Spo19551 (gene)

Overview
NameSpo19551
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionPhosphatidylinositol-glycan biosynthesis class X protein, putative
LocationSuper_scaffold_229 : 484642 .. 499264 (-)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

AGCCGAGCTCAAACTCGAACCCAAACAGTAGATCCATTAATCGAGCCGAATTCAAGCTCAAAATTAAAGTTCGAACCGAGCTCGAACCCGAACTCTACCCCGATATACTAATAGTTAAACCGGCCACAATTTTCTCATACATCCTTCCTTCTGGTAACTAACACCTCTTCACGCAACCACCGTAACAACTACTCCTCCCACCATCTGACCCTTCCCTCCACCGCCGGTCCACCGCAGCACCCACCTTTCTGGCAGCGGAGATATCCAGGGAGGGCGGAAGTGACGGAGATGTCGTTGAGTGATGACATCGCTGGGCAAAGGCGGCGGCACTAGTTAGCGAGGAGTTTCGGATAATGATCAGTTCAAAATCTATCCATTTGTTTACTTAATCAGTTCTAATTAATACCCAATTTTAGAGAGAAATTGAAAAAATGGGTGTTAAATTCGGAAAATCTCCAGTCCATATTCTAATTGCGACGATTGTTCTTCATTTCACCATTCGTATTACCTCTTCAACTTCAAATCAGGAAAGTCTTAATAACTATAATGGTGACTACATGAAGCACAGCACCAGTTCCTCTCCTTGTTTTGCAAGATATGCTCTGGAGTCGTTTTCCAGGGAATATGATAGCTTCACCGATTCAAATTTTTTAGAGTATATGAAACATAAGATTCTAGTTGGCTCTGAGCCAACATTTTCTAAACTTTTACAATTAGAGCGCCGTTTGATTGGAGAGGGTTCTCATCGCCGTCTATCTTCATCTGTCAGATTAAGCATTCAGCCAAATCTGATTGCTGACTTTTCCTCACAAATGTGTGAGATCATAATCATTGAAAGACTACCATCTGGGGTTTTTGCTGATCCTTTTGAGCTTCAACATCTAATTTACCGTGGAGCATTCAAGGATGCTTATGTTTTCGGAGATGCTAATTTGGAGTTGCCATCCTTTCTTTCCAATCAGTCAATTGTTGAAGTTCACTTAGATACAGCCTTGAATAATTCAGCAGGTCAGGAGACTGTGCTAGAGTTCAAGATAGAGATACCATTGCATGCTCGATATCCTCCTCTGGAAGAAAGTGGATATTCAAAAGTCAGGTTTGGTGCTCCTGACTTGTATATGTACTGCAAAATGCATGGAACGTCACCTGCTCAAAGCTGTTCTTTGTCACCCATTACTAGCAACGGTTCTCTGGAACTTGATGATATTGTGTGGAGCATTCCAGCGGGGATCAAGTCTCACTCAAGAACAGTGTCTGTTGTTACTTACGCGTCAGCACTACTGTCAGCAACTTTAATCATCTTTTTTTCCTTGCGATCTTCACGCATAGAATGTGATGGAAAATCGAAACAAACTTGATAACCAATAACAGTCAGACTGTCCTATGCCTAATCCAGTGGGGGACAACCAGATCTATGAGGGTTTTCACCTGGAGCCCGTCTGCATGAGTCCATGACAATATCTGTCATTGAATTTCTACCAACAGTCCTGCGAGGAGCTCAGTTTGCCAATTTTCCTCATCGGCTCACCGCCATCTATAAAGGCACTATATGTTGAGAAGACTAATCCACATGTGAGTTGAGACTAAGTGTTTCACATAGAAGAAATAGAGGGATATTGACGAGGTTGGCGAGGCGGCTATCTGATATGTGTTGCATCAGTCAACAAAACGACAAAATAGGGGAAAAATAATGTGTCATTCATGTAAAAACAAATACCATTCCGGTTAAAAAAAAGTACCCTTCTATAAATAAAAAAAAGTACCATTCAATTTATTTTTTGTCTTTTTCCTATTTTGTCTTTTTCCTATAATATGCATTTGCAAGCACATATCAGATATGCAAAAATACTTCCTCGGATATTGACTAACATATAAGATTGGTGAGATACTACACTTATTACCAATAAGTTTTAGGATAGGAATAAATCAGGCTTATATATGGTCCATCTCTGATATCTATTTAGAATAGAATGTTTGGCTTGCCACATGTTTATCTTCTTGATTTTCTATGCTTTTCCTTTTTTTAAGGAATTGGAAAAGGTGTTGCCTGCTTCCATTTGCCAAGAACAATAAAATTACACAAATTAGAAGGTACACTCGGTTACATGTATTGTTTTGTATTTTACAATTTCAAAGCACATATTTTTGTTTATTTTTTCAAATTCTATAATTGAAGTACTTTTTTCCAATTAAGAAAAAAAACCTAAACCTAAGAGGTGAGCAACCAACAACAATTTACATATTCTCTCAAATCATTTGCGCTCAAGTTTGAAAACCCCAACTAGTTAGTGGCCCGGGGCCCGGGCGATGTCCCAGAGTGTTTGATATTGTTTGAGTTTCTTTTTAATCTTTGAGTAATTTACATTGTTTGTGTAAAACTTTAGTTTATGTACTTTTTTACTTGTAATTTATCCTCCGTACAAAATTTAAGTTACAACTGTAAAATGAGTTATAAAGTCGAAATACTTTTGTAGGAAAAAAA

