Spo26489 (gene)

Overview
NameSpo26489
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionCanopy-like protein
LocationSpoScf_00189 : 76808 .. 91636 (-)
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.
ATGGCAACTGGTAAGTAAGAATGTTAATTAAAATAATAATGCATGGTAAGTAGACTAACATATAAGTTTATTTATCAAGATTTTACTCAATTCAGAATATGTTGTATTTGACTAACTCGGTTATGCTCGGGTCTTTTCGAAATTAGTCTTCAGTCATTCGGGTTTGGTTAACGTTGTTAGATCGTTCTACATACAAGTAAACGACTATAATTTTTAACTTTGTATAATAATATGCAAATTTAATTCATTTGAATATTTTTTTACACAACTCTGTTATTTTTACTTTCATGTTTTTCTAATATCACAAATACGTCTTTTTGTTACTATTAAAATAATAAATTATTTAAACTAGTTACACTCTAAAATACAGACTATTTCATAGTACGGAGTATAAATTTTCCCAAATTTAATTTAATTATTCACATCGTAATTTATAATGTCAATACGACTCATTTGCACATTTTAAAAAATAAATCACATCCGAGACTGTTCCGATTTTGATAAACTTTAATTTTCCGACATTTAATTGCTCACATCCGAGTGTAGTCCGATTTTTATAAACCTCAAAAATACCTTCGCCCTTTAACCACTTCCTGGCTCCCAACACAGTCTGCAGAACTACTGACTTGATCGAGTCGTCTTCAGGGAGCAGAATAGCTCAAGGAAACACAACAATGGCGGCATCCTGGTTATGGCTTGCGACAATCTTCGCCTTCTTAACCTTGGCTGCTTCTATCGAGGACAAATGCGCTGCTTGCCATGCTGTTGCGGTCTCTCTCTCTTTCATTCATCTCTTATTTGCTTCAATTGATTGTGTAGATCTGCATTTCTTCACTTGATTAGTTTTCGGTTTTTCGCAATCATTGAGTAACCTTACATTTCGATTCAATATGATTAATTTGAGAATTTAAATTGTTGTATTAGTGTCTGAATTGCCATTTTTGCTATCTTGCAGAAAGAGTTGGATCATGGGCTTGCTAATGTAAGAATTTGCTATTCGACCTACCTCACTTACTGTACTTTTGGTTTATTCATGCCAAAGTTCCATCCTTTTTCACTTCTGCATTCTTAATTTGTTGGCGGCTTTAGTTTATATTGCATTTTTTTTTAAATGCTTTATTGGGTTATTTGTGAATGCTACTACATTATCTCAATAGGCTACATTCACATACTATGTACTTATGTTTCATCTTATCGGATTGACCAGTAGCAGTGGGATTTGTAACAGAAAAAGTGATGCTGGCTATAATCAAATTCTGGCCATTTTGATCACAATTGCAATGTGTTGTGTTGGATGTTTCTTTTGAGAGAAAGTTTGAGATATTGCATCGCCGACTAAATAATAACAGTACTCCCTAAGTCGTATTCATGATTTTAGAATATATGTTTATTACAAAGCAATCAAATAAAGCTAGCATAATTACTTGAGGTTTTGGGGCTTCGATGTTAAAGACCTTGTCATAAATGTATGCTGCATATGGACGGGAAAACAGATGTGGGTTCCTGAAAGAGATCCTTCAATAGTTAAAGAAAAACTTGTGTTGCACTCTTCTAGCTTGTAAGCTAGAGGGAACAAGCTATCTGTCCAGAACTTTGATTATTTGATCACAAGTTTTTGCAGTTCCTACAAGAAAGTCGTGAAATGTCCGGTGTCAATAATAGAAACCATCCGTGCCATGGTCTTGGCGAGGTTAGGAAGTTGGGTACATTATTCTTTCTTAGCATCTAAACTCCATGCAAAAATCTCTGCTCAAGTTATAAGGCATTGTCCCTAGCATAAACCTTCCCCTCAACTGGACAAGAGATTTGGATAGTAGTTACCCGGATTGTAAATTATGCATATTGGTTGTGTGCTTTGTTTGACTATATATCTAGCCATGCAAATTACACCTGTAGCATTTTCATGTTGACTCAATGTATGACATAGGATTTATGTCCATGCCCTTCGCCGGAAACCATGTGCTTTATCAGATTCCAAAATCTCTGGAACAGATAGATGAGAAATGGGGAGGAAAGAACCAAGTTAAAGCTGCACCTGGCCTTCACTATCCTCAAATGTGGTAACTCAACTTTTTAGCACAACACCATGATTCTTACATCAAGCTATATTCCTATCGATGCACTTCTTGATCAAAGCTTGACAATAAAATATGCTCCTTCTAACCTTATATTGGGCAATGTTGCATACCCATTGTTTTTCCCCATTCATCTCTACCACTTGGTTGTTGAACTATAACTCTTTAGCTGGAGAAATACGCATATGCATGGCTTGTATGAAATTTTAGTTCTCTCTACCCAATCAATTCTGTAGAGGTGTACGTACTAAATATTCTTAACTGACTGCGGAGGGTTGAGTTCACCATTCAACTTTATGCTAAAATCAGGCTTCATTTGTGTCATGCCACTTTATATTTTGAAATACTGCTTTGCTTAACTATAGGTTTCAATAAATATTCACTTTTATCAAAATCTTGTCTAATATTTCTTAAAAAATGTAATTCAGGAGAAACCAAGGAATCATTTGGATTTAAGAAACCGTTTGGATTCTAAAGGACAGCGCAGAGGAAAAGTTATTGATTACAGGTATAATGATATACAATCCCATAGACTTTGGTCCATTTTCGGCCGGTGAAACTATACTTGATAATAAAAATGATATCACACATACCATCAACCTATTCCTCCTGCAAGAACTTCGCTTGCGGCGGGGTAAAGGGTATGGGATATTGGGATGTGTACAACCTTGCCTGTGTAATTGTGATTCGTGGAGTAATTTTTGGCGTGCTACATTAAGCTAACACAAAGAGTTGAGAATAGTTTAGTCATGAGTGGTATGTTTGATTTGGTCCCTTGTGATTCATAGTGGTGATTCTTTCTGTTTTGCTACTTCTATATTAGTGTTTTCTGTTGAAGATTCTTTTATCCTGTTTACCAATTTTCAAATTAGGAGTTTTCTTTTTGTTATCAAATTGTCGAGATGATTTTTATTAATTATTGTCTTTACACTTTTTTTTAGCAACTCAATTTTGAATGGGGTACAGACATTGGGAGAATAAGACAATGGGGGAAGGGAGGTTCTTTCCGTGTTGGCACCATATGAATGAAAAGAATTTGAGATGAAATTTCCATTGATGTTGACAATTTAGCCAATTCTGGGTGGAGTAGAAGCCATAAACTTTGCATAATTTTGACCCCATTTGTAAATAAGGAAAGGTAAACTAGAGAAGGCATCTTCTTCTATTTACTTCTGTTTATCTCCCTTCCTTCTGTTATTTTACATCTCACCCTGCAATTCAGACCTAATAGAGTGGTTTCCATGTTTGACTTGCATAGTTACATTTCTAACAAAGAGAAACCCTTCACTCAAATCGTTAAGGGTGGTTTGCAGCATATTTGATGATTTGTTGAATCTTTGCTGAAACTTCAGCAAGCAAATCTGACTTATGCTTGACCATGGTCCGGCCAAAGTGCCTTTATCCACTCTGGTATGAATTTTTTTTATCATATGACTTGCCTACAAACTGAGTTTGGGATAGGGATATAGGGTTAAGATTCCCTTAAGGTTACTTGCTAAATGTATGTATTGAGCGGGATGAATTGCAGCCCGGTTGATCAGCAGGGGACCAAAGAACATTTTATTTATCTTTTTCACAAGTCTCATAGGCTGTGAAATAATTTATAAAACATATGATGTCCTTGAATTTGGTGTAAAAATCTGTTAGGAAGTTGATTGCTTGTTCCAAAATCTGACATATACCAAATGATGAATCCTAGTTAGTCAATTATATGAACCTGGGATTGGGCATCTAATTGTCCACCCTCCGCCCTTATTGGCATGGGAATCTGGGATTGGATTTTCTTTCCAGTCACGTTATAATTGTGTGTGACTGTCTCCTGTCCAACTCACAGACTTTTTTTCTTTGCAACTTTTTCTAGAGTAAGCGAGCTAAGAGTAGTTGAACTCCTGGATGGCCTTTGTGAAAAGATGCAGGATTACACCCTTCAAAAGGCAAGTCTCATATTGACTTGATATCTACTCTTATTTCTTTCAACAAATTTATCCACAAATGCTACTCAGTTGCTGTTAAGTAAGCAATTTTGTTTATTATGACTTTTAAATTCCTAATGATACTTATACATTGTATCTTGAGGGTCGATTTTGTTAAGCTTCCTGAGCTTTGAGACATGGGCTAATTTTAACTTTTTTGTTGTTGTTGCAGACTGATTCCAACAGACAAGAATGGATTAAAGTTAACAACTGGGAGAACCTCACAGCAAGTATGTGTCAATACTTGCTAGCTTAGTTTCATTTGACTTTATCTCTCCTTTTTTCTCAACAAGTAATCAGCATAGGGTTATCATTAATCAACTAGAAGTTTTACAACCTAAGGTGAAAGAGAGGGATGTGCATACTGGGTAGGGCTCTCCTCAACTCAAACGTCAAAGACTAAATTTCCAAAGGATCGAAATATAACAACAATTTAAATTTCAAACCACCTTTTTCCACCATAAAAAAAAGAAGAGTCCCAGAAAGCCTTATTTCTAGCTCTACAAACCAAGCTGTAGCATTTGTGGCTCACAAAAGCGCACTTTCTTGGCAAATCTGTAACCTTGACATATTTTTTGAGCCAATTAAGCATGGGCTTCAAAATCTACTCACTTGCAGCCTATCTTTTTACATAAGTTGAACATTGCTGACTACATGATGTGTGTGGTGTGCATTGCCACATAGATGGCATATGTCATCATCACAGACGAAGTGCTTATATAGAATGCCTTTTGTTATCAGTTTCCCTAACCTAGCTGACCAGCATATATTAAACTAGGCTCAGTAATCAGCAAACCATCTTTGTTATGAATAGAATAATTTTCATTATGATTTCTCTTAACCCTTAAGCACTTGCGGAAGGAAGAAATGTTTGGTCCCCATCCTTTAGCCAATTGACCTACATTTTTTCTTAATGAAATCAAATACACCTTGTGAGCTTGAAAGTAACCAATTATTGCCACATTCTCTTTTGTAGCTAGCTTAGCATTGCCAGGATCCCTGCGTAAGAGATCTTTGACAGACCTCTAAAGCCAGAGAACGTTTGAGTTTTTCAATTGAATGTCATCACAGGAAACCCCCTTAAACATCTGCTTCACCCTCTTCATCTGGTAATATCTGCCAATTTTATGGTGTGTGTGGTTATAGCAAACCTCCCGGGTCTTTTCACGTGCTTCGTTATCTGATTTTTTATGGGACAAAGTCACTTTATGGGTGTCATGGGCTTAAGATTACTTGGTTGGGGAGGTTCGAAGGATCTGGGTTAATCTGTAATTACCCTTTTCTTTAGAGGACATCTTAATATCTTATCCTCTTTTGCTTTCACTCCTTTTTCTAAGCTGTTAATATTATCCTTTTTCTTTATTTAAAAAGTCCTGATACATAAGCACCCCAGGGCAATGAACATCTCAAATAGCTTTGACTCTATCAAGAAAACCATCCTTTTGGGACCAATAATTGATGAATCTGAAAGTCTGCCACTGCATTCAAGATTAGTAGCAACAATGGGGAGCATGATAAAAAGATGCCTTCAGGATCATCTTTGGCTAAATCTCGGTCAATTTTGCTATTCTGTGACTCTCCTGCATGTTCCAGTGTAGAACGGCTGAACAGGCCAGAATATTTGAGATCAGGGTGAGAACAATGGCCAATACAAGTCCTAAAAGGATGAATCTCAGCTAAGGAAATAGGATGACCATATCTTCCGTTATATGGGTTAAACACCCATAACAACCATTTATCCACCCTACTCATGAAACTACATAAGTGATCCCATAAAAGAGGAGGCTAAATTCTCAGCATAGACAAAAGAGGTGTAGAAGTCAACCCCTTTCTGAAGTGAGGTAGGATTCCAGAGAAATGAAAGTTGGAGCTGACGACAAAGGTTTTGGTAAATGGTAGGGATCGTGGAAGTTCCCTACATTAACCTTTGTCTCCAAGAGTCCGAATAAGCCAATGAAATGAGAAGCAGTGAAATTCCTTACCTCTGCATGTGATCCTAGCTTTCTAAGTTCCAACTATGTATACTTTTCAATTGGAAAGGAGCATGATCCCCTGATCATTTCTCAGAATCATCATTCTCAATAACAGAAAATTTTACAGTATCAAAATCTCCCTCCAAGAGAAATGCATCTAAAATTTTGCAAGAGGAACAATCCCAAAACTAATAACAGGACTCCTGTTATCCTTTGTAGGTTGCTGAAACCCATCACTATCAACATATATAGGATTAGGAGGTTGGGTGGCTATTGGTGTGGTCTGTGGTCTTTCGGACCCAAATTTTCTTCCCATTAGCTCTACAAGAATCAATATTATTCCCAAATTTGTGACCGGTAGAGCACACAATAGGCATCCTCTCATATTCAAGCTTTTGTTGAGTCCTAACATCCTTTTCCTTCAGCCTTATTGAACAGATACTTCAATCGTGATTCTAGCATAGAATAATTTTTCTCTTTTGTTGCTCTATCCATTTTCGTTTACCTCCCTAAGGAGTAAGATATTTTGCAGAGTTTTTTCATCCCAATACTTAAGGTCTAATCCCACAAGTTGAACTCCATTAGGCACATGATGCACTTCCTCCTTCCTCCTTCCAAATCAGGGCTCCATGGTTTCATTATAAGAGGCTTTCCATTAAAGGGTTGAACGCCATTAGCTAAGACAGCATCACTGTTTCATTTGTTTTGAATCTAGCTTTAAACAACCTGTTCTCATTCCGTACAAATTTCTCTATACCCGATGTTCCCCAAATTCTTTTAACAAACCCTTCCATGACAGCGAGGGAAGGTGGAGCCTAAAACATAACAAACAATGGCAGCATTCCAATTTGAAATTTCGTCACTAATATCATCACCACAAATTTGCACATCACAATCAGACAAATGAAAAGGCACAGGTTCGTTAGAGTTTCACGCTTCTGGCGCAGCAATAGTGACACCCTTGAAGAAGCACTTAAATCCGAGAAGACTTGCCTCCATTTGCACTTAAATCATCCTCAACTTGTTTCGACCTAGACTGGCTGGACTTCGCTAATTTCTCCTTCATATCAGAATCTGCTCGTAAAACCCTAACAGATTCTTTGTCCGCACTTTTTTTCCAAATCTAAATCTAGAGTTCCAATTATTCCATCCAACGATTTCGTCTTCCTTGCATCATCTGAAGTAGAAATGTAGAACTTCGACCACTTCTGTTTGACTGAGATTTCTGCTGCTTCTTGTGCCTTCCTAAATCCTAGTCATGGCAACTGGGAAAAGAAATCTGAATGTTAGGGAAGAAACCGAGAGAGAACATTTGGTCAAATGGCGAAGAACCCTAGTTCATTGAAAAGAGAGGAGAATTTCTCTTTCTAGTTCTCCTAGAATCTTGTCATCTCCTTAAACTTTCTTTTGATAAACAACAACTTTTCCCCCTTTCTACCCACTTAATAAGCTTTGCTTTAGCGAGTTAACTTCCTTAAGCTTACTATAGGTGGTAAAATGAATGATGTCATCTCTATTAAGTTGATGTGGTTTGGTGGCCTTAGTTTCTCCTTTCATCATCAAGACCTTCTGTTCCTGCCCTCACATTGTTGTTTGCAAATTAGTCCAATCCTAAATCATTCTTTCTTATAATGCCTTGCCTTTTGCCAAAAGATGGTGCGAGGATTCAGGCAGTCTAACATAATTGATGCTATCATAGAAAGGTGGCAGTTTCCCCTTCTTTTTGTTGTGGCAGAGTTATAGAAAAAATATGAACAATGGCAATTGTTTCTTCATGGATTGAGCTTTCTTGACAGTGTAGCAGAAAGTTGCAGTGTGCAAGCAGTATAGGTGCTCAGAGATATATATTTCACATAGGTTGTTGAATGTGTCACGTCTTTCTCTCTCATTGCAGAACAACTGGTGTCTTTAGCAGTAGTTCTCATATTATCTGTTGCATCTAGATTAATTTGTTTCCTCCGCGTGTTTGGGATATTTTCTAAAGCATTTCAACTTGCTTAAAGGATGATGTTAAAAGGAGGAGCTGATTATTTTGACTAGGCCTAAAAGAAAGGGAAAAGAGAAAGGATATAGGCTAAATTCTGACNCTGATTATTTTGACTAGGCCTAAAAGAAAGGGAAAAGAGAAAGGATATAGGCTAAATTCTGACAAAGTTGTGTCTGCAGTAGTTGATCTATCTTCCGCTTTAGGCTGTTTGGGGNGGGGGGGGGGGGGGGGGGGGGGGGGAGACAGAGGTTTCTTATACCAAATACTTCCTCCGTCCTAGAATACTCGTTACACTTTCCTTTTTCATCCGTCCCAGATTACTCGTTACACTTTTTTTCCAACCCATTTTAGGAAAGTTTTTATTATATTTTAATAGATGTCCCTTTCTCACTTTGGCCCACCACACAAATATTTTAATTTCAACTCCTATCCTTCAATATAAAAATATCATACATTTTCTTTCCATTAAAATAAAAAATCCCACTAATTTCCATCACATTTACTTTTTTATAAAATAATAAATTGATAACCACACTACTACCTACCGCATTAAACTGCGTGCCCAGGAGAGTGTAACGACTATTCTGGGACGGAAGGAGTATATGAAATAGCTAAATTACACAGAAAATAGTTTGTGCATATGGTGCTTATGTAATCCCCCTGCTTTGCTTTAAAAGGATTTAACGTACTACTTATACCACCAAGGTACACCTTTCTTTTAGGGAGCCCATATTCTAAGAAACTCCACAGTTAAGCACGCTGGGAGTAGTCTTAGGATGGGTGACCTCCTAAGAAGTTTTTCGAGGTGCGCATGTGTGAGGACAAAATGCACCGAAGAACTTGTGGTAGTCTGTGAGGCCAGTTATTGGTCCAAGATGTCATTTCGTGACAATCGGCTCCACCCTAATTAAGGGTTTGGGTGTTATAAATGGTATCAGGGCGACTCTACGACCGTGTACTGATTCTGTGGATTTAAGATCCCAGGTTAGTCGCATAGCGGGGGAGGATTCTGGGGCTATATCACCGGCTATGGCCAATTATGTGAGCAGTTTCCAACTTGGGGCGGAATTTCAGTTTCCGCAACGAGGACGTTGCGATCCTGAGTGGTATGTGGGGCCAGTTATTGGTCTAAGATGCTCATTTCGTGATAATCGGCTCCACCCTAATTAAGGGTTGGGGTGTTACAGCTTATATTCTCATCCTTCGATGGTCTGTGGATGTCAATTAAACTCGCATATATGGTCTCTAAACTTCTCGTAAAGTAACTGACTGTTTCATGTGTTCTTTTAGGCAAACAAGAAGCCCGAGCACATTCTAAAGATATATCGTCCTACTGCGGAAGGTCAGTGCTGATGATAAAACATTTTTATTTACTTTTTGTTGAAATGAAGAATATAGAATCTAATTTTTGCATGTTACAATTGATTAGGTTGTTGGAGGAAACTGAAGATGAGGCAAGTTTCTGGTTTACTTCTTGCTGATTCTATTCATGCTGAGGTTATCTGTACATTGATCAGTCTGAGTTTTCATGGTTGTGACAGTTGGCAGAATTGATAAAGAAGGGGTCTGTTGAACTTGGAGCTGTGGGCAAGGTATTATGCGAGGATCTCAGCCAACACTGCAGAAAGACTAGGTAATTACAAATTAAATGCCCAAGCAGTACTGCTATAGAAGTGGCTAATTTAGGATAACCCTGTCATGTGCTGGCCAGGGGAACTTGGGAGAGATTCCCTTGAGAGAGAGACCATCACTATACACCATTGAACTAATAGTCAAAGAACTTTAGCCAGGCTGCCTAGCTTCATCCTTTCAAGTAGAAATACTGGAGTTTTCTGGACGTGAAGCTGAATAAATTATACAATTCTAAAAGATATTAGTCTGATACAGTTCTTAGATGAGAATTGAGAATGAGTGTTATCGGATTGAAAAACCATTGAATAATAATGCACTAGAACTGCAACAATATAAAAACAAACAACAGTCTAGTGCCATAAGCAGTGTGTTCGAGGTGTCAAAATTTAGGCAGCATGCTCTTATTCGCTTTCATAATCTTTGAATAGGGAGTAACTAATCAGGTATTACATTTTATCTATTTAAGCACCAGCCAAAGAACTCTAGCCAGGCCAGCCAGCTTCACTCTTCACACACTTCTGACTTATCAGAAGTGAAGCTGGGCTTAGATTAGAATCTTCTGTAAAAGTTCAAAAAAACAATGACAACGTCGATGATAACAACCACAACAACTATAAGAACCAAATAACCTAAGTAGGGTTCTAAGGTGATTTAAATGGAGGCGGTTGTACCAGTGTACTCTCTGTGGTACATTAATTATTTCACTCTAATATCTGAAACTCTTTATTCTCATGCATGTAGAAGTATAGTAGCACTTCCACATTCTAAAAGCAACTGAATGGAAAACATTTGTATAAGCTTGGACGGGTAACTAAAAATGTTTGTTCTGCTTGGAGAGAGGTTCTGTATCTCGTTTGATTGTTGAATAGCACCCTGGTGATGGGCGTCCTACTAAGCTGTTTGTAAACTTACATAGATTGAGTTGAACCTACATGACCCCAGGAGATTGACTATTGCCTGTAAGAATTTGGTGACTACCAGAAGCATAATGGAGGCATGGAGGCCCTTTGTAGTCTACAATTTTGTGCAGATGGACATGTGTAATAACTCCGTTAAAGATCCCTACGAATAGCAATGAAAAGGTTGTGGTACTATGCAGGAGCTACTTAAGAACTTAAAGAGCGACCATCTATACTATATATTAAAAGGCGTTTCTAAAAACTTCTACATGCCAAGTGGCGCTCTCCCTCAATTCATTAGTCCATGCTAGCAATCCACTTTCATTTAAAAAATAAATGAGAAATATGGTTTGGATAAGATTTGCACTTGCGACCTTCAGTTTCAACACTAGAGCATTGTCCAGTTAAGCTATAACCTTTTACATGTTATCTTTGCAAAATTAATATTAAGGTATATAATAATTATCTTGTGAAAAGGAAATTAACATAATTTCATTAAAAAATATACTCTCTCCGTCCCGGAATACTCGACCCGGTTTGACCGGCACAGAGTTTAAGGGATTTGAATTGACTTATTTAATTTAATAGGTAGTAGTTGATAGTGGGGTATTATTTTAATGTAGTTAGTGGGAAATTTGTAAAGGGGTGGGGTTGGGGAGAGTAGGGGTTGAATTTTTAATTATTTTTTGTATGGAGTAGGGGGTAAGTGGGTTAATAGTAGACCTGTCAAACGGGTCGGGTCGGGTCAGAGACGGTCAATTTCGGGTTCGGGTTTAATCGGGTCGGTCACTTTCGGGTTCGGGTTGACAAATGCTTGTTCAAGATCCAGAGTGTTCGGGTTCGGGTTGACCCAACGGGTTGAGAGCTTTTATTACGCCTTTTTTCTAATATATTTTTTTAATGTTTTTTTGGTAAGTAGCCGGTATATTAACAAGTTATAACCAAAATATATATACATTCTATCAGAATAAAGTCAGTATATTAACAAGTTATAACCAAACTCATCATTCTAATTCTAATACCATAAATTCCCAGTAAAAATGTATGAATAAAGCCAAAAATCACCACTTTGACTTAAAAATCAACACTAACAGTTATATACACGTACTTTAAAATATAAAATTTTGATAAAGGGATTACATAATCACATACACACGACGGGTACAATCCCCCAAAGTCCCAAACCAATTCCGGAGGAAGTTTATCCAATTACTACTATGAAAAGTATAATTACAACTCAAACACGGTGAAAAACAAACAATTATCAATAATCCAATCATATATACAATGTAACTCAAAGAACAATTAACTGATAGTTTCGAGAACATATGAGAATATACATTAACTAAGGGATGGGGGGTTGAGACGTGCAAAGCTGCAAGCAAGGGTTATGTCGAAGGAACAACATCGAAGGAATGAAGAACTTAATCCAGCATGGTTCTGGTATTGTTGTCAAGAGGTCTTTCTGCCACTCCAATGAGCATTATTTGTGTTATTATAGCCTCATTCTTTGATACCTTCTAAAATAAGGAAATCAGAGAGCTTGAGACAGAGAGAGAGGGAGAAAGAGAGAGAGAGAGAGAGAGAGAGAGAGGGAGAGAGAGATGAGTGTTTGAGATTGAGAGGAGGCGGCTAAGTGGCTAATTGATACGGTAGTTTTAGGTTTAGGTTGTTTTTTCCTCTTTTTCAAAAAAAAAAAAGTAATTAATTAATTCTTTCATTTAACACTGAACCCGACGGGTCAGACCCGACCCGACCTGTTCTTGACCCGAAAATTTCGGGTTGTTCGGGTTCGGGTAAAAGCGGGTTACAGGTTGGAAAATCTTGTTCAAGACCCGTTTTTTTCGGGTCAGTTTTCGGGTCGGGTCGATTTTTGACAGGTCTAGTTAATAGGGGTGGAGTGAGAAATAATATAATATTGTTAGAATATTTCCATTTTTAGAAACAGGTCAAGTATTAAGGGACGGCCCGATAAGGAAAACAGGTCAAGTATTCCGGGACGGAGGGAGTAATAGTTAATTGTTATTCACATAATAACCCGGGGCATCCGGGCTCAAATACTAGTGTTTATTCAATTAAAAGAGACTCGTCTGGGGTTTTCCTGGCTTTCTTTTTCACTCATGTCAATTATGATTAGTGAATCGAGAATTTACTGGCATTCCCTTTTTACTGCAACTCCAGACTATCCTAGCCAAATTGCTTCGTTTAGAATAGTCAAACCCTTAAATGATGGAAATTAAAAGTTTCACAGCTAGTAGAGATGTGAGGGTATGGAGAAACCCAGGATCTTGTAGGTAGTATAAAAAAAATGACATGTGGAAAGGGAAGAGAGAAGATGTAATAAGCTGGTTAGAAACTTCTCGTATTGATTATGTACAGGTCTAAAATTGATGGAAATGGGATTTCAGGAAGAAGAATCCTTAGGTTTAGCATGAGTGCATGATAATAACTGATATGGATTTTGGTTCAATTGGAGAGGAACTGAATGGATTATACAGATATGATAAGAATTTCCTTAACCCTTCTCCCCCTACCCTTTTTTGTATTCCTGTGCCTTGATCCTTCCCTCGTCTTGTTCCTCTCTTTTGCAGTTCAACCCTGTCACTGATATGCCTCTCTCTCGCTGTGTCCCCACATCCCTCCACCCAGTTTGGTTCTCGTTATCATTTCTAAAGACTGGAGTGGCCTAGTTATGGGAATTTGGTGTTCCAATTTTTCACTCCCTTATTCAATAGGCAATAACATAACATTTTCCATTTTTGTTGGTCTATGTCGCTAAGCCAGGTATGGGAAGGGGTAGAAGTGCTGGTAGAACTGTTGCAGGGTACGTAGCATAGGGACATAACATTTTCCGTTTGTTGGTGTGTGCCGCATAAGCCAGGTATGGGAAGGAGTAGAAGTGCTGGTAGAACCGCAGAAGCAATGGTGTTTATGGTGAGAGAGGCTGCAGGTACATGGCATAGGGAAGATTAGGGAGAGAAGCGACGAGGGTGACTGGTGTATTGAATCTGAAATCACCACACTACCTCATGTCTTGGGGTTTCAAGGTTGTGCATTCCAATGATTATTCTATTCTTCACTTAACACATTCCTTACTTGAAGGAACAAAATGTCCCCAGACTATAGAAGGATAGAAACGTCATCTTTGATGGAAAGTGGAAACTGATACCCTTTTTTTTTATTTGTTTTTTCTTTTCCTTCTTTAATTCCATTTTTTTACTAGAGCAGAATAATTAACTTACTGCAGAAATAGGATTGAGGCTGATTGACCATTTAGAGTAAGGCTTCGTTTGTTCTTTTCACGATTTTACATTGGTTTTACCTATATGAACCTAGTAGAATTTGTACAAACATATTCTAGCTTATTGGCCCCATTATTTACTTACCTGAACTAATCTTAAGTTGATTTATAATCGTGTAATAAAACTTGGCAACCCTTAACTTTCCTGAACTATTGTAATCGATTTGCACTTATCTTAATTTACTTATTCCTGAAACTTATTTAATCTCTGCAATCTTGTGCAGTAACTTACAAAAGGAAGCTGACAGTGATGATGATGATGATGATGACGATGTAGAGGAGGAACTTTGAAGCCCTTTGAGTTCTAAGTTCTGAAGGAAGATACAAATTGCTGATCTTTTGTCAGATTTTTTTTATTTTTTTTGAGGGAAGATCTTGTGTCTGATTTCTAATGAGATCTCATCCATTGGTTGCATCAAGTGAAAAATTTGAACTCTTGCTGTTATATGCGAGAGTTCCATTACATCCATACAGCTAGATAGTGGTTCAAATAGCATCATCCTTTGCTTTTCCCCAACCCCCAGAATAGGAAAGTTCGATTCATTGTTGTATAACGAAAAGGTTCTACATGAATTCTTTCAGAAACATCATCATATATGAAAAGGGAAACATTCAACATTTCAACAGTATCTTATTCATGCACCATTAATTTAATTCTAATTTCTGTAACCATGTATTTTAAATGCTAGATTCATTAATAATAAACCAACATCTTTTAAGATTTTAATGGTCTTTTGTTCCACAATCCATATATTCTTAATTTTGAATGGTCGAGAGAGAATGTGTGAACTATTTTTGAAAAGAGGGAGTAGTAAACAAGCAGTAAGCCCCCCCCTCCACGGGTCTTGCGTACATCAATGGAGACGAGAAATAATGGTTCTATTAAGCTACAAGCACTAAACAATTATCCTGGGGTTGTACAACATAAATAAACTCTGCTGCTATTTCCTGATGCACAAAAAAATGATCGCCGAATAATTACATTCTAC

