Spo26682 (gene) | SpinachBase

Overview


Name	Spo26682
Type	gene
Organism	Spinacia oleracea (Spinach)
Description	Heterogeneous nuclear ribonucleoprotein A1
Location	chr5 : 44257988 .. 44273033 (-)

Sequences

The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideCDSexonthree_prime_UTR

Hold the cursor over a type above to highlight its positions in the sequence below.

ATGGAGATTTACTATCAGGAACGTATTGTTGCTGATCCATATGAAGCAGCTGTAGTCTCACTACCTGCTGCTGTCCAAGATCGTTTGCTTCGGATACTTCGACTGGATATTGCTACCCGTTATGATGTAAGCGCTGACAATATAACCTCTTAGCATGTGCTGTTTCTAATTTCTTGCAAACAGCTATTTGTCTTTATTTTGTAGATAAAAAAGATCATTGTTGCCTTTGTTAATAATTCTTCTCTTGTATTTTTTTGATATGTGATTATTGCTGGTAGATTGACATCCGATGCTTGAGAAGTCTAAAGGAGATCCCAGAATCAGCTGCTATATCTGTCCTTGATCAGGTTGGATTTTAGTTGTGTCTTTGTCTCCATTTCTCATTTGATGCATGAAACCAACTATACTCTCCTGTATGCAGTTCCTGTTATCAGGAGGAGAAGAAATTGACAAAGGAGCATTTCTTGCTGGACTAATTACCAAGGTATAGCCTGGATCCTTTAATACATGTTCTATTGAGGATTTCTCACCTGAAACATTGTCTTGTTTAGTACCAGGTCAGAAGTCTAAGGACAAGTCAAGTACCGGAATATATACCAAGAGATTATACATCAAGAGAAAATGAATTTATCAGCGTAAGGTCGGAATTCGCACGGCTACCAAGTCGAAGCCAGGTTCCAGTTACGGACTCCTTTTCTTCTCATGTGGCCACCTCACGGTCAGTTGTATCCATTTCTTTCCAGCCTTACACATTTATGCATGCACACAATGAGTAACTCATGCACACTTTCACTTACCAAGGAAAAGAACTCAAGACTAAGTGGAAGATATCCTTTAAGACGATGAGATCTATGATTTTTCTATCTGGTTAATTTTTGCACACGCATCGAAACACTAGTTGATCTTATGCTGAGGGAGTGAGAATACTTATTCTAAAGTCAGCATATTAATTGTTTTAATGATATGAATAAGAAATCGAGCTTCAGTTCTTCTATAGAGTTTCTGTTGTGAGGATCTATTTTTTCATCTGGCCAGTGTTTGTAGACAAAATCTATTCTACTTTTTTCAGAAATGGGTGCTAGTGTTGGGAATATAATATATATAAGTTTCAGATATTCTCAGGGTTTTAAATTTATTTCACTGTGGACTGGCCTAAAATTGGACTTAGGTGGGGGTGTGTTGCTGGCAGTCGACTACATCCCCAGCCGTACCTCTGGGGCTGTGTTGATGTGACGCGACCCAGACTGGATGCCCACATGGAACACGGGTCGGATCTGCAAGGGAGAAACTGGATTGAGCAGTTTCTCAACAACATTGTTGTTCAATTCGGAAAAGGATTTTCTTGCTATTCTACTTCTATTTTCTTTTATATGGGATGGGGATAGGTGTTGGAACCGGGAAAGTGAACCACAAACACGTGACATCTTATCTGCATGTACTCTCTTGTACTTTTACCCTTTTTTATTTTATGGTCAAAAGATGTATGGTAAAAGTATTCTTACTTGTTAACGTGACATCTTTTACTTGGTAAATTGTTAACCATACAGTTTCACTTTATTATGCTAAAATTTTCTAATAACACTAGAATTTTTTTAAAAATTCAAAAGAACGATGAAAATAATTTTGGTTTTAAAATGTCATGTTCCGAATCCGTATTTAAAATTTGCACACTTCTTTATTGTGTCCTGATTTTCGAATTTCCCATGTCGAAGCTTTGAATCCATCCCGAGTCGGACACTCGTATCAGACTCCGGGCATCCTTGGTTTGGGGACATGACATTCATGAAACATGTTTTTGATTTTACTCTTATAGAAGACTTTTGCGTGTGCTTTACACTTTTACTTTTCAGGCCGACTTGTTAGTTTGGAAGTTAAATTCTGATCTCAAGCTCTGTTGTAAGCGTAAAGTCGATCCATCTCGAAAGGTTGTCTCGTCTTATTGTGCATAATTTTCTCCTATCACTTTTTTTTTCTTCCTATTTTCTTTTTCTAAAAATACATGGTTAGAGATTTTTGAAGTGTGGTGAAAAATTGAAGAGTGCCAAGTGTTTGACATGGGCATGTTAGACAACATGAAGGTCTAATTAGCATAGTAGTTAGAACCTTCACATTCTTTTTATTCTCCTCATCACATTCATTTTTCAACTCATTTTTTTTTCCAACAACAATCATGATAAGAAGAACTTCCCTTTTCAATACTCAACATGCTCAAAATGTACCACACTACAACTCCCTCACCTCACTACTATTAGCTCCCCCAAGCTAGGCTTGGGACTAGTAACCAATGGGGAATTCACGAGCTTGTAATGTGGTTAGTCACCGAATAAAGGCACAAGCACAACATGGGTAGAAAAAGAGGGAACAAATGTATCTAAATTATCTGAAGGCTACCTAAACAGAAAAATGCCTTCGTCTTCCACAATGTGCATGTATATGAGTCATAAAACGCTACTAACAGTTGCAAACCAATACTCAAATTCAAAGACACACCAGGAAGCTATCACACATCCTAACCAAGTCAACTAGCCAAGCACCAAGTCCACAAATAGTTAGTCAGAGTTGACTCATGCTAAGGCATCAAAGTAATCGAATATTAAATCATGGCTAACACATCTACATTGCTCATCATCAAATACCAAGAATCAAAACAATTGTCAATCAAGGGGCACAGTGAAGCATGATTTTGTATTCATCGAAACGTATTTTTGTATATATTTTTTTTCCAAAGCAATAAACTACTCTAGAAAGCAATAAACACACCAAAATAAATAAAATGGAAAAATAAAAAGAAAACATACCTAATATGTACAGGTAAGTGAAACATCCCCCAAGCTAAATCAGACAATGTACTCATTGGCTCAAGGGGTATCGAACCATCTCGATCATCCTCGGCATCACTGATGGCCTTGACCATCATCACCATCATCACCACCTCGACCATCATGACCGCTAGTGCCCGCTCCATACCCACCGTAGTGGGTGGGTGTGAAGGTGCCCATGGAACCGGGAGCTCCATATCCCTCCGCGGGATAGGTAAACCAGGAAGGGTCCTGAGCATCCGGAGCAATATGCCCTGCTGGCATACTGATCATAGATAGGGAACATGGCCCTCTGGTGATCACTCGCGAACTCATGAAAACCGATCTCAAGCCTGCCCAACCTCTCATGAACGGACCCTGCTCCTCCTCTAGTGTCGGGCCACCCTGAGGCCTCCCCTCATCCCCTCGACGCCCCCTCCTAAAGTAGGTGCGAGGCTCGGGCTGAACTGGTGGGGCTCTGGCTGTGGGTCAGGCTGCTGATCTTGCTCAATCCCAACATATAAATAGTGAGCCTGTCCGGGTCTGAAATGGGTAACATCCAATACATGGCACCCGGCCTATACAACCCATGCTCACCTTGCAAGCGGCGAAGCCTAGCAAAATAGGCCAAGTCTAATAAGTTGCTACCCAAAACCGGAGTCTGGTTAGCCTCAACAAAGTTTACCGTGGCCATGGCAATGTGGGTGATCAACCCACCAATGGTGATGCGAGTGGTGTGGGAGCTAGTGGCTATAGAATAAAGTTGGGAGGCCATATGATGGGCTAAGTTTATGGTATACCTCTCTTCCCCCTCTAAAACATAGCCACCCAAAATCTCCAACTCCGTACTCCTAATATTCTGAGTCTCCTCCCTACCAAAAATAGTGAACCCTAGGAACCTGTAAAATACGATGGGGACTGGGTGTTGTATCTTGGAAGCATGCAAGTGTTGCATACTACCGGGATCATCATTACCGGTCAGCTTTCCCCACATGACACAATTATTATGGGCACTACCAGGCTTCCTACTAGGGGTAGTGGACAAACCAAAAATTCCACCAAAATCAGCAATACTCAAGCTAACATTACGGTTCATCAAACGAAAATGAACCAACGACACATTCCTATAACCATCTTTACGTAAATGCAAAGAACTCAGAAACTCCTAAGTCAAGCGCCTAAAGGTAAGACGCAACATGCTATACATTCCTTTCATACCGACACCATAAAAACTCGTTTAACATCATTCTCAATACCCATATCATTCAATGACCTCTGACAAATAAATCGGGTTGGAATTACCTCCCTCTTTTTGAGGTGGACGAATCGATCCCGTTGCCACTCTGTAGCAAAAATAACTTCCGGAAAGTCCCGGTCGGCTTCGAACTGGGGTGGCGGCGGTGGTGGTGACGGCTCACGAGCCCGGCTAGTTGAAGCCTCATGTTGGTTCCTTGATCGCATGGTGCAATTCCTCTTTGGACGGCTAGACATTGCGGAAAATCTGAATTTTTGAAGGTTTTTGGGTTTTTTGGTGGAATTTGGGGATTTGGTGGAGAGTGGAGGAAACTGAAATTAGTTAGGTGTAGGTTGTAGAGGATGATGAGAAGAGGGAATTACGCTGTTTGTGTGTTTAATAATGTTCAAGCCTGAAGCTCCAAGTTCGAAAAAGTGAAATTCTAGATGATACGGAGCATACTGCAATCCGCTCGACCCGGATCGGGCGAGGTGCGCCCGATCGGGCCCGTGTCGACATCAACAATAGGCCTTCATTTTAGCCCGACCGGGCGATGGATGCCTGATCGGGCCGCCTGTCGAGTAAAATGCCCGATCGGGCGAAGGTCCGCCCGATCGGGCGTGTGCTGAAAGTTGAGAAGACGTAGATTTTTGCCCGACCGGGCGCTAGTCGCCCGATCGACCTGAAAGGCGAGTAAAATGCCCGATCGGGCGAAATTCCGCCCGATCGGGCGAGTGTTCGATGACATCATATGAAAGTCAAAGAAGGAGTTCTGAAAGGGGATCGCAATTCGCCCGATCCGGATCGGGCGAGGTGCGCCCGATCGGACGCGCACAGATGGTTTCAGAAGTTTAATTTTTCGCCCGATCGGGCGTCGGGCGTATTCAGTGAACTTAACCACAGGCTTCCCCTTCTTCCATTCATTCTCTACAACCTACACCTAACTAATTTCAGTTTCTTCCACTCCATCAAATCCCCAAATTCCACCAAAAAAACCCAAAAACCTTCAAAAATTCAGATTTTCCGCAATGTCTAGCCGTCCAAAGAGGAATTGCACCATGCGATCAAGGAACCAACATGAGGCTTCAACTAGCCGGGCTCGTGAGCCGTCACCACCACCGCCGCCACCCCAGTTCGAAGCCGACCGGGACTTTCCGGAAGTTATTTTTGCTACGGAGTGGCGACGGGATCGATTCGTTCACCTCAAAAGAGGGAGGTAATTCCAACCCGATTTATTTGTCAAAGGTCATTGAATGATATGGGTATTGAGAATGATGTGAAACGAGTTTTTTATGGTGTCGGTATGAAAGGAATATATAGCATGTTGCGTCTTACCTTTAGGCGCTTGACTTTGGAGTTTCTGAGTTCTTTGCATTTACGTAAAGATGGTTATAGGAATGTGTCGTAGGTTCATTTTCGTTTGATGAAGCGTAATGTTAACTTGAGTATTGCTAATTTTGGTTGAATTTTTGGTTTGTCCACTACCCCTAGTAGGAAGCCTGGTAGTGCCCATAATAATTGTGTCATGTGGGGAAAGCTGACCGGTAATGATGATCCCGGTAGTATGCAACACTTGCATGTTTCCAAGATACAACACCCAATCCCCATTGTATTCTACAGGTTCCTAGGGTTCACTATTTTTGGTAGGGAGGAGACTCAGAAAATTAGGAGTACGGAGCTGGAGATTTTGGGTGGCTATGTTTTAGAGGGGGAAGAGAGGTATACCATGAACTTAGCCCATCATATGGCCTCCCAACTTTATTCTATAGCCAATAGCTCCCACACCACTCGCATCACCATTGGTGGGTTGATCACCCACATTGCCATGGCCACGGTAAACTTTGTTGAGGCTAACTAGACTCCGGTTTTGGGTAGCAACTTATTAGACTTGGCCTATTTTGCTGGGCTTCGCCGTTTGCAGGGTGAGCATGGGTTGTATAGGCCGGGTGCCATGTATTGGTTGTTCGAAGGGAACAGGCTTTTCTCCTTGCCTGACCCTCAGGGCCGCACCCATTTCAGACCCACCCATTTCATACCCGGACAGGCTCACTATTTATATGTTGGGATTGAGCAAGAGCAGCAGCCTGACCCACAGCCAGAGCCCCACCAGTTTCAGCCCGAGCCTCGCACCTACTTTAGGAGGGGGCGTCGAGGGGATGAGGGGAGGCCTCAGACACTAGAGGAGGAGCAGGGGTCCGTTCATGAGAGGTTGGGCAGGCTTGAGATTGGTTTTCATGAGTTCGCGAGTGATCACCAGGGGGCCATGTTCCCTATCTATGATCAGTATGCCAGGCAGGGCTATATTGCTCCGGATGCTCAGCACCCTTCCTGTTTTACCTATCCCGCGGAGGGATATGGAGCTCCCGGTTCCATGGGCACATTCACACCCACCCACTACGATGGGTATGGAGCGGTCATAGTGGTCGAGGTGGTGATGATGGTGATGATGGTCAAGGCCATCAATGATGCCGAGGATGATCGAGATGGTTCGATACCCCTTGAGCCAATGAGGACATTGTCTGATTTAGCTCGGGGGGTGTTTCACTTACCTGTACATATTAGGTATGTTTTCTTTTTATTTTTGCATTTTATTTATTTTGGTGTGTTTATTGCTTTCTAGAGTAGTTTATTGCTTTGAAAAAAAAAATATACAAAAATACGTTCCGATGAATACAAAATCATGCTTCCCTACCCCGGCAACGGCGCCAAAATTTGATAGGCTAAAGTCGTAACACCTAATCAAAGATAAACCTAAAAACACTAGCTAAGCAGCAAGGGACGTCAGGATCGAATCCACAGGGAAACAGTGTTCTTTCTACTATTAATCAATTAAACTAGACTATTGGGAAACAGGAATTGGTTGATTTGTATGCTAATACTACGACGATAATTAAACAATTAAGAATTCAGGAATTAAAGAATCTAGGGCATAGGTTCACCAACAAATAACAATCCAGGACGATAAACAATCACAATAATCAACAAAGTAATTAGTTAGACTAGCATGCTCTCTCGAATCGATATTAATCATAGACTTGGAATTAACGGGTTCTCGCTACGTATTAATTCTAATTCCGCCTATTGACACAAGCCTAAACATCAAATTGCATCTCTCGAATCTTAACTTGATATTGCTAGACTATCACAATTAAACCTGCGCAAATCTAATTGTATAATAGAATAATTGACAATAAACAAAGCAATCATATTAATTGAAAGCATAATTGAAACAAAGTAATAGATCAAAGTAAGAAAATAATACCTAAAAGAGGAGAATGGAAATTGAAAGCTTGAATTTTTATAGAAATTGAAACTAAGTGTTGGAACAAATTTGAGAGAATAATAAACTAAGGAAAAATAAACTAACTCTTCAATACTAGAAAATAAGATGCCTCTAAAAATAACAAAGGCTAGTATATATAGTTTGCCCAAAATAAAGCCTAAGAACGGAAAAATAAACTCGCGAAAAAACTGCAGAGGTTGGCGTCGCCCGATCGGGCGACGCTTCACCCGATCGGGCGATGTGCTCGATAGTCGGCCCGATCAGGCCAAATTCCGCCCGATCGGGCGGTTTGCGATAGGCTTCCAACAGCTCACAGAATGCCGCCCGATCTGGACCGGGCGAAGTGCGCCCAATCGGGCGCGCACGGAACACTTTAATTCTCTTTTCTTTCCGCCCGATCGTCGCGTTTCGCCCTCAGCGATTTGCAATCATCAACATCCTTTGCCAATATCAACGAGTCTAACTCCCGGGGCTCAACCATAACCATCTAGGGCTCCCGAAAGTCGACGATAATGGTCCCGGACTTCCTCGGGCTCGTGTACTCGTGTAGTGGCCTAAATCACCATGAAACGGGTCTTAAAAGACCAATTTCTCACTAATCAAACCTGAAACTCAAGGCACACTCAATAACACATATTAGTACTAAAAACGGCTCCTAAGAGCCCATTTGACGCATAAAAGTACTAAGGGACGGGGGTAAAACTCTATATAAAACACACATATCAACATGCCAATGACCTCGTCATTATAATACAGTATATGTACGAAATACATGCAATTGACCTCCTCATTTAATTTGCTAATTAAAACATAGTATTATGTAAATATATGCACATTTGTTAAAACATGTAAGTATACTTGTTTGAAACTAAAGATAAAAAGTAAACATATTTATATTTCACAAAAATCATTTTAGGAATTATACTTCGTAACTAATTGATTAAAATAAACGTAAAAGATTGTGTTATTGACTTGTTTGTTTTTTGCGGTTTTTGCCGCAAGGTGCTTGTATAACCATATAAAATTGGGGCGTGATTAGGAAGGCTATGTTTGATTTTGTAAAAAAAAAAAATTATACACAAGTTTTGACAGATTTTTTCTTTGGGCAAATAAAGCTTCATTCATTAAGCTCACCAAATAAACAAGCACCAAACCCTTAACACCAAGATTCTGTTTACAAAGTGTCCTCTCTGTTTAACCTTCTAGGAAGGACTAACACTAGACCCTTTAACTAAACATATGTTACAAACTTTCTAAGAGATGCTTATCTCCTTTCCACCTACATGCTATTCTGAAAACAATTTATTTACAGATGCTAGAAGAACTCTAACGCGAAGACGGAAGACCTTCTGATTCCTACATATCCATATAGAATCTATAGCTTCCACAAAAAACATACCATGCAACTGTTACCTTAGGATTTGACCTTCTGCAAGCAGTAGCAGCAGCTAACACCTCCTCATCAAAGGTTACAGCATTCCTGTTCTTGCCTAACAGCTTCAAAATTTCACCCCAAACCTGATCTGAGAAACTGCAATAAAAAAATAAGTGACTCAAGGTTTCGTTTGAACCACAACATATGCTGCATTTCATATCTGTATTCACATTCCACCTTAGGAGTCGGTCCTTAGTAGCTAATTTTCCATGAAGCGCTAGCCAAGCAATAAAAATGCTACATTATTCTTTTCTAAGCCACTGTTGCAAATTGTCCTCTCATCCGAACATATGACTTCTGGATTGAAAACTTATGTTTATAAACACATTGAGCTACACCTCCATTTGTTGTAATAACCTCCCTACACTAAAAAATCTTCCTAAATGCCTAAGATAGGCTTGTAGGAATACTTATTGACCACACATCCTTACCTTTCACGAGTTTTACCTAATAAGAATTCAACCACTTTATTCACAATTATCTTTTTTCTCAGACAGAGGTCGAAATGTTATCACAGCTGTTTTATTCCAAACACAAAGCTCCTTAATATTCCACCCACCTACAATGAGAGGTTCACACAACTGATGCCACTGATGCTTTCCTTGAGAAGGTGTGCCCACCAGTCCATAGGAATACTCTGTAAGCTCTTTGCACTTATTTCATAATTTTTTTAGGAACTATAAATATTTGGCACCGGATTGGATGCCAAATAAAATAGCCTTCACTAACTGAAACGGCCAGCGTATGACGATTGTTTAGCAGCCCACGATTTCACTCGAGCTTTAATTTTTTAAATTAAAGGCTTACACTCACTGAAAGGAAGCTTTCTTGAGGCCAGAGGGACCCGAGTTATCTAAAAGGAGGTTCACCAGGTGCCATTCCAAGCATACTCCTCACCCTTTCCGCCTCAACATTTGAAACACCACAAAAATAGACATTGCTTTTGTCCAAGTTAGCTTCCAAACCTGATGCCTGTGAAAACTTCATAAAAGCCTCAAACATAGCTTGACAGATACATAATCAGCTCTAGCGAACATTAATAATCATCTGCAAACATCATTTGTGTGATATGCAGTTTTTCATATCTTGGATTGTTATTAAAATCTGGCACAAAATTCAACTCTCCCAATTCTCCCACCTTTTCCAGGCACCTAGATCAATACTCCTTTCCTAAAGCGAACAAAAATGGTGACATGGGGTCTACTTTCCTCAATCCCTTCTTTGCAGCAACAGGGGAGCAAGGGTGTCCGTTAAGTAGTATTGAGTAGGACACAATTGTCACAACACAAGCCAACACAAGCCAACACAAGCCAACACAAGCCATAATCCACTGCATGAATCGGCTAGGAAAGCCTAATTCAGAAAGAACAATCTCTAAATGACTCCATTCTATTGAATCATAGACTTCCCTTAAATCCACTTTCATCATACATCTAGGAGACATATGCTTCCTCAAATAGCCGTTGATGAGCTCTGCAGCTAGCAATATATTATCTGAAATGTGCCTTTGAGGAATGAAGCCGACCAAATCTATATGTTATCACTTTGGAGATAATCTTTTAAACCAAAGAATAAATGCAATAGGCCTGAAATCTTTCACAAGAGTAGGATTAGGAACCTTTGGAACCAGAGTAATAGAAGTACAATTAACTTGCCTCAACATATTTCTAGTGTGAAAGAATTCCTTGACTGCAGCATACACATCACCCTTGGTCACGTAGCAGGACTTCTTGAAGAAAACAACATTAAGACCATCCAATCCAGGAGTCTTACGATCATTGATACCGTTCAAGCAACATCAATCTCGGCCTCAGAAACAGGTTGAACTAGCTCGTGACAAGCAGAACCACTTAACTGTGGACCCTTCCGTAGAACTGATATGTCCACCCCATGTAAAATCGAAGCCCTAGAACCCAACATTTTTTTTGTAATAACCTGTACTTTCTTGCTGTATCTCCACTTCAGTAGACAACCTCTTGCCTGCATTATCAAACAAACATCTATACTGTTCCTAGCAAACCTCTCCTTCATAGCAGTAAAGAAAAAGTGGTTATTTCTTGACTTCTGTTTCAAAGCACTCTCTTTTACTCTCAACCACTTCTTGAGTAGCTCACTCTTCTCCCTTTCTTGACTATGCAAGTTTCCATCTGAGAGATTCACTTTTAAATGACCTTGAACACCATTCAACTCTTCTCGTACTAATTCAATTCTTAAACTGATATTGGCAAACACCTGAATATGCAGTTGCTTCACTGTCCTTAAACTTTTTTCAGTTTTTCCCAAACCTGGAACCATGCACAATTTCGCTCCATTTATTTTTAACCAAATCTAAGAAATTCGGGTGATCAGCCATATTATTAAAGAACTTAAATGGCTTGCTCCTAGTACTTCCTATAATGTGACAGTCTACCATAAGAGGAGAGTGATCAGACAAGGATGGGTTCATATACTCGACAACTGCTTTTCCGTATAAGGTCCACCTATGACTATTGCCAAAGGCCTTGTCAATTCTAGAAGTAACTTTATCATCCCTGTGCCCTTTACCTCTCCAAGAAAAGAAATGCCCACAGCTCTTCAACTCAACCATATCAGTAGCTTCCAGGAGATTGACAAAATCCCTGGTTTTGTAACCAGAAAAAGTGGCCCCATTAATTTTATCATGAACTGAATTAACAACATCAAAGTCTCCCATAATTAACCATGGGCTATTGATTATAGCAGTCGGGTTTTGAAGCTTATTCCACAACGGTTTCCTGTCGTCTACAGAATGCAGACCATAAATGGCTGTAAAAAGTAACCCCATCTTATGATGCCTATCAGAAATATAACAATGATTAAGCTAGTCTGTGGTTTCCAGCACAACAACCTTGAATTCTTGGAATTTCCACCCAACCCAGATTCTTCCCCTTATGATCAGAATTATTTGGTCAACTCCAACTTCCTCCAAACTTCTTCTTAACTTTCTCCTGGTTTTTATTTCGAACTCTAGTTTTAAGCAAAGCAATAACTGAAACTTTATATGCATAATAAATACCTCCCCCATTTTGATAGGCTCATTTAGCCCTCGCACATTCCAAGTGCACATTTTCATTGTACTGGAAATGGAATAGGGTCATCATCTCCCACTCTTACAGTAAAACTCTCCTGCCCAGGGGTGAAATTCTTCCTGCCATTATAATGTACTGTTTTCCAGCCATCTTGTTCTGTATTATTCTGCTGCAGCGTCCCTGTCAATGTTATGGAATCAGTGCGTCGATACTAGTACTAGGCTGTGCAAGTTGCTTCTCCTTTGGGATCCATTTTCTCACCAATATTTTTTTACAATATCCTCAGAGTGCCATTTGTGAGAGCAGTCATGACCAACTGCTTGATATTACAAGCAAAATGGAGGCCTCCAATCATGAACCACAGTTTGTTCAAAAACCTTACCAGTAGGGTCTTCAATCATTATTTGGTCAGGCATTCCATTACAAGAGTGAGGCCCATCAGATAGTACAACATTCTTATCTTCTAATGAAGCAAATTTTATTAGTAAATAACCATCATCATGGAAGTATACTATTGATTTACTCGCGTAGTTCCAATCACGAGCAATAAACCTCTAACTGCACCTATAGAAGTATCACCCATGAGTCAGAACACCATTACTGTGACAGTTGCTCAATCTCACTCTGCTCCAATTGCACAACAGATTGTCCATCTTTGACCACTGGTGCAACGAAAGCAAGGGGAGCACCCTTTGCAGTGAAATTACCACTAACTGATGGTCATGACCACTAATTATTGTTCATATTCAGTCTCCGCACCACCTGAACACATCCACTCCCAATGAACTTCCCGTGATTGGCAGGAATTGCATCTGGTCCACTATTGTTCAATATCCTCAATAATTTTTGAGTTTCCCGAATAATCTCTGGATTTTGACCAATCACTTTATCTACGGCAGAGATTATATCTTGCAAATGTAGGTGTAACTCCACAACCGCAGTGTCTCGATTTCTCGCAGAGGATTTCTCCCCAATTTGGTTGCCAGAATTTATTGGAGTTGGTGTATTCAACTCTCGCCCACCATTAGATCGATTTAAAGTATCAGCATAAGAATCAATTACTCCTGAAGCTACGGCGACGCCTACGTGCAGTTGGATGTGGTGGATGTGGTGGCACTGCTCGTCGAAGCAGTGGTGCTGTTCCGCTGAAAATGGGTCTCTTATTTGATTCATTTCCAATAGGCAATAGTCCCCTATTACTCATCTCAGAACCAGAAAGAGATTTTCCGTTGAACGCCATAGCAACCGGTGATTTTACCTTCTTCCTTGCATTAAGCTACCGGCACCTGCCTGGTCTGATTGTTAAGCGGCCGTTTGAATCAGACCTTTATTTTGGTACTATAGAGATACAAAGCGCACGCTAGCTATAAAACTTAACATACGCCTATATCGCTATTAAGGTTTGACTGTTTTGTCTAATTGTCTTCCCCTTATGAATTTTGATTGAATTATGCGTATTAGCTTTGATTGAAAATTATTTTCCATATTCAATGTTTATATGGATCATGTGCATCGACTTTGATGGGAAAGTAAGTTGCGATAATGATCAGACCCATACTTATAGGGAGAAGATATGCCCTATTTATTTTTAGGCGCATGATTTATGCTTTATTTAATATAATTATTATTAGGGGTATTTTAGACTATAGTATAGAGAAACACCAAAAGATCATTACCTTAATGAATTCAAGATCTCCCTTTTATAATAGAGATTTAACCATGTGAATTGTTTGGTGAAACGTTGAACTAATTTATTTTTTTATTTTTGTTTTAAAGCATTTTGGGATTTTGAGAATCACGTCAGTGAGAGAGTTTCTTGGTTAATTTTCAGACGTCATTTCTTCCCATTGATTCAATTCAATTCTTGATGAAGAGTTGTGATGAACCCAAAAAGAATCAATCAATATGTTTCAAGGGAAAGTTCAAGTTTCTTAAAAACCTATTGGAATACAATGATGCAAGTGTGCTGTGTGCCTGGAATTAGTTATGTTTGTTTGAGGAATAACCATTTCTATGACTTCCTGGATGAGTATTAGAGAGCCTTTATGTCCCAACGAATAGCCTGATGAGTTTGGAAGGTGGAATCTTTGTCAATTGAAAGTAGCAATGGATCTTGAGGTAGTTGAAATCCGACCATGCTATTGATATAAGTGACGATGAGAATGAGAGTATTGATGTTAGTGATGTCGAAAATGTGAATGTTAGAGTCGAAATTATCAATGTTGATGACCTGAGGTTGATACTATTCATTTGAGCAGTGATATGTTGGAGACAAGGAAGGACATGTATAGTAAAATTGGGGGCCTAAAAATAAAGTTGATAATCTTGACATCATGTATTAAAATGTGAATGAAATAGGGTGTGATCTGTGAATGTAATACTTTATGTGAATCTGTTTGGCTGTCCAAATTTAGTATTTTCCTTTTTACAATGTTAGCTGGTTTCCTTGTGCTTTTTTCCCCTCCCTTTTCTGTTAGCCTCAACTCTTGACCATTATGAATGAAAGACATGTGATGTACATAGTTCATTTCGTTTAAGATGGAGTTATAGTTTTTGTTGGCAAGTTTGTTCTTCTTTTGATGTGTATGCTTTAATCATTTGCATGTATCCCACAGGTATGAGAAATATTCTCCTCATTTGCCCTATTTTGACTACTCTGTATCACCTCAAGCTGGCATTACGAGAACGTTTGAGGAAAGGAACACTTCTCCAGTGTACTTACCGGGCTCTTCATCAAGCTATGGAAATTTGGGAATGAAGTCACCCGTGTCAGCGGGTGCATCTCATCAACCTACACGACCGCAAGTTAGATTTGATCCGTACACAGGCGAACCTTACAAATTCGATCCTTACACAGGTGAACCTATTCAACCAGATTCTCTTTCTCGCAGCGGTCGAAGCTTCTATTGATGCTGATGGAAGCTTTTAGAAAGAGAATTTCGACCCTTATCTTGTGGTGACCTATGAGAAGATGATACCATGTTTAAGTTGTACAATATCGAGGGTTGTAGGGTTTTTTTTTCAGTAGTAAATTTGTTAGTTGATCTACTTGGTTTGAAAATTATTAGATTATCATAATTGGTTGTTATTCCTTTAGTCTATCATTTATGTTTTATATTCTGATCATGGCTTACAAAGTTAACAATTTCCATGTTAAGAAAGCCCTTGGAAACAAGTTCTCGTCCAAAAGGTCTTGCGCGCACAAGGTGTACAATAAATTTATTGTACACCAAAATAACTTTAACCCAT