Coding sequence (CDS)

ATGGGTGTTAAATTCGGAAAATCTCCAGTCCATATTCTAATTGCGACGATTGTTCTTCATTTCACCATTCGTATTACCTCTTCAACTTCAAATCAGGAAAGTCTTAATAACTATAATGGTGACTACATGAAGCACAGCACCAGTTCCTCTCCTTGTTTTGCAAGATATGCTCTGGAGTCGTTTTCCAGGGAATATGATAGCTTCACCGATTCAAATTTTTTAGAGTATATGAAACATAAGATTCTAGTTGGCTCTGAGCCAACATTTTCTAAACTTTTACAATTAGAGCGCCGTTTGATTGGAGAGGGTTCTCATCGCCGTCTATCTTCATCTGTCAGATTAAGCATTCAGCCAAATCTGATTGCTGACTTTTCCTCACAAATGTGTGAGATCATAATCATTGAAAGACTACCATCTGGGGTTTTTGCTGATCCTTTTGAGCTTCAACATCTAATTTACCGTGGAGCATTCAAGGATGCTTATGTTTTCGGAGATGCTAATTTGGAGTTGCCATCCTTTCTTTCCAATCAGTCAATTGTTGAAGTTCACTTAGATACAGCCTTGAATAATTCAGCAGGTCAGGAGACTGTGCTAGAGTTCAAGATAGAGATACCATTGCATGCTCGATATCCTCCTCTGGAAGAAAGTGGATATTCAAAAGTCAGGTTTGGTGCTCCTGACTTGTATATGTACTGCAAAATGCATGGAACGTCACCTGCTCAAAGCTGTTCTTTGTCACCCATTACTAGCAACGGTTCTCTGGAACTTGATGATATTGTGTGGAGCATTCCAGCGGGGATCAAGTCTCACTCAAGAACAGTGTCTGTTGTTACTTACGCGTCAGCACTACTGTCAGCAACTTTAATCATCTTTTTTTCCTTGCGATCTTCACGCATAGAATGTGATGGAAAATCGAAACAAACTTGA

Protein sequence

MGVKFGKSPVHILIATIVLHFTIRITSSTSNQESLNNYNGDYMKHSTSSSPCFARYALESFSREYDSFTDSNFLEYMKHKILVGSEPTFSKLLQLERRLIGEGSHRRLSSSVRLSIQPNLIADFSSQMCEIIIIERLPSGVFADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIVEVHLDTALNNSAGQETVLEFKIEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPAQSCSLSPITSNGSLELDDIVWSIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIECDGKSKQT
Relationships

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

Feature NameUnique NameType
Spo19551.1Spo19551.1mRNA


Homology
[Close]
BLAST of Spo19551.1 vs. NCBI nr
Match: gi|902218911|gb|KNA18173.1| (hypothetical protein SOVF_073290 [Spinacia oleracea])

HSP 1 Score: 605.5 bits (1560), Expect = 5.100e-170
Identity = 308/308 (100.00%), Postives = 308/308 (100.00%), Query Frame = 1 

		  

Query: 1   MGVKFGKSPVHILIATIVLHFTIRITSSTSNQESLNNYNGDYMKHSTSSSPCFARYALES 60
           MGVKFGKSPVHILIATIVLHFTIRITSSTSNQESLNNYNGDYMKHSTSSSPCFARYALES
Sbjct: 1   MGVKFGKSPVHILIATIVLHFTIRITSSTSNQESLNNYNGDYMKHSTSSSPCFARYALES 60

Query: 61  FSREYDSFTDSNFLEYMKHKILVGSEPTFSKLLQLERRLIGEGSHRRLSSSVRLSIQPNL 120
           FSREYDSFTDSNFLEYMKHKILVGSEPTFSKLLQLERRLIGEGSHRRLSSSVRLSIQPNL
Sbjct: 61  FSREYDSFTDSNFLEYMKHKILVGSEPTFSKLLQLERRLIGEGSHRRLSSSVRLSIQPNL 120

