Spg015378 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg015378
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
DescriptionUnknown protein
Locationscaffold10: 10724868 .. 10744999 (+)
RNA-Seq ExpressionSpg015378
SyntenySpg015378
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGTTGAAGAGGACGAAAAGTGGTGAGAAAGTAATCGAGGATGTTCCTGAAGAAGAGGCTGAGAAAGAACAGCCAATAGGACCTGAAGAAGGGAAAAATGCAAAACAAGGAGATCAACCTGTCGAAGTTGAGCAGGAAAATCAAGAAAAGAGAGCAGATGATGTACTAGAACAAGGGAATGGTCAAGAAACCCAAGAACAGAGGGTTCAGGGAGAGGCTGTGTTGGAGGAGAGTACAGAAACAGTGGATCAAGAGAAAGAGGAAACTGAAAAGAAGGCCGAAGAGGAGGCCCTGACAAAGCAACAAGAAGACAAGGGCAAGGGAGTTGCCGAAGCAGCGACTGAGGCAGAAGAGGCTGAGATTGAAGAGCCAAGAATACCGTATGAGCGCTTTGTCAATAATCTTGCCAGAGCAAAATATCTAGAAATTCTGAAACGAAACTTCCTATTTGAGCGACGATTTGGAGAAAACCTACCACATTTTCTTAGAGTAAGGATCACGAACCATGGATGGGAGCAATTCTATGCGAAGTCAGAGTCAGTAAATTCAAATATTGTTCGCGAATTCTATGCAAACATTGATGAAGAGGAAGGCTTCCAAGCGATTTTTCGAGGGGTTGCTGTAGACTGGAGCCTAGGTGCGATAAATTCTCTATTTAATCCCCATAATTTTCCACACACCGGATACAATGAGATGGTGGTAACACCATCTAATGATCAGTTAAACATGGCTGTGAGAGAAGTTGGAATTGAAGGGGCTCAGTGGAGGTTGTCAAAAACAGAGAAGCGCACATTTCATGTAGCTTGTTTGAAGAGCGAAGCCAACACCTGGTTGGTCTTCATCAAATTGCGTCTTCTACCGACAACCCACGATTCTACAGCCCTCCGAAGGGATGGTCGCTTCCAGGGCGACGCGCAGGCGGATCGTAGGAATCTCACTATGCAACCTAGGGGCGGAGACCGTAGGATACGTTGTCATGGTGACGCGAAGCCGAGCATGTATCTCACGCTTTTGGACAACCACTTGGATCTTCTCTACTATCCCCAGGCCTTGGAACAGATTGTGGGATCCTCAATTGATAGGAATTGGAAAGGAAAGCTTATGGGTATAAGCAAATTTGAGAGTTTGAGCTATGGAGGATCACATCGTCTGTCTTTAAAGAACAAAGCGAGTCGCGCCAATACTGTCCCCAGGATTAAGGGCATTATTGACACGCCCAACCCAACAAGGCTTCAACGTACGCAAGAAGCTCGGCAAGGGGGGCTGGTGTGTGGCATCCATCAAATTCTAGAACAACTTCAACTTTCAGCCAGTAGGCAAGAGTATGCTGAGAGGCAAGCTCAAACCTATTGGACTTATGCTAAGAGAAAGGATGCTAGTTTAAGGAAGGCACTGCAGTCAAATGTTTCTAAGCCATATCAAGCCTTCCCAGTTTTCCCCGATGACTTGTTCAATCCCTGGATCCCACCGCCACCAGTTGAAAGAGAAGAAGAAGAAGACGATCAGGGTGGTGATGATTTGTTCAATGCTGAAAGAACTATTTTGTTGCAGCAGTGCTTGGTTTTGCAGGATGCTCAGATCCCAGAGGTACGCACCAACAGGCTACCAAAAGGAAAGACAACTATTGGTCAATTAAACCCTTTTAATTACCTAGTGACATTGCATGCTAATAGGACAATGGTGTATTCAACTCAGTTTTTTTCCTTCTTCCTCGAGCTTCTCGACGTCGGTCTTCGCTCCCACCAGCTGCAGTTTTCTTCTTCGACCACGGTAGGTGCAGTAGCGCGTGGGCATGAGAAGAGCGTCGTGTGGGCTGTTTTCAGCGTTTTCCAGCAGTTTTGGCTTTGGGTAGGTGTTTTCCAGCAAGCGGAAGTGGGAGATTGGACAGCAAGCATTGTTGCTGTTTTAGTCGCACATATGGAGGGGACTAGGCTTAGAATAGGAACCTTAGTCATGATTCAGGGCCTCAGGGATAAGGCTGGGTACCTTATCCTGGTAACACTATGTGATACGACCCGCTTTGTATTCGATACAGACGTATTGATCCAAGGCGTCCATCGGGTGATCCATAATGGTGGTGTCGATTGGAAGATCAAGAACGAGAATCTTGGATCATCGTGCTGTGTTCTTCGAAAATCCATGCGTAGCGTCGCGACCCTACTCAACGGAGTCACGACGCTGAAGAACAAATGCTGGAAAAAATCGGGCCAGCGTCGGGACGCTTTGCCTACAGCGTCTCGACGCTAA

