Spo09009 (gene)

Overview
NameSpo09009
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionSyntaxin-51
LocationSpoScf_00747 : 113421 .. 130500 (-)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGGCTTTAAGGCAAAGTGCTTTAACTTCAGATTCCTTCAAGGGTTCGCACCTCTTTAACTGCTCTATTTGCTTGTCAAGGTCTGACATCTTCCCATCCAACTTCTCCCCCGAGAAAACTCTCACTTTCTCTCTCCTCCTAACAGTGAAGAGGAGAAGCAGATTTGAGGAGAGTCGAAGGAGGAGAGAGAAAGAGCAAAAAAAGCCTTTGATCATCATCATCGTCGACGAGGACTACTGTCTCCGCTTTCTCTCTCCTCAGAAACAAGGTGTGATGGCTTCGACATCTGGAGACCCTTGGATGAAGGAGTACAATGAAGCAACCAAATTAGCTGATGATATTAATGGCATGATATCAGAGAAGACTGCAATGTCAGGTTCAGGACCAGAATCCCAGCGTCACTTTTCAGCTATACGGCGAAAGATCACAATCTTGGGGAATAGACTGGATAGCCTAGAAGCCCTGTTACCTAAGCTTCCTAGTAAGCAGACGATAACAGAGAGAGAGTTGAACCGCCGTAAGGATATGCTTTCCAATTTGAGAACGAAGACAAACGAAATGGCAACCACTTTGAACATGTCAACTTATGCCAACAGAGACAGCTTACTTGGCCCGGATACAAAGCCTGTTGATGCCGTGACTAGAGCTTCTGGGCTGGATAACCAAGGCATTGTTAGTCTACAAAGACAAATCATGAGAGAGCAAGATGATGGCCTTGAACAGTTGGAGGAGAGTGTTGTGTTTACAAAGCATATTGCACTCACTGTGAATGAAGAACTTGATCTACACACAAGACTCATTCAAGTGATTGTTTGGTTTGCCCTACCCTTCTCCTTCTATATGAAATGGATAAACTACAGAATTATAGCGATTGAGTGA

Coding sequence (CDS)

ATGGCTTTAAGGCAAAGTGCTTTAACTTCAGATTCCTTCAAGGGTTCGCACCTCTTTAACTGCTCTATTTGCTTGTCAAGGTCTGACATCTTCCCATCCAACTTCTCCCCCGAGAAAACTCTCACTTTCTCTCTCCTCCTAACAGTGAAGAGGAGAAGCAGATTTGAGGAGAGTCGAAGGAGGAGAGAGAAAGAGCAAAAAAAGCCTTTGATCATCATCATCGTCGACGAGGACTACTGTCTCCGCTTTCTCTCTCCTCAGAAACAAGGTGTGATGGCTTCGACATCTGGAGACCCTTGGATGAAGGAGTACAATGAAGCAACCAAATTAGCTGATGATATTAATGGCATGATATCAGAGAAGACTGCAATGTCAGGTTCAGGACCAGAATCCCAGCGTCACTTTTCAGCTATACGGCGAAAGATCACAATCTTGGGGAATAGACTGGATAGCCTAGAAGCCCTGTTACCTAAGCTTCCTAGTAAGCAGACGATAACAGAGAGAGAGTTGAACCGCCGTAAGGATATGCTTTCCAATTTGAGAACGAAGACAAACGAAATGGCAACCACTTTGAACATGTCAACTTATGCCAACAGAGACAGCTTACTTGGCCCGGATACAAAGCCTGTTGATGCCGTGACTAGAGCTTCTGGGCTGGATAACCAAGGCATTGTTAGTCTACAAAGACAAATCATGAGAGAGCAAGATGATGGCCTTGAACAGTTGGAGGAGAGTGTTGTGTTTACAAAGCATATTGCACTCACTGTGAATGAAGAACTTGATCTACACACAAGACTCATTCAAGTGATTGTTTGGTTTGCCCTACCCTTCTCCTTCTATATGAAATGGATAAACTACAGAATTATAGCGATTGAGTGA

Protein sequence

MALRQSALTSDSFKGSHLFNCSICLSRSDIFPSNFSPEKTLTFSLLLTVKRRSRFEESRRRREKEQKKPLIIIIVDEDYCLRFLSPQKQGVMASTSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDSLEALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVDAVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLIQVIVWFALPFSFYMKWINYRIIAIE
Relationships

