Spo12188 (gene)

Overview
NameSpo12188
Typegene
OrganismSpinacia oleracea (Spinach)
Descriptionembryo defective 3006
Locationchr6 : 33442448 .. 33460838 (+)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ACATTGCTTCACTAACAATGTCACCAAGTATTTAGACGGTGCCAAAACAAGTGAGGGACCGGAGAAGGTGTCGGACTGCCGAAGATCAACTGCTTACCCCCAATTCCTCAAAATATTCAAGTAGTGAAGGGGAGGAGAGAATATTCAATTCGCTTCAGGCTTTGCTTGAAGTGTTGAAAAATGGAGGAAGCTTTTAAAAGTGAAACTGTTATCCCTGGAGTTAGACATTCCAATTTGAAGACGTCATTTAGGCAGTGTCTTGGTTTCCTGCTTACGGCTTTTCCTTTCGAGGATTTCGCTAAAGCATTTCCGAGATACACCGGAGCCGAGCAGGATCTGCTCTACCAGCTATATGTTCAGCAGGTCATCACATCGTTACATGAAAATATGCAGGAAGAGTTCAATGTAGTATGCCATGCAACACAGGTCGGTACCACTCTGGACACCGTTGAGCACCTTGTGGAGCAACAAAGTCTGGATCCTTTATTTTCAAAGAAAACGAATCTATTTCATCTCAAGCATGATGTATTAGCTACAAAGGAGAACGAGGTCCGATTATTGCAGGGTTTGCTAGATAAGGTTGATGATCAGAAACATACAACCAAAGCTCGGATCAAACTTCTTAAAAAGAAACACGCAGAGTCTGAAGACACATCAGGTCTTACTGCGACTTTAGAAAAGATCAGATCTATGATGGTAAAATATGGTGGTGACATTGACGAATGGGTTTCAGATCAATCTAAGGCATGAAAGGAGCCTCTACATCACAAGTAGACATGTTCAACATGGTGCCCAAAATGTACATCTAACATGACTGTTTCTGATTTATTTATTTATTTCGTGTAATTAAATTTGAGTGTTGTTTTAGATGAAAGAAGAATCTTGTATCATAATATCATATTGTGTGGTCTCATTGTAACTTATTACGAGACCAGGGCGTTTTCGGGACTTGCGTATGGGTTACTTGATAAGTTGGTGTAAGATTATTGCATAATTTATGTTCTTTTTATTTCTGATTTCGGGAAGAATTTGAAGATTAAGCTCGATAATACTCGGTTGGCATCTTGTTCCTCTGCGCTTAACTCCTCATTGCAGCTAGTCTGAACGATATCTCTTCGGATTATTTACTTTAAGCTCACATTTGTTGAGCAAAAACTATGGAGGTTTCAAACTTTAGTGATGAACTGATGACGTATGAATGATGTACGGACTCGCCTATACAATTTGACTTGAATTAGTTACTCATTTGATATTGATTAGCTTGAAGCGTTCCTGTCTGAAATCCATAATTTAGTCAAGCTTTAATTTAATCAGTTGACATTTTTGTATTTTGATTAATAAACGTTTATTCTTTTCAGATACTTTGTATACTACGATAACCCGTGTGATTCTTAGTATTGCAAATACATTTTCTTAAGAAAAAATAAACACAAAAAGCTTGTAT

Coding sequence (CDS)