Coding sequence (CDS)

ATGTTGAAGAGGACGAAAAGTGGTGAGAAAGTAATCGAGGATGTTCCTGAAGAAGAGGCTGAGAAAGAACAGCCAATAGGACCTGAAGAAGGGAAAAATGCAAAACAAGGAGATCAACCTGTCGAAGTTGAGCAGGAAAATCAAGAAAAGAGAGCAGATGATGTACTAGAACAAGGGAATGGTCAAGAAACCCAAGAACAGAGGGTTCAGGGAGAGGCTGTGTTGGAGGAGAGTACAGAAACAGTGGATCAAGAGAAAGAGGAAACTGAAAAGAAGGCCGAAGAGGAGGCCCTGACAAAGCAACAAGAAGACAAGGGCAAGGGAGTTGCCGAAGCAGCGACTGAGGCAGAAGAGGCTGAGATTGAAGAGCCAAGAATACCGTATGAGCGCTTTGTCAATAATCTTGCCAGAGCAAAATATCTAGAAATTCTGAAACGAAACTTCCTATTTGAGCGACGATTTGGAGAAAACCTACCACATTTTCTTAGAGTAAGGATCACGAACCATGGATGGGAGCAATTCTATGCGAAGTCAGAGTCAGTAAATTCAAATATTGTTCGCGAATTCTATGCAAACATTGATGAAGAGGAAGGCTTCCAAGCGATTTTTCGAGGGGTTGCTGTAGACTGGAGCCTAGGTGCGATAAATTCTCTATTTAATCCCCATAATTTTCCACACACCGGATACAATGAGATGGTGGTAACACCATCTAATGATCAGTTAAACATGGCTGTGAGAGAAGTTGGAATTGAAGGGGCTCAGTGGAGGTTGTCAAAAACAGAGAAGCGCACATTTCATGTAGCTTGTTTGAAGAGCGAAGCCAACACCTGGTTGGTCTTCATCAAATTGCGTCTTCTACCGACAACCCACGATTCTACAGCCCTCCGAAGGGATGGTCGCTTCCAGGGCGACGCGCAGGCGGATCGTAGGAATCTCACTATGCAACCTAGGGGCGGAGACCGTAGGATACGTTGTCATGGTGACGCGAAGCCGAGCATGTATCTCACGCTTTTGGACAACCACTTGGATCTTCTCTACTATCCCCAGGCCTTGGAACAGATTGTGGGATCCTCAATTGATAGGAATTGGAAAGGAAAGCTTATGGGTATAAGCAAATTTGAGAGTTTGAGCTATGGAGGATCACATCGTCTGTCTTTAAAGAACAAAGCGAGTCGCGCCAATACTGTCCCCAGGATTAAGGGCATTATTGACACGCCCAACCCAACAAGGCTTCAACGTACGCAAGAAGCTCGGCAAGGGGGGCTGGTGTGTGGCATCCATCAAATTCTAGAACAACTTCAACTTTCAGCCAGTAGGCAAGAGTATGCTGAGAGGCAAGCTCAAACCTATTGGACTTATGCTAAGAGAAAGGATGCTAGTTTAAGGAAGGCACTGCAGTCAAATGTTTCTAAGCCATATCAAGCCTTCCCAGTTTTCCCCGATGACTTGTTCAATCCCTGGATCCCACCGCCACCAGTTGAAAGAGAAGAAGAAGAAGACGATCAGGGTGGTGATGATTTGTTCAATGCTGAAAGAACTATTTTGTTGCAGCAGTGCTTGGTTTTGCAGGATGCTCAGATCCCAGAGGTACGCACCAACAGGCTACCAAAAGGAAAGACAACTATTGGTCAATTAAACCCTTTTAATTACCTAGTGACATTGCATGCTAATAGGACAATGGTGTATTCAACTCAGTTTTTTTCCTTCTTCCTCGAGCTTCTCGACGTCGGTCTTCGCTCCCACCAGCTGCAGTTTTCTTCTTCGACCACGGTAGGTGCAGTAGCGCGTGGGCATGAGAAGAGCGTCGTGTGGGCTGTTTTCAGCGTTTTCCAGCAGTTTTGGCTTTGGGTAGGTGTTTTCCAGCAAGCGGAAGTGGGAGATTGGACAGCAAGCATTGTTGCTGTTTTAGTCGCACATATGGAGGGGACTAGGCTTAGAATAGGAACCTTAGTCATGATTCAGGGCCTCAGGGATAAGGCTGGGTACCTTATCCTGGTAACACTATGTGATACGACCCGCTTTGTATTCGATACAGACGTATTGATCCAAGGCGTCCATCGGGTGATCCATAATGGTGGTGTCGATTGGAAGATCAAGAACGAGAATCTTGGATCATCGTGCTGTGTTCTTCGAAAATCCATGCGTAGCGTCGCGACCCTACTCAACGGAGTCACGACGCTGAAGAACAAATGCTGGAAAAAATCGGGCCAGCGTCGGGACGCTTTGCCTACAGCGTCTCGACGCTAA