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

Feature NameUnique NameType
Spo09009.1Spo09009.1mRNA


Homology
[Close]
BLAST of Spo09009.1 vs. NCBI nr
Match: gi|902213686|gb|KNA17320.1| (hypothetical protein SOVF_080990 [Spinacia oleracea])

HSP 1 Score: 338.2 bits (866), Expect = 1.400e-89
Identity = 176/176 (100.00%), Postives = 176/176 (100.00%), Query Frame = 1 

		  

Query: 92  MASTSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDS 151
           MASTSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDS
Sbjct: 1   MASTSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDS 60

Query: 152 LEALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVD 211
           LEALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVD
Sbjct: 61  LEALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVD 120

Query: 212 AVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
           AVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI
Sbjct: 121 AVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 176
[Close]
BLAST of Spo09009.1 vs. NCBI nr
Match: gi|731329861|ref|XP_010675821.1| (PREDICTED: syntaxin-52-like [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 297.0 bits (759), Expect = 3.700e-77
Identity = 151/176 (85.80%), Postives = 168/176 (95.45%), Query Frame = 1 

		  

Query: 92  MASTSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDS 151
           MASTSGD WMKEYN+ATKLADDINGMISEKTAMSGSGP+SQRHFSA+RRKITILG RLDS
Sbjct: 1   MASTSGDSWMKEYNDATKLADDINGMISEKTAMSGSGPDSQRHFSAVRRKITILGTRLDS 60

Query: 152 LEALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVD 211
           LE+LL K PSK++ITE+ELN RKDMLSNLRTKTN+MATTLNMS +ANRDSLLGP++KPVD
Sbjct: 61  LESLLSKPPSKKSITEKELNHRKDMLSNLRTKTNQMATTLNMSNFANRDSLLGPESKPVD 120

Query: 212 AVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
           A+TR +GLDNQGIVSLQRQIMREQD+GLEQLEE+V+ TKHIALTVNEEL+LHTRLI
Sbjct: 121 AMTRVAGLDNQGIVSLQRQIMREQDEGLEQLEETVMSTKHIALTVNEELELHTRLI 176
[Close]
BLAST of Spo09009.1 vs. NCBI nr
Match: gi|567920934|ref|XP_006452473.1| (hypothetical protein CICLE_v10009364mg [Citrus clementina])

HSP 1 Score: 258.1 bits (658), Expect = 1.900e-65
Identity = 133/176 (75.57%), Postives = 154/176 (87.50%), Query Frame = 1 

		  

Query: 92  MASTSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDS 151
           MAS S D W+KEYNEA KLADDINGMISE+++M  SGPESQRH SAIRRKITILG RLDS
Sbjct: 1   MASAS-DSWIKEYNEAIKLADDINGMISERSSMPASGPESQRHASAIRRKITILGTRLDS 60

Query: 152 LEALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVD 211
           L++LL KLP KQ I+E+E+NRRKDML+NLR+K N+MA+TLNMS +ANRDSLLGP+ K  D
Sbjct: 61  LQSLLSKLPGKQPISEKEMNRRKDMLANLRSKVNQMASTLNMSNFANRDSLLGPEIKSAD 120

Query: 212 AVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
            + RA+GLDNQG+V  QRQIMREQD+GLE+LEE+VV TKHIAL VNEELDLHTRLI
Sbjct: 121 VMNRATGLDNQGLVGFQRQIMREQDEGLEKLEETVVSTKHIALAVNEELDLHTRLI 175
[Close]
BLAST of Spo09009.1 vs. NCBI nr
Match: gi|747095217|ref|XP_011095474.1| (PREDICTED: syntaxin-52-like [Sesamum indicum])

HSP 1 Score: 256.1 bits (653), Expect = 7.200e-65
Identity = 125/174 (71.84%), Postives = 155/174 (89.08%), Query Frame = 1 

		  

Query: 94  STSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDSLE 153
           + SGD W++EYNEA KLADDI  MISE++++  +GPE+QRH SAIRRKITILG RLDSL+
Sbjct: 2   AASGDSWVREYNEAVKLADDITSMISERSSLPATGPEAQRHSSAIRRKITILGTRLDSLQ 61

