Spg004131 (gene) Sponge gourd (cylindrica) v1

Overview
NameSpg004131
Typegene
OrganismLuffa cylindrica (Sponge gourd (cylindrica) v1)
DescriptionRetrotransposon protein putative ty3-gypsy sub-class
Locationscaffold9: 14144872 .. 14156584 (+)
RNA-Seq ExpressionSpg004131
SyntenySpg004131
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.
CATGTACAAAGGCATGAATCTCAGCCTTGGCCGAATCATTTAGACGGAGATCCTTGCCTGTGGGCACAAGAACGTAGGAAGGTTATTCTTCCCAAGTCTGATCACAATGTTATGCGGGCTGGCGTCGAGCCCGAGGAGAAAGAAGAGAAGGAAGTCGCCAGTGTTGGGTTTTATGCCCTAAAACTCGTAGATAGTGAATGTAAACAAATTGTATACTTGTTACAATAAAGTGTTATTGAGTTTCTACAATAAAGTGTTATTGTTAAATATTGCCAAATCATATAAACTAAGATCCAAGTTTGTTTGTATGTAACTTGAACTAGTATGCGGGGACATACGGAGATCGATGTTCAAGTAACAACCTAAAAGGTCAATAGTACAAGGATAAGGTTGGGTACCTTATCCTAGTAACACTATGAGATACGACCCGCTTTGTATTTGATATAGACGTATTGATCCAAAGCGTCCATATACTAGACATGCAAGCGAGTTTGCATAAGACCGGACCATGAAATAGTAAACCACTAGATATAACACCGTTAACTAGTTAGGTTACTGTTTCAATAGGATGACCTATGTAACTCAGTCTTAATCCTGAGTGTGTCATGAACTCCTTCTCATGAGGGATTGTCCTTCGATTAGCATGGGTGAGAGTGGCCAATACGGCGACTCAATATGCCTTCCTTTTTGGGGACAAGACCGAGTGGGAGGCTGGGGACATGACAACACAAGAAGGAATTCACTCCTTCCCACTTCTAGGAGAAGTAGATGAGTGTTCCCTTAAGTGGTGACTTCGGGACTTGAACAAAGGGATCCCGCCCTCTCACTGGCTCGAGAGAGACTTTCTGTTTAATAGTTGGACCGTAAACAGATTGTTCATTAGAGGAGCTCTGGTACTTAAGGAGACAGATGTAACATAAGGGTAAAACGGTAATTTGACCCAGTTGTGATTACGGACACTCATGAAGGATTGACTTTCCAGTATAGGTCTATATCCATGGACACATAAATGTTCTACAGTGAGAAGAGTTCAGCTGTGGGTCTTTAGTGGAATGACCCACAGTGATACATTAATGAATATTGGTTAACCTGATTAATGAGTTTAATCAGTTAACCTCATATCATTGGAGCTTCTGATCTGTAGGTCCATTAGGTCCCCCTGCTAGCTCGTAAAGAGTAATTAGGAACAATTATATCTTGAGAGAATTTGAATAGTTCAAATTCATATTGGGAATTAAGTTAATTGTATGAGATACAGATTAATATAATATAATGTATAGTGATACATTAAAATATAAAGTCTAATTTGAATTTAAACTTTATTATTATGAGAGAAATAAATATTTGAAGAAGTTCAAATATTAATATGAATTTTAATATGAATTTGATTCATATTAGATTTATAGGATATATGAGAATTTGAAGGAGTTCAAATTTTAATATGAATTTGATTCATATTATAGAATTAATTAATTGAAGGCCTGAAATTAAATATGTGATATTTAATTGGGTAATAAATTAATTAACTAATAGAAGGTCTGAAATTAAATATATGATATTTAATTGGTGATTAATTAATTAAAGAATTAATTAATTAGAAATTAATCAAATATGGAAATTATTAATCACTTATGGAAGCAATAAATCATTTATGGAAACGATTTAATCACTTATGGAAGTGATCAATCATTTATGGAAATAGTTGATTTTAAATGAATATTTTATTCATGGTCTTTCTCCTATAAATAGAACACTAAACCTAGGGTTTAAGGACTACAACATAAGGCCACAACAGTGCACTCTTGCATTCTCTCTAGCCTCCCTCTCATATTCTCTCAACCCAAGAACTCTAGAGAGAATTTTTCTCTCTAAGAGTTTTTCACATTCAATTTTAGGTAGTCCCACAACTACATTCCTAATCTCAGAGTTATAACGGGGAAGATCAATTGGTGGTGTCCCAATTGTTGACGCTTGGTCCAAATCAAGAAAGGCGTTCTTGATATTTCAGAGACGACAACAACGGTATGTTTGCTTCTCCCTGTTAGATTTAGATCTAATAATTTTTGTATGCTTAGCCTTAATAATTGATTTAGAATAGTTTTCTAAATTTTGCCAATGTATTGGTATTTTGGTGAAAAAAATATTAAATACGAAACGGTCCCAATTACGCTTCTGCTTTACGGAATTAGGGAATTCCAATCCTGCAGCCAGGACTTCAATAGAATTGAGCTTGATCAAGAAGCTCATTACAAATGCACGACTGAAGGTGACCTCCCCCGAGAAGAAAGCTCAAACCACTCCTCCTGTTGGATTTTATGCCCTAAAACTCGTAGATAGTAAATGTAACACTTGACTTGCTTTAATTAAGTATTATTTCTATATATATCTATTTAGCCTAAATATAATCACAAATCAATAAACTAAGAACCTCTGGCTATATTATGTATACTTGAAGTTTGTGTATGACATAAGTATGGATCAAGTCCAAGTAAATAGCCTAAATGAACTATATTATTTGGATAAGGCTAGGTACCTAAATCCTGGGGACAATGCATCTGTATCGACTAAAAAACGGGTTGTATCACATAGTGTCACCAGGATAAGGTACTGATAACTCTCCAAAAGGGAGTTATTTAGGCCTTATTTCTATATTATTTTGTGTCTTTTGTGCCCAATAGGGTTATTATTAGATGAATATTATATGTTTGAACCTATTTAGAAGAATGGATGCTTTGGAAGTTATTTTGTGCATAAAATAATGCTGAGCGACTTGAGGGAGCAAAATCCGTGATCCAACAAAGCTAGGAGCAAAACTGCCACGTGAGTCGCACGTGATTCATTAATGAGGTGCCATTGGCTGAACCAATCTCGGATCTAGGATGCTTGGAGAGCCTTCCACGTGTAATCTTTGACCTAATTAGGGTTGACTCCACTCTATAAAAGGAAGTAGCCGTCCCTAGTCAAATGACTCGAGAGGGGAAAGTTTAATTCCATCTTTGGAGCCTTACTTTCCTTCTTTCGAAGCCGAATAGAGTAGGATCGATTGGAGACTTCAAGAAGACCATTAGCTACAGATTTCTTCAAGGGAACTAATCCTTTCTTGTAAAATTCTTGTAGTTATGGATGCACATACTCAGATTGTAGCGTGTGTTACCTTGTACTCCATGAACTCAATTTACTTAGGTGTTGGTTAGGATCTATGTAGTTGTCGTGCTTCATACTCTATGCAATTTATATTGATTTGAGCATCTTGATTATTTGTTGTGCATATTATTATTTTGTGCCTGCCTGACCAGTCAATATGAATATCACCTCTTAGTTTCAGTGATTATTTGAGAGGTGTGTGGCATTTAATCACACTAGACCATTATGTATTGGTGGACGCCAGTAACTGAGTTAGGGATAACCAGTCACTTAGTGCTTGATCGGTAGAACGTTATTGGAGTTGAAACACATTCCAAAAAATCCAGAGTTATGGGAGGATCCTGCTAATAAGATTGCAAGAGAATTGCCTAATCAATATAATTGCAAGAGCATCTTTTTAAACAATTACAAAAATCTTAACTAACGCTTGTTTCCAATTTGTCTGCTTTATCTGTTTACATTCTGCTCTGTTATTTCTTTTGCTTCAACATTATCTCAAAATCAATTATTATAACAACCTTGAAACCATTAAAAAGTTACATAAAATAGGTAGAGTGAGAGCTATTCAAAACCTCGTGGATACGATAAATTACTTATCACTTGCTACAGACTATGTGAACTTGCATAGTATTCTAGGGATCATTTTTATCATATTTTTAACCCACTCTGGAAGGCAACAAGTTTTTGGCGCTGTTGCCGAGGACTTGAATAAGTTTTTATCTGATCTGTTTTATGTATGTGTTTTAGTGGTTTGGTGCTAGAACTTTTTTATTGTTTCTTTTTGTTTTTGTAGGTGTGAGATTGGTGCATGAGCGATCCGCATGGGGTGAGATTCGAGCTTGATCCAGAAATTGAAAGGACGTTCAGGAGAAGAAGGAGAGAGCAGAATCGTGCTGCGTCTCCCGAAAATTCCAGAAGATCAAGTTGATCCCCAGCAGAATCGTGTGCTGCAGCCAAATCCACCACTGGAGCAAAATGGACAGCAAAATAATCCGGCTAAGAACCCTATTTTGGTGATGAATGATAGGGTCAGAGCCATTCGAGCATATGCTTTTTCGATCTTTGATGAGTTGAATCCAGAAATTGCACGTCCTCAAATGGAGGCAGAAAATTTTGAAATGAAACCGGTAATGTTTTAGATGTTGCAAATCGTGGGTCAGTTCCATGGTTTGTCATATGAAGACCCCCATTTACATCTTAAGTCTTTTCTAGGAGTTAGTGATTCGTTTGTAATTCATGGAGTGTCTAGAGATGCACTTAGATTAACTTTGTTCCCATATTCTCTTAGAGATAGAGCAAAGGCGTGGTTAAATTCTTTTGCTCTAAGATCAATTAGGACATGGAATGAGTTAGCGGAAAAATTTCTTAGTAAGTATTTTCCACCAACTAGGAATGCCAAGTTGGGGAGTGAGATAGTGGGATTTAGGCGACTCGAAGATGAAACTTTTAAAGAGCTTTTGCGTAAGTGTCCCCATCATGGTTTACCTCATTGTATCCAAATGGAAACATTTTACAATGGGCTAAACATAACAACCTAAAGTATGGTAGATGCTTCTGCGGGAGGGGCCCTTTTGGAAAAACCTTTAATGAAGCCCATGAAATTTTAGAAAGAATATCAACCAATAGTTGTCAGTGGTCGAATATTAGAGGCTCAAATTAACAAGTTAAGAGTGTGTTAGAAGTTGATGGTGTGTCTACCATTAAGGCTGATTTTGCAATGTTAGCTAACACTCTTAAAAATGTAACAGTGGTTAGTCATTAGCAGCCGCCAGTGGTGGAGCCTACTGCAGTGGTGAACCAAGTTACAGAGGAATCATGTGTCTATTGTGGTGAAGAGCACAACTACGAGTTTTGCCCAATCAATCTAGCTTCTGTGTTTTTTGTAGGTAATCAAAGGAATAACCCATATTCTAACTTTTATAATCCAGGTTGGCACAACCACCCCAACTTTGCATGAGGAGGACAAGGAAGCAATTCGAAAGTCCCCCACGCACAGCAGAAGGTAAACCAGTCAGGATCTGCTAAATCAGAGGCATTGCCCCATCAAAATAAGTAGGCTTTGCCCCAACAAAATTCAGAGAGTTCTCTTTAAGTAATGATGAAAGAATATATGACTCGTACAGAAGCCACACTTCAAAGTAATCAAGCTTCAATGAGAGCCCTGAAATTGCAAATGGGTCAGCTAGCTAATGAGCTGAGGGCAAGACCTCAAGGGAAACTTCCGGCGGATACTTAGCACCCTAGAAGGGAAGGTAAGGAGAAGGTACAGGCAGTGACTCTAAGGAGTGGTAAACCACTAGAAGAGAAAAAATAGCCTAGTAAACCCCAGGATGTAAAGATGAGTAGTGATAAAAATGTTGTTATTGAGAAAGAGTTGGAGTCTGGTAAAAAAGATGGAGGCAGCAATAATAATGCTGGAACATCTTATTCTATTCCAGATGTAGGGTTACCTTATGTACCGCCCCCACCTTATGTACCACCTCTACCTTTTCCACAAAGGCAGAAGCCTAAGAATTAGGATGGTCAATTTAAGAAGTTTTTAGACATTCTTAAGCAGTTGCATATAAATATCCCTTTAGTAGAAGCTATAGAGCAAATGTCAGATTATGCTAAATTTCTTAAGGATATTTTTACTAAAAAGAAGAGGTTAGATGAATTTGAAACTGTATCTCTTACTGAGGAATGTAGTGCTATTCTCAAGAATGGGCTACCAACCATGGCTAAGGATCCAATGTCATTTACTATTCCTATCTCAATAGGTGGAAAAGAGTTGGGTAGAACACTTTGTGATTTAGGCACAAGCATTAACCTGATGCCTCTTTCGGTCTATCGAAAGCTAGGTATTGGTGAAGCTAGGCCTACCACAGTCACACTCCAATTAGCTGATAGGTCTATCACATATCCAGAGGGTAAAATTGAGTATGTCTTAGTGAAAGTAGATAAATTCATATTTCCTGTTGATTTTATTATCTTAGATTATGAGGCAGATAAAGATGTCCCAATTATTCTTGGTCGTCCATTTTTGGCTACTGGCAGGGCATTGATAGATGTTCAAAAAGGGGAATTAACAATGAATGTTTATAATGAGGAAGTAAAGTTTAATGTTTTTAAGGCCATGAAGTATCTAGATGAAGTGGAAGATTGTTCTTTCATTAGGATTCTGGAGAACACAATTGTTGAGACAACAATGGAGGATTTGACAAGTAAACATTTGGAAGATTATGGAGAAATTAGTATGGAGGATTTAGAAGTTTGTTCCTTAGAAAGAAAAAATGAAAAAGAAGTTTCTAGGTCTGAGGATGTTTTTGAGTCTTTAGACTTGGATGAAAGGAAGCCTCCTCCTATTAAGTCATCCCTCATTAAGGCCCCTATTTTAGATTTGAAACCCTTATCGGATCATCTGAATTATGTGTATCTTGGGGAAGGTGAGACGTTGCCCATTATTGTAGCATCAGATTTAATGTCGGAGGATGAAGAGGCCTTTATAAAGTTGCTGCAACAATATCGCAAAGCAATAGGTTGGACATTGGCTGACAAACAGGGAATTAGCCTTTCTTTCTGTATGCATAAAATTACTCTAGAGGAGGGATCCTTTAGAAGTATTGAGCAAAAGAGAAGGCTCAACCCTACAATGAAAGAAGTTATTAAGAAGGAGGTGATCAAATGGTTGGATGCGGGGATTATCTATCCGATTGCAGATAGCAATTGGGTAAGCCCTGTCCAATGTGTTCCAAAGAAAGGAGGTGTTACGGTAGTGACTAATAAGGACAATGAGATGATCCACACCAGGACAGTAACTGGCTGGAGGGTTTGCATGGATTATAGGAGGCTTAACAAAGCCACCCGCAAAGACCATTTCCCTCTACCATTTATTGACCAGATGTTAGATAGATTAGCTGGTCAGGCTTGCTCCTGAGGATCAGGAAAAAACCATTTTCACCTGCCCTTATGGGATGTTTGCTTTCAGACGAATGCCTTTTGGCCTTTGCAATGCTCCAGCAACATTTCAATGGTGTATGCTATCAATTTTTTTTTACATGATTGAGTCCACTATTGAGGTATTTATGGATGATTTTTCAGTTTTTGGAGGATCTTTTCATCATTGTTTGAATAATTTAGGCAAGGTATTAAAGATATGTGAGGATACCCATCTAGTTCTTAATTGGGAGAAATGTCACTTCATGGTGAAGGAGGGCATTGTGTTATGTCATAAAATTTCAAAGAGAGGTCTAGAAGTTGATCGAGAAAAAACAGAGGTTATTGAGAAATTAGAACCACCAAATTCAGTCAAGGGGATTCGGAGCTTTTTAGGTCATGTTGGATTTTATAGAAGGTTCATAAAGGATTTTTCCAATATTAGCAAACCTCTTTGTAAATTGTTGTGTGCTGACAGTGTTTTTTACTTTGATGAAGATTGTAGGAAGGCTTTTCAGACTTTAAAAGTTGCTTTGATCTCAGCGCCCATTCTTTGTGCACCCAACTGGAGTTTGCCATTTGAAGTGATGTGTGATGCCAGTGATGTGGCAATAGGTGCTATGCTGGGGCAAAAACAGGGGCAAAGTTATCCATCTTATTTATTATGCAAGCAGAGTTTTGAATGAGGCACAAATCAACAATACAACTACTGAATAGGAGTTGTTAGCGATTGTGTTTGCCTTTGAGAAATTCCACCCATATTTAGTTGGTTCCAACGTCATGATTTTCACATATCGTGCAGGAAAAAGGTACTTAATGTCTAAGAAAGATGCAAAGCCTAGATTAATTCGTTGGGTTTTGTTATTGCAGGAATTCGACTTAGAGATAAAGGACAAGAAGGGATCGAAAAATGTTCTTGCAGATCATCTGTCTCGTCTTGATCCATCATCATCTTTGTTAGAGCAAACTGTCATTTCAAATTCATTTCCAGATGAGCAGCTTTTTGCTATTGGGATAAAGGTAGTGAATAGTACTCCTTGGTATGCTGATATAGCTAACTTGTTGGTAAAAGAAGTCACTCTTATTGATATGGATTGGAGGCAGGTGCAAAGGTTTAAGCATGATGCAAAATTCTTTTACTGGGATGAGGCATTTATGATAAACAGTGTTCTGATGGTATTATTCGAAGATGTGTTTCAGGTGATGAAGCAAAGGAAATCCTGGAGTAATGTCACTCTTCGCCGTATGGAGGTCATTTCAGCGGTCAGAGGACAACTATGAGGATTTTGCAACGTGGATTCTTCTGGCCTTCCTTATTTAAGGATGCCCATTGGTTCTACAAACAATGTGATGCTTGCCAAAGGAGAGGAAATTTGGGACCTGGAGATGAAATGGCTCTTACTTATATTTTAGAATTAGAATTATTCGATGTATGGGGTATTGATTTTATGGGGCCACTTCCCCCGTCTAATGGTAATGTTTTTATCTTATTGGCAGTTGACTACGTGTCCAAGTGGGTAGAGGCCATTGCATGTCATCAGAATGATGCTAAAACAGTGTTGAGGTTTCTTCAATCACACATTTTTGCATGGTTTGGAACACCTAGAGCTATTGTGAGCGATGATGGCACACACTTGTGAATAATCTTTTAGCTAAGCTTTTAGCTAAATATGGAATTAAGCATAGGATTGCTACCCCTTATCACTCGCAAGCAAATGGTCAAGCTGAAGTTAGTAATAGGGAAATTAAATCTATATTAGAGAAGGTAGTCCATCCATCTAGGAAGGATTGGTCTTTTCAGTTAGACGAGGCTCTTTGGGCTTATAGGACAGCCTATAAGACTCCTCTAGGTATGTCTCCCTATTGGTTAGTGTATGGAAATGCTTGCCATTTACCGTTAGAGCTTGAGCATAAAACATTTTGGGCTTTAAAGAAATTGAATTTTGATTTGAGTTGTGCAGGTGCAATTAGAATGCTGCAGCTTAATGAGTTAGAGGAATTTCATCAGTTTTCTTATGAAAATGCTAAAATGTATAAAGAGAAGACAAAACGGTGCCATGATAAGAAGTTAAAACCTAAAGAATTTGGTAAGGGTCAGAGAGTCTTGCTGTACAACTCTAGATTAAAATTGTTTTCTGGAAAATTAAAATCTAAATGGTCTGGACCGTTTATTGTGATTGAAGTTTTTCCTCATGGAGCACACTTTGAGAGATGAAAAAGATGGGCGACTGTTCAAGGTCAATGGACAGCGAGTGAAGCATTATTAGGGAGAGGAATTTCGTTTGAAATATCATTCCCTAAAATTGGTTGATGAATGAAGGAGCGAGAGTTTTGCGGGAGCATTTCATATTGGAATATTTTTAAGCTCCCAGTCTTTGTTACGATTTTATTTTTCGCTGATTTGATTTGATTTAATTCTAATTATTTTAAATTAGATTTTATTGATTTCAATTTTATCTGATTTATTTTAATTCGTGGGTACTTTTAATTTTCGTTAGATTTTATTTTCGTTTTATTTGTTTTGGCCGATTTAGATTTTAATTTAATAATATATTGTTTTTGTTATTTTAATTTCGGTATAGATTAGGTTTTTAATAATATATTTTCCTAATTTATTCGACATGAAAAGATTTGATTTCATTTCATTTTGGCGGTTTGAATTTTAATTTGAATTTTTCCGTGTAAAAGATTCGTCTAGAAGAAAATCTTTGCTGATCAGTTTGTTTGCGCAATCTTTTGGTTGGATCAAAATGTATCATCAAAATATTACAGGATCTGTTAAAGAATTAAATATTTTACCATTTGGTATTTAATTTTATTTGGGTAGGTAAAACTCATGGAACATCTGGTGCTTCCACGTGTCACGCAAGAAAGATCGAACGACCTAGCCGTTGGACAACACACATCAAACATTTACCAGGTGATTATTTTACCGTTTATGGGAATTAAGTTTTCATGATTACATGCAAATTAAACGGTACTTTTACTTATTAAGGGGTGGATCTTTTCGGTTAGGATTCTTAATGCTAGAACCCTATTTAACCTAATCCCTGGTACGTTTTCTTTTCACTTCATTTTCTTCTCGCATTCTATTCTCCTATTTTCTCTCACTTCTCTTCCGTTACTGTGAGTAAAAGAAATACTGTAAGTCTGAAATGGCTAAAACAAGAGGAAGAAGGGAAAAGGGATAATGAAGAAGAAGAGGTGTTAGTTACACCCGAGGCACCAAAGAAGAAAAAAAAGAGAAGAAAAACACCAGAAGAGAGAGAAGCCAAAAGACGAAGAAGGCAAAAATAGGTTGAGGTAACAGAAGTGGTGAGAAAAGTAGTCGAAGATCTTATAGAAGTAGTGGCTGGAGAAGAGCAGCCAAAAGAACCTAAAGAAGGGAAAAATTCAGAACAGGGTGATCAACATGCCGAAACTCAGCAGGAAGTTCAGGAAAAGCAAGCAGAAGATGTGTCGGAACAAGGGAATGGTGAAGGAACCCAAGAGCAGCAGGTTCATGCAGAGATTGTGTCGGAACCACCGCGTCATCGCCGCTGCAAGCAAAAGGTGGGACGAATTAAGGTGGTTACGACATACACTCCATCTCCGTCAACAACAGAATCTGAAAAGGAGAATACAGAAAGGGAGGATCAAGAGAAAGAGGAAACTGAAAAGGAGGCCCTGACGAAGCAACAAGAAACAGAGGCAAAGGAGTTGTTGAAGCAACAGTCGAAGCATAGGATCAGTTCTTGTTTGAAAGAGGATTCGGTGATGATTTACCACACTTCTTACGAGCTAGGATTACAAACCACAAATGGGATCAGTTCTGCGCGAAACCAGAACCAGTAAACTCGAATATCGTTCGTGAGTTCTACGCGAACATAGATGAAGAGGAAGGTTTTCAAGCCATTGTCCGAGGGGTTGCTGTAGACTGGACCCAGGTGCGATCAACTCTCTATTTAATCTTCAGGATTTTCCACACACCGGATACAATGAGATGGTGGTAGCACCATCTAATGATCAGTTGAACACGCCTGTGAGAGAAGTTGGAATTGAGGGGGCACAGTGGAGGTTGTCAAAAACAGAGAAATGCACATTTCAAGCAGCTTATTTGAATAGCGAAGCCAACACCTGGTTGGGCTTCATCAAATTGTGTCTTCTACCGACAACCCACGATTCTATAGTCTCTCGAGATAGAGTTCTTTTGGTCTTTGCGATTCTAAGATCCTTGAGTATTGATGTTGGTAAGGTTATCTCCAGTGAAATCCACAACTGCTGGAGCAAAAAAGTGGGCAAATTATTCTTCCCAAATACGATAACTATGTTGTGTAATAGGCCAGGGGTCCCCACAACTCCAGACGATGTTATTCTGCTTGAAAAGGGGATTATTGACACACCCAACCTAGCAAGGCTTCAACGTACACAAGAAGCTTGGCAAGGAGGGCTAGTGTGTGGCATCCATCAAATTTTAGAGTAACTTCAACTTTCAGCCACTAGGTAGGAGTATGCTGAGAGGCAAGCTCAGACCTACTGGACTTATGCTAAGAGGAGGGATGCCACTCTAAGGACGGCACTGCAATCAAATTTTTCAAAGCCATATCAAGCCTTCCCAATTTTCCCCGATGACTTGTTCAATCCTTGGATCCCGCCACCACCAGTTGAAAGATAG