Protein sequence

MLKRTKSGEKVIEDVPEEEAEKEQPIGPEEGKNAKQGDQPVEVEQENQEKRADDVLEQGNGQETQEQRVQGEAVLEESTETVDQEKEETEKKAEEEALTKQQEDKGKGVAEAATEAEEAEIEEPRIPYERFVNNLARAKYLEILKRNFLFERRFGENLPHFLRVRITNHGWEQFYAKSESVNSNIVREFYANIDEEEGFQAIFRGVAVDWSLGAINSLFNPHNFPHTGYNEMVVTPSNDQLNMAVREVGIEGAQWRLSKTEKRTFHVACLKSEANTWLVFIKLRLLPTTHDSTALRRDGRFQGDAQADRRNLTMQPRGGDRRIRCHGDAKPSMYLTLLDNHLDLLYYPQALEQIVGSSIDRNWKGKLMGISKFESLSYGGSHRLSLKNKASRANTVPRIKGIIDTPNPTRLQRTQEARQGGLVCGIHQILEQLQLSASRQEYAERQAQTYWTYAKRKDASLRKALQSNVSKPYQAFPVFPDDLFNPWIPPPPVEREEEEDDQGGDDLFNAERTILLQQCLVLQDAQIPEVRTNRLPKGKTTIGQLNPFNYLVTLHANRTMVYSTQFFSFFLELLDVGLRSHQLQFSSSTTVGAVARGHEKSVVWAVFSVFQQFWLWVGVFQQAEVGDWTASIVAVLVAHMEGTRLRIGTLVMIQGLRDKAGYLILVTLCDTTRFVFDTDVLIQGVHRVIHNGGVDWKIKNENLGSSCCVLRKSMRSVATLLNGVTTLKNKCWKKSGQRRDALPTASRR
Homology
[Close]
BLAST of Spg015378 vs. NCBI nr
Match: PON46472.1 (hypothetical protein PanWU01x14_251180, partial [Parasponia andersonii])

HSP 1 Score: 104.8 bits (260), Expect = 3.4e-18
Identity = 109/411 (26.52%), Postives = 168/411 (40.88%), Query Frame = 0 

Query: 107 KGVAEAATEAEEAEIEEPRIPYERFVNNLARAKYLEILKRNFLFERRFGENLPHFLRVRI 166
           K VA  A +A + E E     YE  + N    + L   K   L        LP   +V I
Sbjct: 13  KRVARKAHKAVKFETEAAATRYENNIQN----RPLNAEKGFVLDNSETMGQLPFIAQV-I 72