Query: 154 ALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVDAV 213
           +LL KLP KQ++TE+E+NRR DM++NLR+K N+MA+TLNMS +ANRDSLLGP+ KPVDA+
Sbjct: 62  SLLSKLPGKQSLTEKEMNRRADMVANLRSKVNQMASTLNMSNFANRDSLLGPEVKPVDAM 121

Query: 214 TRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
           +RA+GLDNQG+V LQRQIMREQD+GLE+LEE+V+ TKHIAL VNEELDLH RLI
Sbjct: 122 SRANGLDNQGVVGLQRQIMREQDEGLEKLEETVISTKHIALAVNEELDLHARLI 175
[Close]
BLAST of Spo09009.1 vs. NCBI nr
Match: gi|802588507|ref|XP_012070926.1| (PREDICTED: syntaxin-52-like isoform X2 [Jatropha curcas])

HSP 1 Score: 252.3 bits (643), Expect = 1.000e-63
Identity = 123/174 (70.69%), Postives = 152/174 (87.36%), Query Frame = 1 

		  

Query: 94  STSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDSLE 153
           ++S DPWMKEYNEA KLADDI+GMISE+++   SGPE+QRH SAIRRKITILG RLDSL+
Sbjct: 2   ASSADPWMKEYNEAVKLADDISGMISERSSFPASGPETQRHGSAIRRKITILGTRLDSLQ 61

Query: 154 ALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVDAV 213
           +LL KLP KQ ++E+E+NRRKDM++NLRTK N+MA++LNMS +A+RDSL GP+ KP DA+
Sbjct: 62  SLLTKLPGKQQVSEKEMNRRKDMVANLRTKVNQMASSLNMSNFAHRDSLFGPEIKPADAM 121

Query: 214 TRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
            R  GLDN G+V LQRQIM+EQD+GLE+LEE+V+ TKHIAL VNEELDLH+RLI
Sbjct: 122 RRTEGLDNHGVVGLQRQIMKEQDEGLEKLEETVISTKHIALAVNEELDLHSRLI 175
[Close]
BLAST of Spo09009.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RCX2_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_080990 PE=4 SV=1)

HSP 1 Score: 338.2 bits (866), Expect = 1.000e-89
Identity = 176/176 (100.00%), Postives = 176/176 (100.00%), Query Frame = 1 

		  

Query: 92  MASTSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDS 151
           MASTSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDS
Sbjct: 1   MASTSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDS 60

Query: 152 LEALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVD 211
           LEALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVD
Sbjct: 61  LEALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVD 120

Query: 212 AVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
           AVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI
Sbjct: 121 AVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 176
[Close]
BLAST of Spo09009.1 vs. UniProtKB/TrEMBL
Match: A0A0J8CLA7_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_4g089310 PE=4 SV=1)

HSP 1 Score: 297.0 bits (759), Expect = 2.600e-77
Identity = 151/176 (85.80%), Postives = 168/176 (95.45%), Query Frame = 1 

		  

Query: 92  MASTSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDS 151
           MASTSGD WMKEYN+ATKLADDINGMISEKTAMSGSGP+SQRHFSA+RRKITILG RLDS
Sbjct: 1   MASTSGDSWMKEYNDATKLADDINGMISEKTAMSGSGPDSQRHFSAVRRKITILGTRLDS 60

Query: 152 LEALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVD 211
           LE+LL K PSK++ITE+ELN RKDMLSNLRTKTN+MATTLNMS +ANRDSLLGP++KPVD
Sbjct: 61  LESLLSKPPSKKSITEKELNHRKDMLSNLRTKTNQMATTLNMSNFANRDSLLGPESKPVD 120

Query: 212 AVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
           A+TR +GLDNQGIVSLQRQIMREQD+GLEQLEE+V+ TKHIALTVNEEL+LHTRLI
Sbjct: 121 AMTRVAGLDNQGIVSLQRQIMREQDEGLEQLEETVMSTKHIALTVNEELELHTRLI 176
[Close]
BLAST of Spo09009.1 vs. UniProtKB/TrEMBL
Match: V4TYR6_9ROSI (Uncharacterized protein OS=Citrus clementina GN=CICLE_v10009364mg PE=4 SV=1)

HSP 1 Score: 258.1 bits (658), Expect = 1.300e-65
Identity = 133/176 (75.57%), Postives = 154/176 (87.50%), Query Frame = 1 

