Spo14684 (gene)

Overview
NameSpo14684
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionrRNA methyltransferase YlbH-like protein, putative
LocationSpoScf_01515 : 113389 .. 128864 (-)
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.
CTTCACTCATGCCAGCAAACCAAGTAGCAAAACCGTTTGTCTCAGACACAGTTGCATACTTGCTGAAAGAGTTGTGAACTTTAACCCACTCAAGTGATAGCAATGGCGGTTTCATCTCCTCATCTTCCTCCAATTCTCTCTCCTCTGCAACTCAAAACCCCTCTCAATCTCAACACTCGCTTAAATCTCTCACCTTTCTTTAAAATCTCCTCCAAAGCTACGCCGACAATTCGACGCTCTTCCGTTATCATCGCTTCTTCTGGTATATTTTCCCCTAAATTTCATAATTTATTTAATTGAAAGAAATTGACAATCTCTTTCAATTTTGTATTGTAATTTGCTTGCAATTGATTGTTGAAGGTTCTAAGGACGCAATGTCGAGCCAGGAAAAGCTAGAGCTTTTCGAACGCTATGGTCTTGACCCTAATGACTTCCTTTCTGAACCTTCCGTTAAGGTATATTCTGTTTGTTTGTTCTATAGTAATGTTGCATCAATTTTTAGGAGCACGAGTTAAAAAATTTAGAGTTTGATACAGGCCAAGGGTTTAAGCTCTAATGCAGGAACTGCATAGGTTGTATGTATGATTGAGAAAATTAAACAGTAGCACACACTAGTATGCTACACATAAGGTCACAACTTACACCTCACATTTACGTGGTTCACTCACCGCATAGACTATCACATGCCCGTTACAATGATCTACACTCGGAGAATAACCTAAGGATATAACCCTATCTTGAATTAGGTTATCTGATGAAGTCTTTAGAGAGGATATAGGAGCGGGCTACTACTACTAGTTAATAGATGATGCAACACAACTTTAGAAAACTGTAATGACGTACGATATTATAACTCATGATAGTATCTCCAAAATATTCATGGAGCACATATTGGGTGAGAAGGTTTCACATTACCTTTTTATTGGCCCCCATCTTTCAAATGACTATATGTGAAATCGTCTCATACAAGGTTATGCCATACTCAAGTCATCAAGATGGAAAAACAACTTCCGAATTTTATCTAGACATTGTACTTTGGGAAACACTTAATGGTTGGATAAATAGTACTGGAGTGGACACAAAATTCTTGAATTTGGAAGGTTCTTGGATTGGTTTTACTACTATTGCTTCACTTTCTTCGAAAAAACTTGATTTACATATTGATTTTGCTATTGGTACTCATGGATTTGAGCTGAGACTGACAACCTTTTATGTGTTTTCTGGGGTGGGGGGTTGCAGAGGAAGAGGAGAAAGGACCGAGGGCAGGAAATGGGAAAAGGAAAACAACCAGTGGTAGAGGTCGTCAGAAAGCCACCTCGTACCACACATAAATTGCTTCAGGTGTGTATTCTTGGTTCATTTTAGCTTATTGTTTTAAGAGGAAAACTATTTTTGTTGTGATTATGCAATATGATTCAGAAGTCTTGTTTTTATCATATTGAAATAATTGCATGAAGAAACTTATCAATTTTTCGGAAAGAATATGGTAGTCTTCTAGGAATATATATATTTTTTTAATATAGTGGCTTAGTTAGAATATCTGAATATAAATTTTCAGGAAGTTTGACAGATTTAGAATATAGTTTTCAACCCTTATTTATATTGGATATGACAGGTAGAGTTGTGTGCTCATTCTGAGGATGTATGAGGCTATTGAAAGGGTTTATTTGAGGCACTTTTTAACGGTTCTTAGGAGGTTATTGCCATTGTGAATTTTTTGATGCATTCTTTTAATAGTGGAGTTGAGAAATTCGTATAACATTTTATAATACACCTACTTGTTGGCAGTAATATCTTCTTAAATATCCAAATTGGCATAATGATAAACATATTCTCTCCGTCCCCGCAGTTTGTCTTTTGCAATATTCATGTACTACCTCCGTTCCTTGAAGATGTACCCAATTACTGTAGACACACAATTTTAGGCAAAGGGCGAGTGAGTGTGACTTTTGGGACCATTTAGTTTGTTAATAATTTATAAAGAGAAAAAGGGGCGTGGTTTACTACATTTTATGGGAAATAGAGAGTATAGGGGAGAGAGTGTGTGGTCCAAAGCAACATGCAATAGTATATGAAGTTTACCAATAAAGGAATGATTTCAAATGAGTACATCTTCAAGGAACAACTCAAAACGGAAAGTGGGTACGTCTTCAAGGAATAGAGGTAGTACTAACTTTGTCTACGTGTTATTAATATATGAAAAACAAATGTCATTGTGTAAGATGATGTTGGTTTTTCTCAATGTATCAAAGTTTTATAATTTGTTTTTATATATAATTGGAGTTATTAATTGTCAAAGTTAAGGAAACGGAGAAAGTATATCACACTTGTGTCTTGCATGTACATTAACAATAGTGGATGAAGAGAGTAAAAGTAAGAGAATGAGTGAGGATGAAGAGATAAAATATGGGAATGGAGATAAGATGTTTACTTAGTAAGAGAAATGTGACTTTTATGGAACATCCATTATAGAAAATGTGAAAGTTTATCCGTGGGAGAAGGGGTAATTATTTAGTAATAAGTGTTCTAGTACTTCCGAAGGAGTTTACTATTTCCAGATTTTTGTGCGTTGAATATAATGTATAGGACATAGATCGATTTTTATATGGGACTCTGATAACTTGGTAATTGGTATGCAAGCTAAATTCTTTGGACAATGTCTTCTTTTTTGTATTCAACTGGTATTTCTTTTGGTTCAGTCTTGTGGTGAGGAAAGGAGTGCTTTCTGGAAAACCTATTAGAAAGATACTCTTTTGCCTCGTTAGTTTATGGAAGGCAGTGCTTCTCACATGTGGATGATAAGATTTTGATCTGAGAGTGTTAGTGGTATGAGTGTTGATAATTGAACTTCCACCATTCTTGCTATGTAATCAGTGCACATATTGCTGTTATTCTCAAAGTGGAACTATAGAAAGCTACTTTAACGCATTAGGTACAAGCTCACCTAGAATGGTAATTGATAACTTTTTTTTGGGTGAATATTATGATCGTTGGAACGTTGAAAATGAAGTGTTCGGTAACTGTGAGCCAACATAGTTTACAAGAACAGCATGAAGGCACTTGATGGAAAAATTTAGAAACATTCCTCTATGTTGAATTACAAGAGGAAGTATATGTCCAATAGCCTCTAAGATTTGTACGTAGGGGAAATGTAGGTAAAGTATGGAATCTTAAAAGATGCTTCATATGGAGTAAAATAGCTTTAAGAGTTTGGTATGGAAGCATAGTTATGTGAGGTTAGGGTTCAACTAACGTCCGTTTCAACATTCATCATTATCATTATCATTACCCTATTGTCTCAAAGAGGCTCCCGCAAGAAGCGGGGTAAGGGGGGTCGGGTTTACGCAACCTTACCCCTGCATTTGCAGAGAGGTTGTTTCCAATTGACCAAAAGCGATAACGGGACAACAACTGGAAGACCATCTTCTACTTCATGGAAAGGAAGCGAAGAAGTTTTAAGAGCCATTTTGATTTAGTCCATTACATCCCACGTCCAAAAGAACAAATGAATATTTGGCTCCATCGAAAATGGACTAACATTGTGTATGTAAAATGGGAAGAGGGTGGAGAAAGGGTTATGGTGTGTCTTTATGCAGACGGCTTAATCTACAGAACAAACGACCTTGAGATGCTTAGAATTTAAGGGGGAAACGAAGATGAATTTCAATATGACTGATATGGGAAAAATAAACCATTATCTTGGGATTGAATTCAATAAAATAATATTGGTACTCCATGAAAATGTGAAGGTAGTTTTGCTAATATGGCATGCAATCGATAAGAACGGTAATTGAATTCAATATAAATTGTAAAGGTTCAAAGGAAGAGGGAAATGGAGAAGGTTGATGGTACTTACAAGCAAATTGTTGGAGCCTAATGTTTCTTACAATAATGAGTTCAGAGCTGCAATATACCATGTTCAAAGTAAAAACAATTGCCAACATAAGAAGAATATGTTGTCGCAATCATGTCATGTCAATCTAATTGGCTTTATAATATACTAGAAGATATACATACCTAAGTTGACAATAGCACTTTCAAAAATTGTATTTATCATGGATGAAGTAAGCATATTCATGTATGTATCATTTCTTTTTGATATTTTGGCTGATGAGAAGGTGATAAGTTGAGTATTTTACTAGAGCACATAAGAAGTTGCAGATGTAACAAAGCCTTTGAAGAAATAACTATTTCTAGAGTTCTGTCAGAATGTCAGTTTGTTTAGCCGAACTTAGCGCCTTTAGAGGTACAAGTGGGGTGTTTCCCAATTTTAAGTACAATTTATTGAAAAGCCATAGATCTGCAAGTTGAGTCATCGACTTTAAGGAAAGCAATGTAAATTTTGGGCCTTTTTTGTGCTTGAAAGGGTTGAATCCACGACGGTGATCTTTGTGCCCACAATTGCTAGAAAGTTGAGATAGAAGAGAGCACTAAAATTGCAGTAGGGGTTGGAGGAGATGACAAAGTCCTGGATATATGCCTGTTTCATAACATAATAGGTCATAAAAAAAATGTTAAGTGATTTTCCTTCTGTTTAATTTCACATCTTTTCCATTTAGTTTGATTTCTTAAATTCATTAAAGTCACTTGCTACAACAAATAACAACAATATATCCTTAATTTGCCTTATGTTCTAAGGTTTCCACAGCAGCTTTAGTGTGTGTCTGTGTCTGTGGCCCATGAATGGCCTACTCGGTCAAAACCAATGGGTCGTTTACAAGTTTATGCAGTAAGAGTTACTAATTTGATGAAAAATTCAAAAATATTATTACAGCCATTTCCCAGTTGTTGTGAATTAAACTATAAAAGTGTTATATTATCTATTACTTCCTCCTTTCTTTTTGTTGGTTACACTTTCGACTAACATCGTTCCTTTTTGCTGGATAGGCTTTCAACTTTCACCATTCCTTTTTGTTGGTTACACTTTCTACTTTCTACTTTCTACTTTCTACTTTCACCGTCCATTTTTATTGGTTACTTTTTGTTGTTGGTTGTAGTTTTTCTTTTTTCTTATATTTGCATAAGATTTCTTACACAAACCTCACTTACAACCTTTTACACATGCACCACCTTTTGCACTCTCTCTCTCTTACCCTTCTTGAGTTGGTCTTTGTAGCTAAAGTTAGTGTAACTACCATTTAGGAATGGAGGTAGTACTTGATTGGGGCTGTCATATCATTGCATGGAAATGTTGTTATTTATAGTTGTTATTTGTATTATTATTAATACGCACTGTAATTGAATTGATATGTACTTGCAACTGCAACAAATTTATCTCTGACATTAGGCTCTTAAAGAAGGATTTAAGCATGACACTTCCTTTTCTTGTAATAGATGAAAGTATTATTATTAGGCTGATCAAGAACCAATATAGTTGTCTTTTTAGTTATGAGGTTTATTTGATAGATGCCGATTGGTACTATCTATCCTGGCTTGCTTTCTCCTTTTGCGTCTTTTACCATCACTTCAATTCTTTTTATCTAAATGCTGTCACTGAGCCATTGAATTTGTAAACAAACTTTGTGATATCAAATAGTATATTCCTAGATTTATAAACTTTCTTTCTGTAATTGAAATTTGGTTGTCTGAGATCTTATTTATGAATGAATGAATTGTCTACTTTAGGTGCTGGGCGGAAAAGCTAAAAGGAAGAAGCTCTTATCGCCTGTAGGCATGGACGTGCGTCCCATGATGGAGGTAGTTAAAGGTGCTGCATTTGATATATTGCAGGTATTTTTTTTTTCCAGCAATGGTTTGCTGTTTGTGCATTCTATGCAGATTGTCATTTCACATTCTTATAAATTCATAGGATACCTTGAGTGGTATTGTCATACTCCACATGCATTAGTTGAGAAAGATCATTAGTAATTTTTTGCATAGCTACTATACATGTTTTATTGCTACTTGCTATCACCAGTAATTACATGTCTCCTAAGTTACTTGGAGGCAGAATTCATATGTGAATTATGACCAAACACGAGGAGGTATCGTTTCAGTCCTTGATTTACATCGTCTACATAGTTTCATCAGAGAAAGTTATAATTATCGTGGATTCTCTTGAGGTGGAAAAATAGCCTATTTATAGGTTCTGTCCACCTTTGCGCATACCTACACCCCCCCCNCCACCCCCCCCACCCAAAAAAACCTCCTTTTGGTTGTTTGAACTTTGTTATACTCTGTATAAAATCTTTTAGTTTCATTCTTTCTCTACTTCTGAATAAATGCATCAGTTTGACTGACACACTTTCCAATGCAACTTTGACCAGTAAGGCACTAATATCTCTAATTGTCTGTTATTGAGTTATTAAAAGTATAAATTATGAAAATTTACATTGTGACTAATCCAACAACATACTTCCTCCGATTTTTAATACTCGCATCATTTGTGATTTTTACACTATTCACATATTCTACTTTGACCATTATTGGTGATTTATACGTAAGATAAAACATAGTCATGTGGGATCTTGTTATATTCGTCTTAATGTGTATTTTCAAAATATTAAATTGTTATAATTTTTTACTTTAAGAGAATTAAAGATAATAATGATCAAAGTTGTGCATTGGCATGCGTGAAAGTGACGAATGTTGCGAGTAAAAATGAACGGAGGAAGTATTATATGATAACATATACTTCCTCTGTCTTTTTACTTGCACCATTTGATGTTTCAGTTTCACGCTTGCCAATGCAAATCTTTAGCCATTAATATCTTTAATTATACATTAGCTAAAATTATAATAGGTGGTGTTTTGAAAATATATATACCGAGACGAATATAACAAGATCCCACATGACTATATAATTCATTATGTATAAATCATAAAAAAAAAATGATAAAAGAGAGTGTGTGGGTAGTTTAAAATTACACATGGTGCAAGTAAAAAAGACGGAGGAAGTATTTCTTTTATAATATTAATAAAACAATCAAGTCAAGTTAACAGATGAATAGTGTAAAATCCAAGTGAATCTTTTATTCAGAAACGGAGGGAATATACATCAACAGGTTAAACGGAAGTATTTCTACCTTTTTAGGAGGACATGCTCCATTTTTGTACCTTAACCCATATAAGCATAAATCTTAATTTCTGCAGGAGGTTCTTACTTAAGTTGCCAGTTTGAAGCATAGGTTCTTGCTTTCATTCCTATGCTGTTGCTGATAGGATGTTCTATACTTTGGTGTTAGGTCAATTCCTTTTTAGTACAAAAGTTGTATTGATTGTCTGTACAAGCTCATGCTGATGGGGCTTTCTTTGAGATGCCCTTGTTAGCAAATTGATTAAAATTTTGTTGCCTTTTTAGTTACTCATTGCGTCCCAGAATACTCTCTAATCTCTCCTTTTTATCCATCCAAAAATAATTTTCACAAGTCCACTTGAGGAATGACACCACTATTCTTTTAATGCATCTCTGTTACCACAAGCGCAAAGCAAGGGTCCAACACTCTCTCACATTCAATTTATAAATACTAGACGAACTCCTACCGCATCTATTTTTTTCCAATAAAACAACAATTTATAGCCAATCAACAACTTATCTCGTAAAACTATGTGCCATGATAAGTGGCTAACATTATTTTTTGGATTCAGGGAGTATTATTATTTTCTCAACTGTTAGAGGACTCGTGCTTGCCCTTTTCTGTAACTTCTTTCTCTTTCGTTGATGAAAATTATCTTTAATAAAGGGGTCTTCTCAGAAAAATGTGTCAAGCACTCATGCCTAATTCTTTTTCTCCTTTAGACTCAGATTTTCTTTCTTCTTTGACAAAGCATGGTTGATTTTGGTAACTGCGTATAAAGTTATCCTCCTTTTTTGTATTCTTTTAATGCAGGAGCAATATTATTTATTTTTATACCCAATGAAGTTATACTCTTTTCTGTTCCAGTATTATCTTCCACGCAGGCTTTGGAATGAACATTAAGAAAAAATGTACGGATTGAGGCCATCGGGATAATAATTGGTTAAATCACTTAAATGTAAATGAAAACATGAAAAGAATAGAGTGATAATAAGCAGTAAAAGAAAGTGTATGAATTTTGAGAGAAAAGGTTGATGTCTTCGAGAGAGAATAGGTAGTAAGAAAAAAGGTGGATTCCACATCACTATGGGGGCGTGAGTGTTAGTTTTGTTTACCAGAGTAGGTAACAGGAAGATCTGGGACAGAAGGAGTATCTTATACTTTCGTACTCTGTAGTGAGTAGTGCTTGCTCCAAGTTACAACCTCTGTTTTTTTTATGATACTCTGACGACTAGTTTTCAATTGTTTTTACAGGTGGCTGGTGGCTGCCCTGCATCTTTAAGACCTGGTCGCTGGTTGGACCTGTATAGTGGCACTGCTTCAGTTGGTATCGAAGCTTTAAGTCGAGGTTGCTCTGAGGTGATTGCCACTTAACAATTAAATATACTTATCTCTCTGTTCCTTCGTCCATAGCATAGGACATTTTAGCTGTGTATGGGAATTAAGATCAATTTCTGCTTCTTGTTATATTAGTTTTAATGCTATTACTCTTTTCCGTGGGACTAATTGGTCTTCTTATCTTGCTGTAACGAGTGTAATACCTTCTTTTGTTATTTTTAGTAACTACAAATATTACTAATATTAGTTGTTTTTATTTGCCTATTGATTGTGATCAAAAGAGACAACTATTCTTAGTCTCTTAGTGTTGAAAAAGATGATGTGCATTAAGAAAATAATTAAGTGAACAGTATGCGTTAAAAACCCTAAGGAGACCTATAATTTGTTTCAAACCAATTAAATTTGATCTATATTTTAATTCGAGGGTGTATTTTTTGTTTTGGCTGCCTTAGAGTCTTAGACAAATTTCAATATTTCTGCTCATTGTTTTTGTAAAAATGTCTAACAACACTGCCATTGTAATTTGTAAAGAGAGATGTCTGTTAATAGTATGTTATATTTAAATATTTTTCTGATGTACTATGCTGTGTTTTCCTTTTTTTTGTTTTTTTGTGTGGAGTTTTGTGTGCATTATCCTGAAATAGATTCGTAAATCCCAGGTGCATTTTGTTGAGATGGATCCATGGGTGGTTTCAAATGTTCTGCAGCCGAATTTACAATGGACAGGGTTCCTTGATTTTTCAGTTATACATACTGTCACTGTTGAAAATTTCTTGGAACGGGCTCAGCAGTTTGTAGGTATGTACAGTTCTGACATTTTGTTATTTTCCCCCATTTTGATAGGTGTGCAAGCTTCTGTTTAAAATCTAGCTTGCAGGTTGGGCAGATGCCCAACTTGTTTCTACTTTGTGTCATGAGATAGTCCATCTGTAATCTGTCTCAAATTTACCATTCGAGCGTTAATTTGTTAGAAGACAAATCAGAAAGCTGGCATTTGTTGATTCTTGAATAAGTGTTGGACGGTCTGTTGCCCCCTTCATGGGAAATTTCCGGCGGGTAGCTGATTGATTAAAAGTTAGCAGCATAAGTGTTTCCAAAGAACATATTCAAACAACATAATTTGAAACTTCCCAAATGTGTTCTCCATCCGTCTTTGAATTACTTGATTGGTTCGGAGTGATGTAGATCATCAACCTATTTAGTGCATCCATTATCAAATAATATGAAATTGTTAGGTGAGGCAGACAAAGCCAGCCCTTTTAAAGTTTTTATCCCTTGAAAACTCTTGCCTTTGAAGATCGCTCATAAACATATTGCACATCCATCTTGACCTAGAGGTTAAGAATACTCTACATGATATGATGTTGTGACTCATGCCTATTACATTGTCTTGATGCTGAATATCATTTCTTTCTTGCAGGTGGTGACACAACTTTTGACTACATTAGTGTCACACCTCCATACATGAAAGTTGATTATGGAATACTTATGCACCAAATATCAGATTCGTCCTTGGTCGGGGAAGATACGTTTATTGTAAGCTGTTTTTTCTTTTTCTTTTTTCTGTTTTTTATGAAGTATTGTGTTTTCACTGTCTTGATTTGGACTTTGGAGGTGCTTTGCTGATGTTTCTTGATTTAAAAATTGCTTGCTTCAGGTGGTCGAATATCCTTTGGGAACAGACATGTTGGATTCTTGTGGATGTCTTATGAAGGTTTGCCACATAATGTCTTTGGATGAACTTTTTTCGGCTGAAAATATATTTGCCAAAATCTAGATGAAGATTTTTTTTAAATGTTAAGGATCTTTTTCGGCAATTACCGATGTGAAGAATCTAGGACTATATTTATTTTTAATGTGAATATATTCAAGATATAGGGAGGTTGTTCGTTTTTCTGTTCAAGATCTTATTGTAGAGATTCTCCTACGCTCTCTAAAATAGCTGAACATCTTTCACCATGTCATTCAGATTTTAGTGAACGCTTAAATTCTTATTTAGGGTTGTTTAATTGTACTGCAGATAGCTGATCGTCGCTTTGGTAGAACACATCTGGCAATATATGGGCCAAAGTGGGCAATGAAGAAGAAGAAGAAGGGCTGAATCACATAGCAGGACATTAAGAAAATGATTTAATTTGAAAAATGGGAGAGCCTGCAGGACAATGCCGAGTTGTCGACCAAATTGTTTTTTTTTGTGAGCTGTGCATTGACTGGTGTTGTATACAAGGGGCTGTAATCTACTGCTGAAATTCAGAACATTAGAGCCATTGTTTGGTATGTTTTACATGCAAGTCTATGGTTTTATCATTTGTTATATTATGGCCATATAATAGAAATATCTGACCTGTGCTAAGCATCTGTCGCAGGTTCAAGAAAACGTGAGTGGAGCTTTCCCATTCCTATTCACTTTGTAGTCAAGGCAGCTGCTGTCTTGAAATAGACAAATTACTGAAGTGTAAGGGTTTATACTTTCTTTTTACTTCATCATTTCTTTTGTTTCCCTTCCTTTTGTCATCTTCTTTTTGGAGGGGGGGGGGGATACGAGATTACTATTTAAATATTGTAGATGAGTTGGATATTATTGTACCTTTCCTATGGAATGAATCATCATTGGAACCAATTGCCCCAACCTTTTCATCTAGTTTATTGTTGCTATTCTTGTTGCCTGATTTATTGAACATAAACAAGTACAACATTATTTTCTATTACACTGCTGGAGCCTTGAGCAGGTAGAACCGTAGAATCACGGTACCGTATTGATTTAAACCTGAGTTAACCTTTATGAGACTCAAACATGCTTAAATCTAGAATGATGACTTAGTTCAAGAGGCCATGATTACCCTCTTGCAACTGTTCTGATCTATCCCTTGCTCGTGCTTTTATTCTTTGTTATCCTCAAAGCTGAATTGTGGTAATGTTTGTTTGTTTCTTCCATTATTGTGGGTATGCAGCATTTTACACTCAAACATCATTAACCACTTAGATTTTGAGGAGTCTAATATGAATAACTTGTTAGACCTATCGATTGACTGTTCATAAAGATTCACTTGAATTATTGACAATTAGGTTATAACTTGTTCTAGACTGAAGGGTCTTCTGTTGATCATCAGTGATCTAAATATTTGAGATTGAGCGTTCATGATGGTCAAGAGTTGATTCCATTACGTCCTCTCTCTCTCTTTCTCAAACTCATTGTCTTGTTCCATTAACTTTTTAAAAGTGGATGTGGAGGCCTTTCTTTGGTATGAATCCAAGATAAACCTTAGTTCTGACCTTTGAGATGTTCAGAAATGAGGGTTTTTGTTAGGGTTTTGGAAAAGGGTTGTGGAAACTGAATGTTCTGTGGATGCTTATATTGCTGGGTATGCCTTGTTGGGTGCTTAAAATTTTGTGTCTCGACTGAGCCCACAGGCGGAGCTAGAGGGGGCCCGATGGGGGCAGCTGACCCTACAAGAATTAAGTGTGTATATACAATTAAGGATTCTGCTTGACAAATATCCCTTTGCCACAATTTTCACGGTCATGTTTCTAATTGCAATCTGTTGCCTAAAGAAGCCCAGTTCGAATCGTGAAGGGAGCAAGCTTTGCTGTTTTTTTAATGTTTTCCCTCCAAAATTCTTTACATACTCATTTTCTTTATGTTCATTCTTTATTCTTATTTTTTTTATTTAAGTCTTAGGGAAAATCATATTATTAACAACTTTTTTTAAAAAATTGCAGTATGTTAGTCTTTGTATATTTATAAAAATAATTTCGTAACTATTATTACTTTTGTAAGAACTACGGGGTTTTGACTATCAAGCCCCCAACTCCAATTTCCTGGCTCCGCCATCTACTGTGCCCCCATTGCAGCTTTCTGTTGGGAGGAAGACGCTTGGCAGATTTCTTGGGTAGGGTCAAGATTGTCAAATTTCAATTGAAGATTTTTGAGATTGGGCATTCAACAAGGGGTAAAAGAGCCAGGGAGTTTTGGGAGATGGACATTCGATCCTTAGTGGAGGCAGTGTTTCTCAAGGTGTTTATATAAGGCGCCAGCAAAGGGTGGTAAGGGTTTTTAAGATGGATTTAACCCAGGGGTGAATGTTACTGGTTTGGGTCATCAGATGGGTGTGGTTGGCAGGCTGGAGGCGTGTATAAAAGCAGTAGTAGAGGACGAGGTGGTTAGTGTTTTTGGACTATTGTGGATGGTAGTAAAGTGAACCGTTCTATCATTGGAAATGTTTATTAGGAGAATATTTAAGCAAAGGTGAGAGTGGATGCTACAGATCTAGCATCTGTCGCAACAAGAGAAGATGCATATGATGTGTGTGGTATGTAAGGAGGCATGTATGGTGTTTGAGGAGGTGCATCAGATGGTGCGTACAGTGTATGTCAGCTCGTGAAGGTCAGTTTCTGACTAGTTGATCGTGTGACAAGGTGCCAGAGTTGGAGAAATGTGTTCTCAAAGCAGTGTATGATGCGATTCAGGGATCATTAGAAGGATGGCCATTACTTTGTCACTGATAGTGCGTAGAACTCTGAGTTTTCACTTTTCAGTCTGGAACAATCTGCAATTCTCGGGGAGTTGAACTAGGATAAACTGTTGCATCTGCATGTCTCATCCTGTAGTAAGGTAGTATAGGCTGAGAAGTCAAATTAATAATACCCATGTTCTGGATTATCTTGTTGACGATTAAGGTGCCAAGGTCATAAATGGCGAATCTGGTGGAAAGGTTAGGTAGAAGAACAGTTTAAATTCTAGCCAGTATTTTTGAAAGTAGAGGCTGAGAAGTTTTGTGTACTGACTTCAGCTATTTTAGTGATGTTTTTTCTTTGAAAAGATGATGTCTGTTGTAGCAAATACTAAGTACTGATGGGAGATCTCATTTTTGCGGTAAACAAGCTTGTACGGTGTGGTGCCGATGGGAGTCTTAAAGGTAGTACCATATACCCATAAAGCATCATCCAACCTAAATGACCAGTCCTTCCTAGATGTAGTTGGTAATTGTAGGTAAATGTTGCAATTTTTTCTACCTTTTCTTAATAGATACTTTTTCACTTGTCGGATTTAGGGAACACCCTTCGTGTTCTGTGTTCTTCAAGGTTGAAAACTAAGTGTTTGATGATTCTTAAGACCTTTACACAAAACTCTCTAGATATATTTTAGCTGGTAGATTTCTGAGAGGAAACATATTTATGCATCAAACACTTAATCGATACTTTTTCACTTGTCGGATTTAGGGAACACCCTTCGTGCTCCGTGTTCTTCAAGGTTGAAAACTGTGTGTGCATTTTAAGACCTTTATGCAAGACTCTCTAGATAAATTTTAGCTGGTAGATTTCTGATAGGAAACACTCGCAGGTTATTTATGTATATAATTTGTTGTTACTTCCGTGTGAAATGTAAGTAAAATGCATTTAGAGTTAGTTTTTAAGAAATACTCCGTTTTCAGGTTCTTTTTTTGTACAGAGTGTTCAAAGTTTAAGAGCGTATATGTACCCAAAATTTGTCTAATTCCAATTGCGGAATACATTTTGGAAAGGACAAAAGGTGTTTCTCTGATATGCATTGCTCATGTCATCATGTGAGAGTATTTTCAAAATGAGGGAATACATAGAGCAAAGGGAGCAAATCCCTAAAAGCGTATTGATTTAAGAAACAGGGAAAGTTGAATCACTTTGGATTTGCTTTGTGAGCCTCACAAGTGGATTTGACTCTCTCTGGCTTTACTTTGGAAAACAAGTTCTCCTGTTGAAGGATCCTTGTAGCCAATCAGTAAGACTTATTGTGCACAATTAATCACTGGGTAAGTCCACAGTTTGATGTTGCCTTTTATTTTGATGTGTTACTGACTTACTGGTGTACTTATGTTGTTATTTGAAGTCTTCACTCTTCAGTTACTTTTTTCACTGTGTGGTTTGCTGGTTTACAAATTTACGAAAAGAAAATGAGTATAGCTGTAATTGGAAAGTTGGCGAAGTATATATCTTATTTGTAATGGGGGGTTCAAATCAAGTTTATATTCAGGCTTAAAACTCTGAGAAGCATGGCTACAGTCCAACCAAATCTGATGCATACTTGAAACTGGAAATGACCTGTTCCAAAAATATCCTTTTTATTGTTTGAAGGTTTTATCAATCATTTTCTTGTAATGAGAAGGAAAAGTTTCCCATACCCAACTCCTTTATTTTATAGAGAGTAGATAGCACATAATACAGGATTCGCTGGCTTGCTTGGCAGCTGCTGCACTTTCCGCCATGTTAATAGTTTTATTTTCCGGCTTTAGAAAGTTTTTACTTTGTGGATGAAAAATGCATCACATTTCTACTGTTCGGAGCACTAAAGTTATGTTAAATGGAGATCTCTTTAGGTGGTCTCCACTGATTGAAGGCTCCATTCTCTAAATTTCTACTATATACCAGTAAAGTGAAGAAACATGTTAGTACCAGAGGTGGTAACTTTTGGTGGACCACACATTGTGCACTTATTTAGATTTTAGGTTTCCATCATTAATTCATTATATTATTGCAGAGTTGCCAATACCTGGTGAACATGCTGAGTAAACTACTTGTTCATATACCTGTCTCTGGTCTGTAAATTCTGGTGCCTAACAATGAACCTCTCTCTGTTATTGTGGATAGCTGAACACGGGGGTTTTGTGTTTTCCTCTTTAAGCACAAGGCATTTTTCTATATCCCTACTGCCTTGTGATTGAGGTGGTAGAGGGAAAGACTGCTTTCCTCATTTTGTTTTCCATTTCATGTCTTGATTTCACACATTGGTGATACAGGGAACTGCATGAATTCTTGATAGGCAATACCATATATTATCCTAGATCTGCACACTAAGCTGCTGTGATCTATTGTGGACGGGGTGAGGGTGTCTTTGCTGTTACCAGGGTTTTAAGTTTCGGATGTGTTCGCGATAACAATCGTGAAACGGTGAAACCACTTTTACGGGTAATGTGAATGGTTTGTTGCTGTCATGATAAACTCAAAAACTTAACAATATGGTCACAAACTCACAATGCAGTGATACGACAGAGATTAGATTCCATAGCTGTTACTTTCTGATAAGTTGGGAATTATCTATATACAGCAACACTTGATGTCTTGGCAACATATGTCATAGGTAATTTTGGG