Query: 167 TNHGWEQFYAKSESVNSNIVREFYANIDEEEGFQAIFRGVAVDWSLGAINSLFNPHNFPH 226
           T H W+QF A  E     +VREFYAN+ + E      RGV V WS  AIN++F   + P 
Sbjct: 73  TQHNWKQFCAHPEDPIVPLVREFYANLTDPEENTVYVRGVQVSWSEEAINAVFGLGD-PV 132

Query: 227 TGYNEMVVTPSNDQLNMAVREVGIEGAQWRLSKTEKRTFHVACLKSEANTWLVFIKLRLL 286
             ++E +   +   L   +  V   GA+W +S     T   + L   A  W  F+K RLL
Sbjct: 133 DEHSEFIQNITQQDLITVLETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLL 192

Query: 287 PTTHDSTALRRDGRFQGDAQADRRNLTMQPRGGDRRIRCHGDAKPSMYLTLLDNHLDLLY 346
           PTTH  T             +  R L +      + I   G    S            L+
Sbjct: 193 PTTHGKTV------------SKDRMLLLHSMLIGKSINV-GRMIHSEIRACAARKTGALF 252

Query: 347 YPQALEQIVGSSIDRNWKGKLMGISKFESLSYGGSHRLSLKNKASRANTVPRIKGIIDTP 406
           +P  + ++      RN +   + +++ +  + G    +++   A    T          P
Sbjct: 253 FPSLITRLC-----RNARAPFL-VNEEKLHNTGEIDAIAVARIAQEGPTES-----TQQP 312

Query: 407 NPTRLQRTQEARQGGLVCGIHQILEQLQLSASRQE-----------YAERQAQTYWTYAK 466
           + +R       R  G    I Q L+ L+   S+QE           +  +Q Q +W Y+K
Sbjct: 313 SSSRPATASSNRTNG---DILQQLKALEQRLSQQEVQQYHMMSLLQHTHKQQQQFWAYSK 372

Query: 467 RKDASLRKALQSNVSKPYQAFPVFPDDLFNPWIPPPPVEREEEEDDQGGDD 507
            +D +L+KALQ+N ++P   FP FP ++    +     E E E D  G ++
Sbjct: 373 ERDTALKKALQNNFTRPMPTFPAFPQEI----LKDLDYEYEAESDKDGSNE 386

[Close]
BLAST of Spg015378 vs. NCBI nr
Match: PON78020.1 (hypothetical protein PanWU01x14_023740 [Parasponia andersonii])

HSP 1 Score: 99.4 bits (246), Expect = 1.4e-16
Identity = 82/322 (25.47%), Postives = 139/322 (43.17%), Query Frame = 0 

Query: 185 IVREFYANIDEEEGFQAIFRGVAVDWSLGAINSLFNPHNFPHTGYNEMVVTPSNDQLNMA 244
           +VREFYAN+ + E      RGV V WS  AIN++F   + P   ++E +   +  +L   
Sbjct: 16  LVREFYANLTDPEENTIYVRGVQVSWSEEAINAVFGLGD-PVDEHSEFIENITEPELITV 75

Query: 245 VREVGIEGAQWRLSKTEKRTFHVACLKSEANTWLVFIKLRLLPTTHDSTALRRDGRFQGD 304
           +  V   GA+W +S     T   + L   A  W  F+K RLLPTTH            G 
Sbjct: 76  LETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLLPTTH------------GK 135

Query: 305 AQADRRNLTMQPRGGDRRIRCHGDAKPSMYLTLLDNHLDLLYYPQALEQIVGSSIDRNWK 364
             +  R L +      + I   G    S            L++P  + ++  ++     +
Sbjct: 136 IVSKDRMLLLHSMLNGKSINV-GRMIHSEIRACAAQKTGALFFPSLITRLCRNAPFLVNE 195

Query: 365 GKLMGISKFESLSYGGSHRLSLKNKASRANTVPRIKGIIDTPNPTRLQRTQEARQGGLVC 424
            KL    + ++++     R++ +                  P+ +R      +R  G   
Sbjct: 196 EKLHNTGEIDAIAVA---RITQEGPTEST----------QQPSSSRPAAASSSRTNG--- 255