mRNA sequence

ATGGAGATTTACTATCAGGAACGTATTGTTGCTGATCCATATGAAGCAGCTGTAGTCTCACTACCTGCTGCTGTCCAAGATCGTTTGCTTCGGATACTTCGACTGGATATTGCTACCCGTTATGATATAAAAAAGATCATTGTTGCCTTTGTTAATAATTCTTCTCTTATTGACATCCGATGCTTGAGAAGTCTAAAGGAGATCCCAGAATCAGCTGCTATATCTGTCCTTGATCAGTTCCTGTTATCAGGAGGAGAAGAAATTGACAAAGGAGCATTTCTTGCTGGACTAATTACCAAGGTCAGAAGTCTAAGGACAAGTCAAGTACCGGAATATATACCAAGAGATTATACATCAAGAGAAAATGAATTTATCAGCGTAAGGTCGGAATTCGCACGGCTACCAAGTCGAAGCCAGGTTCCAGTTACGGACTCCTTTTCTTCTCATGTGGCCACCTCACGGTGTAACTCCACAACCGCAGTGTCTCGATTTCTCGCAGAGGATTTCTCCCCAATTTGGTTGCCAGAATTTATTGGAGTTGGTGTATTCAACTCTCGCCCACCATTAGATCGATTTAAACATAAGAATCAATTACTCCTGAAGCTACGGCGACGCCTACGTGCAGTTGGATGTGGTGGATGTGGTGGCACTGCTCGTCGAAGCAGTGGTGCTGTTCCGCTGAAAATGGGTCTCTTATTTGATTCATTTCCAATAGGCAATAGTCCCCTATTACTCATCTCAGAACCAGAAAGAGATTTTCCGTTGAACGCCATAGCAACCGGTGATTTTACCTTCTTCCTTGCATTAAGCTACCGGCACCTGCCTGGTCTGATTGTTAAGCGGCCGTATGAGAAATATTCTCCTCATTTGCCCTATTTTGACTACTCTGTATCACCTCAAGCTGGCATTACGAGAACGTTTGAGGAAAGGAACACTTCTCCAGTGTACTTACCGGGCTCTTCATCAAGCTATGGAAATTTGGGAATGAAGTCACCCGTGTCAGCGGGTGCATCTCATCAACCTACACGACCGCAAGTTAGATTTGATCCGTACACAGGCGAACCTTACAAATTCGATCCTTACACAGGTGAACCTATTCAACCAGATTCTCTTTCTCGCAGCGGTCGAAGCTTCTATTGATGCTGATGGAAGCTTTTAGAAAGAGAATTTCGACCCTTATCTTGTGGTGACCTATGAGAAGATGATACCATGTTTAAGTTGTACAATATCGAGGGTTGTAGGGTTTTTTTTTCAGTAGTAAATTTGTTAGTTGATCTACTTGGTTTGAAAATTATTAGATTATCATAATTGGTTGTTATTCCTTTAGTCTATCATTTATGTTTTATATTCTGATCATGGCTTACAAAGTTAACAATTTCCATGTTAAGAAAGCCCTTGGAAACAAGTTCTCGTCCAAAAGGTCTTGCGCGCACAAGGTGTACAATAAATTTATTGTACACCAAAATAACTTTAACCCAT

Coding sequence (CDS)

ATGGAGATTTACTATCAGGAACGTATTGTTGCTGATCCATATGAAGCAGCTGTAGTCTCACTACCTGCTGCTGTCCAAGATCGTTTGCTTCGGATACTTCGACTGGATATTGCTACCCGTTATGATATAAAAAAGATCATTGTTGCCTTTGTTAATAATTCTTCTCTTATTGACATCCGATGCTTGAGAAGTCTAAAGGAGATCCCAGAATCAGCTGCTATATCTGTCCTTGATCAGTTCCTGTTATCAGGAGGAGAAGAAATTGACAAAGGAGCATTTCTTGCTGGACTAATTACCAAGGTCAGAAGTCTAAGGACAAGTCAAGTACCGGAATATATACCAAGAGATTATACATCAAGAGAAAATGAATTTATCAGCGTAAGGTCGGAATTCGCACGGCTACCAAGTCGAAGCCAGGTTCCAGTTACGGACTCCTTTTCTTCTCATGTGGCCACCTCACGGTGTAACTCCACAACCGCAGTGTCTCGATTTCTCGCAGAGGATTTCTCCCCAATTTGGTTGCCAGAATTTATTGGAGTTGGTGTATTCAACTCTCGCCCACCATTAGATCGATTTAAACATAAGAATCAATTACTCCTGAAGCTACGGCGACGCCTACGTGCAGTTGGATGTGGTGGATGTGGTGGCACTGCTCGTCGAAGCAGTGGTGCTGTTCCGCTGAAAATGGGTCTCTTATTTGATTCATTTCCAATAGGCAATAGTCCCCTATTACTCATCTCAGAACCAGAAAGAGATTTTCCGTTGAACGCCATAGCAACCGGTGATTTTACCTTCTTCCTTGCATTAAGCTACCGGCACCTGCCTGGTCTGATTGTTAAGCGGCCGTATGAGAAATATTCTCCTCATTTGCCCTATTTTGACTACTCTGTATCACCTCAAGCTGGCATTACGAGAACGTTTGAGGAAAGGAACACTTCTCCAGTGTACTTACCGGGCTCTTCATCAAGCTATGGAAATTTGGGAATGAAGTCACCCGTGTCAGCGGGTGCATCTCATCAACCTACACGACCGCAAGTTAGATTTGATCCGTACACAGGCGAACCTTACAAATTCGATCCTTACACAGGTGAACCTATTCAACCAGATTCTCTTTCTCGCAGCGGTCGAAGCTTCTATTGA

Protein sequence

MEIYYQERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDIKKIIVAFVNNSSLIDIRCLRSLKEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITKVRSLRTSQVPEYIPRDYTSRENEFISVRSEFARLPSRSQVPVTDSFSSHVATSRCNSTTAVSRFLAEDFSPIWLPEFIGVGVFNSRPPLDRFKHKNQLLLKLRRRLRAVGCGGCGGTARRSSGAVPLKMGLLFDSFPIGNSPLLLISEPERDFPLNAIATGDFTFFLALSYRHLPGLIVKRPYEKYSPHLPYFDYSVSPQAGITRTFEERNTSPVYLPGSSSSYGNLGMKSPVSAGASHQPTRPQVRFDPYTGEPYKFDPYTGEPIQPDSLSRSGRSFY