Query: 121 IADFSSQMCEIIIIERLPSGVFADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIV 180
           IADFSSQMCEIIIIERLPSGVFADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIV
Sbjct: 121 IADFSSQMCEIIIIERLPSGVFADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIV 180

Query: 181 EVHLDTALNNSAGQETVLEFKIEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPA 240
           EVHLDTALNNSAGQETVLEFKIEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPA
Sbjct: 181 EVHLDTALNNSAGQETVLEFKIEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPA 240

Query: 241 QSCSLSPITSNGSLELDDIVWSIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIE 300
           QSCSLSPITSNGSLELDDIVWSIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIE
Sbjct: 241 QSCSLSPITSNGSLELDDIVWSIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIE 300

Query: 301 CDGKSKQT 309
           CDGKSKQT
Sbjct: 301 CDGKSKQT 308
[Close]
BLAST of Spo19551.1 vs. NCBI nr
Match: gi|731375124|ref|XP_010667156.1| (PREDICTED: phosphatidylinositol-glycan biosynthesis class X protein [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 443.0 bits (1138), Expect = 4.400e-121
Identity = 224/308 (72.73%), Postives = 261/308 (84.74%), Query Frame = 1 

		  

Query: 1   MGVKFGKSPVHILIATIVLHFTIRITSSTSNQESLNNYNGDYMKHSTSSSPCFARYALES 60
           MGVK+ K   HIL+A +VLH         SNQESL NY+G+Y KH+T+S PCF RY LES
Sbjct: 4   MGVKYVKVATHILMAMLVLHLRC------SNQESLYNYDGNYHKHNTNSLPCFDRYVLES 63

Query: 61  FSREYDSFTDSNFLEYMKHKILVGSEPTFSKLLQLERRLIGEGSHRRLSSSVRLSIQPNL 120
           F REY +  D  F EYM+HKILVGSE TFS+L+ LERRL GEGSHRRLSSS+++SIQP+ 
Sbjct: 64  FFREYYNVVDPKFSEYMEHKILVGSEATFSRLMDLERRLNGEGSHRRLSSSIKVSIQPDR 123

Query: 121 IADFSSQMCEIIIIERLPSGVFADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIV 180
           IADFSS +CE+I+IERLPSGVFADPFELQHL++RG FKDA VFGD NLELPSFLSNQSIV
Sbjct: 124 IADFSSHICEVILIERLPSGVFADPFELQHLLHRGVFKDASVFGDTNLELPSFLSNQSIV 183

Query: 181 EVHLDTALNNSAGQETVLEFKIEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPA 240
           EVHLD ALNNSAG+E VLEFKIEIPLHARYPPLE+SGY++VRFGAPDL+M CKMHG SPA
Sbjct: 184 EVHLDAALNNSAGKEIVLEFKIEIPLHARYPPLEDSGYTEVRFGAPDLFMRCKMHGNSPA 243

Query: 241 QSCSLSPITSNGSLELDDIVWSIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIE 300
            SCSLS ITS+GSLELDD +WSIPAG+K+HS TVS+VT+ASALLSA+LII  SLRSSR+E
Sbjct: 244 HSCSLSRITSSGSLELDDTIWSIPAGVKAHSGTVSIVTFASALLSASLIIIASLRSSRME 303

Query: 301 CDGKSKQT 309
            + + K++
Sbjct: 304 SNRRLKKS 305
[Close]
BLAST of Spo19551.1 vs. NCBI nr
Match: gi|870842048|gb|KMS95558.1| (hypothetical protein BVRB_007040 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 427.9 bits (1099), Expect = 1.500e-116
Identity = 216/295 (73.22%), Postives = 252/295 (85.42%), Query Frame = 1 

		  

Query: 14  IATIVLHFTIRITSSTSNQESLNNYNGDYMKHSTSSSPCFARYALESFSREYDSFTDSNF 73
           +A +VLH         SNQESL NY+G+Y KH+T+S PCF RY LESF REY +  D  F
Sbjct: 1   MAMLVLHLRC------SNQESLYNYDGNYHKHNTNSLPCFDRYVLESFFREYYNVVDPKF 60

Query: 74  LEYMKHKILVGSEPTFSKLLQLERRLIGEGSHRRLSSSVRLSIQPNLIADFSSQMCEIII 133
            EYM+HKILVGSE TFS+L+ LERRL GEGSHRRLSSS+++SIQP+ IADFSS +CE+I+
Sbjct: 61  SEYMEHKILVGSEATFSRLMDLERRLNGEGSHRRLSSSIKVSIQPDRIADFSSHICEVIL 120

Query: 134 IERLPSGVFADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIVEVHLDTALNNSAG 193
           IERLPSGVFADPFELQHL++RG FKDA VFGD NLELPSFLSNQSIVEVHLD ALNNSAG
Sbjct: 121 IERLPSGVFADPFELQHLLHRGVFKDASVFGDTNLELPSFLSNQSIVEVHLDAALNNSAG 180