Query: 425 GIHQILEQLQLSASRQEYAERQAQTYWTYAKRKDASLRKALQSNVSKPYQAFPVFPDDLF 484
            + Q L+ L+   S+QE+  +Q Q +W Y+K +D +L+KALQ+N ++P   FP FP ++ 
Sbjct: 256 DVLQQLKALEQRLSQQEHTHKQQQQFWAYSKERDTALKKALQNNFTRPIPTFPAFPQEI- 303

Query: 485 NPWIPPPPVEREEEEDDQGGDD 507
              +     E E E D  G ++
Sbjct: 316 ---LQDLDYEYEAESDKDGSNE 303

[Close]
BLAST of Spg015378 vs. NCBI nr
Match: PON70375.1 (hypothetical protein PanWU01x14_080440 [Parasponia andersonii])

HSP 1 Score: 83.2 bits (204), Expect = 1.1e-11
Identity = 57/185 (30.81%), Postives = 89/185 (48.11%), Query Frame = 0 

Query: 109 VAEAATEAEEAEIEEPRIPYERFVNNLARAKYLEILKRNFLFERRFGENLPHFLRVRITN 168
           VA  A++A + E +   I YE  + N   +     +++ F+++       P F+   I  
Sbjct: 36  VARNASKAVKFESKAAEIRYEENIQNRPLS-----VEKEFVWDNSKPLEQPPFIADVIIQ 95

Query: 169 HGWEQFYAKSESVNSNIVREFYANIDEEEGFQAIFRGVAVDWSLGAINSLFNPHNFPHTG 228
           H W+ F A  E     +VREFY N+   +      RGV V  S+ AIN++F+  + P   
Sbjct: 96  HNWQLFCAHPEDPIVPLVREFYTNMTNPDDDTVYIRGVQVPLSVEAINTIFSLGD-PIDE 155

Query: 229 YNEMVVTPSNDQLNMAVREVGIEGAQWRLSKTEKRTFHVACLKSEANTWLVFIKLRLLPT 288
           ++E V   +  +L + +  V I GA+W +S     T   + L   A  W  F+K RLLPT
Sbjct: 156 HSEFVEDITKPELVIVLETVAIVGAEWNVSSQGAYTCLRSSLNPPAKVWYHFLKSRLLPT 214

Query: 289 THDST 294
           TH  T
Sbjct: 216 THGKT 214

[Close]
BLAST of Spg015378 vs. NCBI nr
Match: EXB77427.1 (hypothetical protein L484_000483 [Morus notabilis])

HSP 1 Score: 74.3 bits (181), Expect = 4.9e-09
Identity = 54/200 (27.00%), Postives = 90/200 (45.00%), Query Frame = 0 

Query: 100 KQQEDKGKGV--------AEAATEAEEAEIEEPRIPYERFVNNLARAKYLEILKRNFLFE 159
           K +  KGKGV        +E+    E AE+++   P      +    K    ++R F++ 
Sbjct: 4   KSKARKGKGVRILIDSDSSESDPATENAEVKKFASPEAEHRFDTCMNKRALHMERGFVYR 63

Query: 160 RRFGENLPHFLRVRITNHGWEQFYAKSESVNSNIVREFYANIDEEEGFQAIFRGVAVDWS 219
           R      P F+   I  H W  F     +    +VRE+ A  D         RG  + ++
Sbjct: 64  RGRPSGYPSFIHSVIAAHKWHSFCHNPHAATVQLVREYAAEPD-----TIFVRGQLIPFT 123

Query: 220 LGAINSLFN-PHNFPHTGYNEMVVTPSNDQLNMAVREVGIEGAQWRLSKTEKRTFHVACL 279
             AINSL++ P    H  +N    + + DQL+  + E+ +EG +WR +     TF   CL
Sbjct: 124 SEAINSLYDLPDVEDH--FNNFADSLNEDQLDEVINELCVEGTEWRRATRGSMTFPRECL 183

Query: 280 KSEANTWLVFIKLRLLPTTH 291
           +  +  W  F++ RL+P++H
Sbjct: 184 QPGSKIWYHFLRFRLMPSSH 196

[Close]
BLAST of Spg015378 vs. NCBI nr
Match: EXB53755.1 (hypothetical protein L484_022412 [Morus notabilis])

HSP 1 Score: 73.9 bits (180), Expect = 6.4e-09
Identity = 44/138 (31.88%), Postives = 65/138 (47.10%), Query Frame = 0 

