Spg020737 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg020737
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
DescriptionProtein MNN4-like
Locationscaffold10: 27856619 .. 27873726 (-)
RNA-Seq ExpressionSpg020737
SyntenySpg020737
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.
ATGGATAGAGAGCCTGAGGTTGAGGAGGTTCCTGTAACCCCTGAAGCTTCGAAGAAGAAAACTAAGAAGAAAAGTACTCCACAAGAGAAGGAAGCACGAAGGTTGCGAAAGCAACAAGAGTTGCCGTTCACTGAGGCGATTTAGAAAGTGCTGGAAGATGTTGCTGACCCTGTGCCAGAACAAGAGAATGTGGAAGAGTACTTCAGAAAAAGAAATTGAGAAAGAGAATACCCCTGAACCCATAGAAACTCAAGTTCAAGAAGTGGTTCAAGAAGCAATTTAAGAGAAGAAGCAATTTAAGAGGTGGCAGAAGTGGCAAAAGTTCAACCCCGTCCTAGGAAAAGGAGAAAGTAGAAAGCGGGACGAATTAAGCGGGTAAGAACTCCTACACCTTCTCCTCCTTCGAGTGATTCTGAAAAAGAGAAATATGAGAAAGTGAAAGAGAAATCCGTGGAAGAAGAAGTTGTGGAAGTAAGAGAAAAAGAAAAAGAAGATAAAGGAAAGAGTGTATTGGAAGATGAAGAAGAGCCAGAGGAGCGTCTGCCATATGAGATGTTCGTCAGCGAAGTTGCTCGGGCAAAATATAGAGAGATGTTGAAATGAGATTTTCTGACGGAGCGTGGATTTGATGATGGTTAGGAGCTGCCCCATTTCTTAAGAGCTGGTATCACAAATCACGGATGGGAACAGTTCTGCGCGAAACTAGAGCCAACCAATGCCCACATGGTAAGAGAATTTTATGGAAACATTGACGAACAAGAGGGTTTCCAAGTGATTGTTCGAGGTGTAGCTGTTGATTGGAGCCTAGGGGCAATCAATTCTCTGTTTAGCCTTCAAGACTTCCCACACGCTGTTTTTAATGAGATGGCTATTGCTCCCTCAAACGAGGAAATGAATGCCGCAGTTCAAGAAGTAGGTGTGGAAGGGGCCCAATGGAGATTATCCAAAACAAAGAAGAGAACGTTCCAGTCCGCTTATCTGAAGAGCAAGGCTAATACGTGGCTAGGCTTTGTAAATCTTAGATTGCTTCCCACCACCCACGACTCCACTGTTTCTAGAGATGGAGTACTTTTGGTATTTGTAATTCTGCGATGATTAAACATAGATGTTGGCAAGATCATTTCCAGTGAAGTACATAATTGCTGGCGCAAAAAGGTAGGCAAATTGTTTTTTCCGAATACCATTACGATGTTATGCAAGAGAGCGGGGGTTCTAGAAAGGGATGATGATATAAAACTATTCGACAAGGGGATCATAGAAATGCCCAATTTGGTTTGACTTCAGAGGAGTGAGGCACGCCAAGGGGGGCTATTATGTGGTGTGCACCGAGTGCAAGAACAACTTCAAATGGTAATCAGTAGGCTGAAGTTCACAGAACACCAACTCCAAACCTACTGGAGTTATGCTAAGCGGCGAGACACCACATCAAAGAAAGCTCTACAAACAAATTTTTCAAAGCCTTACTCAGCTTTTCTAGTGTTCCTCGATGATCTGATGAACTCTTGGATCCCGCCGCCGCTAGTAGTTAGAGAAGAAGAAGATGAACAAGAAGTAGAAAATGAAGATTCAAAATTTTGTCTGCTCGCAATATCTTTGATTTTCTTTGCTTTTATTTATGCTATTTCTGTTTTTCTTTTTGCTACTTCAAAAATTATCTCTGCTAATGTAAATTTTTGTTCTTATTTCACTTTTAATGAAATCTATCTTTTGTTTGTTTTTCATGGCACAACTGAGTATATACCTAACTTATTTTTCTTCTGAATTTTTGGAGCTTGGACTAGTTAGCTTAGTTAGATCAAGGTATTTTGATCTCTAGAAACCTTTTCCTTGAGCATTCCTTCTAGCCTAGTCTTAGCTGCGGCAAAAAGTTCTGAGGTAGCATTGTCTTATTTGATCCACCTTAAGCTTAGTTCTAGTCCCGCGCTTAGTCTAAATTCAGAGAAAAAATTAAGTTTGGGGGAGTTGGTTATGCGTTAATAATTCATTGAGGACAATGAATAATTTAAGTTTGGGGGACTTAGAGACACTCCTCTTGTTTGCTCCGAGCATTCCTCTCCTTCATAATTTTTCTAGGTTGTTGAGTAACCAGGGACATTTGTGACACCCACAGTTTGTCTTTGCATCAAAAGATGGCCTAGGAAAATGTTGAGAAAAAATGATGAAAAAAGGTATGTGCTTAAAAGAAAAGAAAATATTTTTGCTGAAAAATTTGACAGAGCAAAATTTTTTATGGATGAATAATAGTCTGGTAGTTTTCTATCTCCCAGGGCTTAGGTGAGCTTCATCATAACATGTCGCCATTCTGAGAAGCAAGGGATAGATAACTAAAGATGTTTGAGGCTTAGCAATGAGTGTTTAACCTAGTTGGTGATAAGCTTGAAGGCAAGGGTATACTGCATCATAAAATGGGCCATCCTGTGGATAAGAGTTTATGACTTTATGGCTGCTCTAAGTCTGAAAAACGAAAAAACAAATCCCTTAAATTTATAAAAAGTCTTTTAATGTTGCTAGGTTGTGGTAGTTCTTAGGATTGAGTTAAAGGTGGTGATTATTTGTTCAATGCTGAAAGAACTATTTTGCTGTGGCAATGCATGGTTTTGCAGGATGCTCAGGTAAAGATAGAAGGTAGTGTTGGATTATCTGTTTTAATTAAGTTGTGTTAAGTCCATTGTTCTGAATTTCTGAGAATGAGAGTTGGTATTACTCAAGACGAGCAATAGTTCAAGTTTGGGGGTGTGATAACTCTCCAAAAGGGAGTTATTTATAGTCTATTATCAGATGATTTATATGTTAATTGTACCATTTGGATGTGTTTATTGTATGGACTTATTGTGTTTTAGCCTAATTATATGAATTGATGCTTTGGAGTTTCTTTTACAGAAAAATGTAAATGTTGACCAGTTTAAGAGAGCAAAGTTTGTTGATCCAACAAAATATCAACAAAACTGGCCACGTGAGCTACACGTGATTCATTAAATGAGGTGGCATTTTCAGCATAGATCTCAAATTTACCACACTTGGGAAGTGCTCCATGTTTCATAATTGACCTAATTAGGTTAAACCTCATCTTATAAATAAGAGTAGCCGTATGAATCAAGATATTCCATCTTATGGAGGTCGATTAGAGATCAAAGCCGATTGGAGACCACAAGAAGACCATCTTGTGAATTCTCTCAAGGAAGACGAAGTCTTTCCATGTTCTTGAGGGTTTGGAGCAACCGTTTCAGCCACAATTACTAGGAGGATTAGTATTTTTTGTTTGATTTACATTATGGATGCATTTATTGAGATTGTAACGTGCTTTATGTTTCATATTATGAACTAATTACTTTTAGGCAAGGGCTAAGAACAATGTAATTGTCACTTTTATTAATCTAGAAATTCTTGTTGATTTTGAGCATCTTGATTATTTGTTGAGCATATTTTTATTATGTGTCCGCCTAGCCAACCGGTATGCATAACTTCTCTTAGTTTCAGGAATGATTTAAGAGTTGTGTGGCATTTAATCACACTAGACTGTAGATAGTTGGTGGACGCCAGTAGTTGAGTTAGGGATAACCAATTGCCTAGTGCATGATCGGTAGAACTTCATTGGAGTTGAAACACATTCCAAAAAATCCAGAGTTCCCAGAGGATCCTGCTGATAAGACTGCATGAGATTGCCTGATCAAAAGAATTGCTGGATCATTTCTATAACAATTACAGAAGTCTTAACTTGTGCCTGTTTCCATTCTGTTTCCTCTATTCGTTTACATTTTATGTTTTCTCATTTATTTTGCTTCGGCATTTTAAAACCCAATCAATTTAACCAACTTTTGAAATCACTAAAGACTAATTAAAATCAATCGAGTGAGGCTATTAAAGACCCTGTGGATATGATAAATACTTATCACTTGTTGTAGATTGTGTATGTTTGCACAGTATTTTGGAGTAAATTTGACCTATATTTTTAAGGGAAAACCTTGGAAATAGCCACAAAAAAAAAAAAAAAATCGGTTTAGAAAGATAGACAAAAAATAAAAAGGGGAAAAATGGCCAAATCGTGGGACCCACACGACTGTATTTGTTACCTGAACTTCCATTTTTGCTCTTTTCATAACTGTCTGTCTACACCTTCCTAAAAGTAAGGAAAATGTAATTGTAATCTTTTTCTCTCTACTTTTATCAATCGTTTTCTCTCTTAGTATCAAATAGATTTAGTTTACCCTAGATTTTGTTTTCAAATGTATCGTTTAGTTTGAAAATCAGATATTATATTATCTTTTTTTTTTTTATTTGGATTTTTTCTGTTTGCTAAGGATTCAATTTTTTTCACTCTTCTCTACGCTTTAGTATTTCAATCGATTTTCAACCAACCATTGTTGTGTAAACCTTCATTAAAGAAGCTTGGTTTTCTTGCAATCGATTTTTTACCAAGTCCTTTTATTTCTTCGATGTCTTTTTTAAATCTCCCTTTTTCCCGTCTCCTTGTTCCTCAGCCCTTCTTCCCTTTTCTGTTTTCCTATTACATTTTAAATCCCGAACCAAAAGGATTGAATGACCCCAACGTTCTAAGTAAGCAAAAAAAGCAAGGACCATACATGCGAGATACAATGTACCTTGAATCGAAGCAAGTGTCCTTGTTCCTGAGCGCCAACCTCTACTTCGAGTATTCTTGCCCTCGCCGTTGAACTACAATTCGAAATCGACGTGCAAGCGTGAGATCGATGATCTGAACCAAAGTTCTTCACTGAAAAACCAATTTTCAGTAGTCAAACACCAAGATGGATGTAGAAGATTAAGAAGAAGAATATGAGAGGAAGCGGGAGATTGATGAAAAAGCATGAAGAAGCTGAAGGGTTTTTGTTTCTCTCAAGGTGCTTTTTCTTTTTGAAGTGGAAAAGGCTGAAGGTGTAATTTCAAATGTGAAGGTGGGTGAAGTCTATTGGTAAAACCCTAGGTAATTAACCAAATTCGTGGTTTTTTTCTGTTATTCCTGCTGTTTTAAGTTTTTTTATTTCTTCTTCATTTATTGATTTGACATTTCAATTATTCTATGCTTTAATTAATGGTTTAATATCATTTTGCTAGCATTGCAGCTCTTACTCAGTGTTTGTGTTTAGTTAACTTCCTCAGTATTCATATTGACAGATTCTGTGAAAATATTATGAATTTTTGGGTATGAATTTTTTTTTTTGTATCATCGATCTTTCTCATCACTAGGTTTAACTAAAATTTGAATTTCAAATCTCTTTTTATCATTAAGTTTGGATTCCTTAATTTTAGGTTTCTGTATTTGAATTTGGTTTATTTAAATTAAATCATGTAGTTTGTTAAATGTACCATGTATTTCTCTGGTATTTGTTATTTTAGTGTTTGGGGGTATTTTTGTAAATCGTTAATTCATATTAATTAATGCATAAATTCAAATTGGCCATTTATCTAAAAAATGAGTCAGGTTGCCATTTTTCAAAAAACGTATTTAATTTTGGCCATTCTTCTCGTTAGCCCTATTTTTAACCACTCCAGAAGGCAACACTGCATTTTTCTAGAATAGCTAATAGAATGCATTCAATCAATCCTAAGAGGCGTCAATCCAAAGGAAAACAATCAAACACATTGGTTTATGCAAGATGACATGAAAAACATCAATTAAACTCAGCAAATAACAACAAGGTATCTAAACAGTCTCCCAATCCAACGATACAATAAGTTTAGCTACTCATAATTGAGGGAAAACAACAAATAAAATCAAAACAATACATAAGAAACAACCTAAAAGAGTCTAAGCAACTCAGAATTCTAACCTCACGGCGGTTAAAACCAAAACCCTATATTTATAATAATCGAACCAACATCGATACGCTAGAAAACGACGTCTCAACGCTGAGTGTTCTGTCCTCCGCACGTATTCGCGACAACGTCGAGACGCTAGGGTCAGCGTCTCCAACATGCTGTCTTCTTTTGTTTGCTTTGTTTCGGCTTGCTTCTTTTGGGACTCGAACCTTTGATCTCTTGGCACTTCTTTTAAGGCTCGCCATGGTCTACTCAGATCTTTTCACCTCCTCTTCATCCGTGGACTCTGAGTTAGATAAAAAACATTCCAATTGGCTCGAATTAGCACCAAGATGTATGGTTAGCTCCCAATGTCACGTACGCCTGAATCACCTATAAAGTGGACAATTAAACCATAAAATACTTCTAATAAGCTTAGATTAGCGGTAATAAGATAGCACGAATTAGGTGCTATTAAACTTACACACCGAGGTCCCGATTACAGCAATCCGAGCTTAGTTGGACATAGACAAGCACACTCCAAGCCCGAGGCTTAATCAACCAACCCTTAGACCAAGAAAACTTAAAAGAGAGCTTGAAATAGAGAGGAAAAGTGGCTACAATTGAGAGAAATTGAGATAATACAAGGATATTTAACCCTAATACAATGCTACATATTTATAGGAGTCTTTGGCCTTGAAATCGTATGAATTTGGCACTGAATCATTGGCTCAGAATAGGATAAATCGTGGTGAAAATAAGGAAAATCCAAATTTGGAAAAACTGCACAATGTCGAGACGTTGTGCTCTCAAGTTTTTGGCTCTAATTTCACACCATTAGATCATTGAGACGCTGTATTGAAGGGTCTCGACCCTGGGCATTGACTCAAGGGCATTTTTGTCATTTTACACTCCGATTTAGCTCGTTTTAGCCACGAATTGCCTCCAAATCTCCGTCAAGGATCTATACACATATTATACTCATTTTAAAGCATTTTTGTCAAGAAATTAAACTAAGATAAGCAAATTGGGAGATTATAAATGTATAAAAAATTAGACCTATCACCACAACTACGGTAAAGTAGGAATATGTTAGCAATTACAAATTTAATTTGATAGAGTCATTGACAACCTCTATTTCAAACATAGGGAACAATCAGTTTATTTCTAGTTTCTTTTATGTTATCAGGTAACCAGTAAGGGGGTTGAGGAAAGCATTGAAAATTGCATGAAAAATAATTTGCAAAAATTATAAAAAAAAAAAGGAAAATAAAAGCAGAATGACCAATCTCACCTCGGGATCGCATAATTAGGTTCTTGGGACTCAGCGTTGTTGGTTTTAACAGATTACCGAAAGATTTACTTAATTACCTAAGTCTAACGTACTCTTGGAAAAGCGAGAGAGCAATGCAATCACTAAGAAAGTAGCTAGCCCGACCGATGCATTGAAGCTATTCTTAGTTGTTTATTAGTTAACCCCAAAATTAACTAATATACGAAGTATTGAGAGCAAGATTGTTAGATTACAGATTTTACAACTAGGAAAAACCTAAATTATGAGTTGATAAAGTGCTAAATCCTTGGATGACATACAATTGCTACCTAAGTTTGGGGATTATCTCACTCAAACTGCCACATGTTCCACCTAATGCTAACAAGATTAGCTAAATGACTAAAACAGATGCGAGAGGTTTGTCACACCTCTCTACCAATCCTAATCATGCTTCTAACGGGATTTGACAACACAATAGATAATGAAATCATGTATTAAAACTAAAAATCTCATAAAAGCAATCCAACTGTACATCCACGAGTCCCCAATTACATGATCAATGCCTAGCCATACATTGAAGAGCTTGAACAAGGCATCGGGGCTCGATTAACCATCCTAATTTACCTAAATCTACGCTAATACACTGAAAATAGAGAGAAAACAAGACTAATTAATGAAGAGTATGGCTAATTAACCTAAAGGTTACATTCTCAAACCATAAATAGGAAAAGAAGTTTATACAGAACTGGTGAAAGTGTCAAGATGCTTTAGATGGGATTGGGCACACATGTGCTTTCAATGCTTCAATGCTAAGGCTAGTGTGTCGACACTGGGAGACCTTTCCAAAGCATTGACTGCAGTATTGAGGGTGCCATTTGAACGTTGAGACCTCGAGTTTTTGGCTTGCTTTTGGCCACAGTTGACTTTTGCGTTGACAATTGGGATTTCTGACCAAATTTGACTTTTTCATATTACAAAAATTCCCTTTTTGGTCTCGAACACTCCTGAAGGGCCCGAACATGAAAAGGAAATAAGCAATCAAGAAGACCAAGATGGAAGTTTACAATAAGAATTCCAAGCTCCACCAGCTCAATCAAGCTCAAATGAAGCTCCATGGGAGTCAACTCCAATTCAATCCAATCATGAGGCAATCATTATGCCACAAGCTCCAATGACAAGAGCTAGAGCTAAAAGACTACAAGATGCATTGAATGGTTACTTCCAAGCTAAGGTGTCTACCCATGACCAACAGTTGCAACAATTCAAGCTTGGAAAGACACCTATTCAACCAAGAGACACAATGAATCTAAAAATCCAGATTCATTCACATATTTAATGCATTATGTATCTTTTGAATTCATGAATTTGTATTTATCAAGGTTCATGAATGGATTTGAAAGGGTTGGGGCTGAATTTAGACTACATAGATGAAAGGTTGTGTCCTTTCATGGTGTCTTTTCAATTAGTATAAATAGAGATGTAATTTGTCATTTGAACACAAGTGGAAGTTGAATTGGAATGAAATTTCAGATTGAGTTTAGTCTATCTCAAGCTTAAAGCTTTCTTTGTATTCTTGTGTTTAGAATGCATGCTTAGGACTTTCAATCTGGTTTGATCAATTAGATTGTGAAGAGTTTGAAATCTTGAAGTTAGGAACGAGTTCTCCTTTCTTCTTGATCTTTGATCGTTCTTCCAAGTAAAATCTGATTAACTTTCTGAAGGGATAAAAGGCCTACGCAGCAGAAGAATCACAGGACCTACTCAGAGTCTTTGATTTTAATTTGAAATACTAATACAATTTGCAAAAGAACACAACAATAAAACTATTTTTAACATGTTGTACATCAGCTATAAATATGCTTAATAAATGTCTAGATCTAATCTAGATGATCCTAGTGATCAAGGATTTCAAAGAAAACTTACTTTTGTAGGAAGCCTTGATCGATTCGCCTTTTCTTGCTAATGAGATCGAAAATGCAGCAACCTTCTTGTGCGAACACCACCAATTGGTTACACCGGTATATCTCTGAGACTACTGGAGGCAGGAGACTGGTGGGAGTCTATTAGGAGAGATCTTTGAGAGAAGTAGAATGAATGAGATGCCTTTCTCCCCACCCCAGGGGTCCTATTTATAGGGAAAAACCAAGACCTTTTCCTAATAGGAAAAGGTCATGAATAAGATCAAATCTATTATCTTATTCATATCTAATTTTAATAAATAATTAATTAATTCCATAATTAATTAATTACCCAATTAAATATCACATATTTAATCTTAGGGATTTTATTAAATTATCTATATTAATATGAATCCAATTCATATTAATTATTTGAGCTCTTTCAAATATTTTCTCTCAATAATTAATTTTAAAATTAATTCAAAATTATATTATAAAGTTTCATAAACTTTATATTATAATGTATAATATACATTATATGATTCCCCTAAATAAATTGAACACTTTCAATTTACAATTTATACTTAATTGCCTCAAGTCTCTTTACGAGCTACCAGTGAGACCTAATGGATCTACAGATCAGAAACTCCAATGATACGAGACTAATTGGCTAAACTCATTAACTAAGTTAGTCAACATTCGTTAACTGTGGGTCACTCCACTAAAGACCCACATCTGCACTCTTCTCATTGCAGAATATTTCTGTGTCCACGGATATCGACCAATAATGGCAAGTTAGTCCTTCACGAGTGTTCGTAACTCCAACTGGGTCAAATTACCGTTTTACCCCTGAGTTACCTCTACCTCCTTAAGTACCAGTGCTCCTCTAATGAACAACCTGTTTGTGGTCCAACCATCAAACAGAAACCCCTCTCGGGCCAGTGAGAGGGTAGGGCCCTTTGTTCAAGACCTGGAGACACCACTTAAGGGAACACTCATTTACTTCCTCAAAAGTCGGGAAGGAGTGAATTTCATCTTGTGTGATTATGTTCCCAGCTCCCCACTCGGTCTTGTCCCCAAAATGGTAGGTTTATTGAGTCGGCGTACTGGCCACTCTCACCCATACAAATCAAAGGACAATCCCTCGTGAACAGGAGTCCATAATCCACTCAGGATTCAGACTAAGTTGCCTAGGTCATCTTAGTGAAATAGAAACCTAACTAGTTAACGGTGTTACAGCTAGTGGTTACTATTTTCGCGGTCCGGTCTTATGCAAACTCATTGCATAGGATACCCCCACTCGCACATCTACTACATGGACGCTTTGGATCAATACGTTTGTATCAAATACAAAGCAGGTCGTATCACATAGTGTTACCAGGATAAGGTACCCAGTCTTATCCTTGTACTATAGACCTTTTAGATTGTTACTTGAACATCGATCCCCGTGTGTCCCCACATACTAGTTCAAGTTACATACAAACAACCTTGGATCTTAGTTTATTGGATTTGGGTCAAATTGTACAATTTTTAACAATAACATTTTATTGCAGAAACTCAATAACACTTTATTAAAAAAAGTATACAATTTGTTTACATTCACTATCTACGAGTTTTAGGGCATAAAACCCAACACTTTCTCGGGGTTGTCTTATCATTTCGTTAATGGGGTTATTCTTATTTTTGTTGTGGGGGTTCACCTGAAATAAGGGGAGTTCTCAAACGTAATTGAGGTAGTTCCTTTATCATTTGGTATTCAGTGCATCTTTGAAGAAAGGAATTAGAGGTTAGAGAATAACAATTGTCATAAAACTAATGTAGAACAAGAGTATAAAATAGGAACTTCACTATTTGACCTTTAGAAAATAAGGCGATTTCTTATAAGATCAAAGCGAGGGTAGTGTGTGTTGGGGTTGGTGCCCTAAACCTCGTAGATGGTGAATGAAACAAATAGTAATATATTTGTTCGATAAAGTCCTTATCGGAGGTTTGTTCACTTAAGTTAATAAATAAGTGAATTGCACGTTAAATAAACCAAATCAAATAAACTAAGATCCATGGCTATATAATATGAATACTGTAATGACATAAAAGTGGATCAAGTTCAAGTAATAGCCTAAACGGTCTATAGTATAGGGATAAGGCTGGGTACCTTATCCTTGGGACACTATGAGATGCAGCCCACTTTGTAATTAGTGAAAACGATGTGATCCTAAATCGTTCATGTAGGAACATGCGAGTGAGGGCGTTCTATGCAATGAGATTGCATAAGACCAGGACCAAGAAATAAGTCACTTTCCTTTGTAACGTCGTTTACTGTTGAAACTGACTTATTTTAGTGTTATGACCTAGGTAACTCGATTTTAATCTTGAGCTAACTATGAACTCCTGTTTATTCGGGATTATCCTTTGATTTGCATGGGTGAGAGTGGCTCATCATCGTCGACTCAATAAGCCTATCGTTTTGGGGATAAGACCGGGTAGATAACTGGGGACGTAGTCCTGCAAGACGAAAATCACTCCTACACGTTTCAGGGATAGTAGAGAGGTTGTTCCCTTAAGTACTGACTCTAGGACTTGACCAAAGGGATCCCACCCTCTCATTGGCTCGAGAGGGACTAGGTTTGGTGGTTGGACCACAAACCAAATTGTTCATTAGAGGATCAGTGGGACTTAAGGAATTAGAAGTAACTTGAGGGGTAAAACGAACTTTTGACCCAGCTGTAGTTACGAACAACCTGTGAAGGATCGACTTACTAAGCATGGTTATATCGGGTGGACAAAAATATATCTACAGTGAGGGGAGTACAACTATCGGGCTATAGTGGAGTGTCCCGGTAGTTAACGAATGTTGGTGAACTAGGTTAATGAGTTTAGCTGGTTAATCTCGGATCGTTGGAGCCCATGATCTGTAGGTCCATTAGGTCCCCCTACTAGCTCATACGGACTAAACCTTAGAACAGTGTGATAAATGAATTTGAAGATTTCAAATTCGATTTAGGGAGTTACCGTTATTCAATGTATTTAACGTAATAGTTTAATTGTGGATTAAACTATATTTGAGATAATTAGAAATATTTAAACATGATTTAAATATTGTAAATATGTATGGAATACATATGTAGGTTTGGATATGAATAGAGATTAATAGTCAAAACCGTGACTGAGAGAGTTTGGGATTGGTGCAAAGAATTAATTTAATATATGATATTAAATTAATATAATTAATTATATGGTTTAATTAATTTTATTTAAAATTAGTATTATTTAAAATTAATTTCGAAAGTTCATTTTGAATTAAATTATTAATTATTTGAATTAATAATTAAATGAATTTGAAAATTGTTTTTTTTTAATTTATTGAAATTAAAAAATAACCTCATTTTTGGAGGTGTAGTGAAATGATGATAAACCCATGAGATTTCTCATATTTTGCCACCATGAGTACACCTAATCTTCTCCTTGCCTTGTTGTCTTCATGGGATGAAGAGGTGATAAATTACTTTTATATGTAGAAGAAAATAGAAGTTTAAGGAGTTAATCTTCTAGTTAGAGGTTGCTGACTTTTCTCTCAAACAAACCACAACTGTCATACTCTTCCCATTATTTTTCTCTCTAAAAATTGATCACACAAATGGGTTCCATAATCCGTTCTAAGGCCGGAGAATAGCGAGGAGCGCTTCGGTGGTCGTCCACAGCTCCTTTGTGTAAAGAATTCATCCACAGGGTTGATTAATTCGGCCATAAAAGGTTGGTAAAAACCAAACTCTATTTTTCGGTTTGAGTTTGTGCATGTTTTCTTTTCTAAAATTAAATGAAATTTGAGTTGCTTCGATCCAAATCGCTTCCGCTAGTGTCTCGTACACTCTTTCAGTATGGCTAATTAACTAAGTAAAAATTAACCATATAAATATAGGGTTAATTAGAAAAAAAATACATTTAAAAAAAAAAATTGGCAAAACCACAGTATTCTGAAAAAAATTGGAGAAAGCAAGCAGTTTTTTTGTCTTTATGTGAATCCGTGGCTTCAACCCACGGATTCAACTTTTTTTTTTTTTTTTTTAAATTCATGGCTTCCTTCATTCCTTTTTTTTCCTTACAAATTTTGAAAATTAATTTTTATTTTTAATATTTTTATTCTATAAATCAAATTACAGGAATATTATAATCGATAACATAATTACAATTGGAAAATTATCCTTCTAAATTTACAACATTATTGATACATTTTCAATCACTTCCCATTTTGATTCATAATTTTTACCGACTATTTTGTTTTTTAAGAAATTAGACTAATAAAAGTTGATACATCAAAAATTAGGGACACAAGAAAAATTGGGGTAAATAAGAAAAAAAATCTCCGAATAAAAACACTCTCATTTCTTCAATTTTTTTTTTTTAAATATAAGAATAAAAAAATTCAAGGTTTTTTTTTTATTTATTTATTTTTATTTTTATTTTTATTTAACTAAGAAAGCAATGAATGTATATTTTAGGTCTTGTTTGATAATAATTTGGTTTTTAGAATTTGAAAATTAGACATATAGACACTATTTTCACATAATAGGTTTTTTTTTGTTTCATTGTCTACATTCTACAAATATTTTCAAAATTCAAGCCAATTTTTTTTAAAATTAAAAGAAAGTAGCTTTCAAAAAATTGTTTTTTTTTTTTTTTTTTTTTTTGTAGAATTTGATAGAGAATTTATATGTTTCTTAAGAAAGATTACCATGGTAAATAAATGATAAGAAAACAAACACATTTTTTTAAAAACCAAATAGTTATCAAAATGATAGAGTGGTTGTGGTCAAGTTTCCTTTTTTTTCCTCATTAATATGAATAAAAATCTTTAGTCAACTTCTGTCAGTTGAGCCATCTGTAGTTGTATTCAAAACTGATAGTAGATATACAGTTTAATAACACTTGATTAATTAAAAAAAAAAAAACCTTGATTTTTTTATTCTTATATTGAAAAAAATCGAAGAAATGAGAGTGTTTTTATTCTTAGATGTTTTTTTAAAAAATATATATATATTTTTATTCTTATTTACCCCAAATTTTCTTGTCTCCCTAATTTTTGATGTATCAACTTTTATTAGTCTAATTTCTTTAAAAAAAAATAGCCAGTAAAAATTATGAATCAAAATGGGAAGTGATTGAAAATGTATCAATAATGTTGTAAATTTAGAAGGATAATTTTCCAATTATAATTATGTTATAAAAATTAATTTTCAAAATTTGTAAGAAAAAAAACAAGAAGGAATGAAGGAAGCCACAAATTTTATTTTTTTTTTAAAAAAAAACAAAACTTAAAATGAAATTCAAAATTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACTACTTGCTTTCTCCAATTTTTTTTTTCAGAATACTGTGGTTTTGCCAATTTTTTTTTAAATGTATTTTTTTTTTCTAATTAACCCTATAAATATATGATTAATTGCTTAGACTCCTAAAGGTGCTTTAAGGTTGAACAGGAAAAGAACCGATCCACAACACAAGTTAATATGTGATAGGCTTGCACCGTGCATATTCCAATTAGGACATAATTGTAATTGAAACCTCCTTTACCGTTAACATCTTTACTCAGTTATTTATTACATTCAGTTTACTTGTTTTACCACCACAACTCAACCATATTTTCCTTGGTTACCCATTGTTTCAACATTGACAAAACTTTTACTAAATATTTGAGTTTTACATATATGTAGAGGCAACTTGTAGGATTAATAGGAATACTTCATTTAGTACTTGAGAAGGCAGGTGTGTACTTACACTAGAGACGATTTCCTCATCTAGGAGTGCTCGCTCATCAATGTCAAATTTGTAGGTCACGCTAGGGGTGAAAATAACCGAACCGAACCGGTCCGGCCCGGTTCGATTTGGTTTACAAGTGTAATGCGGACAGAACCGAACCGAACCGATGAGGTTCGGTTCGGTTCCCTTCTTTGCTCAAACCCACATATCACGTGTTTTACTTTTTATGGGTTTGGGCGTTTGGTTTTAAAAAAAAAAAAAAAAACGCGTTACCCAAAATTCGGATCTAGGGTTTCAGAAAAAAGGGAACCGTTGAAGTCGAATCCTCTCCTCTCGTGGGTTTTCGCCGTTGAAGTCGAATCGCTGCCGTTGAAGTCGAATCGCCTCTCCTCTCGTGGGTTTTCGCCGTCGTCGAACGCCGCCATTGAAGTCGAATCGCCTCTCCTTTTGTGGGTTTTCGCCGCCGTCGAAGTCGAAGCTGTACCGTCTGGTTTAAGTCGCCGCCGCCATCGCCTCGTCTTCTTCTCCTAGAGCCTTGTCTTCATCTTCATCGCCTCGTTTGATGTTTAAGCCTTTTTTCAGTTTTTGGGTATTCGAAATTTCGAATGAAGGCTTGTGTATTTCGAACAGCAGTTTAGGAAGAAGAAGAAACCGACCTGACCCGACCTGTACAACCGTGGTTCAGGTCGGGTCGGTTTGTCCGTACAACCGGCCCGACCCGAAAAAATTACATCCCTAGGTCACGTCACAGAGAAGATTAAATTTTTTGGAGTGATTTTCAAATTCACTCCCAAATATGCATTAACGGTGGATAGAAAAGGATAATCTTATTTTAGAAAATTTTGAAAAAAAATCATTTATCAACAACTAATACTCAAAACTTTAGATGAGGTTGAAAAATATATTTGAAACAATTTTTAAACTCAGACTCCAGATTTGTAGTATGTGTAAGCATTCACCTAAAATGAAGGTTCCTAAACTTGCACCGCAACATAGACTTTCTAAACCCACTCTATCTAAACTGGGAGACCAAATATCACATTTTTAAAAGCTGCAAGACCAAATAAAAATTAGGTTTTAAGTTCAAATCTACTTTTGGTCCCTAAACTTTCATGAAAGTAACAATTCAGTCTCCGAACTTTTATTTATAACAATTTAGTCCCTATACTTTCAATTTTGTAACAATTTAGTCCATGAACTTTAATAAGTAACAATTTAGTCTCTCTACTTTCAAATTTGTAATGATTTAGTCCCTATCGTGAAAAATTAATGTAAAGATTTAATGAAGTTTCTTACCTAAATAGATTAATAAACTAATTTGGGACCTAATATGTTTATAAGCTACAAAGTTTAATCATTAATCAATAAAAAATCGACATTTAATTTTGATGATTTTTTTTGCAACAAGGATTAAATCGTTACAAATTTGAAAGTATAAGAACTAAATTGTTACTTATTAAAGTTCAGGGACTAAATTGTTACAAAATTGAAAGTACAAGGACTAAATCGTTACAAATCAAAGTTTAGGGACCAAATTGTTACTTTCATGAAAGTTTAGGGACCAAAAGTGATTTGTAACCTAATTAAATTTAGGGAAAAATACACTTTTAGTCCCTGAGGTTTGGGTTAGGTTTCATTTTGGTCCTTGAGTTTTAAAACTCAACAATTTAGTCCCTAAGGTTTGGTTTAAGTTTCATTTTGGTCCCTCCATCCATTCTTCTGTTAAAAACTAACGGAATGCTGACGTGGCACCATTTTTTTTATTAAAATAAAATAATATATTAAATATATTTTTAATTATTTTTCTTTTCTCTTTCTTTTTTCTTTTTCCTTTTTCCCCATCTTTTTTTTTTTTAAATAAACCCCCACCTTCTTCTTAACGTTAGAGTTCAAGCTCCACCGTCGCTGGCCGCCCCTGCCTCCGCCTCCGTCTTCGTCGCCGGCCGCCTCTTCCTTCGTCTCCGTCGCCGACCGCCTCTACCTTCGCCTTTTGTCTCCGTCGCTGGCTGCCTTTGCCTCCGCCTCCGTCTCCGTCGCCGGCCGCCTTCGCCTTCGTGGGTGCTCGTCTTGGGCGTTCGTCTCGTGAAGCCCAGATCTTAGCCGTCAGCCGTCGAACTCCCATAGTCAAAACTCAGATCTGTTTGTGACGGAGGGAGAGAACCAGCACGAAGCCCAGATCTGTTCGTGAAAGCGGCCGAAAAAGTTTCAGATCTGCTCGATACATAGGCTTTTGCTGGTGTGGGCGTTGCTCGATACAGAGGGTTTTGCAGATCGGCCGAAGACGGTAGCTCACGACGGTACAGACGGAAGAAGTTTCTGAGTTTGTTGGTGTCAGATCTGAAGTCGTGGGCGTTCTCTCGGGCAAAGACGACAGCTCACGACGGTAGCTCATGA

