Spo21209 (gene)

Overview
NameSpo21209
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionBnaA02g16450D protein
LocationSpoScf_02901 : 12465 .. 30022 (-)
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.
TGCTCCGGTTTGCAGAACAACGGTAAACAGGAGAGTGAGGATGGCAGCAGCAATTGCACCGCCGTTCATCCAGGATTATCATCACTCCTTTTACCGTCGCCACTTTCTCTCCCCCGCCGCCGCCTCCTCCTTCTTTCCGACAACAGCCATCACCACCTCCCTCCGCAGACTCCATGTTTTCAAAGCTCACAATTCCCTCCAAATTAACCACGACTCCAACCAACAACAGTCTCGCTATTCTCCTCCCTCAACGCTGGTGCCCTCCACGTCGCATTCCAGGGATTCAAACAATCTCCCCTCAATTCCACGCAATTCCACTGGTTAGTCTCCCCTTTTTATTTATATATATTGGGAAAGATAAGTGCGGATCGGAACCCCGCACGAGTAACCCGGCTCAATTTAGCAGGCTAGGCCACTGGCAATTAGAGGGGAAGGATTTGTCTTATCTCCTCAGTTTTAATGTTTTTTTTTTACATTTTTGTGCTTATTTCTTCTATGCTGCAGATGCTGGTGGGTGTGAGTTGAGGGCTGTCCTTGAACTTGCCACAAACTCTGAACTTTTCGAGATTGAGAAAATCCTCTTTGGACCCAGGTTTTTTTTCCTGCTTTACAGTCCCTCCATTTTTCTGGGATTGAGTAGAACTGTGGTTTTGATGTTATTATGCTTTTAGTTCAGATTCTGGGATTCATTATTGCATTATGGGGTTCAAGTTTTCATTGGTTATAATTGCGAAACACTAATCAGTTCTCCTTCCGTCCGTCTTTAATGTTAGATGTCATTTTTAAGGAATTCGCTGGAATTATCATACTTTTTATTGATGATTTATACAAATGTTATGCCACATTTGGTTAGATGTCATTTTAAGGAATTCACTCGAATTATTATACTTTTTTTTAGACGATTTATATAAATATTGAGAAGAAATAATACTACGGATCAAATCCTCAAAAGAGTAAAAGTAGTATGGGAGAATTCATGATTTAAATTAGGGATGTATGAATAGTGGCCAATTACTTCCGGACATCTCAAATTAGAAGTGTGGCCTATAAAAGTGTGGCGGAGGGAGTATGTAATCGAAAATTGCCTACTCAAAGGAATTAGTGTAAGAAATGGTCCTGATATAAACAAGGGAATGCAGGGAGCATAATTGTAGGATTTTCATGCTCATGTGATTTTGAAATCCTCTGGATTTGATGATTTTATTTTTAATGTTTATATCATCATGTATTGCAGCTACCTTAGTCCCCTGCTGAAATCCGTTAGTAGTGGGGTGGAATTGGATAGATTCATGATTGAGGAGGACTTTGAAGAGCGAGACCATTTCATTGAAGTTCTCGAGTCTCGTTTCTTATATCTCGCAGCTGATGCTCGTTCTACATTGAGGTTGTTCAGATTACTTCAGATGATAAAATTGATATTTTTTTTTTGTTCCTAAGCCTCGTTGTTTGGTTCAATCTTACTCTTTAAGAACTCAATCTTGCCGAAAACCCAACTATTTGGTGCCTTCCGTTTTTTTGTCTGCTATGGTTTATGTCATACCTTGCAAATTTTATGCTTTTCTAATATTAGTTGCACCACTTTACTTTCTTCTGTTGTAGCTGATTTCTCCTATTGCAGGTATGTGCCTTTCTGCTTTCCCATTGTTCAAAAACTGTTTTTTTTTATAAATATTTTTATTTAGCTGCTGTTTTTTTTGTTTCTAATTTAGGCTTCACTTTAATTGTCGTGTGATTGAAGAACCTTAAGGAGTGATGATAGGTTTATCCTTGGATAATACAGAAGTATATCGCCCCATGTGTGCAGTGGATGTAATTCTTGATTATTGCTAAAAGCTCTATATATTGAGCTCTCATTTCATTGTTTATATTACAGTTAAGCTAGCCATGTTACTTAGATGGAAAATCTAGAATGCTCAGAAGAACAATGCGTGTATATACAGAATTCATGGAGCTGTCTGTGTGAAATCAAATAGCAGAATGGGGGATACAAGGGAGGATGAGAAACTGAGAATAAATTGATTTAGGGATTAATCTGGGATACATATGGTTGCTTAAAGAAAAATGGAAAACACAATTAATTAGATTTTGAGGATTTTTTTCAGGAAGCTATGTTTAATAACGCAGTTACTTTGAAGGCCAGACGATCTCTAGGAATGTGTGATGAATTCCTGTGGTGTATTATGAGTTTCAACATCTTTCAATTGTCTCACACAATAGGCTTTTAATGGAACTTCACCTTTGGTACTGCTTCGGTGCTTCTATATTCTTATAGATAGCTCCCTTTTTTAAGAAGAAACTTTGCCATAGGAATGACCTTTCCGTCTATTAGCCATGTAGATGTAATACCTCCAATTTAGGATAGAATAAGATTTTGATTCAGGATAGTAAAATGTTACTGTATTTTGCATCTTTCAATATGTTTGGCAATCAACTAGTAGCATTAGCATTTTATTAATCAAATGTTTGGTAAAACTAGGAGTTAGTTGTCAATGTGCCAAATCACAACTTTTGGTCAAAATATTCGTTGAATTTGTGACAAGCCAACAACTAAAGATGGAATAAGGCTTTTGTTTTTTGAGTTCAAAGCCATCTTTGCAGCCAATGAACAAGTCACTTATGAAACCTGGTTTTTGGTTGTTTGACCACATTAATAAGCTAAAAGATAAAAGCCAATAAAATAGCCGTCATTTACCAAATAAGCTCTACAACCTGCTTATTTCTTCATATTAAGGGTTGCATCTTCTTTTCTTCTGCTTTTGTTTATTACCAACGCGGAAGTTTTCTCAAACAACGATTGTGCCATATGGATTTACAACCCTTGCATATACCAGGAAAAATATGTGTGTGTGTGTGTGTGNGGGGGGGGGGGGGGGGGGGGTTAGGACTTAGGAATTTATTAACAAAGTACCTTGGTTTGATTTTTGATTGCTTCAGAAGCATTTGTTGTATCACTTAAAAATTTACAGCGGTTGTAAGGGTTTTTTTTTCTGCTGAATGTATGTGGGAGTATAATGAAGCTCGCTCTAGTATAAATGTGATATTTGGGTTTGTGGACCTCCACCCAGAACATCACTCCACCCCACCCGTTCTGCTGATGAGAAACTCCATTCAATGGTGAATTGGGTGATTAAAGGAGAATGGTTGACGTCATGTCACCTGTAGTCCTGTACGGAAATTTTTAATGTCTAACCAATAACAAAGCTGATCATACCAAAGCCATGCTAAAAGAAACAACATACTTCTATTCTATAGTTGTTCACTACTTGATGTTAAACAATTACTGAGCAACCATGCTCAAAGAAACAACATACTTCTGTTCTATAGTTGTCACCATCTACTTGAAGTTAACCAATTACAACACTGAGCAGACATGCTCACATACTTCTATTCTATAGTTGCTCACCATCTACTTGAAGTCAATGCAACTTCTTGAAAGAAGATATTGTTGCCTAATAGATAGGTAATTGATCAAACCATGGGGTGTTGCACTTTCCTTTTGTGATTTCCATTTTTTCAGTTGGCATTTTTGAGTATCCATGTAAACTTGTAAAGTAGTTCAGTCAAGCTGGCTGAGGTTGGGTGATTCTTAGTGTTGTTTGGGCAAATTTTTGTTCGTTTATGGGTTATTTTCTGTAATTTTTTCCCAGTTGTGTTGTAGACCGTGAATTTCTGGGTGGTTTTGGTCAAGCTTTTTGGTAGGGTCAACTTTTGCGTTGTCTATATTCACAAGGTTTTGGCAAAATTGCCACCTGACCCTGACCCTCTAGTTCACTGGACGCAAGGGTTAGCTTGACTTAATTGGTAGGGATTGGTGCTCGAAAGCCTTGATGCAATTTCTTGAGGGCTTCATAGTTTGATATATTTGTTTTCTTTTTTAGGTTCCACCCTCTCTTGCTGGGTTTGTTAGCATTTGAAAACAGGTTTTGTATTTACCAGGTTCACATACTGTAGGATTTTACTCTAGTTCCAGGCGTTGGATGGGACTAGTTCTTGCCCCCGGTTTGATGTGCCATGCTACTAGTGACTTTTGTGCACATGTCTATGTTTATTGTAAAATGGCATGTTCACCATGGGGGAAGATTGTTTGCCATGTGTTAAGAATAATGGGTTTTCCCTCTGACGGTTTTGGACCGGCTACAAGTTTGTCTTGTGGGGTATGGTAAGGACAAGGAGAAGATGTTAATGTAGCGTAACGCTATTATGACAAGTTTGTGGCGTGTTAGGTTGGACTTTTGAAATTCTCGTGTCTTTTATCGAACTTCCTTATCTTTTGATTTGCGCCGGGACAAGGTACCTTATCTAGCTTCTTGATGGGGTAAGGGGGATGAGGCTTTTAGGAGCTATATCAGCTATTCGATTCTGGAGGTTCAGAGAAACTGACATTTAGATTCATAATCAAAGGGCAGGTCAAGGTTACCTGATTCGTGGTTCGCTTCGGTACGGGGTACGACTTCGGGTTCGCGATTCGCGGGTTGGCTGGTTTTAGGTTCGCAAGAGGGTTTGAAACTCTTTTTTCCAGGAATTTTAAAAACAAAATTGATCAAGATTTTGTTTTAATACTCATACATTCGTACTCAGATAATATGTTATTTCCTTCCCAAATAAAAGCCCCAACATATATTTTATTCTCTTGTCTTCCCTGACCTTCAATAGCTATAACTAGAGTTTCGGATTCGGCCTGACAATACCAATGATTTGTTTCGCGAACCACAGCGAATTGGGTCGCCGGAGAACCCGATTCGGTACGGGCGAACCGGTTCGAGATTTGCAGGGGGTACCCGCGAATCTGGTAACGCTGGGACAAATTTCCTCTTGTGTGTAGTTGGGTACTCCTTTTCTTACAGCTGATAATATATTATTGTTTCGCATAAAAAAGCCACGCTGTTGAATTTTCTTTGATTGAGAGAAGAGAGCAATAGTTGAGTTGTTTTTTTGTGTGTTCTTGCTCCAATAATTTTGTATCGAACGCGAGTCTTTTTGAATATAGGTTTGCTAAGCATGAAAGTTTGTTATCCTTCTTTTGCTTGCTGAGAACGCACAAATGCATCTATGTTTCGGTTATGTCTTAATGAAGTGATGCAACGTTAAATAAATGCTGACTGGAGTTGACTTCCTGAACATAATAGTTACTCAGTTCATTTGACACATTATCATCTTGTATCTCTGAACAGAGGGTGGAGGCCTTCATATAGAAATATTTTGCTTGATGTAAGAAAAGAGTTGAAAATTCCATGCTCTACAAAATTATCAACAGAGGACTTAGAGGTGGAGATTTTTATTCATGTACTTGGAGAATGTTCAAGGTAAATACTGTTATTTCCTACAAATAACAACTAACTCTTATCTTGTGTGACTATAAAAGACTAACAGTATGATTTCTTTGCACTTAAAGAAGTTACTATCTTCTTACATTTGGGTGTTGGACCTCTAAAGACCTTGCTAGATTGAAAATAGATATTTGTTTTCTTCTGTGACCAACACCCATAAGAGTGAATACAGTGTTGCAGAATATCTTTGTCCTCTGGTGGTGCAAAAGTCTAATTTTCTTTAGACATAAGGCAAGTTGTATACCTCTTCTTAAGTGATGGTCGTATGAGTGTTTGTGATGTCTGACCTATTGTCTTATCTTTTGCCTCCCTCAATAATTTTTTAGGAGTTATATGTTTACCGGCACAAGTATTAAGAAATTAGAGTTGAATGTAAATATAAATAATAAAGCAAGCAGGGGAGGGAGTAATAAACAAATAGAAAAAAGATGGTGGGAAAAGTATTTTGATCAAAGTAGAGAGGGAGTTTATTGTAGTAGTTGCCCCATAGGAAAGTAAGATATATTAAATAATTTGTGAGTGGGTAGAAAACTTACCAAAAATAGAAATATAACCCCTAAATAAATACTGCCGTAAGTGGTATATGTAACCCCTAAAAAATACGGAGGGAGTAATCTATTAAAAACATATAGAAGAACAGTAATAAATGGCGAAAAGCAAGGCATCATAGGAAAATAGAAAAGAATATAAACCTCTTCAGAAAGAGAACATATACATTTGGACATCTCAAATTTGAATAATTGACAGTTTCACTGGGGCTAGAACTCGGAAGGACATAATGAACTTTTATATTGGGGCAGCCGGGGAGGACTAAGGAAATCAGGAGTAGAAAAATGTTAACTGAATTGTAGTTAGATAAGTAAAAGCTGTTGTAGTAGGGAAATCATTTTAATTTTCATGCAGGCAATGGTAGTTTTATACAAGTGTCAGCTTCCAAAAGCAAAGTGTGCTGTCTATCTGGTACATGAGGTTTTTTCTTTGTGCTGTGAACCTAGTTGTGTGCTAAGTATAGGCAAGAAATATCTTTTCAGCTTTTTTTATTGTGCTATTTAGTACTCCAAGACTTCAAGTAGTGCATCAACAAATTTGACTACTTGAAATAGCCGACTGTGCGTATGCAAGTATTATGTGCTGTCATCATCTGTTGAAGTGAGTTACGCTCTTATGAGGCGATACCTTGCTGAATTCTTTCATCCTTTCTCCTTTTTGATGTCTTCATATTTGATTTTGTTTCAGAGACCGGGATACTGCCGCTGCTATAAAAGTTGGGACAGCAGAACTATGTTCGGTGCTTCTTAAAGTACTACTACTTTTGCATCATTCTCTTTATCTGTCTGGATCTTTAAAAAAATTCATTGGATTGTGTAATTATTTAATAGTTTTTGGTTTAGGGTGGTCAGCTGATTTCCATGTTGAAGATTTCTGAATTGGTAAGAGATATACTATAATGTGAATCATCGGATAGTTTGGATTCTCACTTCCATAGTATTCCACATTCCTCCTAATAATCTGCATAATGTGTCTCTTGCAAGGTAACGACCAGGTTATCAGGAAAATTGCTATTTGAAGCAGCTAAACATAAGCTAGACGGTGAATTTGTTAAAAAGGTACATGTTGATTCTGCAGCTGATCAATGTTGCTATTTGTAAATGAGATCATCCTTCTTTTTTTTTAATTATGTACCCACCTTAAGACCTGCTTTAAGCACTGTTCTCGTTAGCTAATCAAAATAAGTCGAGTTCCGCAAAAGAACAAGTAAAATTCAGCAAAATATGAGTCTTGTAAGGCCAAAGTTCAGCAAAAATAAGCTGTGGAGAACACAGCCTTAGTTATCAACTTAACGATGTGCACATCATGCTTTTTATTTTTTTGATAACATGTGGCACAACATGCTTAATGTTGCACATAAATTATTTTGAAATGGCTGCTTCGAATTTGGATGTGGCTATGAGTAAGATATTGCACCATAGTGTTTGTGAGAACAATTGGTGGTAATTTCTTCTGGAATTTTCTTTCAGAAGATTAGTTTAATGGGGGCGGGTGGTTTTATGATTCTTTTACTCTTGCTGATTTACTCTTAATCTCTTCTATCAATATTTTATTGTTTACGCCCATAATATCTCCTTTACAGTTTTCACTTTGTAGCTTTCTTTGGACAACCAAAATTCCTGTTAACATTAAGAATTTTATTTCAACAATTAGTATCAATGAACATGTTGTGTAAGAGCTAGTCTTATCTCTACACATTTGTCTGCTGTTTATTTGGTAGTGCAAATATGATGACTTGATGAGCATCTTATCCGACATTGTCACTTTGCCTGTCATGTTTGTTCCGTGGTTTATAAGATGCTTGGGTACTGAAGTAATACCGTTACATTTTTCTATGCTATTAGTAATCTAGTATTGTGTGGAAGAAGACCTAAATTTCCAAAAGTACCTGCTTTAATACACCAAAAATCTCAGATCCAAAGGTGCTATTTGGGTGTTTTGGTTGCAAAAACTTTGGATTTGGTTCTTATACAATTATGCGTGTGCACATGCGCTATATTCCCACTTAATTTTTGCCAACTATTGGACTCAATAGACGAAATGTTGACTTTTTGGCTGGAGTGTTGGCCAAAGGTCCCGTTTTTTATACAACTTTTTAATTCAATGTACTTTTTGACAAAATCAAACCAATAAGGTACTTAAAAGCAAGGTACTTTATGACAATTTTGCTTAAAAAAATAATAAAAAGGCCGAAATATATTTCCTCTATATATAACAATAAATAAGAGATTCCAATAATTTTGTCGACATGAGTGTTATATGTTTAAAATTTGTAATTATGTTTCTTTACTTTATTAATTATGCATAAAGTGTTGTTAATTTGATGAATTTTTCCATTTAGGCTGTTACTAAACTAATTCATTACCAACTAGAAACATAATAATATTTATGGAAGTGTGGTTATAGAGTAGGTTGGGGAAGTGAAATCCTTGGGTAGGATGGGTGAGGAATCAGTATAGAGGAATTTAAGGAAATCTTATTGTTCAAATTGGGAAAAAGGAATGACGTTTTTTAAGCAAAGAAACAGAATACGCTTTACTCCTTTTCCCTCTCTTGGCCCTCCATACCAATTGGCTATTTATATGTTTAATATAAATTTATTACCGGAAAGTAAAATAGTAGTGGTTTGTCCATTTCCGATGGAGCCAAAGATTCATTTGTTCTTTTGGCTGTGGGATGTGATGGACTAAATCAAAATGGCTCTTAATACCTCTTCGTTTCCTTTCCATGAAGTAGAAGATGGTCGTTCCGTTGTTGTCCCGTTATCGCTTTTGGGCCAATTGGAAACCTCTCTGCAATTGCAGGGGTAAGGTTGCGTACGTCCGACCCCCCTTTACCCCGCTTCTTGCGGGAGCCTCTTTGAGGCAATGGGGTAATGATAATGATAATGAAAGTAAAATAGTAGTGGTAACTACAATAATCTAGCAAAACCTTTGTCAACAATTCAACACCATTCCTTCACCAAATTGCATCTATAATTCAGTATTCCATGTATCCCATCTTCGAGAAAGAGTTGAGAGATGCACTCTTCAACTACAAACACCCCCTTATTAACGTTAACTTATGGAAATACTCGAGTAGGAATCAGGCTACAACAATATTTGATTTTTGCAGTACTTTTTTCCCCCTGTTTTGGCAAGTGATTCAAATTCGACTTTTCAGCATTTATGTACTCCTAGTTTATGCCTAAATAACCCTTTTTTGACAACCCACATCCTAGTGTAAGAAATCCGAATGCCCAAGTAAAAAGAATACCCTCATTGTACCATGCATCAAATCTATTCCGCATCATCAAGCATTGTGCATTTGTGCTGGTATGTTATATCTTCCAGTTTCATTACTGTCCAAATATTACTTCTAAATTCACTTGTTTATGCATTTGAAGTTGAATTACAATATTAGCACTATATACAATCACTGTAACTAGCCACGGCGTTCTTCTTTTACCGGTGTGTCTAATCCTAATTGACCTTTCTAATGTGTATTGGCATGCCCCCTTTAGCTAACCTAATTTGCTCCATTATATTTGTTGTAATATTTAGACTGATACTTTCGTGTATGATTGTTTCTTTTAGGGGCTTATTGGGTCTGCATCGCAATATTTTGGGTTTCGCAGTTTAGGTGCATTCGTTGGTCCACTGTAAGTAATTACGTACCTAGTCTTTCTTTTCTTTGTCTGTAAAAATTATTTATCTTTCATTTGTAAGTAACTACTTAAGATCTTCCTCAAAGCCCACGACATTGTGTTTGGGAGCATGAACTAATCTAAGCTTCTACCCTTTAGAATAAAAGCAGTTAACTCATGTAACACCCCGACAATTCTCTATTTTCTAGAATAACCTTTTAATATAAAACGTAGAGAATTATCAAGGCATTATCGCCCGTGTGAAAACGTAACGGCTTATTCAGAATTTTGCAGCGGAAAACATAAAACTAACTTTAGGTTTATAAATAATCAATTACAGAGTAAAATCCAAAACCAATCAACGAAAATAAAGTGATGTAGCTAGTACGACAAGTTTAAAGTTCAATTTAACAAACCTAAGTCAACTTAGCAAATCAAAAACAAATACAAACTCTCTAATCCCGATCCCAATGATGCATCATCTTCAAACCTGTAGATGGGCAACGCTTATTGATCCTTAGAGACTGCTCACCAAAATGGGTCATCACAGGATCAATAAGGCATAGCCATGATCAACACACACAAACAAAGCACGTACTCAGCAAAGTTGAGTACTACATACTAAATCAATAATAATTCTAACATGATTCTATTAAACGAACATTCCTAACATGATACTAATAACATAAGTAAGGACAACCAAAACGTATTAACTTGAAGACCACACTTGACTAGACTGGACTAGACTGGACTAGACTGGACCAGACTTTTATAACATTAATATTATTTAATTGAAATAGTCAATGGACCGAGTTGTCTACTAGAAGCCTTCACTGAGGAAGACGAGGTACGGGCGCGACTCCGTAACCCCAATGACCTGCGATATCGAGGAACTTTTGAGTAAAATAGAACCGGTGATCAATCCGCCCTCAGAAAAAGCCATAGGCGACCCATGACCCCAACTCCTGATTGTCCGTCACTTCAGACGTGCACAGTCTAAAGCTATTGCTACTCAGTTTCACTTTACATGATTTACCAATTAATATTTTGTTACAACTCATCAATCACATAAATCACCTAATCAACAAGTATTCACAATTGTTTTTATCTTGGAATTAAATAAGTGATCACAAAGCTGTCAATCAAGAATTTATTCCAATTAATTCAATCCTTCCTTTAATAATTGCTAACCACCTTTATGTAGGTGTAAAGTATCAACTTACTAAACAAGGTCCTCGGCCCTCATAAAGTAGTGAAATGCTAAAAGGGAACAACGATCAATTGATCTAAATCAATATATATAAAATGATATAAAGTTCCCAACTGACATGCTTGCATCAATCACCCATGCTAACATGCATAATTCTCATAATAAAGTTATATGCTCAATGCATTCATTCAACGACATTGAATCATGAAATTTCCAACATAACCCAGTCCACACATACATCCAACATAGTTTCAACAATAGCACACATTCACAAACACACAGGTATGTACGTACCTTGTGTAAACAAATTGAGAGGCCACTTTAATAATTCAAAAGTCGCCTAAGGAGAATTCTCCACCTAAAAACAACCAATATAGATTCATATCAATTCACATTGAATTTTCAGCAACATTAGGGTGCTTCAAACCCTTTATAAACATGATTAGAGCATTCCCCAATATCAAAACTTGGATATTTAATCTCCTAGCATAATGATTTCTTCACTAATAATCACAATTTATCATAAACTCCAACATAACATGCCCTTTGAAATTTCCAGCAACATAAACTAATTTCAAACTACTCCAAAACATAATTAACATGTTTAAAATCATAAAAAAAAATAACTTTCATAATTTATAACCATCCTACTATGATTTTAAAACTATTAAAATCCTAAAAATTTATTCTTTAATAATTTAAAACCCTTATTTAACAAAGTTATATAATCTGAAATTAATAACTTTATTACGTAGTTCATATATTTTGAAATCTATATTAAACCATAAAAACTATAAATTTACTTCAAGTAAACATAAATTAAATTGACAAAACATAATTAAAACCCTAACTTAAACATTATTAACAAATCTGAAAATAAACTAATTTATAATATCAACATATAATCTGAATTCTAAATATACATCATCAAAACTAATAATTTAAAACATGAAAAACATTAATTAATTTATTAAAACATGAATAATAATTTAAACAAATTGAAGGGGGAAGAAATAACAAAAAGAAGAAGAGAGGCACTGCTGGCCGGCGGCAATGGCGACGCGGCAGCAGGCGTGGGTGGTTGTCGGTCGGGCGACAAGGCCGGTGGCTGGGCGGCACACGGCGGTGCGTGGTGGCAGCGAGGTGGTGCGGCTGCGCAAACAAGCAAGGCACGATTTGAGCAGTAAGCAAAAGAGAGCGAAAGAGAAAGAGAAAGAACGAAGGAGAACATAAAGGAGGGACGAGAGAGACTACCGTGCAAAAGGGACGATGGTCAGGCGGCGGCAAGCCTACGGTGGTTGCTGTGAGAAACCGAAACAAGTGAGGAGGAGAAGGGCAAGAAAACGAAGGGGAAGGAGAACGAACGAGTGAGAGAAGGAGATATTACCGTGCGGCGACGGAGAGGGACAACGATGGAGGAAGCGTCGGTGGTGGTGGCGGCGGCGTGGAGTCGTGGACTGCAGCACACAGTTTGTTTGCTGGTTCACATGGGTTGTTGAAGGAGGAAAGGGTTTGTTGGCTTGATTGGTTTTTACGTGAAATTGAAAGAGAAGGGAGTAAAGTGTTTTGGGTTTTATTATTCTGGGCTTCACCCAATTGTGCTAGAATTAGGATTTAGTATTAGAATTTGAATCCAACACCGCTTAGGATTATTTTCTAAATTCAAATTCTTTTCAACATCAAATTCAAAAATTATTTTTTTGATTTCATAAATCGTTGAAATATTTAAAAATGTAATAAAATAAATATACGTTAATTATATATTCATTTCTAAAATTCGTAATTTCTATTTAAATATAATTAACTATACGCTAAAATATATTAATAACATTTATAATTTTACGGGGGATTACAACTCATTTACACCACAACCAAAGAAAAGTCTACAGTAACTCCGAATCTCTTTATTTACTTTCTTAGGCAAAATAAAGCTCTAACACCAAAAATTCTGGAGGCTAAGAAGAAAAACTTTAACAAGTTATAGCCGACGAGCATAAGAAAGAGTTCTTGCATTCCAAGTTTTAACAAGAGACTTTTACTACACATAAGAGAGCTTTTTAGTTGAAAAAGGCACCCCTAAGTACCCGAAAGGACTTTCCAACCGAAACTTTCAACTTGTTGATCATTTTGTCTCTAGTTTGAGTATCAACTCCACCTAAATAAATATTGCCCTTGTCAAGATTGGCTTCTAAACCAGAAGTTTGAGAAAAATCTGCAAAAGCCTTAAACAACAAAGCTATAGACACGTCATCAGCTTTAGCCAAAAGAAGTAGATCGTTTTCGACATTAAATGTGTGATGTTCATTTTCTCACATTTAGGGTGAAAGTTAAAGTCCGAGTTTCCCTTTAGTAGCAGCAACTTTCTTGAGAGATGCTCCATACTAATTGCAAAAAGAAAAATAGACACTAGATCACCTTGTCTTAACCCTTTTCTGGCATTGAAAGGTGTACTTGGCTTGCCATTGATCAAGATACTCTAGGAGACAGTTATGCAAATAAATTTTATAGGATGTGTGAGGGACCGAGGGCATCGTTGGTTAATATTTGCAATTGTAGGGGTATAAAATCGGTGGGCCTTTGGAGGCCTAAGATTGGGACTTGAGATTTCTATATAAGCCCATCTAGGGGTCGTCGTCGGGAGTATTTCTGTGATTTCCCTATGGAGGGTACTTTGGTAATTTCATTGTTTGAACGTGGGACTTGTAGGGTGCCCGAACAGATTATCAATCTGGGCTGATAATAACTTTCTTTTAGTGTGAGCTGTTGCTCTTGATTGTAATGTTGTGCTAGGCATAGCTAATGGTGTGTTGTGGACTAGCTTGGTAGGCTTTGTTTCCTTGTTTTGGTAACTGAAATCATTCTTTGCCAAAATAAAATAAACTTTTGGAGATATAAAGGTATTGGACTAGTTTGTACATGCATTTTTTTGTTTTTTTAGAAGATACTTTGTCCTCTTGGTTTATTCTCCTTTCTGTGTTATATAAAATTTCTCTCCTGCTGCGCAATTCGTGGACTGTGGACTGTGGACAGGGGGCAAAGTGAGCATGGTGCACCCAATGAACATAAAAGCATAAGTAAAAGAACATGACATTGTGTTAAAAGAACATGAGACATATGTTCTCTAGTTGTCATTAAAACTATAAAAAAACATAATCATGTTCTTAAACAAACATTTGTGTTCTTTGGGTGCACCATGCTCTATGCACCTATGTCCAGCATGCTCTCGTGCATATTGGAAAAGGTGAAAAGATGTCCACCAATCTTCGAAGTTGTTGGACCATAATTTTTGAAGTATTCAATAATGTCGCCAAGAGCTCCACTTCATTGAATGTTAGGAAAGGGAGGAAGGCATGAAGCTGTCGGCAAAAGTTGCTCTAACCAATAAATACCATCTTGTATGTCAACTGCAAAATGCTGATTAGGTCATATCCATTTCTGAGTAGTTTCTGTTTGCTGCTCTCGAAATACAGACTCATTCTGCATATGTTTAATGGAAATGGAGAAAATAAGCTCAGATAAGTTATCATCATTTTGAGGGAGTTTTGAAGGTTGTTGATCCAGATTGATGGTGCTTCCTGTGAATGTAAATCATTTTCTTTTAAGGTTGTTGATCCAGATTGAAGGTTGTTGATCCAGATTCTGGGCCCACTTAATATTTTGAAGCAACCTGTTTGTTATTTTTCTCCTAATCTGTCTTGGAACGCTTTCGTTTGTTCTTTTCTTATTAACCCCTACTTCAACATGAAGGCAGTTATGATTCAACATGAGATAAGAGTAGACTATTTTCTGATCCTTGGTTGAGAGCTAGACCTTCCCACACTTCTCTGTTAATGTATGATAGATCAATTATGTTAGGGACATTTCAATCAGCATTGATTCAGATCCTAAGGCTCTGTTTACAGATGATATCGACTAACTGAGGGTGGATCAATGCCAGGAAATGTGCAAACATTAGAGCCTTTTTCCAGGAATGAAGCTTGGAAGACTAAACTGTTGATCTAGTTCTACAGTCAGGACCCAAAGTTTTGTTGTTTCTTATCCATAATGATCTCATTTTAGCAGTTAGTAGAATTTTTAAAAATAACAGAAAGATATTAGTTGTTCCAAAAAGGACCTAGGGTTTTATGTGCGCTAAAAGGAGTATGACTTTGGCCCACTATTGATGTTCCTCAATATAGAGTATAAATAAAATAAATAATTGGCAGCCATATTGTATGACTTTGGCCCACTATTGATGTTCCTCATATATTGATGCCTTATCTACTTTCTGTGTCTTGTTAGGGTGTGGGGAACATTGTTAGCAGATATCGTCATCCAAATGTTAGGAACTGATTATATAAGGATCCTGCAAGCTATTTATGCCTTTGCTCAGGTACCTTTCTTATTTGTGCGTTATCTGTTTCTTAGATGCAGTTGCATGTATGGTTTTCCTAATTAAAACAAAAATAGTGAAATGCTGAGTATAACTGATGGTTGCCTTACCTGATAGAGATTTTGTTCATACTCCTCCGTTTTTTATGTTCCTCTTTACTGTATACTTATTGTTTCGAGGAGTGATGATTGGGGGTAAGAAAAAGGTGGGGAAAGTAAGAGACTAATAAGTAACGGTTTGTTCATGAAATGCCCCTGAGGTTTTATGTACCAAACACCGTCAACTTTTTCAAACCTGCACCTACCCTTGAGGTTTATAAAAATGCACCAAATACCCTTATTGACTAACGGTTGTTAACCCATTAACCCCTAATCATCCCTTTTCTCTGTTAACCCTAGCATTAACCCATAATTAATTTAATGAAGCACTTACCCACTAGATTAAACCCCCCTAAAGATAATTAATTAACTATTATAAAAAATTTTAAAAAAAAACAATAACCCCTTTGCTTATGTTGCTTCCTTTCTTCTTCGCTTCTATTACACCATCATCATCATCATCTTCTTCTTATCTCTCACCACCAAAGCCATGGCCGCCACCACCACCCAATGTTGCTTCTAATTCGCTTATGCTATGCCATCGACCCCCTTCCAATTTTGTTAATCATCGGGGGCATTTCATGAAAAAACTGATAAATCAATGGGTAATAGTGGGTAAAGTACGAGAAAGGTGATGAAAATGTGTAATTCTTATGGGAAAAAGTGCAAGATGGTAAAAAATGATTGCCAAAAATCATCATCATCATTATCATTATCATTATCATTACCTCATTGCCTCAAAGAGGCTTCCGCAAGAAGCGGGGGTCAAGTGTACGCAACCTTACCCTTGCAATTGCAGAGAGGTTGTTTCCAATTGACCCAAAAGCGATAGCGGGACGACAATGGGAAGTCCATCTTCTACTTCATGGAAAGGAAGCGAAGAGGTTTTAAAAGCCATTTTGATTTAGTCCATTACATCCCACCGCCAAAAGAACAAATGAATTTTTGGCTCCATCGGAAATGATTGCCAAAAATAGAAGTAGAAATTGATACATAAAAAAAACATATCTTTTTTGGAAAATGACCTATTGGAGACCTACCAACTAAATCAGCAACAGATTTTTACGGAACTAAAACTATTAAATAGTCCTTTTTTTTTATGTATCCACTTTCCAAAAAAAAGAGGTTTTTTAATGTATCCACTCTCCAAACAAGAGGCGTTTTTTTTAATAGGTAAGAAGACCACGTGAAAAACTTGAAGCACCCTTTCGGCTGGAGTACAGACGCTTCGAGATATTACAGTAGTAAGAAAAGAGAGCCTAACGAAACCCTAACTCAAGCACCGACCAAACCCCAAGCCCCAGTTCGGAGTATTAAACGGTGACGACACATTAAGCTACAAATACATACTCTTCTATCTCACCCAAAAACCGCAACTCTAAGCAAGACAGCAAAGAGCAAAGCTAAACTACATAAAAAGAAGGAAATCAAAACAATTACACAAACACAAAAGAAAACTATTCTGACCTATATAATACTACAATTTACAAACCTACCTAACATAATTACACTAATGAAACCCCTAAAAAATGGTTGCCATAAAAGTTGCTGAAGAAAGAACCAAGAGTCACAAGCACGCCATGATAGAAGGTAGATCGAACTTGACTATTAGCAAGTTTCACAGTAACATCTCATCTTCTATGTGATATGCCCACACACTCGATTTATTGTGCCTCATTATCATTAAACCATAAATAATATTATAATTACCCCTTCAAAGCATTTACAGTAACCCCATTTACACCATACTAATGCTTATTTGTAATGCCGTGATGCATGGTAAGAACTAAGGAACCTCATCTGAATGCGTCACACCAAGTGATTGAGTGGGTTGTGTGGCGTGCATACGTCGCACATAAGAATTTAGATACACTAAATTCCATACTTATCTGCATGCACGATTTATACAAAATGTAGATTCACTGTTTATTTTTTTCATCTTCATCTTCCTTTTCTTTTGTGCAGATCCGTATTCTTCGCAGACATGGTTTATACTTGGATAAGCTGAGAGCTGGATTTTAAGGAAGCTGCTGCGGTTTCATGAACTACTTGTGTACAGTTAATAGGATCAAATACTAGTCTTACGTTAATACGTTTACCTCTGCTGTATGATCTTGGATAGGCTGAGAGCTGGATTTTGAGAAGCTGCTGCAGTTTCATGAATTTGTGTACAGTTAATAGAATAAAATGCTAGCATATAGAAATATTTCTCTCTGGTTTGTTATCTACAAGCTGATCGAAAATTGAAAGTCTCAATTTAGTTTTTGTGGCCAGGTTACTCATCCCTTGCCATCTCATAATAATACACTAGATAATATTGAGTCATGCTTAGTTTTTTCAATTAAAATTGGAGAATACTTATCATTTTAGAATGACC