Query: 159 PHFLRVRITNHGWEQFYAKSESVNSNIVREFYANIDEEEGFQAIFRGVAVDWSLGAINSL 218
           P F+   I  HGW QF     +    +VREFYAN+ +        + V V ++  AINS+
Sbjct: 4   PAFITRVIHQHGWRQFCQHPSNPIVPLVREFYANLLDFNQETVFVQNVKVPFTARAINSI 63

Query: 219 FNPHNFPHTGYNEMVVTPSNDQLNMAVREVGIEGAQWRLSKTEKRTFHVACLKSEANTWL 278
           F         Y +     +++QL + + EV IEGA W++S     T     LK  A  W 
Sbjct: 64  FGLEEVVDE-YVDFASEVTDEQLEVVLAEVAIEGATWQISPQGAYTCIRKELKRHAQIWY 123

Query: 279 VFIKLRLLPTTHDSTALR 297
            F+  R +P+TH  T  +
Sbjct: 124 HFLTARFMPSTHGKTVAK 140

[Close]
BLAST of Spg015378 vs. ExPASy TrEMBL
Match: A0A2P5BCG4 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_251180 PE=4 SV=1)

HSP 1 Score: 104.8 bits (260), Expect = 1.6e-18
Identity = 109/411 (26.52%), Postives = 168/411 (40.88%), Query Frame = 0 

Query: 107 KGVAEAATEAEEAEIEEPRIPYERFVNNLARAKYLEILKRNFLFERRFGENLPHFLRVRI 166
           K VA  A +A + E E     YE  + N    + L   K   L        LP   +V I
Sbjct: 13  KRVARKAHKAVKFETEAAATRYENNIQN----RPLNAEKGFVLDNSETMGQLPFIAQV-I 72

Query: 167 TNHGWEQFYAKSESVNSNIVREFYANIDEEEGFQAIFRGVAVDWSLGAINSLFNPHNFPH 226
           T H W+QF A  E     +VREFYAN+ + E      RGV V WS  AIN++F   + P 
Sbjct: 73  TQHNWKQFCAHPEDPIVPLVREFYANLTDPEENTVYVRGVQVSWSEEAINAVFGLGD-PV 132

Query: 227 TGYNEMVVTPSNDQLNMAVREVGIEGAQWRLSKTEKRTFHVACLKSEANTWLVFIKLRLL 286
             ++E +   +   L   +  V   GA+W +S     T   + L   A  W  F+K RLL
Sbjct: 133 DEHSEFIQNITQQDLITVLETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLL 192

Query: 287 PTTHDSTALRRDGRFQGDAQADRRNLTMQPRGGDRRIRCHGDAKPSMYLTLLDNHLDLLY 346
           PTTH  T             +  R L +      + I   G    S            L+
Sbjct: 193 PTTHGKTV------------SKDRMLLLHSMLIGKSINV-GRMIHSEIRACAARKTGALF 252

Query: 347 YPQALEQIVGSSIDRNWKGKLMGISKFESLSYGGSHRLSLKNKASRANTVPRIKGIIDTP 406
           +P  + ++      RN +   + +++ +  + G    +++   A    T          P
Sbjct: 253 FPSLITRLC-----RNARAPFL-VNEEKLHNTGEIDAIAVARIAQEGPTES-----TQQP 312

Query: 407 NPTRLQRTQEARQGGLVCGIHQILEQLQLSASRQE-----------YAERQAQTYWTYAK 466
           + +R       R  G    I Q L+ L+   S+QE           +  +Q Q +W Y+K
Sbjct: 313 SSSRPATASSNRTNG---DILQQLKALEQRLSQQEVQQYHMMSLLQHTHKQQQQFWAYSK 372

Query: 467 RKDASLRKALQSNVSKPYQAFPVFPDDLFNPWIPPPPVEREEEEDDQGGDD 507
            +D +L+KALQ+N ++P   FP FP ++    +     E E E D  G ++
Sbjct: 373 ERDTALKKALQNNFTRPMPTFPAFPQEI----LKDLDYEYEAESDKDGSNE 386

[Close]
BLAST of Spg015378 vs. ExPASy TrEMBL
Match: A0A2P5DXM3 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE=4 SV=1)

HSP 1 Score: 99.4 bits (246), Expect = 6.9e-17
Identity = 82/322 (25.47%), Postives = 139/322 (43.17%), Query Frame = 0 