		  

Query: 92  MASTSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDS 151
           MAS S D W+KEYNEA KLADDINGMISE+++M  SGPESQRH SAIRRKITILG RLDS
Sbjct: 1   MASAS-DSWIKEYNEAIKLADDINGMISERSSMPASGPESQRHASAIRRKITILGTRLDS 60

Query: 152 LEALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVD 211
           L++LL KLP KQ I+E+E+NRRKDML+NLR+K N+MA+TLNMS +ANRDSLLGP+ K  D
Sbjct: 61  LQSLLSKLPGKQPISEKEMNRRKDMLANLRSKVNQMASTLNMSNFANRDSLLGPEIKSAD 120

Query: 212 AVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
            + RA+GLDNQG+V  QRQIMREQD+GLE+LEE+VV TKHIAL VNEELDLHTRLI
Sbjct: 121 VMNRATGLDNQGLVGFQRQIMREQDEGLEKLEETVVSTKHIALAVNEELDLHTRLI 175
[Close]
BLAST of Spo09009.1 vs. UniProtKB/TrEMBL
Match: A0A067F471_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g026774mg PE=4 SV=1)

HSP 1 Score: 258.1 bits (658), Expect = 1.300e-65
Identity = 133/176 (75.57%), Postives = 154/176 (87.50%), Query Frame = 1 

		  

Query: 92  MASTSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDS 151
           MAS S D W+KEYNEA KLADDINGMISE+++M  SGPESQRH SAIRRKITILG RLDS
Sbjct: 1   MASAS-DSWIKEYNEAIKLADDINGMISERSSMPASGPESQRHASAIRRKITILGTRLDS 60

Query: 152 LEALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVD 211
           L++LL KLP KQ I+E+E+NRRKDML+NLR+K N+MA+TLNMS +ANRDSLLGP+ K  D
Sbjct: 61  LQSLLSKLPGKQPISEKEMNRRKDMLANLRSKVNQMASTLNMSNFANRDSLLGPEIKSAD 120

Query: 212 AVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
            + RA+GLDNQG+V  QRQIMREQD+GLE+LEE+VV TKHIAL VNEELDLHTRLI
Sbjct: 121 VMNRATGLDNQGLVGFQRQIMREQDEGLEKLEETVVSTKHIALAVNEELDLHTRLI 175
[Close]
BLAST of Spo09009.1 vs. UniProtKB/TrEMBL
Match: A0A067KSP8_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_00963 PE=4 SV=1)

HSP 1 Score: 252.3 bits (643), Expect = 7.200e-64
Identity = 123/174 (70.69%), Postives = 152/174 (87.36%), Query Frame = 1 

		  

Query: 94  STSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDSLE 153
           ++S DPWMKEYNEA KLADDI+GMISE+++   SGPE+QRH SAIRRKITILG RLDSL+
Sbjct: 2   ASSADPWMKEYNEAVKLADDISGMISERSSFPASGPETQRHGSAIRRKITILGTRLDSLQ 61

Query: 154 ALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVDAV 213
           +LL KLP KQ ++E+E+NRRKDM++NLRTK N+MA++LNMS +A+RDSL GP+ KP DA+
Sbjct: 62  SLLTKLPGKQQVSEKEMNRRKDMVANLRTKVNQMASSLNMSNFAHRDSLFGPEIKPADAM 121

Query: 214 TRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
            R  GLDN G+V LQRQIM+EQD+GLE+LEE+V+ TKHIAL VNEELDLH+RLI
Sbjct: 122 RRTEGLDNHGVVGLQRQIMKEQDEGLEKLEETVISTKHIALAVNEELDLHSRLI 175
[Close]
BLAST of Spo09009.1 vs. ExPASy Swiss-Prot
Match: SYP52_ARATH (Syntaxin-52 OS=Arabidopsis thaliana GN=SYP52 PE=1 SV=1)

HSP 1 Score: 236.1 bits (601), Expect = 4.800e-61
Identity = 117/174 (67.24%), Postives = 147/174 (84.48%), Query Frame = 1 

		  

Query: 94  STSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDSLE 153
           ++S DPWM+EYNEA KL++DINGM+SE+ A   +GP++QR  SAIRRKITILG RLDSL+
Sbjct: 2   ASSSDPWMREYNEALKLSEDINGMMSERNASGLTGPDAQRRASAIRRKITILGTRLDSLQ 61