mRNA sequence

ATGGCAACTGTCTGCAGAACTACTGACTTGATCGAGTCGTCTTCAGGGAGCAGAATAGCTCAAGGAAACACAACAATGGCGGCATCCTGGTTATGGCTTGCGACAATCTTCGCCTTCTTAACCTTGGCTGCTTCTATCGAGGACAAATGCGCTGCTTGCCATGCTGTTGCGAAAGAGTTGGATCATGGGCTTGCTAATGAGAAACCAAGGAATCATTTGGATTTAAGAAACCGTTTGGATTCTAAAGGACAGCGCAGAGGAAAAGTTATTGATTACAGAGTAAGCGAGCTAAGAGTAGTTGAACTCCTGGATGGCCTTTGTGAAAAGATGCAGGATTACACCCTTCAAAAGACTGATTCCAACAGACAAGAATGGATTAAAGTTAACAACTGGGAGAACCTCACAGCAAGCAAACAAGAAGCCCGAGCACATTCTAAAGATATATCGTCCTACTGCGGAAGGTTGTTGGAGGAAACTGAAGATGAGTTGGCAGAATTGATAAAGAAGGGGTCTGTTGAACTTGGAGCTGTGGGCAAGGTATTATGCGAGGATCTCAGCCAACACTGCAGAAAGACTAGTAACTTACAAAAGGAAGCTGACAGTGATGATGATGATGATGATGACGATGTAGAGGAGGAACTTTGAAGCCCTTTGAGTTCTAAGTTCTGAAGGAAGATACAAATTGCTGATCTTTTGTCAGATTTTTTTTATTTTTTTTGAGGGAAGATCTTGTGTCTGATTTCTAATGAGATCTCATCCATTGGTTGCATCAAGTGAAAAATTTGAACTCTTGCTGTTATATGCGAGAGTTCCATTACATCCATACAGCTAGATAGTGGTTCAAATAGCATCATCCTTTGCTTTTCCCCAACCCCCAGAATAGGAAAGTTCGATTCATTGTTGTATAACGAAAAGGTTCTACATGAATTCTTTCAGAAACATCATCATATATGAAAAGGGAAACATTCAACATTTCAACAGTATCTTATTCATGCACCATTAATTTAATTCTAATTTCTGTAACCATGTATTTTAAATGCTAGATTCATTAATAATAAACCAACATCTTTTAAGATTTTAATGGTCTTTTGTTCCACAATCCATATATTCTTAATTTTGAATGGTCGAGAGAGAATGTGTGAACTATTTTTGAAAAGAGGGAGTAGTAAACAAGCAGTAAGCCCCCCCCTCCACGGGTCTTGCGTACATCAATGGAGACGAGAAATAATGGTTCTATTAAGCTACAAGCACTAAACAATTATCCTGGGGTTGTACAACATAAATAAACTCTGCTGCTATTTCCTGATGCACAAAAAAATGATCGCCGAATAATTACATTCTAC