Query: 185 IVREFYANIDEEEGFQAIFRGVAVDWSLGAINSLFNPHNFPHTGYNEMVVTPSNDQLNMA 244
           +VREFYAN+ + E      RGV V WS  AIN++F   + P   ++E +   +  +L   
Sbjct: 16  LVREFYANLTDPEENTIYVRGVQVSWSEEAINAVFGLGD-PVDEHSEFIENITEPELITV 75

Query: 245 VREVGIEGAQWRLSKTEKRTFHVACLKSEANTWLVFIKLRLLPTTHDSTALRRDGRFQGD 304
           +  V   GA+W +S     T   + L   A  W  F+K RLLPTTH            G 
Sbjct: 76  LETVAAAGAEWNVSAQGAYTCIRSALTPAAKVWYHFLKSRLLPTTH------------GK 135

Query: 305 AQADRRNLTMQPRGGDRRIRCHGDAKPSMYLTLLDNHLDLLYYPQALEQIVGSSIDRNWK 364
             +  R L +      + I   G    S            L++P  + ++  ++     +
Sbjct: 136 IVSKDRMLLLHSMLNGKSINV-GRMIHSEIRACAAQKTGALFFPSLITRLCRNAPFLVNE 195

Query: 365 GKLMGISKFESLSYGGSHRLSLKNKASRANTVPRIKGIIDTPNPTRLQRTQEARQGGLVC 424
            KL    + ++++     R++ +                  P+ +R      +R  G   
Sbjct: 196 EKLHNTGEIDAIAVA---RITQEGPTEST----------QQPSSSRPAAASSSRTNG--- 255

Query: 425 GIHQILEQLQLSASRQEYAERQAQTYWTYAKRKDASLRKALQSNVSKPYQAFPVFPDDLF 484
            + Q L+ L+   S+QE+  +Q Q +W Y+K +D +L+KALQ+N ++P   FP FP ++ 
Sbjct: 256 DVLQQLKALEQRLSQQEHTHKQQQQFWAYSKERDTALKKALQNNFTRPIPTFPAFPQEI- 303

Query: 485 NPWIPPPPVEREEEEDDQGGDD 507
              +     E E E D  G ++
Sbjct: 316 ---LQDLDYEYEAESDKDGSNE 303

[Close]
BLAST of Spg015378 vs. ExPASy TrEMBL
Match: A0A2P5DAQ2 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_080440 PE=4 SV=1)

HSP 1 Score: 83.2 bits (204), Expect = 5.1e-12
Identity = 57/185 (30.81%), Postives = 89/185 (48.11%), Query Frame = 0 

Query: 109 VAEAATEAEEAEIEEPRIPYERFVNNLARAKYLEILKRNFLFERRFGENLPHFLRVRITN 168
           VA  A++A + E +   I YE  + N   +     +++ F+++       P F+   I  
Sbjct: 36  VARNASKAVKFESKAAEIRYEENIQNRPLS-----VEKEFVWDNSKPLEQPPFIADVIIQ 95

Query: 169 HGWEQFYAKSESVNSNIVREFYANIDEEEGFQAIFRGVAVDWSLGAINSLFNPHNFPHTG 228
           H W+ F A  E     +VREFY N+   +      RGV V  S+ AIN++F+  + P   
Sbjct: 96  HNWQLFCAHPEDPIVPLVREFYTNMTNPDDDTVYIRGVQVPLSVEAINTIFSLGD-PIDE 155

Query: 229 YNEMVVTPSNDQLNMAVREVGIEGAQWRLSKTEKRTFHVACLKSEANTWLVFIKLRLLPT 288
           ++E V   +  +L + +  V I GA+W +S     T   + L   A  W  F+K RLLPT
Sbjct: 156 HSEFVEDITKPELVIVLETVAIVGAEWNVSSQGAYTCLRSSLNPPAKVWYHFLKSRLLPT 214

Query: 289 THDST 294
           TH  T
Sbjct: 216 THGKT 214

[Close]
BLAST of Spg015378 vs. ExPASy TrEMBL
Match: W9RK06 (Uncharacterized protein OS=Morus notabilis OX=981085 GN=L484_000483 PE=4 SV=1)

HSP 1 Score: 74.3 bits (181), Expect = 2.4e-09
Identity = 54/200 (27.00%), Postives = 90/200 (45.00%), Query Frame = 0 