Query: 194 QETVLEFKIEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPAQSCSLSPITSNGS 253
           +E VLEFKIEIPLHARYPPLE+SGY++VRFGAPDL+M CKMHG SPA SCSLS ITS+GS
Sbjct: 181 KEIVLEFKIEIPLHARYPPLEDSGYTEVRFGAPDLFMRCKMHGNSPAHSCSLSRITSSGS 240

Query: 254 LELDDIVWSIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIECDGKSKQT 309
           LELDD +WSIPAG+K+HS TVS+VT+ASALLSA+LII  SLRSSR+E + + K++
Sbjct: 241 LELDDTIWSIPAGVKAHSGTVSIVTFASALLSASLIIIASLRSSRMESNRRLKKS 289
[Close]
BLAST of Spo19551.1 vs. NCBI nr
Match: gi|147791632|emb|CAN75134.1| (hypothetical protein VITISV_018886 [Vitis vinifera])

HSP 1 Score: 241.1 bits (614), Expect = 2.500e-60
Identity = 133/287 (46.34%), Postives = 176/287 (61.32%), Query Frame = 1 

		  

Query: 29  TSNQESLNNYNGDYMKHSTSSSPCFARYALESFSREYDSFTDSNFLEYMKHKILVGSEPT 88
           TSN  S N         S +  P F ++  +S+  +YDS  DS+FL+++ H++  GS   
Sbjct: 56  TSNVGSTNQ--------SLNIPPYFEKHITKSYFDKYDSLLDSDFLDFISHELFPGSCEL 115

Query: 89  FSKLLQL-------ERRLIGEGSHRRLSSSVRLSIQPNLIADFSSQMCEIIIIERLPSGV 148
               L L       +R LIG+GSHR LSSS R +IQ  LIA+     CE IIIE+LP G+
Sbjct: 116 LLDNLNLVLRLSVQQRSLIGDGSHRHLSSSFRFNIQSELIAELPIHFCEAIIIEKLPYGI 175

Query: 149 FADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIVEVHLDTALNNSAGQETVLEFK 208
           F DPFELQHL+ RG F DA VFGD NLELPS  SN+S+VEVH+D  LN  +  +  LE  
Sbjct: 176 FXDPFELQHLLQRGVFMDAAVFGDTNLELPSVHSNRSLVEVHMDVDLNTFSRHKDGLEIN 235

Query: 209 IEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPAQSCSLSPITSNGSLELDDIVW 268
           I++PLH RYPPLEESGYS +  GAPDL+M C +   S  QSC L    +  +L    +VW
Sbjct: 236 IDLPLHIRYPPLEESGYSNIELGAPDLFMRCSIEAKSHNQSCLLMLKDNGVALGNGPVVW 295

Query: 269 SIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIECDGKSKQT 309
            +P+GIK+H+R VS+VT+ SA+LS   I+  S+  S  +     KQ+
Sbjct: 296 RVPSGIKAHARAVSIVTFISAILSTLSIVLTSVYYSSTKLCKNLKQS 334
[Close]
BLAST of Spo19551.1 vs. NCBI nr
Match: gi|225427140|ref|XP_002278687.1| (PREDICTED: phosphatidylinositol-glycan biosynthesis class X protein [Vitis vinifera])

HSP 1 Score: 240.4 bits (612), Expect = 4.300e-60
Identity = 133/287 (46.34%), Postives = 176/287 (61.32%), Query Frame = 1 

		  

Query: 29  TSNQESLNNYNGDYMKHSTSSSPCFARYALESFSREYDSFTDSNFLEYMKHKILVGSEPT 88
           TSN  S N         S +  P F ++  +S+  +YDS  DS+FL+++ H++  GS   
Sbjct: 51  TSNVGSTNQ--------SLNIPPYFEKHITKSYFDKYDSLLDSDFLDFISHELFPGSCEL 110

Query: 89  FSKLLQL-------ERRLIGEGSHRRLSSSVRLSIQPNLIADFSSQMCEIIIIERLPSGV 148
               L L       +R LIG+GSHR LSSS R +IQ  LIA+     CE IIIE+LP G+
Sbjct: 111 LLDNLNLVLRLSVQQRSLIGDGSHRHLSSSFRFNIQSELIAELPIHFCEAIIIEKLPYGI 170

Query: 149 FADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIVEVHLDTALNNSAGQETVLEFK 208
           FADPFELQHL+ RG F  A VFGD NLELPS  SN+S+VEVH+D  LN  +  +  LE  
Sbjct: 171 FADPFELQHLLQRGVFMGAAVFGDTNLELPSVHSNRSLVEVHMDVDLNTFSRHKDGLEIN 230