mRNA sequence

CTTCACTCATGCCAGCAAACCAAGTAGCAAAACCGTTTGTCTCAGACACAGTTGCATACTTGCTGAAAGAGTTGTGAACTTTAACCCACTCAAGTGATAGCAATGGCGGTTTCATCTCCTCATCTTCCTCCAATTCTCTCTCCTCTGCAACTCAAAACCCCTCTCAATCTCAACACTCGCTTAAATCTCTCACCTTTCTTTAAAATCTCCTCCAAAGCTACGCCGACAATTCGACGCTCTTCCGTTATCATCGCTTCTTCTGGTTCTAAGGACGCAATGTCGAGCCAGGAAAAGCTAGAGCTTTTCGAACGCTATGGTCTTGACCCTAATGACTTCCTTTCTGAACCTTCCGTTAAGAGGAAGAGGAGAAAGGACCGAGGGCAGGAAATGGGAAAAGGAAAACAACCAGTGGTAGAGGTCGTCAGAAAGCCACCTCGTACCACACATAAATTGCTTCAGGTGCTGGGCGGAAAAGCTAAAAGGAAGAAGCTCTTATCGCCTGTAGGCATGGACGTGCGTCCCATGATGGAGGTAGTTAAAGGTGCTGCATTTGATATATTGCAGGTGGCTGGTGGCTGCCCTGCATCTTTAAGACCTGGTCGCTGGTTGGACCTGTATAGTGGCACTGCTTCAGTTGGTATCGAAGCTTTAAGTCGAGGTTGCTCTGAGGTGCATTTTGTTGAGATGGATCCATGGGTGGTTTCAAATGTTCTGCAGCCGAATTTACAATGGACAGGGTTCCTTGATTTTTCAGTTATACATACTGTCACTGTTGAAAATTTCTTGGAACGGGCTCAGCAGTTTGTAGGTGGTGACACAACTTTTGACTACATTAGTGTCACACCTCCATACATGAAAGTTGATTATGGAATACTTATGCACCAAATATCAGATTCGTCCTTGGTCGGGGAAGATACGTTTATTGTGGTCGAATATCCTTTGGGAACAGACATGTTGGATTCTTGTGGATGTCTTATGAAGATAGCTGATCGTCGCTTTGGTAGAACACATCTGGCAATATATGGGCCAAAGTGGGCAATGAAGAAGAAGAAGAAGGGCTGAATCACATAGCAGGACATTAAGAAAATGATTTAATTTGAAAAATGGGAGAGCCTGCAGGACAATGCCGAGTTGTCGACCAAATTGTTTTTTTTTGTGAGCTGTGCATTGACTGGTGTTGTATACAAGGGGCTGTAATCTACTGCTGAAATTCAGAACATTAGAGCCATTGTTTGGTTCAAGAAAACGTGAGTGGAGCTTTCCCATTCCTATTCACTTTGTAGTCAAGGCAGCTGCTGTCTTGAAATAGACAAATTACTGAAGTGTAAGGGTTTATACTTTCTTTTTACTTCATCATTTCTTTTGTTTCCCTTCCTTTTGTCATCTTCTTTTTGGAGGGGGGGGGGGATACGAGATTACTATTTAAATATTGTAGATGAGTTGGATATTATTGTACCTTTCCTATGGAATGAATCATCATTGGAACCAATTGCCCCAACCTTTTCATCTAGTTTATTGTTGCTATTCTTGTTGCCTGATTTATTGAACATAAACAAGTACAACATTATTTTCTATTACACTGCTGGAGCCTTGAGCAGGTAGAACCGTAGAATCACGGTACCGTATTGATTTAAACCTGAGTTAACCTTTATGAGACTCAAACATGCTTAAATCTAGAATGATGACTTAGTTCAAGAGGCCATGATTACCCTCTTGCAACTGTTCTGATCTATCCCTTGCTCGTGCTTTTATTCTTTGTTATCCTCAAAGCTGAATTGTGGTAATGTTTGTTTGTTTCTTCCATTATTGTGGGTATGCAGCATTTTACACTCAAACATCATTAACCACTTAGATTTTGAGGAGTCTAATATGAATAACTTGTTAGACCTATCGATTGACTGTTCATAAAGATTCACTTGAATTATTGACAATTAGGTTATAACTTGTTCTAGACTGAAGGGTCTTCTGTTGATCATCAGTGATCTAAATATTTGAGATTGAGCGTTCATGATGGTCAAGAGTTGATTCCATTACGTCCTCTCTCTCTCTTTCTCAAACTCATTGTCTTGTTCCATTAACTTTTTAAAAGTGGATGTGGAGGCCTTTCTTTGGTATGAATCCAAGATAAACCTTAGTTCTGACCTTTGAGATGTTCAGAAATGAGGGTTTTTGTTAGGGTTTTGGAAAAGGGTTGTGGAAACTGAATGTTCTGTGGATGCTTATATTGCTGGGTATGCCTTGTTGGGTGCTTAAAATTTTGTGTCTCGACTGAGCCCACAGGCGGAGCTAGAGGGGGCCCGATGGGGGCAGCTGACCCTACAAGAATTAAGTGTGTATATACAATTAAGGATTCTGCTTGACAAATATCCCTTTGCCACAATTTTCACGGTCATGTTTCTAATTGCAATCTGTTGCCTAAAGAAGCCCAGTTCGAATCGTGAAGGGAGCAAGCTTTGCTGTTTTTTTAATGTTTTCCCTCCAAAATTCTTTACATACTCATTTTCTTTATGTTCATTCTTTATTCTTATTTTTTTTATTTAAGTCTTAGGGAAAATCATATTATTAACAACTTTTTTTAAAAAATTGCAGTATGTTAGTCTTTGTATATTTATAAAAATAATTTCGTAACTATTATTACTTTTGTAAGAACTACGGGGTTTTGACTATCAAGCCCCCAACTCCAATTTCCTGGCTCCGCCATCTACTGTGCCCCCATTGCAGCTTTCTGTTGGGAGGAAGACGCTTGGCAGATTTCTTGGGTAGGGTCAAGATTGTCAAATTTCAATTGAAGATTTTTGAGATTGGGCATTCAACAAGGGGTAAAAGAGCCAGGGAGTTTTGGGAGATGGACATTCGATCCTTAGTGGAGGCAGTGTTTCTCAAGGTGTTTATATAAGGCGCCAGCAAAGGGTGGTAAGGGTTTTTAAGATGGATTTAACCCAGGGGTGAATGTTACTGGTTTGGGTCATCAGATGGGTGTGGTTGGCAGGCTGGAGGCGTGTATAAAAGCAGTAGTAGAGGACGAGGTGGTTAGTGTTTTTGGACTATTGTGGATGGTAGTAAAGTGAACCGTTCTATCATTGGAAATGTTTATTAGGAGAATATTTAAGCAAAGGTGAGAGTGGATGCTACAGATCTAGCATCTGTCGCAACAAGAGAAGATGCATATGATGTGTGTGGTATGTAAGGAGGCATGTATGGTGTTTGAGGAGGTGCATCAGATGGTGCGTACAGTGTATGTCAGCTCGTGAAGGTCAGTTTCTGACTAGTTGATCGTGTGACAAGGTGCCAGAGTTGGAGAAATGTGTTCTCAAAGCAGTGTATGATGCGATTCAGGGATCATTAGAAGGATGGCCATTACTTTGTCACTGATAGTGCGTAGAACTCTGAGTTTTCACTTTTCAGTCTGGAACAATCTGCAATTCTCGGGGAGTTGAACTAGGATAAACTGTTGCATCTGCATGTCTCATCCTGTAGTAAGGTAGTATAGGCTGAGAAGTCAAATTAATAATACCCATGTTCTGGATTATCTTGTTGACGATTAAGGTGCCAAGGTCATAAATGGCGAATCTGGTGGAAAGGTTAGGTAGAAGAACAGTTTAAATTCTAGCCAGTATTTTTGAAAGTAGAGGCTGAGAAGTTTTGTGTACTGACTTCAGCTATTTTAGTGATGTTTTTTCTTTGAAAAGATGATGTCTGTTGTAGCAAATACTAAGTACTGATGGGAGATCTCATTTTTGCGGTAAACAAGCTTGTACGGTGTGGTGCCGATGGGAGTCTTAAAGGTAGTACCATATACCCATAAAGCATCATCCAACCTAAATGACCAGTCCTTCCTAGATGTAGTTGGTAATTGTAGGTAAATGTTGCAATTTTTTCTACCTTTTCTTAATAGATACTTTTTCACTTGTCGGATTTAGGGAACACCCTTCGTGTTCTGTGTTCTTCAAGGTTGAAAACTAAGTGTTTGATGATTCTTAAGACCTTTACACAAAACTCTCTAGATATATTTTAGCTGGTAGATTTCTGAGAGGAAACATATTTATGCATCAAACACTTAATCGATACTTTTTCACTTGTCGGATTTAGGGAACACCCTTCGTGCTCCGTGTTCTTCAAGGTTGAAAACTGTGTGTGCATTTTAAGACCTTTATGCAAGACTCTCTAGATAAATTTTAGCTGGTAGATTTCTGATAGGAAACACTCGCAGGTTATTTATGTATATAATTTGTTGTTACTTCCGTGTGAAATGTAAGTAAAATGCATTTAGAGTTAGTTTTTAAGAAATACTCCGTTTTCAGGTTCTTTTTTTGTACAGAGTGTTCAAAGTTTAAGAGCGTATATGTACCCAAAATTTGTCTAATTCCAATTGCGGAATACATTTTGGAAAGGACAAAAGGTGTTTCTCTGATATGCATTGCTCATGTCATCATGTGAGAGTATTTTCAAAATGAGGGAATACATAGAGCAAAGGGAGCAAATCCCTAAAAGCGTATTGATTTAAGAAACAGGGAAAGTTGAATCACTTTGGATTTGCTTTGTGAGCCTCACAAGTGGATTTGACTCTCTCTGGCTTTACTTTGGAAAACAAGTTCTCCTGTTGAAGGATCCTTGTAGCCAATCAGTAAGACTTATTGTGCACAATTAATCACTGGGTAAGTCCACAGTTTGATGTTGCCTTTTATTTTGATGTGTTACTGACTTACTGGTGTACTTATGTTGTTATTTGAAGTCTTCACTCTTCAGTTACTTTTTTCACTGTGTGGTTTGCTGGTTTACAAATTTACGAAAAGAAAATGAGTATAGCTGTAATTGGAAAGTTGGCGAAGTATATATCTTATTTGTAATGGGGGGTTCAAATCAAGTTTATATTCAGGCTTAAAACTCTGAGAAGCATGGCTACAGTCCAACCAAATCTGATGCATACTTGAAACTGGAAATGACCTGTTCCAAAAATATCCTTTTTATTGTTTGAAGGTTTTATCAATCATTTTCTTGTAATGAGAAGGAAAAGTTTCCCATACCCAACTCCTTTATTTTATAGAGAGTAGATAGCACATAATACAGGATTCGCTGGCTTGCTTGGCAGCTGCTGCACTTTCCGCCATGTTAATAGTTTTATTTTCCGGCTTTAGAAAGTTTTTACTTTGTGGATGAAAAATGCATCACATTTCTACTGTTCGGAGCACTAAAGTTATGTTAAATGGAGATCTCTTTAGGTGGTCTCCACTGATTGAAGGCTCCATTCTCTAAATTTCTACTATATACCAGTAAAGTGAAGAAACATGTTAGTACCAGAGGTGGTAACTTTTGGTGGACCACACATTGTGCACTTATTTAGATTTTAGGTTTCCATCATTAATTCATTATATTATTGCAGAGTTGCCAATACCTGGTGAACATGCTGAGTAAACTACTTGTTCATATACCTGTCTCTGGTCTGTAAATTCTGGTGCCTAACAATGAACCTCTCTCTGTTATTGTGGATAGCTGAACACGGGGGTTTTGTGTTTTCCTCTTTAAGCACAAGGCATTTTTCTATATCCCTACTGCCTTGTGATTGAGGTGGTAGAGGGAAAGACTGCTTTCCTCATTTTGTTTTCCATTTCATGTCTTGATTTCACACATTGGTGATACAGGGAACTGCATGAATTCTTGATAGGCAATACCATATATTATCCTAGATCTGCACACTAAGCTGCTGTGATCTATTGTGGACGGGGTGAGGGTGTCTTTGCTGTTACCAGGGTTTTAAGTTTCGGATGTGTTCGCGATAACAATCGTGAAACGGTGAAACCACTTTTACGGGTAATGTGAATGGTTTGTTGCTGTCATGATAAACTCAAAAACTTAACAATATGGTCACAAACTCACAATGCAGTGATACGACAGAGATTAGATTCCATAGCTGTTACTTTCTGATAAGTTGGGAATTATCTATATACAGCAACACTTGATGTCTTGGCAACATATGTCATAGGTAATTTTGGG

Coding sequence (CDS)