Query: 100 KQQEDKGKGV--------AEAATEAEEAEIEEPRIPYERFVNNLARAKYLEILKRNFLFE 159
           K +  KGKGV        +E+    E AE+++   P      +    K    ++R F++ 
Sbjct: 4   KSKARKGKGVRILIDSDSSESDPATENAEVKKFASPEAEHRFDTCMNKRALHMERGFVYR 63

Query: 160 RRFGENLPHFLRVRITNHGWEQFYAKSESVNSNIVREFYANIDEEEGFQAIFRGVAVDWS 219
           R      P F+   I  H W  F     +    +VRE+ A  D         RG  + ++
Sbjct: 64  RGRPSGYPSFIHSVIAAHKWHSFCHNPHAATVQLVREYAAEPD-----TIFVRGQLIPFT 123

Query: 220 LGAINSLFN-PHNFPHTGYNEMVVTPSNDQLNMAVREVGIEGAQWRLSKTEKRTFHVACL 279
             AINSL++ P    H  +N    + + DQL+  + E+ +EG +WR +     TF   CL
Sbjct: 124 SEAINSLYDLPDVEDH--FNNFADSLNEDQLDEVINELCVEGTEWRRATRGSMTFPRECL 183

Query: 280 KSEANTWLVFIKLRLLPTTH 291
           +  +  W  F++ RL+P++H
Sbjct: 184 QPGSKIWYHFLRFRLMPSSH 196

[Close]
BLAST of Spg015378 vs. ExPASy TrEMBL
Match: W9QTD9 (Uncharacterized protein OS=Morus notabilis OX=981085 GN=L484_022412 PE=4 SV=1)

HSP 1 Score: 73.9 bits (180), Expect = 3.1e-09
Identity = 44/138 (31.88%), Postives = 65/138 (47.10%), Query Frame = 0 

Query: 159 PHFLRVRITNHGWEQFYAKSESVNSNIVREFYANIDEEEGFQAIFRGVAVDWSLGAINSL 218
           P F+   I  HGW QF     +    +VREFYAN+ +        + V V ++  AINS+
Sbjct: 4   PAFITRVIHQHGWRQFCQHPSNPIVPLVREFYANLLDFNQETVFVQNVKVPFTARAINSI 63

Query: 219 FNPHNFPHTGYNEMVVTPSNDQLNMAVREVGIEGAQWRLSKTEKRTFHVACLKSEANTWL 278
           F         Y +     +++QL + + EV IEGA W++S     T     LK  A  W 
Sbjct: 64  FGLEEVVDE-YVDFASEVTDEQLEVVLAEVAIEGATWQISPQGAYTCIRKELKRHAQIWY 123

Query: 279 VFIKLRLLPTTHDSTALR 297
            F+  R +P+TH  T  +
Sbjct: 124 HFLTARFMPSTHGKTVAK 140

The following BLAST results are available for this feature:
BLAST of Spg015378 vs. NCBI nr
Match NameE-valueIdentityDescription
PON46472.13.4e-1826.52hypothetical protein PanWU01x14_251180, partial [Parasponia andersonii][more]
PON78020.11.4e-1625.47hypothetical protein PanWU01x14_023740 [Parasponia andersonii][more]
PON70375.11.1e-1130.81hypothetical protein PanWU01x14_080440 [Parasponia andersonii][more]
EXB77427.14.9e-0927.00hypothetical protein L484_000483 [Morus notabilis][more]
EXB53755.16.4e-0931.88hypothetical protein L484_022412 [Morus notabilis][more]
BLAST of Spg015378 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Spg015378 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A2P5BCG41.6e-1826.52Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1... [more]
A0A2P5DXM36.9e-1725.47Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE... [more]
A0A2P5DAQ25.1e-1230.81Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_080440 PE... [more]
W9RK062.4e-0927.00Uncharacterized protein OS=Morus notabilis OX=981085 GN=L484_000483 PE=4 SV=1[more]
W9QTD93.1e-0931.88Uncharacterized protein OS=Morus notabilis OX=981085 GN=L484_022412 PE=4 SV=1[more]
BLAST of Spg015378 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: 75..104
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 84..121
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 58..74
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..121
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 1..57

Relationships

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

Feature NameUnique NameType
Spg015378.1Spg015378.1mRNA