Query: 154 ALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVDAV 213
           +LL K+P KQ ++E+E+NRRKDM+ NLR+KTN++A+ LNMS +ANRDSL G D KP DA+
Sbjct: 62  SLLVKVPGKQHVSEKEMNRRKDMVGNLRSKTNQVASALNMSNFANRDSLFGTDLKPDDAI 121

Query: 214 TRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
            R SG+DNQGIV  QRQ+MREQD+GLE+LEE+V+ TKHIAL VNEEL L TRLI
Sbjct: 122 NRVSGMDNQGIVVFQRQVMREQDEGLEKLEETVMSTKHIALAVNEELTLQTRLI 175
[Close]
BLAST of Spo09009.1 vs. ExPASy Swiss-Prot
Match: SYP51_ARATH (Syntaxin-51 OS=Arabidopsis thaliana GN=SYP51 PE=1 SV=1)

HSP 1 Score: 221.1 bits (562), Expect = 1.600e-56
Identity = 111/174 (63.79%), Postives = 146/174 (83.91%), Query Frame = 1 

		  

Query: 94  STSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDSLE 153
           ++S D WM+ YNEA KL+++INGMISE+++ + +GP++QR  SAIRRKITI GN+LDSL+
Sbjct: 2   ASSSDSWMRAYNEALKLSEEINGMISERSSSAVTGPDAQRRASAIRRKITIFGNKLDSLQ 61

Query: 154 ALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVDAV 213
           +LL ++  K  I+E+E+NRRKDM+ NLR+K N+MA  LNMS +ANRDSLLGPD KP D++
Sbjct: 62  SLLAEIHGKP-ISEKEMNRRKDMVGNLRSKANQMANALNMSNFANRDSLLGPDIKPDDSM 121

Query: 214 TRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
           +R +G+DNQGIV  QRQ+MREQD+GLEQLE +V+ TKHIAL V+EELDL TRLI
Sbjct: 122 SRVTGMDNQGIVGYQRQVMREQDEGLEQLEGTVMSTKHIALAVSEELDLQTRLI 174
[Close]
BLAST of Spo09009.1 vs. ExPASy Swiss-Prot
Match: STX8B_DICDI (Probable syntaxin-8B OS=Dictyostelium discoideum GN=syn8B PE=3 SV=1)

HSP 1 Score: 59.7 bits (143), Expect = 6.200e-8
Identity = 49/187 (26.20%), Postives = 96/187 (51.34%), Query Frame = 1 

		  

Query: 97  GDPWMKEYNEATKLADDINGMISEKTAMSGSGPES-QRHFSA-IRRKITILGNRLDSLEA 156
           GD W+ E++   KL + +   I E +    + P   Q++  A +R  +  + N +  L+ 
Sbjct: 2   GDYWLNEHDNIVKLINSLTADIKEYSIQQRNNPGIVQKNTPAKLRNGLVHITNEILRLQD 61

Query: 157 LLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLN--MSTYANRDSLLGPDT----- 216
            L    + + I E+EL RRK+ + +L +  N++ +TL+  ++  + ++ L+G +      
Sbjct: 62  SLT-YGNNRNIQEKELLRRKNKVESLISMKNQLNSTLDAAINNTSQKNELMGNNNGVGIG 121

Query: 217 -------KPVDAVTRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEEL 268
                  KP +        DNQ + + Q+ IMREQD+ L+ L +S++  K++A  ++ EL
Sbjct: 122 YSNRQFGKPKETEATKQ-FDNQQLFTNQQHIMREQDESLDLLSQSIMRQKNMAHAMSNEL 181
[Close]
BLAST of Spo09009.1 vs. TAIR (Arabidopsis)
Match: AT1G79590.1 (syntaxin of plants 52)

HSP 1 Score: 236.1 bits (601), Expect = 2.700e-62
Identity = 117/174 (67.24%), Postives = 147/174 (84.48%), Query Frame = 1 

		  

Query: 94  STSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDSLE 153
           ++S DPWM+EYNEA KL++DINGM+SE+ A   +GP++QR  SAIRRKITILG RLDSL+
Sbjct: 2   ASSSDPWMREYNEALKLSEDINGMMSERNASGLTGPDAQRRASAIRRKITILGTRLDSLQ 61

