILRSMSIDVGKIISAGV 478
           L  ++L   SI+VG++I + +
Sbjct: 194 LLHSMLIGKSINVGRMIHSEI 212

[Close]
BLAST of Spg026685 vs. ExPASy TrEMBL
Match: A0A2P5DAQ2 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_080440 PE=4 SV=1)

HSP 1 Score: 115.9 bits (289), Expect = 7.8e-22
Identity = 68/198 (34.34%), Postives = 104/198 (52.53%), Query Frame = 0 

Query: 285 IRFVNNLARAKYQE-------MLKRDFLFERGFGNELPRFLRTGIENLGWSQFCAKPEPV 344
           ++F +  A  +Y+E        ++++F+++     E P F+   I    W  FCA PE  
Sbjct: 44  VKFESKAAEIRYEENIQNRPLSVEKEFVWDNSKPLEQPPFIADVIIQHNWQLFCAHPEDP 103

Query: 345 NSNFVREFYANLDDKEEFQVIVRGVPVDWSPEAVNDLFDLQD--FPHAAFNEMVVAPFND 404
               VREFY N+ + ++  V +RGV V  S EA+N +F L D    H+ F E +  P   
Sbjct: 104 IVPLVREFYTNMTNPDDDTVYIRGVQVPLSVEAINTIFSLGDPIDEHSEFVEDITKP--- 163

Query: 405 QLSAAVREVGIEGAQWRLSQTRKRTFQAAYLKSEANTWMGFIKLRLLPTTHDSTVSRDRV 464
           +L   +  V I GA+W +S     T   + L   A  W  F+K RLLPTTH  TVS++ V
Sbjct: 164 ELVIVLETVAIVGAEWNVSSQGAYTCLRSSLNPPAKVWYHFLKSRLLPTTHGKTVSKEHV 223

Query: 465 LLAFAILRSMSIDVGKII 474
            L +++L   SI+VG++I
Sbjct: 224 SLLYSMLTGKSINVGRMI 238

[Close]
BLAST of Spg026685 vs. ExPASy TrEMBL
Match: A0A2P5DXM3 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE=4 SV=1)

HSP 1 Score: 109.8 bits (273), Expect = 5.6e-20
Identity = 86/251 (34.26%), Postives = 119/251 (47.41%), Query Frame = 0 

Query: 342 VREFYANLDDKEEFQVIVRGVPVDWSPEAVNDLFDLQD--FPHAAFNEMVVAPFNDQLSA 401
           VREFYANL D EE  + VRGV V WS EA+N +F L D    H+ F E +  P   +L  
Sbjct: 17  VREFYANLTDPEENTIYVRGVQVSWSEEAINAVFGLGDPVDEHSEFIENITEP---ELIT 76

Query: 402 AVREVGIEGAQWRLSQTRKRTFQAAYLKSEANTWMGFIKLRLLPTTHDSTVSRDRVLLAF 461
            +  V   GA+W +S     T   + L   A  W  F+K RLLPTTH   VS+DR+LL  
Sbjct: 77  VLETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLLPTTHGKIVSKDRMLLLH 136

Query: 462 AILRSMSIDVGKIISAGV------------------------PESEDDMILPDKGIIDTP 521
           ++L   SI+VG++I + +                        P   ++  L + G ID  
Sbjct: 137 SMLNGKSINVGRMIHSEIRACAAQKTGALFFPSLITRLCRNAPFLVNEEKLHNTGEIDAI 196

Query: 522 NLARL------QRTQE-----------ARQGGLVCGIQQIQELLQLHSSRMEFAERQFQT 550
            +AR+      + TQ+           +R  G V  +QQ++ L Q   S+ E   +Q Q 
Sbjct: 197 AVARITQEGPTESTQQPSSSRPAAASSSRTNGDV--LQQLKALEQ-RLSQQEHTHKQQQQ 256

[Close]
BLAST of Spg026685 vs. ExPASy TrEMBL
Match: W9QTD9 (Uncharacterized protein OS=Morus notabilis OX=981085 GN=L484_022412 PE=4 SV=1)

HSP 1 Score: 109.8 bits (273), Expect = 5.6e-20
Identity = 66/215 (30.70%), Postives = 104/215 (48.37%), Query Frame = 0 

Query: 315 PRFLRTGIENLGWSQFCAKPEPVNSNFVREFYANLDDKEEFQVIVRGVPVDWSPEAVNDL 374
           P F+   I   GW QFC  P       VREFYANL D  +  V V+ V V ++  A+N +
Sbjct: 4   PAFITRVIHQHGWRQFCQHPSNPIVPLVREFYANLLDFNQETVFVQNVKVPFTARAINSI 63

Query: 375 FDLQDFPHAAFNEMVVAPFNDQLSAAVREVGIEGAQWRLSQTRKRTFQAAYLKSEANTWM 434
           F L++     + +      ++QL   + EV IEGA W++S     T     LK  A  W 
Sbjct: 64  FGLEEVVD-EYVDFASEVTDEQLEVVLAEVAIEGATWQISPQGAYTCIRKELKRHAQIWY 123

Query: 435 GFIKLRLLPTTHDSTVSRDRVLLAFAILRSMSIDVGKI---------------------- 494
            F+  R +P+TH  TV++DRVLL ++IL  +S+++ +I                      
Sbjct: 124 HFLTARFMPSTHGKTVAKDRVLLLYSILTGISVNIEEITIKEIKACSAARKRGGLYFPSL 183

Query: 495 -----ISAGVPESEDDMILPDKGIIDTPNLARLQR 503
                + A VP  +D+ I+ + G I T +++R+ +
Sbjct: 184 ITQLWLKANVPYHKDEAIVHNAGAISTLSISRISQ 217

The following BLAST results are available for this feature:
BLAST of Spg026685 vs. NCBI nr
Match NameE-valueIdentityDescription
PON46472.12.0e-2431.48hypothetical protein PanWU01x14_251180, partial [Parasponia andersonii][more]
PON35554.16.5e-2337.31hypothetical protein PanWU01x14_335450, partial [Parasponia andersonii][more]
PON70375.11.6e-2134.34hypothetical protein PanWU01x14_080440 [Parasponia andersonii][more]
EXB53755.11.2e-1930.70hypothetical protein L484_022412 [Morus notabilis][more]
PON78020.11.2e-1934.26hypothetical protein PanWU01x14_023740 [Parasponia andersonii][more]
BLAST of Spg026685 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Spg026685 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A2P5BCG49.8e-2531.48Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1... [more]
A0A2P5AGA53.2e-2337.31Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1... [more]
A0A2P5DAQ27.8e-2234.34Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_080440 PE... [more]
A0A2P5DXM35.6e-2034.26Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE... [more]
W9QTD95.6e-2030.70Uncharacterized protein OS=Morus notabilis OX=981085 GN=L484_022412 PE=4 SV=1[more]
BLAST of Spg026685 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: 515..535
NoneNo IPR availableCOILSCoilCoilcoord: 223..261
NoneNo IPR availableCOILSCoilCoilcoord: 110..130
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 73..257
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 221..257
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 148..198
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 9..30
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 74..133
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..53

Relationships

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

Feature NameUnique NameType
Spg026685.1Spg026685.1mRNA