Relationships

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


Feature Name	Unique Name	Type
Spo26682.1	Spo26682.1	mRNA

Homology

[Close]

BLAST of Spo26682.1 vs. NCBI nr
Match: gi|902182536|gb|KNA09941.1| (hypothetical protein SOVF_148960 isoform A [Spinacia oleracea])

HSP 1 Score: 245.4 bits (625), Expect = 1.600e-61
Identity = 134/149 (89.93%), Postives = 135/149 (90.60%), Query Frame = 1


		  
Query: 6   QERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDIKKIIVAFVNNSSLIDIRCLRSL 65
           +ERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDI              DIRCLRSL
Sbjct: 324 EERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDI--------------DIRCLRSL 383

Query: 66  KEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITKVRSLRTSQVPEYIPRDYTSRENEFI 125
           KEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITKVRSLRTSQVPEYIPRDYTSRENEFI
Sbjct: 384 KEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITKVRSLRTSQVPEYIPRDYTSRENEFI 443

Query: 126 SVRSEFARLPSRSQVPVTDSFSSHVATSR 155
           SVRSEFARLPSRSQVPVTDSFSSHVATSR
Sbjct: 444 SVRSEFARLPSRSQVPVTDSFSSHVATSR 458

[Close]

BLAST of Spo26682.1 vs. NCBI nr
Match: gi|902182537|gb|KNA09942.1| (hypothetical protein SOVF_148960 isoform B [Spinacia oleracea])

HSP 1 Score: 240.4 bits (612), Expect = 5.300e-60
Identity = 134/151 (88.74%), Postives = 135/151 (89.40%), Query Frame = 1


		  
Query: 6   QERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDIKKIIVAFVNNSSLIDIRCLRSL 65
           +ERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDI              DIRCLRSL
Sbjct: 324 EERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDI--------------DIRCLRSL 383

Query: 66  KEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITK--VRSLRTSQVPEYIPRDYTSRENE 125
           KEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITK  VRSLRTSQVPEYIPRDYTSRENE
Sbjct: 384 KEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITKYQVRSLRTSQVPEYIPRDYTSRENE 443

Query: 126 FISVRSEFARLPSRSQVPVTDSFSSHVATSR 155
           FISVRSEFARLPSRSQVPVTDSFSSHVATSR
Sbjct: 444 FISVRSEFARLPSRSQVPVTDSFSSHVATSR 460

[Close]

BLAST of Spo26682.1 vs. NCBI nr
Match: gi|731362996|ref|XP_010693189.1| (PREDICTED: uncharacterized protein LOC104906171 isoform X2 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 183.7 bits (465), Expect = 5.900e-43
Identity = 110/152 (72.37%), Postives = 116/152 (76.32%), Query Frame = 1


		  
Query: 5   YQERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDIKKIIVAFVNNSSLIDIRCLRS 64
           ++E IVADPYEAAVVSLPAAVQDRLLRILRL IA+RYDI              DIRCLRS
Sbjct: 323 HEEHIVADPYEAAVVSLPAAVQDRLLRILRLGIASRYDI--------------DIRCLRS 382

Query: 65  LKEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITK--VRSLRTSQVPEYIPRDYTSREN 124
           L EIPESAAISVLDQFLLSG +E DKGAFLAGLITK  VRS   SQVPE     YTSR N
Sbjct: 383 LNEIPESAAISVLDQFLLSGADENDKGAFLAGLITKYQVRSFGISQVPE-----YTSRAN 442

Query: 125 EFISVRSEFARLPSRSQVPVTDSFSSHVATSR 155
           E ISVRS+  RL SRSQVP  DSFSSH+ATSR
Sbjct: 443 ESISVRSDLVRLRSRSQVPALDSFSSHMATSR 455

[Close]

BLAST of Spo26682.1 vs. NCBI nr
Match: gi|731362993|ref|XP_010693188.1| (PREDICTED: uncharacterized protein LOC104906171 isoform X1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 183.7 bits (465), Expect = 5.900e-43
Identity = 110/152 (72.37%), Postives = 116/152 (76.32%), Query Frame = 1


		  
Query: 5   YQERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDIKKIIVAFVNNSSLIDIRCLRS 64
           ++E IVADPYEAAVVSLPAAVQDRLLRILRL IA+RYDI              DIRCLRS
Sbjct: 324 HEEHIVADPYEAAVVSLPAAVQDRLLRILRLGIASRYDI--------------DIRCLRS 383

Query: 65  LKEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITK--VRSLRTSQVPEYIPRDYTSREN 124
           L EIPESAAISVLDQFLLSG +E DKGAFLAGLITK  VRS   SQVPE     YTSR N
Sbjct: 384 LNEIPESAAISVLDQFLLSGADENDKGAFLAGLITKYQVRSFGISQVPE-----YTSRAN 443

Query: 125 EFISVRSEFARLPSRSQVPVTDSFSSHVATSR 155
           E ISVRS+  RL SRSQVP  DSFSSH+ATSR
Sbjct: 444 ESISVRSDLVRLRSRSQVPALDSFSSHMATSR 456

[Close]

BLAST of Spo26682.1 vs. NCBI nr
Match: gi|870862023|gb|KMT13270.1| (hypothetical protein BVRB_4g085300 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 165.2 bits (417), Expect = 2.200e-37
Identity = 76/97 (78.35%), Postives = 87/97 (89.69%), Query Frame = 1


		  
Query: 283 YEKYSPHLPYFDYSVSPQAGITRTFEERNTSPVYLPGSSSSYGNLGMKSPVSAGASHQPT 342
           YE+YSP LPYFDYS+SP+AGITRT EERN+SP++LP SSSSYG +GMKSPV  GASHQPT
Sbjct: 165 YERYSPRLPYFDYSLSPRAGITRTSEERNSSPMHLPVSSSSYGKMGMKSPVIQGASHQPT 224

Query: 343 RPQVRFDPYTGEPYKFDPYTGEPIQPDSLSRSGRSFY 380
           R QVRFDP+TGEPYKFDP+ GEPIQP+SLSR  +SFY
Sbjct: 225 RSQVRFDPFTGEPYKFDPFIGEPIQPESLSRGNQSFY 261

[Close]

BLAST of Spo26682.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QTR5_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_148960 PE=4 SV=1)

HSP 1 Score: 245.4 bits (625), Expect = 1.100e-61
Identity = 134/149 (89.93%), Postives = 135/149 (90.60%), Query Frame = 1


		  
Query: 6   QERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDIKKIIVAFVNNSSLIDIRCLRSL 65
           +ERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDI              DIRCLRSL
Sbjct: 324 EERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDI--------------DIRCLRSL 383

Query: 66  KEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITKVRSLRTSQVPEYIPRDYTSRENEFI 125
           KEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITKVRSLRTSQVPEYIPRDYTSRENEFI
Sbjct: 384 KEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITKVRSLRTSQVPEYIPRDYTSRENEFI 443

Query: 126 SVRSEFARLPSRSQVPVTDSFSSHVATSR 155
           SVRSEFARLPSRSQVPVTDSFSSHVATSR
Sbjct: 444 SVRSEFARLPSRSQVPVTDSFSSHVATSR 458

[Close]

BLAST of Spo26682.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QRL6_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_148960 PE=4 SV=1)

HSP 1 Score: 240.4 bits (612), Expect = 3.700e-60
Identity = 134/151 (88.74%), Postives = 135/151 (89.40%), Query Frame = 1


		  
Query: 6   QERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDIKKIIVAFVNNSSLIDIRCLRSL 65
           +ERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDI              DIRCLRSL
Sbjct: 324 EERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDI--------------DIRCLRSL 383