mRNA sequence

ATGGATAGAGAGCCTGAGGTTGAGGAGGTTCCTGTAACCCCTGAAGCTTCGAAGAAGAAAACTAAGAAGAAAAGTACTCCACAAGAGAAGGAAGCACGAAGAACTCCTACACCTTCTCCTCCTTCGAGTGATTCTGAAAAAGAGAAATATGAGAAAGTGAAAGAGAAATCCGTGGAAGAAGAAGTTGTGGAAGTAAGAGAAAAAGAAAAAGAAGATAAAGGAAAGAGTGTATTGGAAGATGAAGAAGAGCCAGAGGAGCGTCTGCCATATGAGATGTTCGTCAGCGAAGAGCTGCCCCATTTCTTAAGAGCTGGTATCACAAATCACGGATGGGAACAGTTCTGCGCGAAACTAGAGCCAACCAATGCCCACATGGTAAGAGAATTTTATGGAAACATTGACGAACAAGAGGGTTTCCAAGTGATTGTTCGAGGTGTAGCTGTTGATTGGAGCCTAGGGGCAATCAATTCTCTGTTTAGCCTTCAAGACTTCCCACACGCTGTTTTTAATGAGATGGCTATTGCTCCCTCAAACGAGGAAATGAATGCCGCAGTTCAAGAAGTAGGTGTGGAAGGGGCCCAATGGAGATTATCCAAAACAAAGAAGAGAACGTTCCAGTCCGCTTATCTGAAGAGCAAGGCTAATACGTGGCTAGGCTTTGTAAATCTTAGATTGCTTCCCACCACCCACGACTCCACTGTTTCTAGAGATGGAGTACTTTTGAGGAGTGAGGCACGCCAAGGGGGGCTATTATGTGGTGTGCACCGAGTGCAAGAACAACTTCAAATGGTAATCAGTAGGCTGAAGTTCACAGAACACCAACTCCAAACCTACTGGAGTTATGCTAAGCGGCGAGACACCACATCAAAGAAAGCTCTACAAACAAATTTTTCAAAGCCTTACTCAGCTTTTCTAGTGTTCCTCGATGATCTGATGAACTCTTGGATCCCGCCGCCGCTAGTAGTTAGAGAAGAAGAAGATGAACAAGAAGTAGAAAATGAAGATTCAAAATTTTGTCTGCTCGCAATATCTTTGATTTTCTTTGCTTTTATTTATGCTATTTCTGTTTTTCTTTTTGCTACTTCAAAAATTATCTCTGCTAATGATGCTCAGGTTAAACCTCATCTTATAAATAAGAGTAGCCGTATGAATCAAGATATTCCATCTTATGGAGGTCGATTAGAGATCAAAGCCGATTGGAGACCACAAGAAGACCATCTTGTGCTTTTTCTTTTTGAAGTGGAAAAGGCTGAAGGTGTAATTTCAAATGTGAAGGTGGAAAACGACGTCTCAACGCTGAGTGTTCTGTCCTCCGCACGTATTCGCGACAACGTCGAGACGCTAGGGTCAGCGTCTCCAACATGCTGTCTTCTTTTGTTTGCTTTGTTTCGGCTTGCTTCTTTTGGGACTCGAACCTTTGATCTCTTGGCACTTCTTTTAAGGCTCGCCATGGTCTACTCAGATCTTTTCACCTCCTCTTCATCCGTGGACTCTGAGTTAGATAAAAAACATTCCAATTGGCTCGAATTAGCACCAAGATGTATGGAGTCTTTGGCCTTGAAATCGTATGAATTTGGCACTGAATCATTGGCTCAGAATAGGATAAATCGTGGTGAAAATAAGGAAAATCCAAATTTGGAAAAACTGCACAATGTCGAGACGTTGTGCTCTCAAGTAACCACTCCACCAGCTCAATCAAGCTCAAATGAAGCTCCATGGGAGTCAACTCCAATTCAATCCAATCATGAGGCAATCATTATGCCACAAGCTCCAATGACAAGAGCTAGAGCTAAAAGACTACAAGATGCATTGAATGGTTACTTCCAAGCTAAGGAAGCCTTGATCGATTCGCCTTTTCTTGCTAATGAGATCGAAAATGCAGCAACCTTCTTGTGCGAACACCACCAATTGGTTACACCGGATACCCCCACTCGCACATCTACTACATGGACGCTTTGGATCAATACGTTTGTATCAAATACAAAGCAGGTCGTATCACATAGTGTTACCAGGATAAGGCCGGAGAATAGCGAGGAGCGCTTCGGTGGTCGTCCACAGCTCCTTTGTGTAAAGAATTCATCCACAGGGTTGATTAATTCGGCCATAAAAGAAAAAAGGGAACCGTTGAAGTCGAATCCTCTCCTCTCGTGGGTTTTCGCCGTTGAAGTCGAATCGCTGCCGTTGAAGTCGAATCGCCTCTCCTCTCGTGGGTTTTCGCCGTCGTCGAACGCCGCCATTGAAGTCGAATCGCCTCTCCTTTTGTGGGTTTTCGCCGCCGTCGAAGTCGAAGCTGTACCGTCTGGTTTAAGTCGCCGCCGCCATCGCCTCAGTTCAAGCTCCACCGTCGCTGGCCGCCCCTGCCTCCGCCTCCGTCTTCGTCGCCGGCCGCCTCTTCCTTCGTCTCCGTCGCCGACCGCCTCTACCTTCGCCTTTTGTCTCCGTCGCTGGCTGCCTTTGCCTCCGCCTCCGTCTCCGTCGCCGGCCGCCTTCGCCTTCGTGGGTGCTCGTCTTGGGCGTTCGTCTCGTGAAGCCCAGATCTTAGCCGCTTTTGCTGGTGTGGGCGTTGCTCGATACAGAGGGTTTTGCAGATCGGCCGAAGACGGTAGCTCACGACGGTACAGACGGAAGAAGTTTCTGAGTTTGTTGGTGTCAGATCTGAAGTCGTGGGCGTTCTCTCGGGCAAAGACGACAGCTCACGACGGTAGCTCATGA

Coding sequence (CDS)