Query: 154 ALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVDAV 213
           +LL K+P KQ ++E+E+NRRKDM+ NLR+KTN++A+ LNMS +ANRDSL G D KP DA+
Sbjct: 62  SLLVKVPGKQHVSEKEMNRRKDMVGNLRSKTNQVASALNMSNFANRDSLFGTDLKPDDAI 121

Query: 214 TRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
            R SG+DNQGIV  QRQ+MREQD+GLE+LEE+V+ TKHIAL VNEEL L TRLI
Sbjct: 122 NRVSGMDNQGIVVFQRQVMREQDEGLEKLEETVMSTKHIALAVNEELTLQTRLI 175
[Close]
BLAST of Spo09009.1 vs. TAIR (Arabidopsis)
Match: AT1G16240.1 (syntaxin of plants 51)

HSP 1 Score: 221.1 bits (562), Expect = 9.000e-58
Identity = 111/174 (63.79%), Postives = 146/174 (83.91%), Query Frame = 1 

		  

Query: 94  STSGDPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDSLE 153
           ++S D WM+ YNEA KL+++INGMISE+++ + +GP++QR  SAIRRKITI GN+LDSL+
Sbjct: 2   ASSSDSWMRAYNEALKLSEEINGMISERSSSAVTGPDAQRRASAIRRKITIFGNKLDSLQ 61

Query: 154 ALLPKLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVDAV 213
           +LL ++  K  I+E+E+NRRKDM+ NLR+K N+MA  LNMS +ANRDSLLGPD KP D++
Sbjct: 62  SLLAEIHGKP-ISEKEMNRRKDMVGNLRSKANQMANALNMSNFANRDSLLGPDIKPDDSM 121

Query: 214 TRASGLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
           +R +G+DNQGIV  QRQ+MREQD+GLEQLE +V+ TKHIAL V+EELDL TRLI
Sbjct: 122 SRVTGMDNQGIVGYQRQVMREQDEGLEQLEGTVMSTKHIALAVSEELDLQTRLI 174
[Close]
BLAST of Spo09009.1 vs. TAIR (Arabidopsis)
Match: AT1G16230.1 (Target SNARE coiled-coil domain protein)

HSP 1 Score: 144.8 bits (364), Expect = 8.200e-35
Identity = 78/170 (45.88%), Postives = 120/170 (70.59%), Query Frame = 1 

		  

Query: 98  DPWMKEYNEATKLADDINGMISEKTAMSGSGPESQRHFSAIRRKITILGNRLDSLEALLP 157
           D W++E NE  KL+++I+GMI E+++++ +   + RH S++RRKITIL  R+ +L+ LL 
Sbjct: 6   DSWIREQNETLKLSEEIDGMILERSSLAETSSYALRHASSMRRKITILATRVQTLKYLLA 65

Query: 158 KLPSKQTITERELNRRKDMLSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVDAVTRAS 217
           +   K +I+ +E++RRK    NLR+K N+MA+ L+M  ++N D LL P+    D ++R  
Sbjct: 66  ESQGK-SISGKEMSRRKGTFENLRSKANQMASALDMLKFSNIDILLRPEKD--DIMSRVI 125

Query: 218 GLDNQGIVSLQRQIMREQDDGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
           GLDNQGIV L RQ+M+E D+ L+ LEE+V+  KH AL +NE++ L TRLI
Sbjct: 126 GLDNQGIVGLHRQVMKEHDEALDMLEETVMRVKHNALVMNEQIGLQTRLI 172
[Close]
BLAST of Spo09009.1 vs. TAIR (Arabidopsis)
Match: AT1G16225.1 (Target SNARE coiled-coil domain protein)

HSP 1 Score: 102.1 bits (253), Expect = 6.100e-22
Identity = 64/151 (42.38%), Postives = 97/151 (64.24%), Query Frame = 1 

		  

Query: 117 MISEKTAMSGSGPESQRHFSAIRRKITILGNRLDSLEALLPKLPSKQTITERELNRRKDM 176
           MI E+++++ +   ++ H S +RRKITIL N + +L+ LL +   K +I+ +E++R KDM
Sbjct: 1   MILERSSLAETSSYARGHASYMRRKITILANGVQTLKNLLAESQGK-SISAKEMSRCKDM 60