mRNA sequence

CATGTACAAAGGCATGAATCTCAGCCTTGGCCGAATCATTTAGACGGAGATCCTTGCCTGTGGGCACAAGAACGTAGGAAGGTTATTCTTCCCAAGTCTGATCACAATGTTATGCGGGCTGGCGTCGAGCCCGAGGAGAAAGAAGAGAAGGAAGTCGCCAGTGTTGGGTTTTATGCCCTAAAACTCGTAGATAGTGAATGGATTGTCCTTCGATTAGCATGGGTGAGAGTGGCCAATACGGCGACTCAATATGCCTTCCTTTTTGGGGACAAGACCGAGTGGGAGGCTGGGGACATGACAACACAAGAAGGAATTCACTCCTTCCCACTTCTAGGAGAAGTAGATGAGTGTCCATTAGGTCCCCCTGCTAGCTCATCAATTGGTGGTGTCCCAATTGTTGACGCTTGGTCCAAATCAAGAAAGGCGTTCTTGATATTTCAGAGACGACAACAACGGACTTCAATAGAATTGAGCTTGATCAAGAAGCTCATTACAAATGCACGACTGAAGGTGACCTCCCCCGAGAAGAAAGCTCAAACCACTCCTCCTGTTGGATTTTATGCCCTAAAACTCGTAGATAGTGTGAGATTGGTGCATGAGCGATCCGCATGGGGTAAAACTCATGGAACATCTGGTGCTTCCACGTGTCACGCAAGAAAGATCGAACGACCTAGCCGTTGGACAACACACATCAAACATTTACCAGAAGTGGTGAGAAAAGTAGTCGAAGATCTTATAGAAGTAGTGGCTGGAGAAGAGCAGCCAAAAGAACCTAAAGAAGGGAAAAATTCAGAACAGGGTGATCAACATGCCGAAACTCAGCAGGAAGTTCAGGAAAAGCAAGCAGAAGATGTGTCGGAACAAGGGAATGGTGAAGGAACCCAAGAGCAGCAGGTTCATGCAGAGATTGTGTCGGAACCACCGCGTCATCGCCGCTGCAAGCAAAAGGTGGGACGAATTAAGGTGGTTACGACATACACTCCATCTCCGTCAACAACAGAATCTGAAAAGGAGAATACAGAAAGGGAGGATCAAGAGAAAGAGGAAACTGAAAAGGAGGCCCTGACGAAGCAACAAGAAACAGAGGCAAAGGAGTTGTTGAAGCAACAGTCGAAGCATAGGATCAGTTCTTGTTTGAAAGAGGATTCGGTGATGATTTACCACACTTCTTACGAGCTAGGATTACAAACCACAAATGGGATCAGTGCGATCAACTCTCTATTTAATCTTCAGGATTTTCCACACACCGGATACAATGAGATGGTGGTAGCACCATCTAATGATCAGTTGAACACGCCTGTGAGAGAAGTTGGAATTGAGGGGGCACAGTGGAGGTTGTCAAAAACAGAGAAATGCACATTTCAAGCAGCTTATTTGAATAGCGAAGCCAACACCTGGTTGGGCTTCATCAAATTGTGTCTTCTACCGACAACCCACGATTCTATAGTCTCTCGAGATAGAGTTCTTTTGGTCTTTGCGATTCTAAGATCCTTGAGTATTGATGTTGGTAAGGAGTATGCTGAGAGGCAAGCTCAGACCTACTGGACTTATGCTAAGAGGAGGGATGCCACTCTAAGGACGGCACTGCAATCAAATTTTTCAAAGCCATATCAAGCCTTCCCAATTTTCCCCGATGACTTGTTCAATCCTTGGATCCCGCCACCACCAGTTGAAAGATAG

Coding sequence (CDS)