Coding sequence (CDS)

ATGGCAACTGTCTGCAGAACTACTGACTTGATCGAGTCGTCTTCAGGGAGCAGAATAGCTCAAGGAAACACAACAATGGCGGCATCCTGGTTATGGCTTGCGACAATCTTCGCCTTCTTAACCTTGGCTGCTTCTATCGAGGACAAATGCGCTGCTTGCCATGCTGTTGCGAAAGAGTTGGATCATGGGCTTGCTAATGAGAAACCAAGGAATCATTTGGATTTAAGAAACCGTTTGGATTCTAAAGGACAGCGCAGAGGAAAAGTTATTGATTACAGAGTAAGCGAGCTAAGAGTAGTTGAACTCCTGGATGGCCTTTGTGAAAAGATGCAGGATTACACCCTTCAAAAGACTGATTCCAACAGACAAGAATGGATTAAAGTTAACAACTGGGAGAACCTCACAGCAAGCAAACAAGAAGCCCGAGCACATTCTAAAGATATATCGTCCTACTGCGGAAGGTTGTTGGAGGAAACTGAAGATGAGTTGGCAGAATTGATAAAGAAGGGGTCTGTTGAACTTGGAGCTGTGGGCAAGGTATTATGCGAGGATCTCAGCCAACACTGCAGAAAGACTAGTAACTTACAAAAGGAAGCTGACAGTGATGATGATGATGATGATGACGATGTAGAGGAGGAACTTTGA

Protein sequence

MATVCRTTDLIESSSGSRIAQGNTTMAASWLWLATIFAFLTLAASIEDKCAACHAVAKELDHGLANEKPRNHLDLRNRLDSKGQRRGKVIDYRVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIKVNNWENLTASKQEARAHSKDISSYCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKTSNLQKEADSDDDDDDDDVEEEL
Relationships

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

Feature NameUnique NameType
Spo26489.1Spo26489.1mRNA


Homology
[Close]
BLAST of Spo26489.1 vs. NCBI nr
Match: gi|731314517|ref|XP_010686912.1| (PREDICTED: protein canopy-1 isoform X1 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 306.6 bits (784), Expect = 3.400e-80
Identity = 154/181 (85.08%), Postives = 165/181 (91.16%), Query Frame = 1 

		  

Query: 29  SWLWLATIFAFLTLAASIEDKCAACHAVAKELDHGLANEKPRNHLDLRNRLDSKGQRRGK 88
           SWLWLAT FAFLT A  I+DKCAAC+AVA+EL+HG+ANEKPRNHLDLRNRLDSKGQRRGK
Sbjct: 6   SWLWLATFFAFLTFATPIDDKCAACYAVAEELEHGIANEKPRNHLDLRNRLDSKGQRRGK 65

Query: 89  VIDYRVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIKVNNWENLTASKQEARAHSKDI 148
           VIDYRVSELRVVELLDGLCEKMQDYTL KTDS RQ WIKVNNWENLT +KQEARAHSKD+
Sbjct: 66  VIDYRVSELRVVELLDGLCEKMQDYTLLKTDSKRQTWIKVNNWENLTVNKQEARAHSKDM 125

Query: 149 SSYCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKTSNLQKEADSDDDDDDD 208
           SSYCGRLLEETEDELAELIKKGSVE GAV KVLCED+SQHC+KTS   KE D DD+DD +
Sbjct: 126 SSYCGRLLEETEDELAELIKKGSVEPGAVAKVLCEDVSQHCKKTSGSLKEVDGDDNDDIE 185

Query: 209 D 210
           D
Sbjct: 186 D 186
[Close]
BLAST of Spo26489.1 vs. NCBI nr
Match: gi|720032803|ref|XP_010266228.1| (PREDICTED: protein canopy-1 [Nelumbo nucifera])

HSP 1 Score: 259.2 bits (661), Expect = 6.200e-66
Identity = 134/192 (69.79%), Postives = 158/192 (82.29%), Query Frame = 1 

		  

Query: 23  NTTMAASWLWLATIFAFLTLAASIEDKCAACHAVAKELDHGLANEKPRNHLDLRNRLDSK 82
           N    A  LW+ TIFA     A I+DKCAAC AVA+EL+ GL+NEKPRNHLD+R+RLDSK
Sbjct: 6   NKGAVAYLLWVVTIFAIFVSVACIDDKCAACSAVAEELEIGLSNEKPRNHLDMRHRLDSK 65