Query: 209 IEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPAQSCSLSPITSNGSLELDDIVW 268
           I++PLH RYPPLEESGYS +  GAPDL+M C +   S  QSC L    +  +L    +VW
Sbjct: 231 IDLPLHIRYPPLEESGYSNIELGAPDLFMRCSIEAKSHNQSCLLMLKDNGVALGNGPVVW 290

Query: 269 SIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIECDGKSKQT 309
            +P+GIK+H+R VS+VT+ SA+LS   I+  S+  S  +     KQ+
Sbjct: 291 RVPSGIKAHARAVSIVTFISAILSTLSIVLTSVYYSSTKLCKNLKQS 329
[Close]
BLAST of Spo19551.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RFB5_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_073290 PE=4 SV=1)

HSP 1 Score: 605.5 bits (1560), Expect = 3.600e-170
Identity = 308/308 (100.00%), Postives = 308/308 (100.00%), Query Frame = 1 

		  

Query: 1   MGVKFGKSPVHILIATIVLHFTIRITSSTSNQESLNNYNGDYMKHSTSSSPCFARYALES 60
           MGVKFGKSPVHILIATIVLHFTIRITSSTSNQESLNNYNGDYMKHSTSSSPCFARYALES
Sbjct: 1   MGVKFGKSPVHILIATIVLHFTIRITSSTSNQESLNNYNGDYMKHSTSSSPCFARYALES 60

Query: 61  FSREYDSFTDSNFLEYMKHKILVGSEPTFSKLLQLERRLIGEGSHRRLSSSVRLSIQPNL 120
           FSREYDSFTDSNFLEYMKHKILVGSEPTFSKLLQLERRLIGEGSHRRLSSSVRLSIQPNL
Sbjct: 61  FSREYDSFTDSNFLEYMKHKILVGSEPTFSKLLQLERRLIGEGSHRRLSSSVRLSIQPNL 120

Query: 121 IADFSSQMCEIIIIERLPSGVFADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIV 180
           IADFSSQMCEIIIIERLPSGVFADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIV
Sbjct: 121 IADFSSQMCEIIIIERLPSGVFADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIV 180

Query: 181 EVHLDTALNNSAGQETVLEFKIEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPA 240
           EVHLDTALNNSAGQETVLEFKIEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPA
Sbjct: 181 EVHLDTALNNSAGQETVLEFKIEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPA 240

Query: 241 QSCSLSPITSNGSLELDDIVWSIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIE 300
           QSCSLSPITSNGSLELDDIVWSIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIE
Sbjct: 241 QSCSLSPITSNGSLELDDIVWSIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIE 300

Query: 301 CDGKSKQT 309
           CDGKSKQT
Sbjct: 301 CDGKSKQT 308
[Close]
BLAST of Spo19551.1 vs. UniProtKB/TrEMBL
Match: A0A0J8B6M5_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_007040 PE=4 SV=1)

HSP 1 Score: 427.9 bits (1099), Expect = 1.000e-116
Identity = 216/295 (73.22%), Postives = 252/295 (85.42%), Query Frame = 1 

		  

Query: 14  IATIVLHFTIRITSSTSNQESLNNYNGDYMKHSTSSSPCFARYALESFSREYDSFTDSNF 73
           +A +VLH         SNQESL NY+G+Y KH+T+S PCF RY LESF REY +  D  F
Sbjct: 1   MAMLVLHLRC------SNQESLYNYDGNYHKHNTNSLPCFDRYVLESFFREYYNVVDPKF 60

Query: 74  LEYMKHKILVGSEPTFSKLLQLERRLIGEGSHRRLSSSVRLSIQPNLIADFSSQMCEIII 133
            EYM+HKILVGSE TFS+L+ LERRL GEGSHRRLSSS+++SIQP+ IADFSS +CE+I+
Sbjct: 61  SEYMEHKILVGSEATFSRLMDLERRLNGEGSHRRLSSSIKVSIQPDRIADFSSHICEVIL 120

Query: 134 IERLPSGVFADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIVEVHLDTALNNSAG 193
           IERLPSGVFADPFELQHL++RG FKDA VFGD NLELPSFLSNQSIVEVHLD ALNNSAG
Sbjct: 121 IERLPSGVFADPFELQHLLHRGVFKDASVFGDTNLELPSFLSNQSIVEVHLDAALNNSAG 180

Query: 194 QETVLEFKIEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPAQSCSLSPITSNGS 253
           +E VLEFKIEIPLHARYPPLE+SGY++VRFGAPDL+M CKMHG SPA SCSLS ITS+GS
Sbjct: 181 KEIVLEFKIEIPLHARYPPLEDSGYTEVRFGAPDLFMRCKMHGNSPAHSCSLSRITSSGS 240