CATGTACAAAGGCATGAATCTCAGCCTTGGCCGAATCATTTAGACGGAGATCCTTGCCTGTGGGCACAAGAACGTAGGAAGGTTATTCTTCCCAAGTCTGATCACAATGTTATGCGGGCTGGCGTCGAGCCCGAGGAGAAAGAAGAGAAGGAAGTCGCCAGTGTTGGGTTTTATGCCCTAAAACTCGTAGATAGTGAATGGATTGTCCTTCGATTAGCATGGGTGAGAGTGGCCAATACGGCGACTCAATATGCCTTCCTTTTTGGGGACAAGACCGAGTGGGAGGCTGGGGACATGACAACACAAGAAGGAATTCACTCCTTCCCACTTCTAGGAGAAGTAGATGAGTGTCCATTAGGTCCCCCTGCTAGCTCATCAATTGGTGGTGTCCCAATTGTTGACGCTTGGTCCAAATCAAGAAAGGCGTTCTTGATATTTCAGAGACGACAACAACGGACTTCAATAGAATTGAGCTTGATCAAGAAGCTCATTACAAATGCACGACTGAAGGTGACCTCCCCCGAGAAGAAAGCTCAAACCACTCCTCCTGTTGGATTTTATGCCCTAAAACTCGTAGATAGTGTGAGATTGGTGCATGAGCGATCCGCATGGGGTAAAACTCATGGAACATCTGGTGCTTCCACGTGTCACGCAAGAAAGATCGAACGACCTAGCCGTTGGACAACACACATCAAACATTTACCAGAAGTGGTGAGAAAAGTAGTCGAAGATCTTATAGAAGTAGTGGCTGGAGAAGAGCAGCCAAAAGAACCTAAAGAAGGGAAAAATTCAGAACAGGGTGATCAACATGCCGAAACTCAGCAGGAAGTTCAGGAAAAGCAAGCAGAAGATGTGTCGGAACAAGGGAATGGTGAAGGAACCCAAGAGCAGCAGGTTCATGCAGAGATTGTGTCGGAACCACCGCGTCATCGCCGCTGCAAGCAAAAGGTGGGACGAATTAAGGTGGTTACGACATACACTCCATCTCCGTCAACAACAGAATCTGAAAAGGAGAATACAGAAAGGGAGGATCAAGAGAAAGAGGAAACTGAAAAGGAGGCCCTGACGAAGCAACAAGAAACAGAGGCAAAGGAGTTGTTGAAGCAACAGTCGAAGCATAGGATCAGTTCTTGTTTGAAAGAGGATTCGGTGATGATTTACCACACTTCTTACGAGCTAGGATTACAAACCACAAATGGGATCAGTGCGATCAACTCTCTATTTAATCTTCAGGATTTTCCACACACCGGATACAATGAGATGGTGGTAGCACCATCTAATGATCAGTTGAACACGCCTGTGAGAGAAGTTGGAATTGAGGGGGCACAGTGGAGGTTGTCAAAAACAGAGAAATGCACATTTCAAGCAGCTTATTTGAATAGCGAAGCCAACACCTGGTTGGGCTTCATCAAATTGTGTCTTCTACCGACAACCCACGATTCTATAGTCTCTCGAGATAGAGTTCTTTTGGTCTTTGCGATTCTAAGATCCTTGAGTATTGATGTTGGTAAGGAGTATGCTGAGAGGCAAGCTCAGACCTACTGGACTTATGCTAAGAGGAGGGATGCCACTCTAAGGACGGCACTGCAATCAAATTTTTCAAAGCCATATCAAGCCTTCCCAATTTTCCCCGATGACTTGTTCAATCCTTGGATCCCGCCACCACCAGTTGAAAGATAG

Protein sequence

HVQRHESQPWPNHLDGDPCLWAQERRKVILPKSDHNVMRAGVEPEEKEEKEVASVGFYALKLVDSEWIVLRLAWVRVANTATQYAFLFGDKTEWEAGDMTTQEGIHSFPLLGEVDECPLGPPASSSIGGVPIVDAWSKSRKAFLIFQRRQQRTSIELSLIKKLITNARLKVTSPEKKAQTTPPVGFYALKLVDSVRLVHERSAWGKTHGTSGASTCHARKIERPSRWTTHIKHLPEVVRKVVEDLIEVVAGEEQPKEPKEGKNSEQGDQHAETQQEVQEKQAEDVSEQGNGEGTQEQQVHAEIVSEPPRHRRCKQKVGRIKVVTTYTPSPSTTESEKENTEREDQEKEETEKEALTKQQETEAKELLKQQSKHRISSCLKEDSVMIYHTSYELGLQTTNGISAINSLFNLQDFPHTGYNEMVVAPSNDQLNTPVREVGIEGAQWRLSKTEKCTFQAAYLNSEANTWLGFIKLCLLPTTHDSIVSRDRVLLVFAILRSLSIDVGKEYAERQAQTYWTYAKRRDATLRTALQSNFSKPYQAFPIFPDDLFNPWIPPPPVER
Homology
[Close]
BLAST of Spg004131 vs. NCBI nr
Match: PON62892.1 (hypothetical protein PanWU01x14_135680 [Parasponia andersonii])

HSP 1 Score: 79.3 bits (194), Expect = 1.1e-10
Identity = 45/116 (38.79%), Postives = 66/116 (56.90%), Query Frame = 0 

Query: 389 TSYELGLQTTNGISAINSLFNLQDFPHTGYNEMVVAPSNDQLNTPVREVGIEGAQWRLSK 448
           T Y  G+Q      AIN+++ L D P   ++E V A +  +L T +  V I GA+W +S 
Sbjct: 8   TVYVRGVQVPLSTEAINTIYGLGD-PVDEHSEFVEAITEPELATVLETVAIAGAEWNVSS 67

Query: 449 TEKCTFQAAYLNSEANTWLGFIKLCLLPTTHDSIVSRDRVLLVFAILRSLSIDVGK 505
               T   + LN  A  W  F+K  LLPTTH   VS++RVLL++++L   SI+VG+
Sbjct: 68  QGAYTCLRSSLNPPAKVWYHFLKSRLLPTTHGKTVSKERVLLLYSMLTGKSINVGQ 122

[Close]
BLAST of Spg004131 vs. NCBI nr
Match: PON78020.1 (hypothetical protein PanWU01x14_023740 [Parasponia andersonii])

HSP 1 Score: 79.0 bits (193), Expect = 1.5e-10
Identity = 62/256 (24.22%), Postives = 94/256 (36.72%), Query Frame = 0 

Query: 388 HTSYELGLQTTNGISAINSLFNLQDFPHTGYNEMVVAPSNDQLNTPVREVGIEGAQWRLS 447
           +T Y  G+Q +    AIN++F L D P   ++E +   +  +L T +  V   GA+W +S
Sbjct: 30  NTIYVRGVQVSWSEEAINAVFGLGD-PVDEHSEFIENITEPELITVLETVAAAGAEWNVS 89

Query: 448 KTEKCTFQAAYLNSEANTWLGFIKLCLLPTTHDSIVSRDRVLLVFAILRSLSIDVGK--- 507
                T   + L   A  W  F+K  LLPTTH  IVS+DR+LL+ ++L   SI+VG+   
Sbjct: 90  AQGAYTCIRSALTPAAKVWYHFLKSRLLPTTHGKIVSKDRMLLLHSMLNGKSINVGRMIH 149

Query: 508 ------------------------------------------------------------ 548
                                                                       
Sbjct: 150 SEIRACAAQKTGALFFPSLITRLCRNAPFLVNEEKLHNTGEIDAIAVARITQEGPTESTQ 209

[Close]
BLAST of Spg004131 vs. NCBI nr
Match: XP_038876674.1 (chromatin assembly factor 1 subunit A-like, partial [Benincasa hispida])

HSP 1 Score: 77.4 bits (189), Expect = 4.3e-10
Identity = 85/305 (27.87%), Postives = 146/305 (47.87%), Query Frame = 0 

Query: 215 TCHARKIERPSRWTTHIKHLPEVVRKVVEDLIEVVAGEEQPKEPKEGKNSEQGDQHAETQ 274
           T +A+  ++PSR       + EV  + VE  +EVV   E+ K+ K+ K  + G    E  
Sbjct: 135 TANAKTYDKPSRVVVEEIVVAEVAMEEVETQLEVV---EEKKKKKKSKRRKAG----EFV 194

Query: 275 QEVQEKQAEDVSEQGNGEGTQEQQVHAEIVSEPPRHRRCKQKVGRIKVVTTYTPSPSTTE 334
           +E + ++ E+  E+ N +  +E+++  E   +   +RRC QK                  
Sbjct: 195 EEFEREEKEEEEEEKNKKEEEERRLKEEKEKKCEANRRCLQK------------------ 254

Query: 335 SEKENTEREDQEKEETEKEALTKQQETEAKELLKQQSKHRISSCLKEDSVM-------IY 394
             K+  E  ++EKEE  KE   KQ++     L K++ K  I    K  SV+       ++
Sbjct: 255 --KKGKELAEREKEEQRKEREKKQRQAARLALAKEKGK-SIEKSSKPASVVRDFYRGRLH 314

Query: 395 HTSYELGL-QTTNGISA--INSLFNLQDFPHTGYNEMVVAPSNDQLNTPVREVGIEGAQW 454
            T   + L + T   SA  IN ++ ++D P+   N+++  P+  Q+   ++ +   G +W
Sbjct: 315 GTRDAVTLKRETVSFSARDINEIYQMKDNPYASGNKIIDDPTEQQMEDALQVLMQLGMKW 374

Query: 455 RLSKTEKCTFQAAYLNSEANTWLGFIKLCLLPTTHDSIVSRDRVLLVFAILRSLSIDVGK 510
            +S     T  +  L  E   W+  +K  L+ TTHD  VSRDRV+  + I+RS+ IDVG+
Sbjct: 375 SVSLKGVSTLASKSLLLEGRLWVYLVKKRLISTTHDKTVSRDRVMATYCIVRSIPIDVGQ 411

[Close]
BLAST of Spg004131 vs. NCBI nr
Match: PON50458.1 (hypothetical protein PanWU01x14_223230, partial [Parasponia andersonii])

HSP 1 Score: 73.6 bits (179), Expect = 6.2e-09
Identity = 43/118 (36.44%), Postives = 65/118 (55.08%), Query Frame = 0 

Query: 389 TSYELGLQTTNGISAINSLFNLQDF--PHTGYNEMVVAPSNDQLNTPVREVGIEGAQWRL 448
           T Y  G+Q      AIN+++ L D    H+ + E +  P   +L   +  V I GA+W +
Sbjct: 18  TVYVRGVQVPLSAEAINTIYGLGDLVDEHSEFVEDITEP---ELAMVLETVAIAGAEWNV 77

Query: 449 SKTEKCTFQAAYLNSEANTWLGFIKLCLLPTTHDSIVSRDRVLLVFAILRSLSIDVGK 505
           S     T   + LN  A  W  F+K  LLPTTH  IVS++RVLL++++L   SI++G+
Sbjct: 78  SSQGVYTCLRSSLNPPAKIWYHFLKSRLLPTTHGKIVSKERVLLLYSMLTGKSINMGR 132

[Close]
BLAST of Spg004131 vs. NCBI nr
Match: PON70375.1 (hypothetical protein PanWU01x14_080440 [Parasponia andersonii])

HSP 1 Score: 72.8 bits (177), Expect = 1.1e-08
Identity = 42/116 (36.21%), Postives = 64/116 (55.17%), Query Frame = 0 

Query: 389 TSYELGLQTTNGISAINSLFNLQDFPHTGYNEMVVAPSNDQLNTPVREVGIEGAQWRLSK 448
           T Y  G+Q    + AIN++F+L D P   ++E V   +  +L   +  V I GA+W +S 
Sbjct: 122 TVYIRGVQVPLSVEAINTIFSLGD-PIDEHSEFVEDITKPELVIVLETVAIVGAEWNVSS 181

Query: 449 TEKCTFQAAYLNSEANTWLGFIKLCLLPTTHDSIVSRDRVLLVFAILRSLSIDVGK 505
               T   + LN  A  W  F+K  LLPTTH   VS++ V L++++L   SI+VG+
Sbjct: 182 QGAYTCLRSSLNPPAKVWYHFLKSRLLPTTHGKTVSKEHVSLLYSMLTGKSINVGR 236

[Close]
BLAST of Spg004131 vs. ExPASy TrEMBL
Match: A0A2P5CPE8 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_135680 PE=4 SV=1)

HSP 1 Score: 79.3 bits (194), Expect = 5.5e-11
Identity = 45/116 (38.79%), Postives = 66/116 (56.90%), Query Frame = 0 

Query: 389 TSYELGLQTTNGISAINSLFNLQDFPHTGYNEMVVAPSNDQLNTPVREVGIEGAQWRLSK 448
           T Y  G+Q      AIN+++ L D P   ++E V A +  +L T +  V I GA+W +S 
Sbjct: 8   TVYVRGVQVPLSTEAINTIYGLGD-PVDEHSEFVEAITEPELATVLETVAIAGAEWNVSS 67

Query: 449 TEKCTFQAAYLNSEANTWLGFIKLCLLPTTHDSIVSRDRVLLVFAILRSLSIDVGK 505
               T   + LN  A  W  F+K  LLPTTH   VS++RVLL++++L   SI+VG+
Sbjct: 68  QGAYTCLRSSLNPPAKVWYHFLKSRLLPTTHGKTVSKERVLLLYSMLTGKSINVGQ 122

[Close]
BLAST of Spg004131 vs. ExPASy TrEMBL
Match: A0A2P5DXM3 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE=4 SV=1)

HSP 1 Score: 79.0 bits (193), Expect = 7.2e-11
Identity = 62/256 (24.22%), Postives = 94/256 (36.72%), Query Frame = 0 