ATGGCGGTTTCATCTCCTCATCTTCCTCCAATTCTCTCTCCTCTGCAACTCAAAACCCCTCTCAATCTCAACACTCGCTTAAATCTCTCACCTTTCTTTAAAATCTCCTCCAAAGCTACGCCGACAATTCGACGCTCTTCCGTTATCATCGCTTCTTCTGGTTCTAAGGACGCAATGTCGAGCCAGGAAAAGCTAGAGCTTTTCGAACGCTATGGTCTTGACCCTAATGACTTCCTTTCTGAACCTTCCGTTAAGAGGAAGAGGAGAAAGGACCGAGGGCAGGAAATGGGAAAAGGAAAACAACCAGTGGTAGAGGTCGTCAGAAAGCCACCTCGTACCACACATAAATTGCTTCAGGTGCTGGGCGGAAAAGCTAAAAGGAAGAAGCTCTTATCGCCTGTAGGCATGGACGTGCGTCCCATGATGGAGGTAGTTAAAGGTGCTGCATTTGATATATTGCAGGTGGCTGGTGGCTGCCCTGCATCTTTAAGACCTGGTCGCTGGTTGGACCTGTATAGTGGCACTGCTTCAGTTGGTATCGAAGCTTTAAGTCGAGGTTGCTCTGAGGTGCATTTTGTTGAGATGGATCCATGGGTGGTTTCAAATGTTCTGCAGCCGAATTTACAATGGACAGGGTTCCTTGATTTTTCAGTTATACATACTGTCACTGTTGAAAATTTCTTGGAACGGGCTCAGCAGTTTGTAGGTGGTGACACAACTTTTGACTACATTAGTGTCACACCTCCATACATGAAAGTTGATTATGGAATACTTATGCACCAAATATCAGATTCGTCCTTGGTCGGGGAAGATACGTTTATTGTGGTCGAATATCCTTTGGGAACAGACATGTTGGATTCTTGTGGATGTCTTATGAAGATAGCTGATCGTCGCTTTGGTAGAACACATCTGGCAATATATGGGCCAAAGTGGGCAATGAAGAAGAAGAAGAAGGGCTGA

Protein sequence

MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMSSQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQVLGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGIEALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTTFDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFGRTHLAIYGPKWAMKKKKKG
Relationships

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

Feature NameUnique NameType
Spo14684.1Spo14684.1mRNA


Homology
[Close]
BLAST of Spo14684.1 vs. NCBI nr
Match: gi|902095441|gb|KNA03412.1| (hypothetical protein SOVF_209520 [Spinacia oleracea])

HSP 1 Score: 638.6 bits (1646), Expect = 5.600e-180
Identity = 319/319 (100.00%), Postives = 319/319 (100.00%), Query Frame = 1 

		  

Query: 1   MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMS 60
           MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMS
Sbjct: 1   MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMS 60

Query: 61  SQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQV 120
           SQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQV
Sbjct: 61  SQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQV 120

Query: 121 LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGI 180
           LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGI
Sbjct: 121 LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGI 180

Query: 181 EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTT 240
           EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTT
Sbjct: 181 EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTT 240

Query: 241 FDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFG 300
           FDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFG
Sbjct: 241 FDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFG 300

Query: 301 RTHLAIYGPKWAMKKKKKG 320
           RTHLAIYGPKWAMKKKKKG
Sbjct: 301 RTHLAIYGPKWAMKKKKKG 319
[Close]
BLAST of Spo14684.1 vs. NCBI nr
Match: gi|731319605|ref|XP_010670359.1| (PREDICTED: uncharacterized protein LOC104887434 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 522.3 bits (1344), Expect = 5.900e-145
Identity = 263/316 (83.23%), Postives = 284/316 (89.87%), Query Frame = 1 

		  

Query: 1   MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMS 60
           MAVSSPH PPILSPLQ K+P+NL++ L LSPFF  SSK  PT RRS VI+++ G K+AMS
Sbjct: 1   MAVSSPHFPPILSPLQTKSPVNLSSTLTLSPFFNASSKFMPTNRRSFVIVSAKGPKEAMS 60

Query: 61  SQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQV 120
           SQ+K EL E YGL+PNDF+ EPSVKR +RK+  Q M KGK+ VVE  +KPPRTTHKLLQV
Sbjct: 61  SQQKRELLESYGLNPNDFIDEPSVKRNKRKE--QVMPKGKR-VVEEDKKPPRTTHKLLQV 120

Query: 121 LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGI 180
           LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLR GRWLDLYSGTASVGI
Sbjct: 121 LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRSGRWLDLYSGTASVGI 180

Query: 181 EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTT 240
           EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLD SVIHTVTVE FLERAQQFVG  TT
Sbjct: 181 EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDVSVIHTVTVEKFLERAQQFVGSGTT 240

Query: 241 FDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFG 300
           FDYISVTPPYM+VDYG+LM Q+ DSSLVGEDTFI+VEYPLGT+M DSCGCLMKIADRRFG
Sbjct: 241 FDYISVTPPYMEVDYGLLMTQVWDSSLVGEDTFILVEYPLGTNMSDSCGCLMKIADRRFG 300

Query: 301 RTHLAIYGPKWAMKKK 317
           RTHLAIYGPKWAMKK+
Sbjct: 301 RTHLAIYGPKWAMKKR 313
[Close]
BLAST of Spo14684.1 vs. NCBI nr
Match: gi|147800028|emb|CAN74970.1| (hypothetical protein VITISV_001039 [Vitis vinifera])

HSP 1 Score: 441.4 bits (1134), Expect = 1.300e-120
Identity = 231/317 (72.87%), Postives = 257/317 (81.07%), Query Frame = 1 

		  

Query: 1   MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMS 60
           MAVSS     I+SPL +    NL++     P F I  K T   R+ SV+I S  S+D ++
Sbjct: 1   MAVSSS---AIVSPLLINIRTNLSSSSPDLPLFSIFRKTTT--RKPSVVILSCKSEDGLA 60

Query: 61  SQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQV 120
           ++EK  L ERYG D N+F+SEPS K  RR+   Q+ GKGKQ   E   KPPRTTHKLLQV
Sbjct: 61  NEEKKLLLERYGYDANEFVSEPSPKTTRRRKELQKTGKGKQVSPEDP-KPPRTTHKLLQV 120

Query: 121 LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGI 180
           LGGKA+RKKLLSP GMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGT SVGI
Sbjct: 121 LGGKARRKKLLSPKGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTGSVGI 180

Query: 181 EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTT 240
           EALSRGCSEVHFVEMDPWVVS+VL+PNL+WTGFLD SVIHTV VENFLERA QFVG D +
Sbjct: 181 EALSRGCSEVHFVEMDPWVVSDVLRPNLEWTGFLDVSVIHTVRVENFLERAMQFVGKDQS 240

Query: 241 FDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFG 300
           FDYISVTPPY +VDY +LM QIS S+LVGEDTFIVVEYPL  DMLDSCGCL+KIADRRFG
Sbjct: 241 FDYISVTPPYTEVDYEVLMGQISSSALVGEDTFIVVEYPLRIDMLDSCGCLVKIADRRFG 300

Query: 301 RTHLAIYGPKWAMKKKK 318
           RTHLAIYGPKWA K++K
Sbjct: 301 RTHLAIYGPKWAQKRRK 311
[Close]
BLAST of Spo14684.1 vs. NCBI nr
Match: gi|225452620|ref|XP_002281501.1| (PREDICTED: uncharacterized protein LOC100261175 isoform X1 [Vitis vinifera])

HSP 1 Score: 441.4 bits (1134), Expect = 1.300e-120
Identity = 231/317 (72.87%), Postives = 257/317 (81.07%), Query Frame = 1 

		  

Query: 1   MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMS 60
           MAVSS     I+SPL +    NL++     P F I  K T   R+ SV+I S  S+D ++
Sbjct: 1   MAVSSS---AIVSPLLINIRTNLSSSSPDLPLFSIFRKTTT--RKPSVVILSCKSEDGLA 60

Query: 61  SQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQV 120
           ++EK  L ERYG D N+F+SEPS K  RR+   Q+ GKGKQ   E   KPPRTTHKLLQV
Sbjct: 61  NEEKKLLLERYGYDANEFVSEPSPKTTRRRKELQKTGKGKQVSPEDP-KPPRTTHKLLQV 120

Query: 121 LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGI 180
           LGGKA+RKKLLSP GMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGT SVGI
Sbjct: 121 LGGKARRKKLLSPKGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTGSVGI 180

Query: 181 EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTT 240
           EALSRGCSEVHFVEMDPWVVS+VL+PNL+WTGFLD SVIHTV VENFLERA QFVG D +
Sbjct: 181 EALSRGCSEVHFVEMDPWVVSDVLRPNLEWTGFLDVSVIHTVRVENFLERAMQFVGKDQS 240

Query: 241 FDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFG 300
           FDYISVTPPY +VDY +LM QIS S+LVGEDTFIVVEYPL  DMLDSCGCL+KIADRRFG
Sbjct: 241 FDYISVTPPYTEVDYEVLMGQISSSALVGEDTFIVVEYPLRIDMLDSCGCLVKIADRRFG 300

Query: 301 RTHLAIYGPKWAMKKKK 318
           RTHLAIYGPKWA K++K
Sbjct: 301 RTHLAIYGPKWAQKRRK 311
[Close]
BLAST of Spo14684.1 vs. NCBI nr
Match: gi|1000970287|ref|XP_015573725.1| (PREDICTED: putative rRNA methyltransferase YlbH isoform X1 [Ricinus communis])