Query: 254 LELDDIVWSIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIECDGKSKQT 309
           LELDD +WSIPAG+K+HS TVS+VT+ASALLSA+LII  SLRSSR+E + + K++
Sbjct: 241 LELDDTIWSIPAGVKAHSGTVSIVTFASALLSASLIIIASLRSSRMESNRRLKKS 289
[Close]
BLAST of Spo19551.1 vs. UniProtKB/TrEMBL
Match: A5BYQ3_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VITISV_018886 PE=4 SV=1)

HSP 1 Score: 241.1 bits (614), Expect = 1.800e-60
Identity = 133/287 (46.34%), Postives = 176/287 (61.32%), Query Frame = 1 

		  

Query: 29  TSNQESLNNYNGDYMKHSTSSSPCFARYALESFSREYDSFTDSNFLEYMKHKILVGSEPT 88
           TSN  S N         S +  P F ++  +S+  +YDS  DS+FL+++ H++  GS   
Sbjct: 56  TSNVGSTNQ--------SLNIPPYFEKHITKSYFDKYDSLLDSDFLDFISHELFPGSCEL 115

Query: 89  FSKLLQL-------ERRLIGEGSHRRLSSSVRLSIQPNLIADFSSQMCEIIIIERLPSGV 148
               L L       +R LIG+GSHR LSSS R +IQ  LIA+     CE IIIE+LP G+
Sbjct: 116 LLDNLNLVLRLSVQQRSLIGDGSHRHLSSSFRFNIQSELIAELPIHFCEAIIIEKLPYGI 175

Query: 149 FADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIVEVHLDTALNNSAGQETVLEFK 208
           F DPFELQHL+ RG F DA VFGD NLELPS  SN+S+VEVH+D  LN  +  +  LE  
Sbjct: 176 FXDPFELQHLLQRGVFMDAAVFGDTNLELPSVHSNRSLVEVHMDVDLNTFSRHKDGLEIN 235

Query: 209 IEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPAQSCSLSPITSNGSLELDDIVW 268
           I++PLH RYPPLEESGYS +  GAPDL+M C +   S  QSC L    +  +L    +VW
Sbjct: 236 IDLPLHIRYPPLEESGYSNIELGAPDLFMRCSIEAKSHNQSCLLMLKDNGVALGNGPVVW 295

Query: 269 SIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIECDGKSKQT 309
            +P+GIK+H+R VS+VT+ SA+LS   I+  S+  S  +     KQ+
Sbjct: 296 RVPSGIKAHARAVSIVTFISAILSTLSIVLTSVYYSSTKLCKNLKQS 334
[Close]
BLAST of Spo19551.1 vs. UniProtKB/TrEMBL
Match: D7TTT1_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_02s0012g01840 PE=4 SV=1)

HSP 1 Score: 240.4 bits (612), Expect = 3.000e-60
Identity = 133/287 (46.34%), Postives = 176/287 (61.32%), Query Frame = 1 

		  

Query: 29  TSNQESLNNYNGDYMKHSTSSSPCFARYALESFSREYDSFTDSNFLEYMKHKILVGSEPT 88
           TSN  S N         S +  P F ++  +S+  +YDS  DS+FL+++ H++  GS   
Sbjct: 51  TSNVGSTNQ--------SLNIPPYFEKHITKSYFDKYDSLLDSDFLDFISHELFPGSCEL 110

Query: 89  FSKLLQL-------ERRLIGEGSHRRLSSSVRLSIQPNLIADFSSQMCEIIIIERLPSGV 148
               L L       +R LIG+GSHR LSSS R +IQ  LIA+     CE IIIE+LP G+
Sbjct: 111 LLDNLNLVLRLSVQQRSLIGDGSHRHLSSSFRFNIQSELIAELPIHFCEAIIIEKLPYGI 170

Query: 149 FADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIVEVHLDTALNNSAGQETVLEFK 208
           FADPFELQHL+ RG F  A VFGD NLELPS  SN+S+VEVH+D  LN  +  +  LE  
Sbjct: 171 FADPFELQHLLQRGVFMGAAVFGDTNLELPSVHSNRSLVEVHMDVDLNTFSRHKDGLEIN 230

Query: 209 IEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPAQSCSLSPITSNGSLELDDIVW 268
           I++PLH RYPPLEESGYS +  GAPDL+M C +   S  QSC L    +  +L    +VW
Sbjct: 231 IDLPLHIRYPPLEESGYSNIELGAPDLFMRCSIEAKSHNQSCLLMLKDNGVALGNGPVVW 290

Query: 269 SIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIECDGKSKQT 309
            +P+GIK+H+R VS+VT+ SA+LS   I+  S+  S  +     KQ+
Sbjct: 291 RVPSGIKAHARAVSIVTFISAILSTLSIVLTSVYYSSTKLCKNLKQS 329
[Close]
BLAST of Spo19551.1 vs. UniProtKB/TrEMBL
Match: A9PIK5_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0003s09390g PE=2 SV=1)

HSP 1 Score: 231.5 bits (589), Expect = 1.400e-57
Identity = 122/292 (41.78%), Postives = 180/292 (61.64%), Query Frame = 1 