ATGGATAGAGAGCCTGAGGTTGAGGAGGTTCCTGTAACCCCTGAAGCTTCGAAGAAGAAAACTAAGAAGAAAAGTACTCCACAAGAGAAGGAAGCACGAAGAACTCCTACACCTTCTCCTCCTTCGAGTGATTCTGAAAAAGAGAAATATGAGAAAGTGAAAGAGAAATCCGTGGAAGAAGAAGTTGTGGAAGTAAGAGAAAAAGAAAAAGAAGATAAAGGAAAGAGTGTATTGGAAGATGAAGAAGAGCCAGAGGAGCGTCTGCCATATGAGATGTTCGTCAGCGAAGAGCTGCCCCATTTCTTAAGAGCTGGTATCACAAATCACGGATGGGAACAGTTCTGCGCGAAACTAGAGCCAACCAATGCCCACATGGTAAGAGAATTTTATGGAAACATTGACGAACAAGAGGGTTTCCAAGTGATTGTTCGAGGTGTAGCTGTTGATTGGAGCCTAGGGGCAATCAATTCTCTGTTTAGCCTTCAAGACTTCCCACACGCTGTTTTTAATGAGATGGCTATTGCTCCCTCAAACGAGGAAATGAATGCCGCAGTTCAAGAAGTAGGTGTGGAAGGGGCCCAATGGAGATTATCCAAAACAAAGAAGAGAACGTTCCAGTCCGCTTATCTGAAGAGCAAGGCTAATACGTGGCTAGGCTTTGTAAATCTTAGATTGCTTCCCACCACCCACGACTCCACTGTTTCTAGAGATGGAGTACTTTTGAGGAGTGAGGCACGCCAAGGGGGGCTATTATGTGGTGTGCACCGAGTGCAAGAACAACTTCAAATGGTAATCAGTAGGCTGAAGTTCACAGAACACCAACTCCAAACCTACTGGAGTTATGCTAAGCGGCGAGACACCACATCAAAGAAAGCTCTACAAACAAATTTTTCAAAGCCTTACTCAGCTTTTCTAGTGTTCCTCGATGATCTGATGAACTCTTGGATCCCGCCGCCGCTAGTAGTTAGAGAAGAAGAAGATGAACAAGAAGTAGAAAATGAAGATTCAAAATTTTGTCTGCTCGCAATATCTTTGATTTTCTTTGCTTTTATTTATGCTATTTCTGTTTTTCTTTTTGCTACTTCAAAAATTATCTCTGCTAATGATGCTCAGGTTAAACCTCATCTTATAAATAAGAGTAGCCGTATGAATCAAGATATTCCATCTTATGGAGGTCGATTAGAGATCAAAGCCGATTGGAGACCACAAGAAGACCATCTTGTGCTTTTTCTTTTTGAAGTGGAAAAGGCTGAAGGTGTAATTTCAAATGTGAAGGTGGAAAACGACGTCTCAACGCTGAGTGTTCTGTCCTCCGCACGTATTCGCGACAACGTCGAGACGCTAGGGTCAGCGTCTCCAACATGCTGTCTTCTTTTGTTTGCTTTGTTTCGGCTTGCTTCTTTTGGGACTCGAACCTTTGATCTCTTGGCACTTCTTTTAAGGCTCGCCATGGTCTACTCAGATCTTTTCACCTCCTCTTCATCCGTGGACTCTGAGTTAGATAAAAAACATTCCAATTGGCTCGAATTAGCACCAAGATGTATGGAGTCTTTGGCCTTGAAATCGTATGAATTTGGCACTGAATCATTGGCTCAGAATAGGATAAATCGTGGTGAAAATAAGGAAAATCCAAATTTGGAAAAACTGCACAATGTCGAGACGTTGTGCTCTCAAGTAACCACTCCACCAGCTCAATCAAGCTCAAATGAAGCTCCATGGGAGTCAACTCCAATTCAATCCAATCATGAGGCAATCATTATGCCACAAGCTCCAATGACAAGAGCTAGAGCTAAAAGACTACAAGATGCATTGAATGGTTACTTCCAAGCTAAGGAAGCCTTGATCGATTCGCCTTTTCTTGCTAATGAGATCGAAAATGCAGCAACCTTCTTGTGCGAACACCACCAATTGGTTACACCGGATACCCCCACTCGCACATCTACTACATGGACGCTTTGGATCAATACGTTTGTATCAAATACAAAGCAGGTCGTATCACATAGTGTTACCAGGATAAGGCCGGAGAATAGCGAGGAGCGCTTCGGTGGTCGTCCACAGCTCCTTTGTGTAAAGAATTCATCCACAGGGTTGATTAATTCGGCCATAAAAGAAAAAAGGGAACCGTTGAAGTCGAATCCTCTCCTCTCGTGGGTTTTCGCCGTTGAAGTCGAATCGCTGCCGTTGAAGTCGAATCGCCTCTCCTCTCGTGGGTTTTCGCCGTCGTCGAACGCCGCCATTGAAGTCGAATCGCCTCTCCTTTTGTGGGTTTTCGCCGCCGTCGAAGTCGAAGCTGTACCGTCTGGTTTAAGTCGCCGCCGCCATCGCCTCAGTTCAAGCTCCACCGTCGCTGGCCGCCCCTGCCTCCGCCTCCGTCTTCGTCGCCGGCCGCCTCTTCCTTCGTCTCCGTCGCCGACCGCCTCTACCTTCGCCTTTTGTCTCCGTCGCTGGCTGCCTTTGCCTCCGCCTCCGTCTCCGTCGCCGGCCGCCTTCGCCTTCGTGGGTGCTCGTCTTGGGCGTTCGTCTCGTGAAGCCCAGATCTTAGCCGCTTTTGCTGGTGTGGGCGTTGCTCGATACAGAGGGTTTTGCAGATCGGCCGAAGACGGTAGCTCACGACGGTACAGACGGAAGAAGTTTCTGAGTTTGTTGGTGTCAGATCTGAAGTCGTGGGCGTTCTCTCGGGCAAAGACGACAGCTCACGACGGTAGCTCATGA

Protein sequence

MDREPEVEEVPVTPEASKKKTKKKSTPQEKEARRTPTPSPPSSDSEKEKYEKVKEKSVEEEVVEVREKEKEDKGKSVLEDEEEPEERLPYEMFVSEELPHFLRAGITNHGWEQFCAKLEPTNAHMVREFYGNIDEQEGFQVIVRGVAVDWSLGAINSLFSLQDFPHAVFNEMAIAPSNEEMNAAVQEVGVEGAQWRLSKTKKRTFQSAYLKSKANTWLGFVNLRLLPTTHDSTVSRDGVLLRSEARQGGLLCGVHRVQEQLQMVISRLKFTEHQLQTYWSYAKRRDTTSKKALQTNFSKPYSAFLVFLDDLMNSWIPPPLVVREEEDEQEVENEDSKFCLLAISLIFFAFIYAISVFLFATSKIISANDAQVKPHLINKSSRMNQDIPSYGGRLEIKADWRPQEDHLVLFLFEVEKAEGVISNVKVENDVSTLSVLSSARIRDNVETLGSASPTCCLLLFALFRLASFGTRTFDLLALLLRLAMVYSDLFTSSSSVDSELDKKHSNWLELAPRCMESLALKSYEFGTESLAQNRINRGENKENPNLEKLHNVETLCSQVTTPPAQSSSNEAPWESTPIQSNHEAIIMPQAPMTRARAKRLQDALNGYFQAKEALIDSPFLANEIENAATFLCEHHQLVTPDTPTRTSTTWTLWINTFVSNTKQVVSHSVTRIRPENSEERFGGRPQLLCVKNSSTGLINSAIKEKREPLKSNPLLSWVFAVEVESLPLKSNRLSSRGFSPSSNAAIEVESPLLLWVFAAVEVEAVPSGLSRRRHRLSSSSTVAGRPCLRLRLRRRPPLPSSPSPTASTFAFCLRRWLPLPPPPSPSPAAFAFVGARLGRSSREAQILAAFAGVGVARYRGFCRSAEDGSSRRYRRKKFLSLLVSDLKSWAFSRAKTTAHDGSS
Homology
[Close]
BLAST of Spg020737 vs. NCBI nr
Match: PON46472.1 (hypothetical protein PanWU01x14_251180, partial [Parasponia andersonii])

HSP 1 Score: 105.9 bits (263), Expect = 1.8e-18
Identity = 88/312 (28.21%), Postives = 126/312 (40.38%), Query Frame = 0 

Query: 97  ELPHFLRAGITNHGWEQFCAKLEPTNAHMVREFYGNIDEQEGFQVIVRGVAVDWSLGAIN 156
           +LP F+   IT H W+QFCA  E     +VREFY N+ + E   V VRGV V WS  AIN
Sbjct: 59  QLP-FIAQVITQHNWKQFCAHPEDPIVPLVREFYANLTDPEENTVYVRGVQVSWSEEAIN 118

Query: 157 SLFSLQDFPHAVFNEMAIAPSNEEMNAAVQEVGVEGAQWRLSKTKKRTFQSAYLKSKANT 216
           ++F L D P    +E     + +++   ++ V   GA+W +S     T   + L   A  
Sbjct: 119 AVFGLGD-PVDEHSEFIQNITQQDLITVLETVAAAGAEWNVSAQGAYTCIRSALTPAAKV 178

Query: 217 WLGFVNLRLLPTTHDSTVSRD----------------GVLLRSE-----ARQGGLL---- 276
           W  F+  RLLPTTH  TVS+D                G ++ SE     AR+ G L    
Sbjct: 179 WYHFLKSRLLPTTHGKTVSKDRMLLLHSMLIGKSINVGRMIHSEIRACAARKTGALFFPS 238

Query: 277 ----------------------------CGVHRV-------------------------- 313
                                         V R+                          
Sbjct: 239 LITRLCRNARAPFLVNEEKLHNTGEIDAIAVARIAQEGPTESTQQPSSSRPATASSNRTN 298

[Close]
BLAST of Spg020737 vs. NCBI nr
Match: PON35554.1 (hypothetical protein PanWU01x14_335450, partial [Parasponia andersonii])

HSP 1 Score: 99.0 bits (245), Expect = 2.2e-16
Identity = 57/145 (39.31%), Postives = 77/145 (53.10%), Query Frame = 0 

Query: 97  ELPHFLRAGITNHGWEQFCAKLEPTNAHMVREFYGNIDEQEGFQVIVRGVAVDWSLGAIN 156
           +LP F+   IT H W+QFCA  E     +VREFY N+ +     V VRGV V WS  AIN
Sbjct: 50  QLP-FIAQVITQHNWKQFCAHPEDPIVPLVREFYANLTDPVENTVYVRGVQVSWSEEAIN 109

Query: 157 SLFSLQDFPHAVFNEMAIAPSNEEMNAAVQEVGVEGAQWRLSKTKKRTFQSAYLKSKANT 216
           ++F L D P    +E     +  ++   ++ V V GA+W +S     T   + L   A  
Sbjct: 110 AVFGLGD-PVDEHSEFIENITEHDLITVLETVAVAGAEWNVSAQGAYTCIRSALTPAAKV 169

Query: 217 WLGFVNLRLLPTTHDSTVSRDGVLL 242
           W  F+   LLPTTH  TVS+D +LL
Sbjct: 170 WFHFLKSHLLPTTHGKTVSKDRMLL 192

[Close]
BLAST of Spg020737 vs. NCBI nr
Match: EXB53755.1 (hypothetical protein L484_022412 [Morus notabilis])

HSP 1 Score: 93.2 bits (230), Expect = 1.2e-14
Identity = 50/143 (34.97%), Postives = 75/143 (52.45%), Query Frame = 0 

Query: 99  PHFLRAGITNHGWEQFCAKLEPTNAHMVREFYGNIDEQEGFQVIVRGVAVDWSLGAINSL 158
           P F+   I  HGW QFC         +VREFY N+ +     V V+ V V ++  AINS+
Sbjct: 4   PAFITRVIHQHGWRQFCQHPSNPIVPLVREFYANLLDFNQETVFVQNVKVPFTARAINSI 63

Query: 159 FSLQDFPHAVFNEMAIAPSNEEMNAAVQEVGVEGAQWRLSKTKKRTFQSAYLKSKANTWL 218
           F L++     + + A   ++E++   + EV +EGA W++S     T     LK  A  W 
Sbjct: 64  FGLEEVVDE-YVDFASEVTDEQLEVVLAEVAIEGATWQISPQGAYTCIRKELKRHAQIWY 123

Query: 219 GFVNLRLLPTTHDSTVSRDGVLL 242
            F+  R +P+TH  TV++D VLL
Sbjct: 124 HFLTARFMPSTHGKTVAKDRVLL 145

[Close]
BLAST of Spg020737 vs. NCBI nr
Match: PON78020.1 (hypothetical protein PanWU01x14_023740 [Parasponia andersonii])

HSP 1 Score: 87.0 bits (214), Expect = 8.8e-13
Identity = 76/273 (27.84%), Postives = 108/273 (39.56%), Query Frame = 0 

Query: 125 MVREFYGNIDEQEGFQVIVRGVAVDWSLGAINSLFSLQD--FPHAVFNEMAIAPSNEEMN 184
           +VREFY N+ + E   + VRGV V WS  AIN++F L D    H+ F E    P   E+ 
Sbjct: 16  LVREFYANLTDPEENTIYVRGVQVSWSEEAINAVFGLGDPVDEHSEFIENITEP---ELI 75

Query: 185 AAVQEVGVEGAQWRLSKTKKRTFQSAYLKSKANTWLGFVNLRLLPTTHDSTVSRD----- 244
             ++ V   GA+W +S     T   + L   A  W  F+  RLLPTTH   VS+D     
Sbjct: 76  TVLETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLLPTTHGKIVSKDRMLLL 135

Query: 245 -----------GVLLRSEAR------QGGL--------LC-------------------- 304
                      G ++ SE R       G L        LC                    
Sbjct: 136 HSMLNGKSINVGRMIHSEIRACAAQKTGALFFPSLITRLCRNAPFLVNEEKLHNTGEIDA 195

Query: 305 -GVHRVQEQ--------------------------------LQMVISRLKFTEHQLQTYW 313
             V R+ ++                                L+  +S+ + T  Q Q +W
Sbjct: 196 IAVARITQEGPTESTQQPSSSRPAAASSSRTNGDVLQQLKALEQRLSQQEHTHKQQQQFW 255

[Close]
BLAST of Spg020737 vs. NCBI nr
Match: PON70375.1 (hypothetical protein PanWU01x14_080440 [Parasponia andersonii])

HSP 1 Score: 84.0 bits (206), Expect = 7.5e-12
Identity = 62/188 (32.98%), Postives = 88/188 (46.81%), Query Frame = 0 

Query: 54  KEKSVEEEVVEVREKEKEDKGKSVLEDEEEPEERLPYEMFVSEELPHFLRAGITNHGWEQ 113
           K    E +  E+R +E        +E E   +   P E       P F+   I  H W+ 
Sbjct: 42  KAVKFESKAAEIRYEENIQNRPLSVEKEFVWDNSKPLEQ------PPFIADVIIQHNWQL 101

Query: 114 FCAKLEPTNAHMVREFYGNIDEQEGFQVIVRGVAVDWSLGAINSLFSLQDFPHAVFNEMA 173
           FCA  E     +VREFY N+   +   V +RGV V  S+ AIN++FSL D P    +E  
Sbjct: 102 FCAHPEDPIVPLVREFYTNMTNPDDDTVYIRGVQVPLSVEAINTIFSLGD-PIDEHSEFV 161

Query: 174 IAPSNEEMNAAVQEVGVEGAQWRLSKTKKRTFQSAYLKSKANTWLGFVNLRLLPTTHDST 233
              +  E+   ++ V + GA+W +S     T   + L   A  W  F+  RLLPTTH  T
Sbjct: 162 EDITKPELVIVLETVAIVGAEWNVSSQGAYTCLRSSLNPPAKVWYHFLKSRLLPTTHGKT 221

Query: 234 VSRDGVLL 242
           VS++ V L
Sbjct: 222 VSKEHVSL 222

[Close]
BLAST of Spg020737 vs. ExPASy TrEMBL
Match: A0A2P5BCG4 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_251180 PE=4 SV=1)

HSP 1 Score: 105.9 bits (263), Expect = 8.9e-19
Identity = 88/312 (28.21%), Postives = 126/312 (40.38%), Query Frame = 0 

Query: 97  ELPHFLRAGITNHGWEQFCAKLEPTNAHMVREFYGNIDEQEGFQVIVRGVAVDWSLGAIN 156
           +LP F+   IT H W+QFCA  E     +VREFY N+ + E   V VRGV V WS  AIN
Sbjct: 59  QLP-FIAQVITQHNWKQFCAHPEDPIVPLVREFYANLTDPEENTVYVRGVQVSWSEEAIN 118