mRNA sequence

TGCTCCGGTTTGCAGAACAACGGTAAACAGGAGAGTGAGGATGGCAGCAGCAATTGCACCGCCGTTCATCCAGGATTATCATCACTCCTTTTACCGTCGCCACTTTCTCTCCCCCGCCGCCGCCTCCTCCTTCTTTCCGACAACAGCCATCACCACCTCCCTCCGCAGACTCCATGTTTTCAAAGCTCACAATTCCCTCCAAATTAACCACGACTCCAACCAACAACAGTCTCGCTATTCTCCTCCCTCAACGCTGGTGCCCTCCACGTCGCATTCCAGGGATTCAAACAATCTCCCCTCAATTCCACGCAATTCCACTGATGCTGGTGGGTGTGAGTTGAGGGCTGTCCTTGAACTTGCCACAAACTCTGAACTTTTCGAGATTGAGAAAATCCTCTTTGGACCCAGCTACCTTAGTCCCCTGCTGAAATCCGTTAGTAGTGGGGTGGAATTGGATAGATTCATGATTGAGGAGGACTTTGAAGAGCGAGACCATTTCATTGAAGTTCTCGAGTCTCGTTTCTTATATCTCGCAGCTGATGCTCGTTCTACATTGAGAGGGTGGAGGCCTTCATATAGAAATATTTTGCTTGATGTAAGAAAAGAGTTGAAAATTCCATGCTCTACAAAATTATCAACAGAGGACTTAGAGGTGGAGATTTTTATTCATGTACTTGGAGAATGTTCAAGAGACCGGGATACTGCCGCTGCTATAAAAGTTGGGACAGCAGAACTATGTTCGGTGCTTCTTAAAGGTGGTCAGCTGATTTCCATGTTGAAGATTTCTGAATTGGTAACGACCAGGTTATCAGGAAAATTGCTATTTGAAGCAGCTAAACATAAGCTAGACGGTGAATTTGTTAAAAAGGGGCTTATTGGGTCTGCATCGCAATATTTTGGGTTTCGCAGTTTAGGTGCATTCGTTGGTCCACTGGTGTGGGGAACATTGTTAGCAGATATCGTCATCCAAATGTTAGGAACTGATTATATAAGGATCCTGCAAGCTATTTATGCCTTTGCTCAGATCCGTATTCTTCGCAGACATGGTTTATACTTGGATAAGCTGAGAGCTGGATTTTAAGGAAGCTGCTGCGGTTTCATGAACTACTTGTGTACAGTTAATAGGATCAAATACTAGTCTTACGTTAATACGTTTACCTCTGCTGTATGATCTTGGATAGGCTGAGAGCTGGATTTTGAGAAGCTGCTGCAGTTTCATGAATTTGTGTACAGTTAATAGAATAAAATGCTAGCATATAGAAATATTTCTCTCTGGTTTGTTATCTACAAGCTGATCGAAAATTGAAAGTCTCAATTTAGTTTTTGTGGCCAGGTTACTCATCCCTTGCCATCTCATAATAATACACTAGATAATATTGAGTCATGCTTAGTTTTTTCAATTAAAATTGGAGAATACTTATCATTTTAGAATGACC

Coding sequence (CDS)

ATGGCAGCAGCAATTGCACCGCCGTTCATCCAGGATTATCATCACTCCTTTTACCGTCGCCACTTTCTCTCCCCCGCCGCCGCCTCCTCCTTCTTTCCGACAACAGCCATCACCACCTCCCTCCGCAGACTCCATGTTTTCAAAGCTCACAATTCCCTCCAAATTAACCACGACTCCAACCAACAACAGTCTCGCTATTCTCCTCCCTCAACGCTGGTGCCCTCCACGTCGCATTCCAGGGATTCAAACAATCTCCCCTCAATTCCACGCAATTCCACTGATGCTGGTGGGTGTGAGTTGAGGGCTGTCCTTGAACTTGCCACAAACTCTGAACTTTTCGAGATTGAGAAAATCCTCTTTGGACCCAGCTACCTTAGTCCCCTGCTGAAATCCGTTAGTAGTGGGGTGGAATTGGATAGATTCATGATTGAGGAGGACTTTGAAGAGCGAGACCATTTCATTGAAGTTCTCGAGTCTCGTTTCTTATATCTCGCAGCTGATGCTCGTTCTACATTGAGAGGGTGGAGGCCTTCATATAGAAATATTTTGCTTGATGTAAGAAAAGAGTTGAAAATTCCATGCTCTACAAAATTATCAACAGAGGACTTAGAGGTGGAGATTTTTATTCATGTACTTGGAGAATGTTCAAGAGACCGGGATACTGCCGCTGCTATAAAAGTTGGGACAGCAGAACTATGTTCGGTGCTTCTTAAAGGTGGTCAGCTGATTTCCATGTTGAAGATTTCTGAATTGGTAACGACCAGGTTATCAGGAAAATTGCTATTTGAAGCAGCTAAACATAAGCTAGACGGTGAATTTGTTAAAAAGGGGCTTATTGGGTCTGCATCGCAATATTTTGGGTTTCGCAGTTTAGGTGCATTCGTTGGTCCACTGGTGTGGGGAACATTGTTAGCAGATATCGTCATCCAAATGTTAGGAACTGATTATATAAGGATCCTGCAAGCTATTTATGCCTTTGCTCAGATCCGTATTCTTCGCAGACATGGTTTATACTTGGATAAGCTGAGAGCTGGATTTTAA