ATGGAGGAAGCTTTTAAAAGTGAAACTGTTATCCCTGGAGTTAGACATTCCAATTTGAAGACGTCATTTAGGCAGTGTCTTGGTTTCCTGCTTACGGCTTTTCCTTTCGAGGATTTCGCTAAAGCATTTCCGAGATACACCGGAGCCGAGCAGGATCTGCTCTACCAGCTATATGTTCAGCAGGTCATCACATCGTTACATGAAAATATGCAGGAAGAGTTCAATGTAGTATGCCATGCAACACAGGTCGGTACCACTCTGGACACCGTTGAGCACCTTGTGGAGCAACAAAGTCTGGATCCTTTATTTTCAAAGAAAACGAATCTATTTCATCTCAAGCATGATGTATTAGCTACAAAGGAGAACGAGGTCCGATTATTGCAGGGTTTGCTAGATAAGGTTGATGATCAGAAACATACAACCAAAGCTCGGATCAAACTTCTTAAAAAGAAACACGCAGAGTCTGAAGACACATCAGGTCTTACTGCGACTTTAGAAAAGATCAGATCTATGATGGTAAAATATGGTGGTGACATTGACGAATGGGTTTCAGATCAATCTAAGGCATGA

Protein sequence

MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQQVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATKENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDIDEWVSDQSKA
Relationships

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

Feature NameUnique NameType
Spo12188.1Spo12188.1mRNA


Homology
[Close]
BLAST of Spo12188.1 vs. NCBI nr
Match: gi|902213082|gb|KNA17173.1| (hypothetical protein SOVF_082560 isoform B [Spinacia oleracea])

HSP 1 Score: 376.3 bits (965), Expect = 3.100e-101
Identity = 189/189 (100.00%), Postives = 189/189 (100.00%), Query Frame = 1 

		  

Query: 1   MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQ 60
           MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQ
Sbjct: 1   MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQ 60

Query: 61  QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK 120
           QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK
Sbjct: 61  QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK 120

Query: 121 ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID 180
           ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID
Sbjct: 121 ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID 180

Query: 181 EWVSDQSKA 190
           EWVSDQSKA
Sbjct: 181 EWVSDQSKA 189
[Close]
BLAST of Spo12188.1 vs. NCBI nr
Match: gi|902213081|gb|KNA17172.1| (hypothetical protein SOVF_082560 isoform A [Spinacia oleracea])

HSP 1 Score: 369.8 bits (948), Expect = 2.900e-99
Identity = 188/189 (99.47%), Postives = 188/189 (99.47%), Query Frame = 1 

		  

Query: 1   MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQ 60
           MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYV 
Sbjct: 1   MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYV- 60

Query: 61  QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK 120
           QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK
Sbjct: 61  QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK 120

Query: 121 ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID 180
           ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID
Sbjct: 121 ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID 180

Query: 181 EWVSDQSKA 190
           EWVSDQSKA
Sbjct: 181 EWVSDQSKA 188
[Close]
BLAST of Spo12188.1 vs. NCBI nr
Match: gi|731352050|ref|XP_010687337.1| (PREDICTED: uncharacterized protein LOC104901450 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 225.7 bits (574), Expect = 6.700e-56
Identity = 121/183 (66.12%), Postives = 142/183 (77.60%), Query Frame = 1 

		  

Query: 1   MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQ 60
           ME+A  +ETV  G +HSNL  SF QCL FLLTAFPFEDF+KAFPR+TGAEQ  LYQLYVQ
Sbjct: 1   MEKA--AETVFHGSKHSNLNKSFGQCLRFLLTAFPFEDFSKAFPRFTGAEQQRLYQLYVQ 60

Query: 61  QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK 120
            VITSLHEN+Q+EF  +CH TQVGT LDTVEH VEQQSLDPL S+KTNL  LKHD+LA+K
Sbjct: 61  -VITSLHENLQDEFESICHETQVGTILDTVEHFVEQQSLDPLCSQKTNLAQLKHDLLASK 120

Query: 121 ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID 180
           +NEVR L+ +LDKV+DQKH+ KARIK+LKKK   +ED S      EK+R  +  +G   D
Sbjct: 121 KNEVRSLEEILDKVEDQKHSIKARIKVLKKK---NEDPSVTAEAAEKLRCAIANFGSYSD 177