		  

Query: 12  ILIATIVLHFTIRITSSTSNQ--ESLNNYNGDYMKHSTSSSPCFARYALESFSREYDSFT 71
           +LI ++   F ++ +SS+     ES +N N  Y          F +Y +ES+  +YDS  
Sbjct: 18  LLIFSVGFGFFLQSSSSSEETRCESSSNSNNSYCG--------FRKYIMESYFEKYDSLL 77

Query: 72  DSNFLEYMKHKILVGS----EPTFSKLLQLE---RRLIGEGSHRRLSSSVRLSIQPNLIA 131
           + NF  ++  ++L  +        + LL++    R LIGEGSHR +SS++R  +QP+ ++
Sbjct: 78  EPNFQNFIVDELLFNTCKLLPDNLNHLLRVSVPWRHLIGEGSHRHISSTIRFHMQPDSMS 137

Query: 132 DFSSQMCEIIIIERLPSGVFADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIVEV 191
              +  C++IIIERLP+GVFADPFELQHL+ RG F D  VFGD NLELPS LSNQS VE+
Sbjct: 138 QLRAHFCKVIIIERLPTGVFADPFELQHLLKRGVFTDVAVFGDTNLELPSVLSNQSAVEI 197

Query: 192 HLDTALNNSAGQETVLEFKIEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPAQS 251
           H+  A  +  G  + LE   ++PLHARYPPL++SGYS+V FG P++++ C M      +S
Sbjct: 198 HMKVAPTSLLGHISELEISADLPLHARYPPLDDSGYSEVEFGEPEIFLRCSMEENGDHES 257

Query: 252 CSLSPITSNGSLELDDIVWSIPAGIKSHSRTVSVVTYASALLSATLIIFFSL 295
           C L P         D++VW IP+GI++H+  VS VT+ +A +S  LI+  S+
Sbjct: 258 CLLMPTNDRTGSRTDNVVWRIPSGIRAHAGIVSAVTFLAASISTLLIVLTSI 301
[Close]
BLAST of Spo19551.1 vs. ExPASy Swiss-Prot
Match: PIGX_HUMAN (Phosphatidylinositol-glycan biosynthesis class X protein OS=Homo sapiens GN=PIGX PE=2 SV=3)

HSP 1 Score: 68.2 bits (165), Expect = 1.800e-10
Identity = 55/213 (25.82%), Postives = 98/213 (46.01%), Query Frame = 1 

		  

Query: 95  LERRLIGEGSHRRLSSSVRLSIQPNLIADFSSQMCEIIIIERLPSGVFADPFELQHLIYR 154
           L + ++ +G HR L   V+       I D  +  C ++I + +P+G++ DP+EL  L  R
Sbjct: 48  LRQEVLKDGFHRDLLIKVKFG---ESIEDLHT--CRLLIKQDIPAGLYVDPYELASLRER 107

Query: 155 GAFKDAYVFGDANLELPSFLSNQSIVEVHLDTALNNSAGQETVLEFKIEIPLHARY-PPL 214
              +   V  + ++E P++LS +S V ++           + +  F+  +P+H RY  P 
Sbjct: 108 NITEAVMVSENFDIEAPNYLSKESEVLIYA------RRDSQCIDCFQAFLPVHCRYHRPH 167

Query: 215 EESGYSKVRFGAPDLYMYCKMHGTSPAQSC-SLSPITSNGSLELDDI------------- 274
            E G + +    PDL M+C      P   C + S + +  +LE +DI             
Sbjct: 168 SEDGEASIVVNNPDLLMFCDQE--FPILKCWAHSEVAAPCALENEDICQWNKMKYKSVYK 227

Query: 275 --VWSIPAGIKSHSRTVSVVTYASALLSATLII 291
             +  +P G+  H+  V  VT    +L +TLI+
Sbjct: 228 NVILQVPVGLTVHTSLVCSVTLLITILCSTLIL 247
[Close]
BLAST of Spo19551.1 vs. TAIR (Arabidopsis)
Match: AT5G46850.2 (FUNCTIONS IN: molecular_function unknown)

HSP 1 Score: 183.3 bits (464), Expect = 2.200e-46
Identity = 119/303 (39.27%), Postives = 168/303 (55.45%), Query Frame = 1 

		  

Query: 15  ATIVLHFTIRITSSTSNQESLNNYNGDYMKHSTSSSPCFARYALESFSREYDSFTDSNFL 74
           + I L F     SSTS+ +   NY   +    + +     +Y +ES+   Y S  DS F 
Sbjct: 34  SVIALIFICCAISSTSSDQVGTNYRDSHEFFDSDTICISDQYIMESYFTTYTSLDDSEFR 93