Protein sequence

MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSNQQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILFGPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLRGWRPSYRNILLDVRKELKIPCSTKLSTEDLEVEIFIHVLGECSRDRDTAAAIKVGTAELCSVLLKGGQLISMLKISELVTTRLSGKLLFEAAKHKLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVWGTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF
Relationships

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

Feature NameUnique NameType
Spo21209.1Spo21209.1mRNA


Homology
[Close]
BLAST of Spo21209.1 vs. NCBI nr
Match: gi|902217212|gb|KNA17640.1| (hypothetical protein SOVF_078350 isoform A [Spinacia oleracea])

HSP 1 Score: 672.2 bits (1733), Expect = 5.000e-190
Identity = 346/346 (100.00%), Postives = 346/346 (100.00%), Query Frame = 1 

		  

Query: 1   MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSN 60
           MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSN
Sbjct: 1   MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSN 60

Query: 61  QQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILF 120
           QQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILF
Sbjct: 61  QQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILF 120

Query: 121 GPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLRGWRPSYR 180
           GPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLRGWRPSYR
Sbjct: 121 GPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLRGWRPSYR 180

Query: 181 NILLDVRKELKIPCSTKLSTEDLEVEIFIHVLGECSRDRDTAAAIKVGTAELCSVLLKGG 240
           NILLDVRKELKIPCSTKLSTEDLEVEIFIHVLGECSRDRDTAAAIKVGTAELCSVLLKGG
Sbjct: 181 NILLDVRKELKIPCSTKLSTEDLEVEIFIHVLGECSRDRDTAAAIKVGTAELCSVLLKGG 240

Query: 241 QLISMLKISELVTTRLSGKLLFEAAKHKLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVW 300
           QLISMLKISELVTTRLSGKLLFEAAKHKLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVW
Sbjct: 241 QLISMLKISELVTTRLSGKLLFEAAKHKLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVW 300

Query: 301 GTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF 347
           GTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF
Sbjct: 301 GTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF 346
[Close]
BLAST of Spo21209.1 vs. NCBI nr
Match: gi|902217213|gb|KNA17641.1| (hypothetical protein SOVF_078350 isoform B [Spinacia oleracea])

HSP 1 Score: 469.5 bits (1207), Expect = 4.900e-129
Identity = 264/346 (76.30%), Postives = 272/346 (78.61%), Query Frame = 1 

		  

Query: 1   MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSN 60
           MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSN
Sbjct: 1   MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSN 60

Query: 61  QQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILF 120
           QQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILF
Sbjct: 61  QQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILF 120

Query: 121 GPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLRGWRPSYR 180
           GPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLR      R
Sbjct: 121 GPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLRD-----R 180

Query: 181 NILLDVRKELKIPCSTKLSTEDLEVEIFIHVLGECSRDRDTAAAIKVGTAELCSVLLKGG 240
           +    ++      CS  L    L                   + +K+  +EL +  L G 
Sbjct: 181 DTAAAIKVGTAELCSVLLKGGQL------------------ISMLKI--SELVTTRLSGK 240

Query: 241 QLISMLKISELVTTRLSGKLLFEAAKHKLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVW 300
            L    K                    KLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVW
Sbjct: 241 LLFEAAKH-------------------KLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVW 300

Query: 301 GTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF 347
           GTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF
Sbjct: 301 GTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF 302
[Close]
BLAST of Spo21209.1 vs. NCBI nr
Match: gi|731351855|ref|XP_010687244.1| (PREDICTED: uncharacterized protein LOC104901373 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 437.2 bits (1123), Expect = 2.700e-119
Identity = 236/339 (69.62%), Postives = 269/339 (79.35%), Query Frame = 1 

		  

Query: 13  YHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQIN--------HDSNQQQS 72
           +H+  +  +   P   S+FFP         +LH FK HNSLQIN        + ++ QQS
Sbjct: 35  HHYHSFNLYSSIPTPTSTFFPL--------KLHFFKTHNSLQINSSLQTNHSNSNSNQQS 94

Query: 73  RYSPPSTLVPSTSHSRDSNNLPSIPRNS-TDAGGCELRAVLELATNSELFEIEKILFGPS 132
              PP+  + S+ H    NNL  +P+ +   A   ELRAVL+LATNSELFEIE+ILFG S
Sbjct: 95  PLFPPTNPISSSLHP---NNLKPLPKTTGATASDPELRAVLQLATNSELFEIERILFGSS 154

Query: 133 YLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLRGWRPSYRNIL 192
           Y+SPLLKS++S VE DRFMIEEDFEER+HFIEVLESRFLYLAADARSTLRGWRPSYR +L
Sbjct: 155 YMSPLLKSINSPVEFDRFMIEEDFEEREHFIEVLESRFLYLAADARSTLRGWRPSYRKVL 214

Query: 193 LDVRKELKIPCSTKLSTEDLEVEIFIHVLGECSRDRDTAAAIKVGTAELCSVLLKGGQLI 252
           LDVRKELKIPCSTKLS EDLEVEIFIH++GECSRD D AAAIKVGTAELCS+LLKGGQLI
Sbjct: 215 LDVRKELKIPCSTKLSAEDLEVEIFIHLVGECSRDWDNAAAIKVGTAELCSMLLKGGQLI 274

Query: 253 SMLKISELVTTRLSGKLLFEAAKHKLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVWGTL 312
           SMLKISELVTTRLSGK+L+EAAK KL+     KGL  +AS+Y GFRSL  F+GP+VWGT 
Sbjct: 275 SMLKISELVTTRLSGKMLYEAAKRKLENGVATKGLSAAASRYLGFRSLATFIGPMVWGTF 334

Query: 313 LADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKL 343
           LADIVIQMLGTDYIRILQAIYAFAQIRILRRHGL+LDKL
Sbjct: 335 LADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLHLDKL 362
[Close]
BLAST of Spo21209.1 vs. NCBI nr
Match: gi|359495111|ref|XP_002263023.2| (PREDICTED: uncharacterized protein LOC100243690 [Vitis vinifera])

HSP 1 Score: 283.9 bits (725), Expect = 3.800e-73
Identity = 161/303 (53.14%), Postives = 197/303 (65.02%), Query Frame = 1 

		  

Query: 87  SIPRNSTDAGGCELRAVLELATNSELFEIEKILFGPSYLSPLLKSVSSGVELDRFMIEED 146
           SI RN   A   ELR VLELAT+SELFE+E+ILFGPSY SPLLKS+S   ++D  MIEED
Sbjct: 45  SISRNGQGAFDPELRPVLELATDSELFELERILFGPSYFSPLLKSISRRADVDYAMIEED 104

Query: 147 FEERDHFIEVLESRFLYLAADARSTLRGWRPSYRNILLDVRKELKIPCSTKLSTEDLEVE 206
            EER+ FI  LESRFL+LAADARSTLRGWRPSYRN+LL VRK+L +PCS+KLSTEDLEVE
Sbjct: 105 LEEREDFISSLESRFLFLAADARSTLRGWRPSYRNVLLGVRKKLNVPCSSKLSTEDLEVE 164

Query: 207 IFIHVLGECSRDRDTA-----------------------------AAIKVGTAELCSVLL 266
           IF+H+L + S +   A                             AA+  G +EL S++L
Sbjct: 165 IFLHLLQDYSSEESGALSKSWENSKASTSHGNLEFGLSQWKVQAVAALGAGASELRSIIL 224

Query: 267 KGGQLISMLKISELVTTRLSGKLLFEAAKHKLDGEFVKK--------------------G 326
           KGG ++++ KI  L+  RLSGKL  EAA +++  E +KK                    G
Sbjct: 225 KGGSMLTLGKIYHLLARRLSGKLFLEAANYQIKNEVIKKGGQLAAINLESRAALLAAKQG 284