Query: 181 EWV 184
           E V
Sbjct: 181 EVV 177
[Close]
BLAST of Spo12188.1 vs. NCBI nr
Match: gi|359474728|ref|XP_003631523.1| (PREDICTED: uncharacterized protein LOC100854852 [Vitis vinifera])

HSP 1 Score: 157.9 bits (398), Expect = 1.700e-35
Identity = 84/173 (48.55%), Postives = 119/173 (68.79%), Query Frame = 1 

		  

Query: 13  GVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQQVITSLHENMQE 72
           G+R  NL+ SFR  L  LLT    E+F+KAFPR+  AEQ+ L++L++Q VITSLH N+++
Sbjct: 17  GLRQMNLEKSFRLALRSLLTTCSKEEFSKAFPRFGSAEQERLHRLFIQ-VITSLHGNIED 76

Query: 73  EFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATKENEVRLLQGLLD 132
           EF  +C  TQVGT LDT+E L E+QSLDPLFS+KT    ++HD+L  K+NEV+ L G+L 
Sbjct: 77  EFESLCLETQVGTALDTIEQLSEEQSLDPLFSEKTPAGDVEHDLLMAKKNEVQYLMGMLK 136

Query: 133 KVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDIDEWVSD 186
           K ++QKH   AR++LLKK     +D S  +  +EK+RS ++ YG   +  + D
Sbjct: 137 KAEEQKHIISARLELLKK--GSQQDLSATSDVIEKLRSGILSYGAYTNNGLHD 186
[Close]
BLAST of Spo12188.1 vs. NCBI nr
Match: gi|674235826|gb|KFK28591.1| (hypothetical protein AALP_AA7G017300 [Arabis alpina])

HSP 1 Score: 152.5 bits (384), Expect = 7.200e-34
Identity = 80/163 (49.08%), Postives = 114/163 (69.94%), Query Frame = 1 

		  

Query: 8   ETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQQVITSLH 67
           E  IPG R S+LK SF+  L  LLTA   +DF   F +++ AEQ+LLY+LY Q VI +LH
Sbjct: 7   EMGIPGNRQSDLKQSFKSALRSLLTACSKQDFLDIFSKFSRAEQELLYRLYTQ-VIVNLH 66

Query: 68  ENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATKENEVRLL 127
           +N+++EF+  CH TQVG  LDTVE LVE+QSLDPLFS KTN+  + +D+   K++E+++L
Sbjct: 67  QNLEDEFDAQCHETQVGPILDTVEELVEEQSLDPLFSDKTNVMDIANDLTTAKKSEIQML 126

Query: 128 QGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRS 171
            GLL K ++Q    +ARI LL+K   ++ D SG T  +EK+++
Sbjct: 127 TGLLQKAEEQNRQMEARISLLRK---QTLDVSGTTNAIEKLKT 165
[Close]
BLAST of Spo12188.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RCG3_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_082560 PE=4 SV=1)

HSP 1 Score: 376.3 bits (965), Expect = 2.100e-101
Identity = 189/189 (100.00%), Postives = 189/189 (100.00%), Query Frame = 1 

		  

Query: 1   MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQ 60
           MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQ
Sbjct: 1   MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQ 60

Query: 61  QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK 120
           QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK
Sbjct: 61  QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK 120

Query: 121 ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID 180
           ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID
Sbjct: 121 ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID 180

Query: 181 EWVSDQSKA 190
           EWVSDQSKA
Sbjct: 181 EWVSDQSKA 189
[Close]
BLAST of Spo12188.1 vs. UniProtKB/TrEMBL
Match: A0A0K9REB2_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_082560 PE=4 SV=1)

HSP 1 Score: 369.8 bits (948), Expect = 2.000e-99
Identity = 188/189 (99.47%), Postives = 188/189 (99.47%), Query Frame = 1 

		  

Query: 1   MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQ 60
           MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYV 
Sbjct: 1   MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYV- 60