Query: 66  KEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITK--VRSLRTSQVPEYIPRDYTSRENE 125
           KEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITK  VRSLRTSQVPEYIPRDYTSRENE
Sbjct: 384 KEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITKYQVRSLRTSQVPEYIPRDYTSRENE 443

Query: 126 FISVRSEFARLPSRSQVPVTDSFSSHVATSR 155
           FISVRSEFARLPSRSQVPVTDSFSSHVATSR
Sbjct: 444 FISVRSEFARLPSRSQVPVTDSFSSHVATSR 460

[Close]

BLAST of Spo26682.1 vs. UniProtKB/TrEMBL
Match: A0A0J8BD55_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_2g046430 PE=4 SV=1)

HSP 1 Score: 183.7 bits (465), Expect = 4.100e-43
Identity = 110/152 (72.37%), Postives = 116/152 (76.32%), Query Frame = 1


		  
Query: 5   YQERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDIKKIIVAFVNNSSLIDIRCLRS 64
           ++E IVADPYEAAVVSLPAAVQDRLLRILRL IA+RYDI              DIRCLRS
Sbjct: 324 HEEHIVADPYEAAVVSLPAAVQDRLLRILRLGIASRYDI--------------DIRCLRS 383

Query: 65  LKEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITK--VRSLRTSQVPEYIPRDYTSREN 124
           L EIPESAAISVLDQFLLSG +E DKGAFLAGLITK  VRS   SQVPE     YTSR N
Sbjct: 384 LNEIPESAAISVLDQFLLSGADENDKGAFLAGLITKYQVRSFGISQVPE-----YTSRAN 443

Query: 125 EFISVRSEFARLPSRSQVPVTDSFSSHVATSR 155
           E ISVRS+  RL SRSQVP  DSFSSH+ATSR
Sbjct: 444 ESISVRSDLVRLRSRSQVPALDSFSSHMATSR 456

[Close]

BLAST of Spo26682.1 vs. UniProtKB/TrEMBL
Match: A0A0J8E830_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_2g046430 PE=4 SV=1)

HSP 1 Score: 183.7 bits (465), Expect = 4.100e-43
Identity = 110/152 (72.37%), Postives = 116/152 (76.32%), Query Frame = 1


		  
Query: 5   YQERIVADPYEAAVVSLPAAVQDRLLRILRLDIATRYDIKKIIVAFVNNSSLIDIRCLRS 64
           ++E IVADPYEAAVVSLPAAVQDRLLRILRL IA+RYDI              DIRCLRS
Sbjct: 323 HEEHIVADPYEAAVVSLPAAVQDRLLRILRLGIASRYDI--------------DIRCLRS 382

Query: 65  LKEIPESAAISVLDQFLLSGGEEIDKGAFLAGLITK--VRSLRTSQVPEYIPRDYTSREN 124
           L EIPESAAISVLDQFLLSG +E DKGAFLAGLITK  VRS   SQVPE     YTSR N
Sbjct: 383 LNEIPESAAISVLDQFLLSGADENDKGAFLAGLITKYQVRSFGISQVPE-----YTSRAN 442

Query: 125 EFISVRSEFARLPSRSQVPVTDSFSSHVATSR 155
           E ISVRS+  RL SRSQVP  DSFSSH+ATSR
Sbjct: 443 ESISVRSDLVRLRSRSQVPALDSFSSHMATSR 455

[Close]

BLAST of Spo26682.1 vs. UniProtKB/TrEMBL
Match: A0A0J8CHS6_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_4g085300 PE=4 SV=1)

HSP 1 Score: 165.2 bits (417), Expect = 1.500e-37
Identity = 76/97 (78.35%), Postives = 87/97 (89.69%), Query Frame = 1


		  
Query: 283 YEKYSPHLPYFDYSVSPQAGITRTFEERNTSPVYLPGSSSSYGNLGMKSPVSAGASHQPT 342
           YE+YSP LPYFDYS+SP+AGITRT EERN+SP++LP SSSSYG +GMKSPV  GASHQPT
Sbjct: 165 YERYSPRLPYFDYSLSPRAGITRTSEERNSSPMHLPVSSSSYGKMGMKSPVIQGASHQPT 224

Query: 343 RPQVRFDPYTGEPYKFDPYTGEPIQPDSLSRSGRSFY 380
           R QVRFDP+TGEPYKFDP+ GEPIQP+SLSR  +SFY
Sbjct: 225 RSQVRFDPFTGEPYKFDPFIGEPIQPESLSRGNQSFY 261

The following BLAST results are available for this feature:

BLAST of Spo26682.1 vs. NCBI nr
BLAST of Spo26682.1 vs. UniProtKB/TrEMBL
BLAST of Spo26682.1 vs. ExPASy Swiss-Prot
BLAST of Spo26682.1 vs. TAIR (Arabidopsis)

BLAST of Spo26682.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5


Match Name	E-value	Identity	Description
gi\|902182536\|gb\|KNA09941.1\|	1.6e-61	89.9	hypothetical protein SOVF_1489...	[more]
gi\|902182537\|gb\|KNA09942.1\|	5.3e-60	88.7	hypothetical protein SOVF_1489...	[more]
gi\|731362996\|ref\|XP_010693189.1\|	5.9e-43	72.3	PREDICTED: uncharacterized pro...	[more]
gi\|731362993\|ref\|XP_010693188.1\|	5.9e-43	72.3	PREDICTED: uncharacterized pro...	[more]
gi\|870862023\|gb\|KMT13270.1\|	2.2e-37	78.3	hypothetical protein BVRB_4g08...	[more]

BLAST of Spo26682.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5


Match Name	E-value	Identity	Description
A0A0K9QTR5_SPIOL	1.1e-61	89.9	Uncharacterized protein OS=Spi...	[more]
A0A0K9QRL6_SPIOL	3.7e-60	88.7	Uncharacterized protein OS=Spi...	[more]
A0A0J8BD55_BETVU	4.1e-43	72.3	Uncharacterized protein OS=Bet...	[more]
A0A0J8E830_BETVU	4.1e-43	72.3	Uncharacterized protein OS=Bet...	[more]
A0A0J8CHS6_BETVU	1.5e-37	78.3	Uncharacterized protein OS=Bet...	[more]

BLAST of Spo26682.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 0


Match Name	E-value	Identity	Description

BLAST of Spo26682.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 0


Match Name	E-value	Identity	Description

GO Annotation

GO Assignments

This gene is annotated with the following GO terms.

Category	Term Accession	Term Name
biological_process	GO:0042542	response to hydrogen peroxide
biological_process	GO:0000160	phosphorelay signal transduction system
biological_process	GO:0010218	response to far red light
biological_process	GO:0010155	regulation of proton transport
biological_process	GO:0035304	regulation of protein dephosphorylation
biological_process	GO:0018298	protein-chromophore linkage
biological_process	GO:0046777	protein autophosphorylation
biological_process	GO:0045893	positive regulation of transcription, DNA-templated
biological_process	GO:0043085	positive regulation of catalytic activity
biological_process	GO:0042793	plastid transcription
biological_process	GO:0009638	phototropism
biological_process	GO:0010207	photosystem II assembly
biological_process	GO:0010362	negative regulation of anion channel activity by blue light
biological_process	GO:0010114	response to red light
biological_process	GO:0016556	mRNA modification
biological_process	GO:0000023	maltose metabolic process
biological_process	GO:0019761	glucosinolate biosynthetic process
biological_process	GO:0009902	chloroplast relocation
biological_process	GO:0009785	blue light signaling pathway
biological_process	GO:0044260	cellular macromolecule metabolic process
biological_process	GO:0006680	glucosylceramide catabolic process
biological_process	GO:0005975	carbohydrate metabolic process
biological_process	GO:0008152	metabolic process
biological_process	GO:0016558	protein import into peroxisome matrix
biological_process	GO:0009644	response to high light intensity
biological_process	GO:0009744	response to sucrose
biological_process	GO:0023052	signaling
biological_process	GO:0010508	positive regulation of autophagy
biological_process	GO:0009408	response to heat
biological_process	GO:0042538	hyperosmotic salinity response
biological_process	GO:0051252	regulation of RNA metabolic process
biological_process	GO:0006397	mRNA processing
biological_process	GO:0009966	regulation of signal transduction
biological_process	GO:0009626	plant-type hypersensitive response
biological_process	GO:0016043	cellular component organization
biological_process	GO:0006351	transcription, DNA-templated
biological_process	GO:0006206	pyrimidine nucleobase metabolic process
biological_process	GO:0006144	purine nucleobase metabolic process
biological_process	GO:0030036	actin cytoskeleton organization
biological_process	GO:0006364	rRNA processing
biological_process	GO:0009725	response to hormone
biological_process	GO:0048827	phyllome development
biological_process	GO:0048523	negative regulation of cellular process
biological_process	GO:0048437	floral organ development
biological_process	GO:0009987	cellular process
biological_process	GO:0010027	thylakoid membrane organization
biological_process	GO:0010118	stomatal movement
biological_process	GO:0010103	stomatal complex morphogenesis
biological_process	GO:0019252	starch biosynthetic process
biological_process	GO:0023014	signal transduction by protein phosphorylation
biological_process	GO:0009069	serine family amino acid metabolic process
biological_process	GO:0006635	fatty acid beta-oxidation
biological_process	GO:0006886	intracellular protein transport
biological_process	GO:0048316	seed development
biological_process	GO:0090501	RNA phosphodiester bond hydrolysis
biological_process	GO:0010090	trichome morphogenesis
biological_process	GO:0048765	root hair cell differentiation
biological_process	GO:0009733	response to auxin
biological_process	GO:0043087	regulation of GTPase activity
biological_process	GO:0033044	regulation of chromosome organization
biological_process	GO:0045595	regulation of cell differentiation
biological_process	GO:0006468	protein phosphorylation
biological_process	GO:0043547	positive regulation of GTPase activity
biological_process	GO:0009944	polarity specification of adaxial/abaxial axis
biological_process	GO:0048519	negative regulation of biological process
biological_process	GO:0000278	mitotic cell cycle
biological_process	GO:0009965	leaf morphogenesis
biological_process	GO:0010089	xylem development
biological_process	GO:0048439	flower morphogenesis
biological_process	GO:0048449	floral organ formation
biological_process	GO:0006897	endocytosis
biological_process	GO:0048589	developmental growth
biological_process	GO:0009855	determination of bilateral symmetry
biological_process	GO:0071555	cell wall organization
biological_process	GO:0016049	cell growth
biological_process	GO:0007155	cell adhesion
biological_process	GO:0045010	actin nucleation
biological_process	GO:0006355	regulation of transcription, DNA-templated
biological_process	GO:0042967	obsolete acyl-carrier-protein biosynthetic process
biological_process	GO:0010051	xylem and phloem pattern formation
biological_process	GO:0010014	meristem initiation
biological_process	GO:0007033	vacuole organization
biological_process	GO:0006464	cellular protein modification process
biological_process	GO:0065008	regulation of biological quality
biological_process	GO:0030422	production of siRNA involved in RNA interference
biological_process	GO:0006259	DNA metabolic process
biological_process	GO:0051607	defense response to virus
biological_process	GO:0009628	response to abiotic stimulus
biological_process	GO:0036092	phosphatidylinositol-3-phosphate biosynthetic process
biological_process	GO:0007154	cell communication
cellular_component	GO:0031519	PcG protein complex
cellular_component	GO:0005634	nucleus
cellular_component	GO:1990904	ribonucleoprotein complex
cellular_component	GO:0005829	cytosol
cellular_component	GO:0019013	viral nucleocapsid
cellular_component	GO:0005886	plasma membrane
cellular_component	GO:0005730	nucleolus
cellular_component	GO:0005794	Golgi apparatus
cellular_component	GO:0000785	chromatin
cellular_component	GO:0005856	cytoskeleton
cellular_component	GO:0000123	histone acetyltransferase complex
cellular_component	GO:0005622	intracellular
cellular_component	GO:0030140	trans-Golgi network transport vesicle
cellular_component	GO:0009365	protein histidine kinase complex
cellular_component	GO:0016021	integral component of membrane
cellular_component	GO:0005667	transcription factor complex
molecular_function	GO:0008270	zinc ion binding
molecular_function	GO:0004386	helicase activity
molecular_function	GO:0004525	ribonuclease III activity
molecular_function	GO:0016874	ligase activity
molecular_function	GO:0004674	protein serine/threonine kinase activity
molecular_function	GO:0004540	ribonuclease activity
molecular_function	GO:0003899	DNA-directed 5'-3' RNA polymerase activity
molecular_function	GO:0004402	histone acetyltransferase activity
molecular_function	GO:0003677	DNA binding
molecular_function	GO:0003712	transcription coregulator activity
molecular_function	GO:0016836	hydro-lyase activity
molecular_function	GO:0008026	ATP-dependent helicase activity
molecular_function	GO:0046983	protein dimerization activity
molecular_function	GO:0004348	glucosylceramidase activity
molecular_function	GO:0005524	ATP binding
molecular_function	GO:0005096	GTPase activator activity
molecular_function	GO:0035091	phosphatidylinositol binding
molecular_function	GO:0005515	protein binding
molecular_function	GO:0004672	protein kinase activity
molecular_function	GO:0042578	phosphoric ester hydrolase activity
molecular_function	GO:0008536	Ran GTPase binding
molecular_function	GO:0009882	blue light photoreceptor activity
molecular_function	GO:0008568	microtubule-severing ATPase activity
molecular_function	GO:0010181	FMN binding
molecular_function	GO:0042802	identical protein binding
molecular_function	GO:0000155	phosphorelay sensor kinase activity
molecular_function	GO:0004697	protein kinase C activity
molecular_function	GO:0003682	chromatin binding
molecular_function	GO:0016740	transferase activity
molecular_function	GO:0003676	nucleic acid binding
molecular_function	GO:0003723	RNA binding

RNA-Seq Expression

Co-expression


Gene	r value	Expression
Spo26527	0.73	Barchart \| Table
Spo06982	0.70	Barchart \| Table
Spo12263	0.70	Barchart \| Table
Spo27268	0.70	Barchart \| Table
Spo21108	0.69	Barchart \| Table
Spo16012	0.69	Barchart \| Table
Spo05286	0.69	Barchart \| Table
Spo26073	0.68	Barchart \| Table
Spo01924	0.68	Barchart \| Table
Spo12654	0.68	Barchart \| Table
Spo00430	0.67	Barchart \| Table
Spo25911	0.67	Barchart \| Table
Spo06358	0.67	Barchart \| Table
Spo08002	0.67	Barchart \| Table
Spo22668	0.67	Barchart \| Table
Spo15566	0.67	Barchart \| Table
Spo06125	0.66	Barchart \| Table
Spo16861	0.66	Barchart \| Table
Spo17701	0.66	Barchart \| Table
Spo18115	0.66	Barchart \| Table
Spo25649	0.66	Barchart \| Table
Spo05665	0.66	Barchart \| Table
Spo24329	0.66	Barchart \| Table
Spo15874	0.65	Barchart \| Table
Spo02867	0.65	Barchart \| Table
Spo04973	0.65	Barchart \| Table
Spo10563	0.65	Barchart \| Table
Spo00091	0.65	Barchart \| Table
Spo18873	0.65	Barchart \| Table
Spo19642	0.65	Barchart \| Table