Query: 157 SLFSLQDFPHAVFNEMAIAPSNEEMNAAVQEVGVEGAQWRLSKTKKRTFQSAYLKSKANT 216
           ++F L D P    +E     + +++   ++ V   GA+W +S     T   + L   A  
Sbjct: 119 AVFGLGD-PVDEHSEFIQNITQQDLITVLETVAAAGAEWNVSAQGAYTCIRSALTPAAKV 178

Query: 217 WLGFVNLRLLPTTHDSTVSRD----------------GVLLRSE-----ARQGGLL---- 276
           W  F+  RLLPTTH  TVS+D                G ++ SE     AR+ G L    
Sbjct: 179 WYHFLKSRLLPTTHGKTVSKDRMLLLHSMLIGKSINVGRMIHSEIRACAARKTGALFFPS 238

Query: 277 ----------------------------CGVHRV-------------------------- 313
                                         V R+                          
Sbjct: 239 LITRLCRNARAPFLVNEEKLHNTGEIDAIAVARIAQEGPTESTQQPSSSRPATASSNRTN 298

[Close]
BLAST of Spg020737 vs. ExPASy TrEMBL
Match: A0A2P5AGA5 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_335450 PE=4 SV=1)

HSP 1 Score: 99.0 bits (245), Expect = 1.1e-16
Identity = 57/145 (39.31%), Postives = 77/145 (53.10%), Query Frame = 0 

Query: 97  ELPHFLRAGITNHGWEQFCAKLEPTNAHMVREFYGNIDEQEGFQVIVRGVAVDWSLGAIN 156
           +LP F+   IT H W+QFCA  E     +VREFY N+ +     V VRGV V WS  AIN
Sbjct: 50  QLP-FIAQVITQHNWKQFCAHPEDPIVPLVREFYANLTDPVENTVYVRGVQVSWSEEAIN 109

Query: 157 SLFSLQDFPHAVFNEMAIAPSNEEMNAAVQEVGVEGAQWRLSKTKKRTFQSAYLKSKANT 216
           ++F L D P    +E     +  ++   ++ V V GA+W +S     T   + L   A  
Sbjct: 110 AVFGLGD-PVDEHSEFIENITEHDLITVLETVAVAGAEWNVSAQGAYTCIRSALTPAAKV 169

Query: 217 WLGFVNLRLLPTTHDSTVSRDGVLL 242
           W  F+   LLPTTH  TVS+D +LL
Sbjct: 170 WFHFLKSHLLPTTHGKTVSKDRMLL 192

[Close]
BLAST of Spg020737 vs. ExPASy TrEMBL
Match: W9QTD9 (Uncharacterized protein OS=Morus notabilis OX=981085 GN=L484_022412 PE=4 SV=1)

HSP 1 Score: 93.2 bits (230), Expect = 6.0e-15
Identity = 50/143 (34.97%), Postives = 75/143 (52.45%), Query Frame = 0 

Query: 99  PHFLRAGITNHGWEQFCAKLEPTNAHMVREFYGNIDEQEGFQVIVRGVAVDWSLGAINSL 158
           P F+   I  HGW QFC         +VREFY N+ +     V V+ V V ++  AINS+
Sbjct: 4   PAFITRVIHQHGWRQFCQHPSNPIVPLVREFYANLLDFNQETVFVQNVKVPFTARAINSI 63

Query: 159 FSLQDFPHAVFNEMAIAPSNEEMNAAVQEVGVEGAQWRLSKTKKRTFQSAYLKSKANTWL 218
           F L++     + + A   ++E++   + EV +EGA W++S     T     LK  A  W 
Sbjct: 64  FGLEEVVDE-YVDFASEVTDEQLEVVLAEVAIEGATWQISPQGAYTCIRKELKRHAQIWY 123

Query: 219 GFVNLRLLPTTHDSTVSRDGVLL 242
            F+  R +P+TH  TV++D VLL
Sbjct: 124 HFLTARFMPSTHGKTVAKDRVLL 145

[Close]
BLAST of Spg020737 vs. ExPASy TrEMBL
Match: A0A2P5DXM3 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE=4 SV=1)

HSP 1 Score: 87.0 bits (214), Expect = 4.3e-13
Identity = 76/273 (27.84%), Postives = 108/273 (39.56%), Query Frame = 0 

Query: 125 MVREFYGNIDEQEGFQVIVRGVAVDWSLGAINSLFSLQD--FPHAVFNEMAIAPSNEEMN 184
           +VREFY N+ + E   + VRGV V WS  AIN++F L D    H+ F E    P   E+ 
Sbjct: 16  LVREFYANLTDPEENTIYVRGVQVSWSEEAINAVFGLGDPVDEHSEFIENITEP---ELI 75

Query: 185 AAVQEVGVEGAQWRLSKTKKRTFQSAYLKSKANTWLGFVNLRLLPTTHDSTVSRD----- 244
             ++ V   GA+W +S     T   + L   A  W  F+  RLLPTTH   VS+D     
Sbjct: 76  TVLETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLLPTTHGKIVSKDRMLLL 135

Query: 245 -----------GVLLRSEAR------QGGL--------LC-------------------- 304
                      G ++ SE R       G L        LC                    
Sbjct: 136 HSMLNGKSINVGRMIHSEIRACAAQKTGALFFPSLITRLCRNAPFLVNEEKLHNTGEIDA 195

Query: 305 -GVHRVQEQ--------------------------------LQMVISRLKFTEHQLQTYW 313
             V R+ ++                                L+  +S+ + T  Q Q +W
Sbjct: 196 IAVARITQEGPTESTQQPSSSRPAAASSSRTNGDVLQQLKALEQRLSQQEHTHKQQQQFW 255

[Close]
BLAST of Spg020737 vs. ExPASy TrEMBL
Match: A0A2P5DAQ2 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_080440 PE=4 SV=1)

HSP 1 Score: 84.0 bits (206), Expect = 3.6e-12
Identity = 62/188 (32.98%), Postives = 88/188 (46.81%), Query Frame = 0 

Query: 54  KEKSVEEEVVEVREKEKEDKGKSVLEDEEEPEERLPYEMFVSEELPHFLRAGITNHGWEQ 113
           K    E +  E+R +E        +E E   +   P E       P F+   I  H W+ 
Sbjct: 42  KAVKFESKAAEIRYEENIQNRPLSVEKEFVWDNSKPLEQ------PPFIADVIIQHNWQL 101

Query: 114 FCAKLEPTNAHMVREFYGNIDEQEGFQVIVRGVAVDWSLGAINSLFSLQDFPHAVFNEMA 173
           FCA  E     +VREFY N+   +   V +RGV V  S+ AIN++FSL D P    +E  
Sbjct: 102 FCAHPEDPIVPLVREFYTNMTNPDDDTVYIRGVQVPLSVEAINTIFSLGD-PIDEHSEFV 161

Query: 174 IAPSNEEMNAAVQEVGVEGAQWRLSKTKKRTFQSAYLKSKANTWLGFVNLRLLPTTHDST 233
              +  E+   ++ V + GA+W +S     T   + L   A  W  F+  RLLPTTH  T
Sbjct: 162 EDITKPELVIVLETVAIVGAEWNVSSQGAYTCLRSSLNPPAKVWYHFLKSRLLPTTHGKT 221

Query: 234 VSRDGVLL 242
           VS++ V L
Sbjct: 222 VSKEHVSL 222

The following BLAST results are available for this feature:
BLAST of Spg020737 vs. NCBI nr
Match NameE-valueIdentityDescription
PON46472.11.8e-1828.21hypothetical protein PanWU01x14_251180, partial [Parasponia andersonii][more]
PON35554.12.2e-1639.31hypothetical protein PanWU01x14_335450, partial [Parasponia andersonii][more]
EXB53755.11.2e-1434.97hypothetical protein L484_022412 [Morus notabilis][more]
PON78020.18.8e-1327.84hypothetical protein PanWU01x14_023740 [Parasponia andersonii][more]
PON70375.17.5e-1232.98hypothetical protein PanWU01x14_080440 [Parasponia andersonii][more]
BLAST of Spg020737 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Spg020737 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A2P5BCG48.9e-1928.21Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1... [more]
A0A2P5AGA51.1e-1639.31Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1... [more]
W9QTD96.0e-1534.97Uncharacterized protein OS=Morus notabilis OX=981085 GN=L484_022412 PE=4 SV=1[more]
A0A2P5DXM34.3e-1327.84Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE... [more]
A0A2P5DAQ23.6e-1232.98Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_080440 PE... [more]
BLAST of Spg020737 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 availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..31
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..86
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 44..86

Relationships

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

Feature NameUnique NameType
Spg020737.1Spg020737.1mRNA