Query: 61  QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK 120
           QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK
Sbjct: 61  QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK 120

Query: 121 ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID 180
           ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID
Sbjct: 121 ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID 180

Query: 181 EWVSDQSKA 190
           EWVSDQSKA
Sbjct: 181 EWVSDQSKA 188
[Close]
BLAST of Spo12188.1 vs. UniProtKB/TrEMBL
Match: A0A0J8BRJ7_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_8g189510 PE=4 SV=1)

HSP 1 Score: 225.7 bits (574), Expect = 4.700e-56
Identity = 121/183 (66.12%), Postives = 142/183 (77.60%), Query Frame = 1 

		  

Query: 1   MEEAFKSETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQ 60
           ME+A  +ETV  G +HSNL  SF QCL FLLTAFPFEDF+KAFPR+TGAEQ  LYQLYVQ
Sbjct: 1   MEKA--AETVFHGSKHSNLNKSFGQCLRFLLTAFPFEDFSKAFPRFTGAEQQRLYQLYVQ 60

Query: 61  QVITSLHENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATK 120
            VITSLHEN+Q+EF  +CH TQVGT LDTVEH VEQQSLDPL S+KTNL  LKHD+LA+K
Sbjct: 61  -VITSLHENLQDEFESICHETQVGTILDTVEHFVEQQSLDPLCSQKTNLAQLKHDLLASK 120

Query: 121 ENEVRLLQGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKYGGDID 180
           +NEVR L+ +LDKV+DQKH+ KARIK+LKKK   +ED S      EK+R  +  +G   D
Sbjct: 121 KNEVRSLEEILDKVEDQKHSIKARIKVLKKK---NEDPSVTAEAAEKLRCAIANFGSYSD 177

Query: 181 EWV 184
           E V
Sbjct: 181 EVV 177
[Close]
BLAST of Spo12188.1 vs. UniProtKB/TrEMBL
Match: A0A087GFD9_ARAAL (Uncharacterized protein OS=Arabis alpina GN=AALP_AA7G017300 PE=4 SV=1)

HSP 1 Score: 152.5 bits (384), Expect = 5.000e-34
Identity = 80/163 (49.08%), Postives = 114/163 (69.94%), Query Frame = 1 

		  

Query: 8   ETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQQVITSLH 67
           E  IPG R S+LK SF+  L  LLTA   +DF   F +++ AEQ+LLY+LY Q VI +LH
Sbjct: 7   EMGIPGNRQSDLKQSFKSALRSLLTACSKQDFLDIFSKFSRAEQELLYRLYTQ-VIVNLH 66

Query: 68  ENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATKENEVRLL 127
           +N+++EF+  CH TQVG  LDTVE LVE+QSLDPLFS KTN+  + +D+   K++E+++L
Sbjct: 67  QNLEDEFDAQCHETQVGPILDTVEELVEEQSLDPLFSDKTNVMDIANDLTTAKKSEIQML 126

Query: 128 QGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRS 171
            GLL K ++Q    +ARI LL+K   ++ D SG T  +EK+++
Sbjct: 127 TGLLQKAEEQNRQMEARISLLRK---QTLDVSGTTNAIEKLKT 165
[Close]
BLAST of Spo12188.1 vs. UniProtKB/TrEMBL
Match: D7MGT2_ARALL (Predicted protein OS=Arabidopsis lyrata subsp. lyrata GN=ARALYDRAFT_658174 PE=4 SV=1)

HSP 1 Score: 148.7 bits (374), Expect = 7.300e-33
Identity = 77/168 (45.83%), Postives = 114/168 (67.86%), Query Frame = 1 

		  

Query: 8   ETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQQVITSLH 67
           ET IPG R +NLK SF+  L  LLTA   +DF   F +++GAEQ++L+Q Y Q V+ +LH
Sbjct: 7   ETDIPGSRRTNLKKSFKSSLRCLLTACSKQDFLDIFSKFSGAEQEVLFQFYTQ-VVVNLH 66