Query: 388 HTSYELGLQTTNGISAINSLFNLQDFPHTGYNEMVVAPSNDQLNTPVREVGIEGAQWRLS 447
           +T Y  G+Q +    AIN++F L D P   ++E +   +  +L T +  V   GA+W +S
Sbjct: 30  NTIYVRGVQVSWSEEAINAVFGLGD-PVDEHSEFIENITEPELITVLETVAAAGAEWNVS 89

Query: 448 KTEKCTFQAAYLNSEANTWLGFIKLCLLPTTHDSIVSRDRVLLVFAILRSLSIDVGK--- 507
                T   + L   A  W  F+K  LLPTTH  IVS+DR+LL+ ++L   SI+VG+   
Sbjct: 90  AQGAYTCIRSALTPAAKVWYHFLKSRLLPTTHGKIVSKDRMLLLHSMLNGKSINVGRMIH 149

Query: 508 ------------------------------------------------------------ 548
                                                                       
Sbjct: 150 SEIRACAAQKTGALFFPSLITRLCRNAPFLVNEEKLHNTGEIDAIAVARITQEGPTESTQ 209

[Close]
BLAST of Spg004131 vs. ExPASy TrEMBL
Match: A0A2P5BNT0 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_223230 PE=4 SV=1)

HSP 1 Score: 73.6 bits (179), Expect = 3.0e-09
Identity = 43/118 (36.44%), Postives = 65/118 (55.08%), Query Frame = 0 

Query: 389 TSYELGLQTTNGISAINSLFNLQDF--PHTGYNEMVVAPSNDQLNTPVREVGIEGAQWRL 448
           T Y  G+Q      AIN+++ L D    H+ + E +  P   +L   +  V I GA+W +
Sbjct: 18  TVYVRGVQVPLSAEAINTIYGLGDLVDEHSEFVEDITEP---ELAMVLETVAIAGAEWNV 77

Query: 449 SKTEKCTFQAAYLNSEANTWLGFIKLCLLPTTHDSIVSRDRVLLVFAILRSLSIDVGK 505
           S     T   + LN  A  W  F+K  LLPTTH  IVS++RVLL++++L   SI++G+
Sbjct: 78  SSQGVYTCLRSSLNPPAKIWYHFLKSRLLPTTHGKIVSKERVLLLYSMLTGKSINMGR 132

[Close]
BLAST of Spg004131 vs. ExPASy TrEMBL
Match: A0A2P5DAQ2 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_080440 PE=4 SV=1)

HSP 1 Score: 72.8 bits (177), Expect = 5.2e-09
Identity = 42/116 (36.21%), Postives = 64/116 (55.17%), Query Frame = 0 

Query: 389 TSYELGLQTTNGISAINSLFNLQDFPHTGYNEMVVAPSNDQLNTPVREVGIEGAQWRLSK 448
           T Y  G+Q    + AIN++F+L D P   ++E V   +  +L   +  V I GA+W +S 
Sbjct: 122 TVYIRGVQVPLSVEAINTIFSLGD-PIDEHSEFVEDITKPELVIVLETVAIVGAEWNVSS 181

Query: 449 TEKCTFQAAYLNSEANTWLGFIKLCLLPTTHDSIVSRDRVLLVFAILRSLSIDVGK 505
               T   + LN  A  W  F+K  LLPTTH   VS++ V L++++L   SI+VG+
Sbjct: 182 QGAYTCLRSSLNPPAKVWYHFLKSRLLPTTHGKTVSKEHVSLLYSMLTGKSINVGR 236

[Close]
BLAST of Spg004131 vs. ExPASy TrEMBL
Match: A0A2P5AGA5 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_335450 PE=4 SV=1)

HSP 1 Score: 72.0 bits (175), Expect = 8.8e-09
Identity = 42/119 (35.29%), Postives = 65/119 (54.62%), Query Frame = 0 

Query: 386 IYHTSYELGLQTTNGISAINSLFNLQDFPHTGYNEMVVAPSNDQLNTPVREVGIEGAQWR 445
           + +T Y  G+Q +    AIN++F L D P   ++E +   +   L T +  V + GA+W 
Sbjct: 89  VENTVYVRGVQVSWSEEAINAVFGLGD-PVDEHSEFIENITEHDLITVLETVAVAGAEWN 148

Query: 446 LSKTEKCTFQAAYLNSEANTWLGFIKLCLLPTTHDSIVSRDRVLLVFAILRSLSIDVGK 505
           +S     T   + L   A  W  F+K  LLPTTH   VS+DR+LL+ ++L   SI+VG+
Sbjct: 149 VSAQGAYTCIRSALTPAAKVWFHFLKSHLLPTTHGKTVSKDRMLLLHSMLIGKSINVGR 206

The following BLAST results are available for this feature:
BLAST of Spg004131 vs. NCBI nr
Match NameE-valueIdentityDescription
PON62892.11.1e-1038.79hypothetical protein PanWU01x14_135680 [Parasponia andersonii][more]
PON78020.11.5e-1024.22hypothetical protein PanWU01x14_023740 [Parasponia andersonii][more]
XP_038876674.14.3e-1027.87chromatin assembly factor 1 subunit A-like, partial [Benincasa hispida][more]
PON50458.16.2e-0936.44hypothetical protein PanWU01x14_223230, partial [Parasponia andersonii][more]
PON70375.11.1e-0836.21hypothetical protein PanWU01x14_080440 [Parasponia andersonii][more]
BLAST of Spg004131 vs. NCBI nr
Match NameE-valueIdentityDescription
BLAST of Spg004131 vs. ExPASy TrEMBL
Match NameE-valueIdentityDescription
A0A2P5CPE85.5e-1138.79Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_135680 PE... [more]
A0A2P5DXM37.2e-1124.22Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_023740 PE... [more]
A0A2P5BNT03.0e-0936.44Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1... [more]
A0A2P5DAQ25.2e-0936.21Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_080440 PE... [more]
A0A2P5AGA58.8e-0935.29Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x1... [more]
BLAST of Spg004131 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: 333..360
NoneNo IPR availableCOILSCoilCoilcoord: 263..283
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 335..368
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 249..286
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 287..301
NoneNo IPR availableMOBIDB_LITEmobidb-litedisorder_predictioncoord: 249..368

Relationships

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

Feature NameUnique NameType
Spg004131.1Spg004131.1mRNA