HSP 1 Score: 429.9 bits (1104), Expect = 4.000e-117
Identity = 222/310 (71.61%), Postives = 255/310 (82.26%), Query Frame = 1 

		  

Query: 10  PILSPLQLKTPLNLNTRLNLSPFFK-ISSKATPTIRRSSVIIASSGSKDAMSSQEKLELF 69
           PI +PL L      +  L  SPF   +SSK++  I  S+VI+ S  S   + S++K  LF
Sbjct: 9   PISAPLLLNINNVNSNLLYSSPFLSNVSSKSSNRI--STVILCSKKSGGGLISEKKKALF 68

Query: 70  ERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQVLGGKAKRK 129
           ERYGL+PNDFLS+ S K KR+K+ G+  GKGKQ V E   KPPRTTH+LLQV GGKAKRK
Sbjct: 69  ERYGLNPNDFLSDSSPKSKRKKE-GKNAGKGKQVVAEEA-KPPRTTHRLLQVFGGKAKRK 128

Query: 130 KLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGIEALSRGCS 189
           KLLSP+GMDVRPMMEVVKG AFDILQ AGGCPASLRPGRWLDLYSGT SVGIEA+SRGCS
Sbjct: 129 KLLSPMGMDVRPMMEVVKGCAFDILQAAGGCPASLRPGRWLDLYSGTGSVGIEAISRGCS 188

Query: 190 EVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTTFDYISVTP 249
           EVHFVEMDPWVVSNVLQPNL+ TGFLD SV+HTV VENFLERA+QF+G + TFD+ISVTP
Sbjct: 189 EVHFVEMDPWVVSNVLQPNLESTGFLDVSVVHTVRVENFLERAEQFIGSNRTFDFISVTP 248

Query: 250 PYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFGRTHLAIYG 309
           PYM+V+YG LM Q+S S+LVGEDTFIVVEYPL T+MLD+CG L+KIADRRFGRTHLAIYG
Sbjct: 249 PYMEVNYGTLMDQVSKSALVGEDTFIVVEYPLRTEMLDACGSLIKIADRRFGRTHLAIYG 308

Query: 310 PKWAMKKKKK 319
           PKWA KK+ +
Sbjct: 309 PKWAQKKRAR 314
[Close]
BLAST of Spo14684.1 vs. UniProtKB/TrEMBL
Match: A0A0K9Q809_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_209520 PE=4 SV=1)

HSP 1 Score: 638.6 bits (1646), Expect = 3.900e-180
Identity = 319/319 (100.00%), Postives = 319/319 (100.00%), Query Frame = 1 

		  

Query: 1   MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMS 60
           MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMS
Sbjct: 1   MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMS 60

Query: 61  SQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQV 120
           SQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQV
Sbjct: 61  SQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQV 120

Query: 121 LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGI 180
           LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGI
Sbjct: 121 LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGI 180

Query: 181 EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTT 240
           EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTT
Sbjct: 181 EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTT 240

Query: 241 FDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFG 300
           FDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFG
Sbjct: 241 FDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFG 300

Query: 301 RTHLAIYGPKWAMKKKKKG 320
           RTHLAIYGPKWAMKKKKKG
Sbjct: 301 RTHLAIYGPKWAMKKKKKG 319
[Close]
BLAST of Spo14684.1 vs. UniProtKB/TrEMBL
Match: A0A0J8CTU5_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_2g040800 PE=4 SV=1)

HSP 1 Score: 522.3 bits (1344), Expect = 4.100e-145
Identity = 263/316 (83.23%), Postives = 284/316 (89.87%), Query Frame = 1 

		  

Query: 1   MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMS 60
           MAVSSPH PPILSPLQ K+P+NL++ L LSPFF  SSK  PT RRS VI+++ G K+AMS
Sbjct: 1   MAVSSPHFPPILSPLQTKSPVNLSSTLTLSPFFNASSKFMPTNRRSFVIVSAKGPKEAMS 60

Query: 61  SQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQV 120
           SQ+K EL E YGL+PNDF+ EPSVKR +RK+  Q M KGK+ VVE  +KPPRTTHKLLQV
Sbjct: 61  SQQKRELLESYGLNPNDFIDEPSVKRNKRKE--QVMPKGKR-VVEEDKKPPRTTHKLLQV 120

Query: 121 LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGI 180
           LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLR GRWLDLYSGTASVGI
Sbjct: 121 LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRSGRWLDLYSGTASVGI 180

Query: 181 EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTT 240
           EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLD SVIHTVTVE FLERAQQFVG  TT
Sbjct: 181 EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDVSVIHTVTVEKFLERAQQFVGSGTT 240

Query: 241 FDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFG 300
           FDYISVTPPYM+VDYG+LM Q+ DSSLVGEDTFI+VEYPLGT+M DSCGCLMKIADRRFG
Sbjct: 241 FDYISVTPPYMEVDYGLLMTQVWDSSLVGEDTFILVEYPLGTNMSDSCGCLMKIADRRFG 300

Query: 301 RTHLAIYGPKWAMKKK 317
           RTHLAIYGPKWAMKK+
Sbjct: 301 RTHLAIYGPKWAMKKR 313
[Close]
BLAST of Spo14684.1 vs. UniProtKB/TrEMBL
Match: A5BSP4_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VITISV_001039 PE=4 SV=1)

HSP 1 Score: 441.4 bits (1134), Expect = 9.200e-121
Identity = 231/317 (72.87%), Postives = 257/317 (81.07%), Query Frame = 1 

		  

Query: 1   MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMS 60
           MAVSS     I+SPL +    NL++     P F I  K T   R+ SV+I S  S+D ++
Sbjct: 1   MAVSSS---AIVSPLLINIRTNLSSSSPDLPLFSIFRKTTT--RKPSVVILSCKSEDGLA 60

Query: 61  SQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQV 120
           ++EK  L ERYG D N+F+SEPS K  RR+   Q+ GKGKQ   E   KPPRTTHKLLQV
Sbjct: 61  NEEKKLLLERYGYDANEFVSEPSPKTTRRRKELQKTGKGKQVSPEDP-KPPRTTHKLLQV 120

Query: 121 LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGI 180
           LGGKA+RKKLLSP GMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGT SVGI
Sbjct: 121 LGGKARRKKLLSPKGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTGSVGI 180

Query: 181 EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTT 240
           EALSRGCSEVHFVEMDPWVVS+VL+PNL+WTGFLD SVIHTV VENFLERA QFVG D +
Sbjct: 181 EALSRGCSEVHFVEMDPWVVSDVLRPNLEWTGFLDVSVIHTVRVENFLERAMQFVGKDQS 240

Query: 241 FDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFG 300
           FDYISVTPPY +VDY +LM QIS S+LVGEDTFIVVEYPL  DMLDSCGCL+KIADRRFG
Sbjct: 241 FDYISVTPPYTEVDYEVLMGQISSSALVGEDTFIVVEYPLRIDMLDSCGCLVKIADRRFG 300

Query: 301 RTHLAIYGPKWAMKKKK 318
           RTHLAIYGPKWA K++K
Sbjct: 301 RTHLAIYGPKWAQKRRK 311
[Close]
BLAST of Spo14684.1 vs. UniProtKB/TrEMBL
Match: D7TWX9_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_14s0066g02200 PE=4 SV=1)

HSP 1 Score: 441.4 bits (1134), Expect = 9.200e-121
Identity = 231/317 (72.87%), Postives = 257/317 (81.07%), Query Frame = 1 

		  

Query: 1   MAVSSPHLPPILSPLQLKTPLNLNTRLNLSPFFKISSKATPTIRRSSVIIASSGSKDAMS 60
           MAVSS     I+SPL +    NL++     P F I  K T   R+ SV+I S  S+D ++
Sbjct: 1   MAVSSS---AIVSPLLINIRTNLSSSSPDLPLFSIFRKTTT--RKPSVVILSCKSEDGLA 60

Query: 61  SQEKLELFERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQV 120
           ++EK  L ERYG D N+F+SEPS K  RR+   Q+ GKGKQ   E   KPPRTTHKLLQV
Sbjct: 61  NEEKKLLLERYGYDANEFVSEPSPKTTRRRKELQKTGKGKQVSPEDP-KPPRTTHKLLQV 120

Query: 121 LGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGI 180
           LGGKA+RKKLLSP GMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGT SVGI
Sbjct: 121 LGGKARRKKLLSPKGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTGSVGI 180

Query: 181 EALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTT 240
           EALSRGCSEVHFVEMDPWVVS+VL+PNL+WTGFLD SVIHTV VENFLERA QFVG D +
Sbjct: 181 EALSRGCSEVHFVEMDPWVVSDVLRPNLEWTGFLDVSVIHTVRVENFLERAMQFVGKDQS 240

Query: 241 FDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFG 300
           FDYISVTPPY +VDY +LM QIS S+LVGEDTFIVVEYPL  DMLDSCGCL+KIADRRFG
Sbjct: 241 FDYISVTPPYTEVDYEVLMGQISSSALVGEDTFIVVEYPLRIDMLDSCGCLVKIADRRFG 300