Query: 327 LIGSASQYFGFRSLGAFVGPLVWGTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGL 341
             G+AS+Y G RS  A  GP++WGT LAD+VIQMLGTDY RIL+AIYAFAQIRI R + L
Sbjct: 285 FAGAASRYLGLRSTIALFGPVLWGTFLADVVIQMLGTDYARILRAIYAFAQIRITRTYRL 344
[Close]
BLAST of Spo21209.1 vs. NCBI nr
Match: gi|657966675|ref|XP_008375036.1| (PREDICTED: uncharacterized protein LOC103438275 [Malus domestica])

HSP 1 Score: 278.5 bits (711), Expect = 1.600e-71
Identity = 152/288 (52.78%), Postives = 192/288 (66.67%), Query Frame = 1 

		  

Query: 99  ELRAVLELATNSELFEIEKILFGPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLE 158
           ELR+VLELAT+SEL+E+E+ILFGPSY SPLLKS+ S   +D  M+EED +ER+ F+ VLE
Sbjct: 60  ELRSVLELATDSELYELERILFGPSYFSPLLKSIMSRTNVDHSMVEEDLDEREEFLAVLE 119

Query: 159 SRFLYLAADARSTLRGWRPSYRNILLDVRKELKIPCSTKLSTEDLEVEIFIHVL------ 218
           SRFL+LAADARST+RGWRPSYRN+LL VRKEL +PCS+KLSTEDLE EIF+H+L      
Sbjct: 120 SRFLFLAADARSTIRGWRPSYRNVLLAVRKELNVPCSSKLSTEDLEAEIFLHLLRDYSSE 179

Query: 219 -----------------------GECSRDRDTAAAIKVGTAELCSVLLKGGQLISMLKIS 278
                                  G         +A+KVG AEL S+ LKGG + ++ KI 
Sbjct: 180 ESGNFEGLLEFPELSDGQQSLQLGLSQWKVQALSALKVGAAELRSMFLKGGGIFTLAKIY 239

Query: 279 ELVTTRLSGKLLFEAAKHKLDGEFVKK--------------------GLIGSASQYFGFR 338
           +LV  +LSGK+  EAA ++L  +FV+K                    G  G+AS+Y G R
Sbjct: 240 QLVARKLSGKVFLEAANYQLKRDFVRKGGQLAAMNLESRAAFLAAKQGFAGAASRYLGLR 299
[Close]
BLAST of Spo21209.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RDT9_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_078350 PE=4 SV=1)

HSP 1 Score: 672.2 bits (1733), Expect = 3.500e-190
Identity = 346/346 (100.00%), Postives = 346/346 (100.00%), Query Frame = 1 

		  

Query: 1   MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSN 60
           MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSN
Sbjct: 1   MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSN 60

Query: 61  QQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILF 120
           QQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILF
Sbjct: 61  QQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILF 120

Query: 121 GPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLRGWRPSYR 180
           GPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLRGWRPSYR
Sbjct: 121 GPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLRGWRPSYR 180

Query: 181 NILLDVRKELKIPCSTKLSTEDLEVEIFIHVLGECSRDRDTAAAIKVGTAELCSVLLKGG 240
           NILLDVRKELKIPCSTKLSTEDLEVEIFIHVLGECSRDRDTAAAIKVGTAELCSVLLKGG
Sbjct: 181 NILLDVRKELKIPCSTKLSTEDLEVEIFIHVLGECSRDRDTAAAIKVGTAELCSVLLKGG 240

Query: 241 QLISMLKISELVTTRLSGKLLFEAAKHKLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVW 300
           QLISMLKISELVTTRLSGKLLFEAAKHKLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVW
Sbjct: 241 QLISMLKISELVTTRLSGKLLFEAAKHKLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVW 300

Query: 301 GTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF 347
           GTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF
Sbjct: 301 GTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF 346
[Close]
BLAST of Spo21209.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RDP1_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_078350 PE=4 SV=1)

HSP 1 Score: 469.5 bits (1207), Expect = 3.400e-129
Identity = 264/346 (76.30%), Postives = 272/346 (78.61%), Query Frame = 1 

		  

Query: 1   MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSN 60
           MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSN
Sbjct: 1   MAAAIAPPFIQDYHHSFYRRHFLSPAAASSFFPTTAITTSLRRLHVFKAHNSLQINHDSN 60

Query: 61  QQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILF 120
           QQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILF
Sbjct: 61  QQQSRYSPPSTLVPSTSHSRDSNNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILF 120

Query: 121 GPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLRGWRPSYR 180
           GPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLR      R
Sbjct: 121 GPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLESRFLYLAADARSTLRD-----R 180

Query: 181 NILLDVRKELKIPCSTKLSTEDLEVEIFIHVLGECSRDRDTAAAIKVGTAELCSVLLKGG 240
           +    ++      CS  L    L                   + +K+  +EL +  L G 
Sbjct: 181 DTAAAIKVGTAELCSVLLKGGQL------------------ISMLKI--SELVTTRLSGK 240

Query: 241 QLISMLKISELVTTRLSGKLLFEAAKHKLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVW 300
            L    K                    KLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVW
Sbjct: 241 LLFEAAKH-------------------KLDGEFVKKGLIGSASQYFGFRSLGAFVGPLVW 300

Query: 301 GTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF 347
           GTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF
Sbjct: 301 GTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLDKLRAGF 302
[Close]
BLAST of Spo21209.1 vs. UniProtKB/TrEMBL
Match: D7U694_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_17s0000g00930 PE=4 SV=1)

HSP 1 Score: 283.9 bits (725), Expect = 2.700e-73
Identity = 161/303 (53.14%), Postives = 197/303 (65.02%), Query Frame = 1 

		  

Query: 87  SIPRNSTDAGGCELRAVLELATNSELFEIEKILFGPSYLSPLLKSVSSGVELDRFMIEED 146
           SI RN   A   ELR VLELAT+SELFE+E+ILFGPSY SPLLKS+S   ++D  MIEED
Sbjct: 45  SISRNGQGAFDPELRPVLELATDSELFELERILFGPSYFSPLLKSISRRADVDYAMIEED 104

Query: 147 FEERDHFIEVLESRFLYLAADARSTLRGWRPSYRNILLDVRKELKIPCSTKLSTEDLEVE 206
            EER+ FI  LESRFL+LAADARSTLRGWRPSYRN+LL VRK+L +PCS+KLSTEDLEVE
Sbjct: 105 LEEREDFISSLESRFLFLAADARSTLRGWRPSYRNVLLGVRKKLNVPCSSKLSTEDLEVE 164

Query: 207 IFIHVLGECSRDRDTA-----------------------------AAIKVGTAELCSVLL 266
           IF+H+L + S +   A                             AA+  G +EL S++L
Sbjct: 165 IFLHLLQDYSSEESGALSKSWENSKASTSHGNLEFGLSQWKVQAVAALGAGASELRSIIL 224

Query: 267 KGGQLISMLKISELVTTRLSGKLLFEAAKHKLDGEFVKK--------------------G 326
           KGG ++++ KI  L+  RLSGKL  EAA +++  E +KK                    G
Sbjct: 225 KGGSMLTLGKIYHLLARRLSGKLFLEAANYQIKNEVIKKGGQLAAINLESRAALLAAKQG 284

Query: 327 LIGSASQYFGFRSLGAFVGPLVWGTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGL 341
             G+AS+Y G RS  A  GP++WGT LAD+VIQMLGTDY RIL+AIYAFAQIRI R + L
Sbjct: 285 FAGAASRYLGLRSTIALFGPVLWGTFLADVVIQMLGTDYARILRAIYAFAQIRITRTYRL 344
[Close]
BLAST of Spo21209.1 vs. UniProtKB/TrEMBL
Match: A0A059AVN8_EUCGR (Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_H00587 PE=4 SV=1)

HSP 1 Score: 274.2 bits (700), Expect = 2.100e-70
Identity = 149/281 (53.02%), Postives = 191/281 (67.97%), Query Frame = 1 

		  

Query: 99  ELRAVLELATNSELFEIEKILFGPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLE 158
           ELR+VLELAT+SEL+E+E+ILFGPSY SPLLKS+++  ++D  MI ED EER+ F+  LE
Sbjct: 165 ELRSVLELATDSELYELERILFGPSYFSPLLKSITNRADVDYAMIGEDLEEREDFLAALE 224