Query: 68  ENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATKENEVRLL 127
           + +++EF+  CH  QVG  LDTVE LV++QSLDPLFS KT++  + +D+   K+NE++ L
Sbjct: 67  QTIEDEFDEQCHEAQVGPILDTVEQLVQEQSLDPLFSDKTDVMAIANDLTTAKKNEIQKL 126

Query: 128 QGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKY 176
            GLL + ++Q    +ARI LLKK   +++D SG T  +EK+++    Y
Sbjct: 127 TGLLQRAEEQNRQKEARISLLKK---QTQDFSGTTDRVEKLKARFSGY 170
[Close]
BLAST of Spo12188.1 vs. TAIR (Arabidopsis)
Match: AT4G19350.1 (embryo defective 3006)

HSP 1 Score: 144.1 bits (362), Expect = 9.100e-35
Identity = 76/168 (45.24%), Postives = 114/168 (67.86%), Query Frame = 1 

		  

Query: 8   ETVIPGVRHSNLKTSFRQCLGFLLTAFPFEDFAKAFPRYTGAEQDLLYQLYVQQVITSLH 67
           ET I G R ++LK SF+  L  LLTA   +DF   F +++GAEQ+LL+QLY + V+ +LH
Sbjct: 7   ETDIAGSRRTHLKKSFKSTLRHLLTACSKQDFVDIFSKFSGAEQELLFQLYTR-VVVNLH 66

Query: 68  ENMQEEFNVVCHATQVGTTLDTVEHLVEQQSLDPLFSKKTNLFHLKHDVLATKENEVRLL 127
           + ++EEF+  CH TQVG  LDTVE LVE+QSLDPLFS KT++  + +D+  +K+NE++ L
Sbjct: 67  QTIEEEFDEQCHETQVGPILDTVEELVEEQSLDPLFSDKTDVMAIAYDLTTSKKNEIQKL 126

Query: 128 QGLLDKVDDQKHTTKARIKLLKKKHAESEDTSGLTATLEKIRSMMVKY 176
             LL + ++Q    +ARI +LKK   +++D SG    +EK+ + +  Y
Sbjct: 127 TVLLQRAEEQNRQKEARISMLKK---QTQDLSGTADRIEKLNAGVSGY 170
The following BLAST results are available for this feature:
BLAST of Spo12188.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902213082|gb|KNA17173.1|3.1e-101100.hypothetical protein SOVF_0825... [more]
gi|902213081|gb|KNA17172.1|2.9e-9999.4hypothetical protein SOVF_0825... [more]
gi|731352050|ref|XP_010687337.1|6.7e-5666.1PREDICTED: uncharacterized pro... [more]
gi|359474728|ref|XP_003631523.1|1.7e-3548.5PREDICTED: uncharacterized pro... [more]
gi|674235826|gb|KFK28591.1|7.2e-3449.0hypothetical protein AALP_AA7G... [more]
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BLAST of Spo12188.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9RCG3_SPIOL2.1e-101100.Uncharacterized protein OS=Spi... [more]
A0A0K9REB2_SPIOL2.0e-9999.4Uncharacterized protein OS=Spi... [more]
A0A0J8BRJ7_BETVU4.7e-5666.1Uncharacterized protein OS=Bet... [more]
A0A087GFD9_ARAAL5.0e-3449.0Uncharacterized protein OS=Ara... [more]
D7MGT2_ARALL7.3e-3345.8Predicted protein OS=Arabidops... [more]
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BLAST of Spo12188.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of Spo12188.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 1
Match NameE-valueIdentityDescription
AT4G19350.19.1e-3545.2embryo defective 3006[more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR007128Polyamine-modulated factor 1/Kinetochore protein NNF1PFAMPF03980Nnf1coord: 59..104
score: 3.
NoneNo IPR availableunknownCoilCoilcoord: 117..137
scor
NoneNo IPR availablePANTHERPTHR15459FAMILY NOT NAMEDcoord: 3..181
score: 2.6