Query: 301 RTHLAIYGPKWAMKKKK 318
           RTHLAIYGPKWA K++K
Sbjct: 301 RTHLAIYGPKWAQKRRK 311
[Close]
BLAST of Spo14684.1 vs. UniProtKB/TrEMBL
Match: A0A067LAK0_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_09686 PE=4 SV=1)

HSP 1 Score: 427.6 bits (1098), Expect = 1.400e-116
Identity = 219/308 (71.10%), Postives = 256/308 (83.12%), Query Frame = 1 

		  

Query: 13  SPLQLKTPLNLNTRLNLS----PFFKISSKATPTIRRSSVIIASSGSKDAMSSQEKLELF 72
           SP+     +N+N+R++ S    P F +SSK+   IR+S++II S  S   ++S++K  LF
Sbjct: 6   SPISSSLHINVNSRISSSSPVLPLFNVSSKSI--IRQSNIIICSQKSGGGLTSEDKQALF 65

Query: 73  ERYGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQVLGGKAKRK 132
           ERYGLDP  FLSE S K +R+K+  ++ G+ K+ V E   KPPR TH+LLQVLGGKAKRK
Sbjct: 66  ERYGLDPKQFLSETSPKSRRKKE-VKQTGREKR-VPEEEAKPPRMTHRLLQVLGGKAKRK 125

Query: 133 KLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGIEALSRGCS 192
           KLLSP GMDVRPMMEVVKG+AFDILQ AGGCPASLRPG WLDLYSGT SVGIEA+SRGCS
Sbjct: 126 KLLSPKGMDVRPMMEVVKGSAFDILQAAGGCPASLRPGCWLDLYSGTGSVGIEAISRGCS 185

Query: 193 EVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTTFDYISVTP 252
           EVHFVEMDPWVVSNVLQPNL+ TGFLD SVIHT +VENFLE+A+QFVG   TFD+ISVTP
Sbjct: 186 EVHFVEMDPWVVSNVLQPNLESTGFLDVSVIHTASVENFLEQAEQFVGRHRTFDFISVTP 245

Query: 253 PYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFGRTHLAIYG 312
           PYM+VDYGILM QIS S+LVGE+TFIVVEYPL T+M+DSCGCL+KIADRRFGRTHLAIYG
Sbjct: 246 PYMEVDYGILMDQISKSALVGENTFIVVEYPLRTNMMDSCGCLIKIADRRFGRTHLAIYG 305

Query: 313 PKWAMKKK 317
           PKWA KK+
Sbjct: 306 PKWAQKKR 309
[Close]
BLAST of Spo14684.1 vs. ExPASy Swiss-Prot
Match: YLBH_BACSU (Putative rRNA methyltransferase YlbH OS=Bacillus subtilis (strain 168) GN=ylbH PE=3 SV=2)

HSP 1 Score: 79.7 bits (195), Expect = 6.300e-14
Identity = 54/190 (28.42%), Postives = 91/190 (47.89%), Query Frame = 1 

		  

Query: 118 LQVLGGKAKRKKLLSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTAS 177
           ++V+ G  K + L +  G   RP  + VK + F+++            GR LDL++G+  
Sbjct: 1   MRVISGSKKGRSLKAVAGTSTRPTTDKVKESIFNMIG------PYFDGGRGLDLFAGSGG 60

Query: 178 VGIEALSRGCSEVHFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGG 237
           +GIEALSRG     FV+ D   +  V + NL+       + ++    E  L  A +    
Sbjct: 61  LGIEALSRGFEHCIFVDRDFKAIQTV-KSNLKTLELTKHAQVYRNDAERALHAAAK---R 120

Query: 238 DTTFDYISVTPPYMKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADR 297
           +T F  I + PPY +     L+  I +  ++ ED FIV E+    ++ ++ G L+     
Sbjct: 121 ETGFRGIFLDPPYKEQKLKALLTLIDEYQMLEEDGFIVAEHDREVELPETVGDLVMTRKE 180

Query: 298 RFGRTHLAIY 308
            +G T +AIY
Sbjct: 181 TYGLTGVAIY 180
[Close]
BLAST of Spo14684.1 vs. TAIR (Arabidopsis)
Match: AT3G28460.1 (methyltransferases)

HSP 1 Score: 377.5 bits (968), Expect = 8.200e-105
Identity = 196/307 (63.84%), Postives = 228/307 (74.27%), Query Frame = 1 

		  

Query: 13  SPLQLKTPLNLNTRLNLSPFFKIS--SKATPTIRRSSVIIASSGSKDAMSSQEKLELFER 72
           SPL +   +N N  ++ S F +I     +TP   R+ V+ +   S   ++S++K  L ER
Sbjct: 9   SPLGINIDMNKNLGVSYSSFPQIHLFKGSTPLRVRTFVVSSRKNSGTGLASEDKKLLLER 68

Query: 73  YGLDPNDFLSEPSVKRKRRKDRGQEMGKGKQPVVEVVRKPPRTTHKLLQVLGGKAKRKKL 132
           YG D ND     S K +R++++    G+  Q V EVV   PRTTH+LLQVL G AKRKKL
Sbjct: 69  YGYDANDDFGSQSKKARRKEEKMS--GRNSQQVEEVVVVQPRTTHRLLQVLAGTAKRKKL 128

Query: 133 LSPVGMDVRPMMEVVKGAAFDILQVAGGCPASLRPGRWLDLYSGTASVGIEALSRGCSEV 192
           LS  GMDVRPMMEVVKGAAF ILQ AGGCP SLRPGRWLDLYSGT SVGIEA+SRGCSE 
Sbjct: 129 LSLKGMDVRPMMEVVKGAAFGILQAAGGCPTSLRPGRWLDLYSGTGSVGIEAISRGCSEA 188

Query: 193 HFVEMDPWVVSNVLQPNLQWTGFLDFSVIHTVTVENFLERAQQFVGGDTTFDYISVTPPY 252
           HFVEMDPWVVSNVLQPNL+ TGF+D SVIHT  VENFLERA + VG D  FDYISVTPPY
Sbjct: 189 HFVEMDPWVVSNVLQPNLEHTGFVDASVIHTARVENFLERADKLVGKDGVFDYISVTPPY 248

Query: 253 MKVDYGILMHQISDSSLVGEDTFIVVEYPLGTDMLDSCGCLMKIADRRFGRTHLAIYGPK 312
           M+VDY +LM QI+ S  +GE+TFI+VEYP  T MLDSCGCL K+ DRRFGRTHLAIYGPK
Sbjct: 249 MEVDYEVLMDQIAKSPAIGENTFILVEYPSRTTMLDSCGCLEKMTDRRFGRTHLAIYGPK 308

Query: 313 WAMKKKK 318
           WA K +K
Sbjct: 309 WAQKPRK 313
The following BLAST results are available for this feature:
BLAST of Spo14684.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902095441|gb|KNA03412.1|5.6e-180100.hypothetical protein SOVF_2095... [more]
gi|731319605|ref|XP_010670359.1|5.9e-14583.2PREDICTED: uncharacterized pro... [more]
gi|147800028|emb|CAN74970.1|1.3e-12072.8hypothetical protein VITISV_00... [more]
gi|225452620|ref|XP_002281501.1|1.3e-12072.8PREDICTED: uncharacterized pro... [more]
gi|1000970287|ref|XP_015573725.1|4.0e-11771.6PREDICTED: putative rRNA methy... [more]
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BLAST of Spo14684.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9Q809_SPIOL3.9e-180100.Uncharacterized protein OS=Spi... [more]
A0A0J8CTU5_BETVU4.1e-14583.2Uncharacterized protein OS=Bet... [more]
A5BSP4_VITVI9.2e-12172.8Putative uncharacterized prote... [more]
D7TWX9_VITVI9.2e-12172.8Putative uncharacterized prote... [more]
A0A067LAK0_JATCU1.4e-11671.1Uncharacterized protein OS=Jat... [more]
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BLAST of Spo14684.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 1
Match NameE-valueIdentityDescription
YLBH_BACSU6.3e-1428.4Putative rRNA methyltransferas... [more]
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BLAST of Spo14684.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 1
Match NameE-valueIdentityDescription
AT3G28460.18.2e-10563.8methyltransferases[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 availablePANTHERPTHR18895METHYLTRANSFERASEcoord: 5..317
score: 3.9E
NoneNo IPR availablePANTHERPTHR18895:SF60GENOMIC DNA, CHROMOSOME 3, P1 CLONE: MFJ20coord: 5..317
score: 3.9E
NoneNo IPR availablePFAMPF03602Cons_hypoth95coord: 118..307
score: 1.1

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009658 chloroplast organization
biological_process GO:0051607 defense response to virus
biological_process GO:0009793 embryo development ending in seed dormancy
biological_process GO:0016226 iron-sulfur cluster assembly
biological_process GO:0042793 plastid transcription
biological_process GO:0045893 positive regulation of transcription, DNA-templated
biological_process GO:0035196 production of miRNAs involved in gene silencing by miRNA
biological_process GO:0010267 production of ta-siRNAs involved in RNA interference
biological_process GO:0031167 rRNA methylation
biological_process GO:0006399 tRNA metabolic process
cellular_component GO:0009941 chloroplast envelope
cellular_component GO:0016021 integral component of membrane
molecular_function GO:0008168 methyltransferase activity
RNA-Seq Expression
   



Co-expression
Gener valueExpression
Spo029220.68Barchart | Table