Query: 159 SRFLYLAADARSTLRGWRPSYRNILLDVRKELKIPCSTKLSTEDLEVEIFIHVLGECSRD 218
           SRF+YLAADARS LRGWRPSYR++LL VRKEL IPCSTKLSTEDLE EIF+H+L + S +
Sbjct: 225 SRFMYLAADARSVLRGWRPSYRSVLLSVRKELNIPCSTKLSTEDLEAEIFLHLLQDYSIE 284

Query: 219 R-------------------DTAAAIKVGTAELCSVLLKGGQLISMLKISELVTTRLSGK 278
                                  AA K G  EL S++ KGG LI++ KI +++  RLSGK
Sbjct: 285 ECGSSDVQDSLELGFDEQKVQAFAASKFGARELRSLIFKGGSLITLAKIYQMIARRLSGK 344

Query: 279 LLFEAAKHKLDGEFV--------------------KKGLIGSASQYFGFRSLGAFVGPLV 338
           +L EAA +++  E +                    KKG  G+A +Y G RS  + +GP++
Sbjct: 345 VLSEAANYQIRKEIIKKGGQLAAINLESRAALLVAKKGFAGAALRYLGLRSTMSLLGPML 404

Query: 339 WGTLLADIVIQMLGTDYIRILQAIYAFAQIRILRRHGLYLD 341
           WGT LAD+VIQMLGTDY RILQAI+AFAQIRI+R + +  D
Sbjct: 405 WGTFLADMVIQMLGTDYARILQAIFAFAQIRIMRTYRVPAD 445
[Close]
BLAST of Spo21209.1 vs. UniProtKB/TrEMBL
Match: W1PT88_AMBTC (Uncharacterized protein OS=Amborella trichopoda GN=AMTR_s00024p00113120 PE=4 SV=1)

HSP 1 Score: 269.2 bits (687), Expect = 6.800e-69
Identity = 149/305 (48.85%), Postives = 200/305 (65.57%), Query Frame = 1 

		  

Query: 83  NNLPSIPRNSTDAGGCELRAVLELATNSELFEIEKILFGPSYLSPLLKSVSSGVELDRFM 142
           ++L ++  N T +   ELR+VLELAT+SEL+E+E ILFGPSY SPL+KS+++G   D F+
Sbjct: 50  SSLAAVSGNLTGSYDPELRSVLELATDSELYELEGILFGPSYFSPLIKSIANGGGADGFV 109

Query: 143 IEEDFEERDHFIEVLESRFLYLAADARSTLRGWRPSYRNILLDVRKELKIPCSTKLSTED 202
           + ED + R+  I++LESRFL+LAADA+STLRGWRPSYRN+LL VR++L +PCS KLSTED
Sbjct: 110 LGEDQDAREELIDILESRFLFLAADAKSTLRGWRPSYRNVLLGVRRKLNVPCSNKLSTED 169

Query: 203 LEVEIFIHVLGE-CSRDRDT------------------------------AAAIKVGTAE 262
           LE EIF+H+L E  S D +                                AA+KVG  E
Sbjct: 170 LEAEIFLHLLQEYVSEDAEVNSLPWDDPKFSNIRPDGPWRRGLSQLKLQLLAALKVGAEE 229

Query: 263 LCSVLLKGGQLISMLKISELVTTRLSGKLLFEAAKHKLDGEFVKK--------------- 322
           L S +LKGG +++  KIS+L+  RLSGK+L EAA +++  E +KK               
Sbjct: 230 LTSTMLKGGGVLTFAKISQLLARRLSGKMLMEAANYQIKQEIIKKGGQLAAVNLESRLAL 289

Query: 323 -----GLIGSASQYFGFRSLGAFVGPLVWGTLLADIVIQMLGTDYIRILQAIYAFAQIRI 337
                G+  +AS+Y G RSL   +GP++WGT LAD+VIQM+GTDY RIL+AIYAFAQIR+
Sbjct: 290 LAARQGVACAASRYLGLRSLMMLLGPVLWGTFLADVVIQMIGTDYSRILRAIYAFAQIRL 349
[Close]
BLAST of Spo21209.1 vs. TAIR (Arabidopsis)
Match: AT1G73470.3 (unknown protein)

HSP 1 Score: 246.5 bits (628), Expect = 2.400e-65
Identity = 142/294 (48.30%), Postives = 184/294 (62.59%), Query Frame = 1 

		  

Query: 99  ELRAVLELATNSELFEIEKILFGPSYLSPLLKSVSSGVELDRFMIEEDFEERDHFIEVLE 158
           ELR V ELAT+SEL+E+EKILFGPSY SPLLKS+ +    DR MI +D E RD FIE LE
Sbjct: 61  ELRLVFELATDSELYELEKILFGPSYFSPLLKSIPNKGGGDRLMIGQDIEVRDGFIEALE 120

Query: 159 SRFLYLAADARSTLRGWRPSYRNILLDVRKELKIPCSTKLSTEDLEVEIFIHVLGECSRD 218
           SRFL+LAADARSTLRGWRPSYRN+LL VR  L IPCS++L TEDLE EIF++++   S +
Sbjct: 121 SRFLFLAADARSTLRGWRPSYRNVLLAVRNNLNIPCSSQLPTEDLEAEIFLYLVDNFSSE 180

Query: 219 R-----------------------------DTAAAIKVGTAELCSVLLKGGQLISMLKIS 278
                                         +  AA++VG  E+ S++LKGG +I+  K+ 
Sbjct: 181 ASGVFPGMWENSEVSEAEGSLELGLSKWKVELLAALQVGATEVQSMILKGGGMITFAKVY 240

Query: 279 ELVTTRLSGKLLFEAAKHKLDGEFVKK--------------------GLIGSASQYFGFR 338
           +L+  +LSGK+  EAA +++  E +KK                    G  G+AS+Y G +
Sbjct: 241 QLLAKKLSGKVFLEAANYQIRKEMLKKGGQFAAINLESRAALLAAKHGFAGAASRYIGLK 300
The following BLAST results are available for this feature:
BLAST of Spo21209.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902217212|gb|KNA17640.1|5.0e-190100.hypothetical protein SOVF_0783... [more]
gi|902217213|gb|KNA17641.1|4.9e-12976.3hypothetical protein SOVF_0783... [more]
gi|731351855|ref|XP_010687244.1|2.7e-11969.6PREDICTED: uncharacterized pro... [more]
gi|359495111|ref|XP_002263023.2|3.8e-7353.1PREDICTED: uncharacterized pro... [more]
gi|657966675|ref|XP_008375036.1|1.6e-7152.7PREDICTED: uncharacterized pro... [more]
back to top
BLAST of Spo21209.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9RDT9_SPIOL3.5e-190100.Uncharacterized protein OS=Spi... [more]
A0A0K9RDP1_SPIOL3.4e-12976.3Uncharacterized protein OS=Spi... [more]
D7U694_VITVI2.7e-7353.1Putative uncharacterized prote... [more]
A0A059AVN8_EUCGR2.1e-7053.0Uncharacterized protein OS=Euc... [more]
W1PT88_AMBTC6.8e-6948.8Uncharacterized protein OS=Amb... [more]
back to top
BLAST of Spo21209.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 0
Match NameE-valueIdentityDescription
back to top
BLAST of Spo21209.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 1
Match NameE-valueIdentityDescription
AT1G73470.32.4e-6548.3unknown protein[more]
back to top
InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
NoneNo IPR availablePANTHERPTHR37203FAMILY NOT NAMEDcoord: 35..343
score: 1.5E
NoneNo IPR availablePANTHERPTHR37203:SF2SUBFAMILY NOT NAMEDcoord: 35..343
score: 1.5E

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0009738 abscisic acid-activated signaling pathway
biological_process GO:0045893 positive regulation of transcription, DNA-templated
biological_process GO:0006355 regulation of transcription, DNA-templated
biological_process GO:0006508 proteolysis
cellular_component GO:0016602 CCAAT-binding factor complex
molecular_function GO:0003700 DNA-binding transcription factor activity
molecular_function GO:0046982 protein heterodimerization activity
molecular_function GO:0043565 sequence-specific DNA binding
molecular_function GO:0004176 ATP-dependent peptidase activity
RNA-Seq Expression
   



Co-expression
Gener valueExpression
Spo220170.72Barchart | Table
Spo048050.71Barchart | Table
Spo197370.71Barchart | Table
Spo216210.65Barchart | Table