Query: 177 LSNLRTKTNEMATTLNMSTYANRDSLLGPDTKPVDAVTRASGLDNQGIVSLQRQIMREQD 236
           + +LR+K  +MA+ L+M  ++N  SLLG D    D ++R   +DNQ IV  QR  M+ QD
Sbjct: 61  VEDLRSKAYQMASALDMLKFSNIGSLLGQD----DIMSRVIDMDNQEIVGFQRTTMKVQD 120

Query: 237 DGLEQLEESVVFTKHIALTVNEELDLHTRLI 268
             LE LE+ V+  K  AL +N EL L TRLI
Sbjct: 121 KALEMLEKGVMHLKREALAMNMELGLQTRLI 146
The following BLAST results are available for this feature:
BLAST of Spo09009.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902213686|gb|KNA17320.1|1.4e-89100.hypothetical protein SOVF_0809... [more]
gi|731329861|ref|XP_010675821.1|3.7e-7785.8PREDICTED: syntaxin-52-like [B... [more]
gi|567920934|ref|XP_006452473.1|1.9e-6575.5hypothetical protein CICLE_v10... [more]
gi|747095217|ref|XP_011095474.1|7.2e-6571.8PREDICTED: syntaxin-52-like [S... [more]
gi|802588507|ref|XP_012070926.1|1.0e-6370.6PREDICTED: syntaxin-52-like is... [more]
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BLAST of Spo09009.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9RCX2_SPIOL1.0e-89100.Uncharacterized protein OS=Spi... [more]
A0A0J8CLA7_BETVU2.6e-7785.8Uncharacterized protein OS=Bet... [more]
V4TYR6_9ROSI1.3e-6575.5Uncharacterized protein OS=Cit... [more]
A0A067F471_CITSI1.3e-6575.5Uncharacterized protein OS=Cit... [more]
A0A067KSP8_JATCU7.2e-6470.6Uncharacterized protein OS=Jat... [more]
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BLAST of Spo09009.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 3
Match NameE-valueIdentityDescription
SYP52_ARATH4.8e-6167.2Syntaxin-52 OS=Arabidopsis tha... [more]
SYP51_ARATH1.6e-5663.7Syntaxin-51 OS=Arabidopsis tha... [more]
STX8B_DICDI6.2e-826.2Probable syntaxin-8B OS=Dictyo... [more]
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BLAST of Spo09009.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 4
Match NameE-valueIdentityDescription
AT1G79590.12.7e-6267.2syntaxin of plants 52[more]
AT1G16240.19.0e-5863.7syntaxin of plants 51[more]
AT1G16230.18.2e-3545.8Target SNARE coiled-coil domai... [more]
AT1G16225.16.1e-2242.3Target SNARE coiled-coil domai... [more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availableGENE3D1.20.5.110coord: 229..268
score: 4.7
NoneNo IPR availablePANTHERPTHR19957SYNTAXINcoord: 27..267
score: 3.0
NoneNo IPR availablePANTHERPTHR19957:SF119SYNTAXIN-8coord: 27..267
score: 3.0
NoneNo IPR availableunknownSSF58038SNARE fusion complexcoord: 220..268
score: 2.0

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0016192 vesicle-mediated transport
biological_process GO:0006888 ER to Golgi vesicle-mediated transport
biological_process GO:0006508 proteolysis
biological_process GO:0007264 small GTPase mediated signal transduction
biological_process GO:0008152 metabolic process
biological_process GO:0006886 intracellular protein transport
biological_process GO:0006913 nucleocytoplasmic transport
biological_process GO:0071805 potassium ion transmembrane transport
biological_process GO:0006468 protein phosphorylation
cellular_component GO:0016020 membrane
cellular_component GO:0000139 Golgi membrane
cellular_component GO:0005886 plasma membrane
cellular_component GO:0032588 trans-Golgi network membrane
cellular_component GO:0005773 vacuole
cellular_component GO:0016021 integral component of membrane
molecular_function GO:0004672 protein kinase activity
molecular_function GO:0030247 polysaccharide binding
molecular_function GO:0005524 ATP binding
molecular_function GO:0005267 potassium channel activity
molecular_function GO:0003924 GTPase activity
molecular_function GO:0005525 GTP binding
molecular_function GO:0004252 serine-type endopeptidase activity
RNA-Seq Expression