Query: 75  EYMKHKILVGSEPT-------FSKLLQLERRLIGEGSHRRLSSSVRLSIQPNLIADFSSQ 134
            ++  +      PT        +  +Q  R + GEGSHR L +S++L     L+    SQ
Sbjct: 94  NFLLLQQCSDKVPTQDSNIVPATSFIQ-HRNITGEGSHRNLITSIKL-----LLHHSESQ 153

Query: 135 MCEIIIIERLPSGVFADPFELQHLIYRGAFKDAYVFGDANLELPSFLSNQSIVEVHLDTA 194
             E++I+ERLP GVFADPFELQ L  R AF D  VFGD NLELPSF SN+S+VE+H++ +
Sbjct: 154 FRELVIVERLPLGVFADPFELQSLQQRRAFSDVSVFGDTNLELPSFRSNRSVVEIHVEIS 213

Query: 195 LNNSAGQETVLEFKIEIPLHARYPPLEESGYSKVRFGAPDLYMYCKMHGTSPAQSCSLSP 254
             N    E  + FK  +PLHARY PL++SGYS+V FG PDL++ C  H  +  +      
Sbjct: 214 SRNYENGE--ISFK--LPLHARYQPLDDSGYSRVEFGEPDLFL-CSSHVQNQRRERRRCL 273

Query: 255 ITSNG--SLELDDIVWSIPAGIKSHSRTVSVVTYASALLSATLIIFFSLRSSRIECDGKS 309
           + S G    E   + W IPAGI+ H+  VS +T+A+A+ SA  I+  S+ SS+ E     
Sbjct: 274 VLSIGRSKTETRSVFWDIPAGIRGHTEYVSALTFAAAVFSAFSILVASVLSSKGESCKNL 325
The following BLAST results are available for this feature:
BLAST of Spo19551.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902218911|gb|KNA18173.1|5.1e-170100.hypothetical protein SOVF_0732... [more]
gi|731375124|ref|XP_010667156.1|4.4e-12172.7PREDICTED: phosphatidylinosito... [more]
gi|870842048|gb|KMS95558.1|1.5e-11673.2hypothetical protein BVRB_0070... [more]
gi|147791632|emb|CAN75134.1|2.5e-6046.3hypothetical protein VITISV_01... [more]
gi|225427140|ref|XP_002278687.1|4.3e-6046.3PREDICTED: phosphatidylinosito... [more]
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BLAST of Spo19551.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9RFB5_SPIOL3.6e-170100.Uncharacterized protein OS=Spi... [more]
A0A0J8B6M5_BETVU1.0e-11673.2Uncharacterized protein OS=Bet... [more]
A5BYQ3_VITVI1.8e-6046.3Putative uncharacterized prote... [more]
D7TTT1_VITVI3.0e-6046.3Putative uncharacterized prote... [more]
A9PIK5_POPTR1.4e-5741.7Uncharacterized protein OS=Pop... [more]
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BLAST of Spo19551.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 1
Match NameE-valueIdentityDescription
PIGX_HUMAN1.8e-1025.8Phosphatidylinositol-glycan bi... [more]
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BLAST of Spo19551.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 1
Match NameE-valueIdentityDescription
AT5G46850.22.2e-4639.2FUNCTIONS IN: molecular_functi... [more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR013233Glycosylphosphatidylinositol-mannosyltransferase I, PIG-X/PBN1PFAMPF08320PIG-Xcoord: 103..291
score: 5.1
IPR013233Glycosylphosphatidylinositol-mannosyltransferase I, PIG-X/PBN1SMARTSM00780pig_x_1coord: 100..297
score: 1.
NoneNo IPR availablePANTHERPTHR28650FAMILY NOT NAMEDcoord: 10..306
score: 1.9

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006506 GPI anchor biosynthetic process
biological_process GO:0045892 negative regulation of transcription, DNA-templated
biological_process GO:0010016 shoot system morphogenesis
biological_process GO:0050896 response to stimulus
biological_process GO:0050793 regulation of developmental process
biological_process GO:0035194 posttranscriptional gene silencing by RNA
biological_process GO:0009886 post-embryonic animal morphogenesis
biological_process GO:0007389 pattern specification process
biological_process GO:0048507 meristem development
biological_process GO:0048438 floral whorl development
biological_process GO:0055085 transmembrane transport
biological_process GO:0016192 vesicle-mediated transport
biological_process GO:0006886 intracellular protein transport
cellular_component GO:0005789 endoplasmic reticulum membrane
cellular_component GO:0016020 membrane
molecular_function GO:0008270 zinc ion binding
molecular_function GO:0005515 protein binding
molecular_function GO:0003677 DNA binding
RNA-Seq Expression
   



Co-expression
Gener valueExpression
Spo157170.67Barchart | Table
Spo270090.67Barchart | Table
Spo011110.66Barchart | Table
Spo102150.65Barchart | Table
Spo196090.65Barchart | Table