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0015031 protein transport
biological_process GO:0048767 root hair elongation
biological_process GO:0006308 DNA catabolic process
biological_process GO:0007186 G-protein coupled receptor signaling pathway
biological_process GO:0018345 protein palmitoylation
biological_process GO:0018342 protein prenylation
biological_process GO:0009845 seed germination
biological_process GO:0006468 protein phosphorylation
biological_process GO:0009231 riboflavin biosynthetic process
biological_process GO:0030244 cellulose biosynthetic process
biological_process GO:0006508 proteolysis
biological_process GO:0006891 intra-Golgi vesicle-mediated transport
biological_process GO:0009561 megagametogenesis
biological_process GO:0006364 rRNA processing
biological_process GO:0000413 protein peptidyl-prolyl isomerization
biological_process GO:0042254 ribosome biogenesis
biological_process GO:0006412 translation
biological_process GO:0006486 protein glycosylation
biological_process GO:0006623 protein targeting to vacuole
biological_process GO:0010540 basipetal auxin transport
biological_process GO:0048527 lateral root development
biological_process GO:0006457 protein folding
biological_process GO:0006511 ubiquitin-dependent protein catabolic process
biological_process GO:0046339 diacylglycerol metabolic process
biological_process GO:0035556 intracellular signal transduction
biological_process GO:0006206 pyrimidine nucleobase metabolic process
biological_process GO:0009395 phospholipid catabolic process
biological_process GO:0006351 transcription, DNA-templated
biological_process GO:0006144 purine nucleobase metabolic process
biological_process GO:0015996 chlorophyll catabolic process
cellular_component GO:0009570 chloroplast stroma
cellular_component GO:0005802 trans-Golgi network
cellular_component GO:0005768 endosome
cellular_component GO:0030173 integral component of Golgi membrane
cellular_component GO:0005634 nucleus
cellular_component GO:0032040 small-subunit processome
cellular_component GO:0005840 ribosome
cellular_component GO:0031461 cullin-RING ubiquitin ligase complex
cellular_component GO:0005829 cytosol
cellular_component GO:0005834 heterotrimeric G-protein complex
cellular_component GO:0055029 nuclear DNA-directed RNA polymerase complex
cellular_component GO:0016020 membrane
cellular_component GO:0005739 mitochondrion
cellular_component GO:0005730 nucleolus
cellular_component GO:0005886 plasma membrane
cellular_component GO:0005783 endoplasmic reticulum
molecular_function GO:0004672 protein kinase activity
molecular_function GO:0004435 phosphatidylinositol phospholipase C activity
molecular_function GO:0005524 ATP binding
molecular_function GO:0003735 structural constituent of ribosome
molecular_function GO:0019843 rRNA binding
molecular_function GO:0003755 peptidyl-prolyl cis-trans isomerase activity
molecular_function GO:0017111 nucleoside-triphosphatase activity
molecular_function GO:0008233 peptidase activity
molecular_function GO:0004871 obsolete signal transducer activity
molecular_function GO:0019905 syntaxin binding
molecular_function GO:0051082 unfolded protein binding
molecular_function GO:0005515 protein binding
molecular_function GO:0031625 ubiquitin protein ligase binding
molecular_function GO:0000166 nucleotide binding
molecular_function GO:0003899 DNA-directed 5'-3' RNA polymerase activity
molecular_function GO:0016787 hydrolase activity
molecular_function GO:0046872 metal ion binding
molecular_function GO:0003935 GTP cyclohydrolase II activity
molecular_function GO:0005525 GTP binding
molecular_function GO:0008686 3,4-dihydroxy-2-butanone-4-phosphate synthase activity
RNA-Seq Expression