Query: 83  GQRRGKVIDYRVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIKVNNWENLTASKQEAR 142
           GQRRGKVIDYRVSELRVVELLDGLCEKMQDYTL+K DS R EW+KV++W+NLT  KQEAR
Sbjct: 66  GQRRGKVIDYRVSELRVVELLDGLCEKMQDYTLKKLDSTRMEWVKVDDWDNLTIDKQEAR 125

Query: 143 AHSKDISSYCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKTSNLQKEADSD 202
           A+SKDISSYCGRLLEETEDE AELI+KGSV++G V KVLC+DLS+HC +TS       ++
Sbjct: 126 AYSKDISSYCGRLLEETEDEFAELIRKGSVKVGDVSKVLCQDLSKHCSQTSGSHL---AE 185

Query: 203 DDDDDDDVEEEL 215
           DD+DD+  E +L
Sbjct: 186 DDEDDEGSERDL 194
[Close]
BLAST of Spo26489.1 vs. NCBI nr
Match: gi|225457592|ref|XP_002273352.1| (PREDICTED: protein canopy-1 [Vitis vinifera])

HSP 1 Score: 258.5 bits (659), Expect = 1.100e-65
Identity = 133/189 (70.37%), Postives = 161/189 (85.19%), Query Frame = 1 

		  

Query: 26  MAASWLWLATIFAFLTLAASIEDKCAACHAVAKELDHGLANEKPRNHLDLRNRLDSKGQR 85
           MA + + +A IFA  ++A  I+DKCAAC+AVA+EL+ GL+NEKPRNHLD+R+RLDSKGQR
Sbjct: 1   MAVAMVRIAMIFAIFSVAFCIDDKCAACNAVAEELEFGLSNEKPRNHLDMRHRLDSKGQR 60

Query: 86  RGKVIDYRVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIKVNNWENLTASKQEARAHS 145
           +GKVIDYRVSELRVVELLDGLCEKMQDYTL+K DS R+EW+KV++W+N+T +KQEARA+S
Sbjct: 61  KGKVIDYRVSELRVVELLDGLCEKMQDYTLEKIDSTRREWVKVDDWDNITTNKQEARAYS 120

Query: 146 KDISSYCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKTSNLQKEADSDDDD 205
           KDISSYCGRLLEETEDELA+LIKKGSV+ G V KVLC+DLS+HC  TS    +    D +
Sbjct: 121 KDISSYCGRLLEETEDELADLIKKGSVKTGEVSKVLCQDLSKHCSVTSFSSHQV--VDHE 180

Query: 206 DDDDVEEEL 215
           DDDD  EEL
Sbjct: 181 DDDDASEEL 187
[Close]
BLAST of Spo26489.1 vs. NCBI nr
Match: gi|645265038|ref|XP_008237962.1| (PREDICTED: protein canopy homolog 1 [Prunus mume])

HSP 1 Score: 257.7 bits (657), Expect = 1.800e-65
Identity = 126/161 (78.26%), Postives = 146/161 (90.68%), Query Frame = 1 

		  

Query: 33  LATIFAFLTLAASIEDKCAACHAVAKELDHGLANEKPRNHLDLRNRLDSKGQRRGKVIDY 92
           L  IF  L++A+SI+DKCAAC+AVA+EL+ GL+NEKPRNHLD+R+RLDS GQRRGKVIDY
Sbjct: 10  LVLIFTILSVASSIDDKCAACNAVAEELELGLSNEKPRNHLDMRHRLDSTGQRRGKVIDY 69

Query: 93  RVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIKVNNWENLTASKQEARAHSKDISSYC 152
           RVSELRVVELLDG+CEKMQDYTL K DSNR+EWIKV+NW+NLT SKQEA+A+SKD+S+YC
Sbjct: 70  RVSELRVVELLDGICEKMQDYTLHKIDSNRKEWIKVDNWDNLTISKQEAKAYSKDLSTYC 129

Query: 153 GRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKTS 194
           GRLLEETEDELAELIKKGSV  G V KVLC+DLS HC +TS
Sbjct: 130 GRLLEETEDELAELIKKGSVRGGDVSKVLCQDLSAHCSRTS 170
[Close]
BLAST of Spo26489.1 vs. NCBI nr
Match: gi|743943776|ref|XP_011016401.1| (PREDICTED: uncharacterized protein LOC105119907 [Populus euphratica])

HSP 1 Score: 254.2 bits (648), Expect = 2.000e-64
Identity = 128/187 (68.45%), Postives = 161/187 (86.10%), Query Frame = 1 

		  

Query: 26  MAASWLWLATIFAFLT--LAASIEDKCAACHAVAKELDHGLANEKPRNHLDLRNRLDSKG 85
           MA S  WL  I   LT  + +SI+DKCAAC+AVA+E+++GL+NEKPRNHLD+R+RLDSKG
Sbjct: 1   MAESTAWLLMILFILTFTVVSSIDDKCAACNAVAEEIENGLSNEKPRNHLDMRHRLDSKG 60

Query: 86  QRRGKVIDYRVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIKVNNWENLTASKQEARA 145
           QR+GKVIDYRVSELRVVELLDGLC+KMQDYTLQK DS R EW++V+NW+NL  +KQEA+A
Sbjct: 61  QRKGKVIDYRVSELRVVELLDGLCDKMQDYTLQKVDSKRYEWVRVDNWDNLAINKQEAKA 120

Query: 146 HSKDISSYCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKTSNLQKEADSDD 205
           +SKDISSYCGRLLE+TEDELAE IKKGSV++G V K+LC+DLS+HC  +S+   +AD+DD
Sbjct: 121 YSKDISSYCGRLLEDTEDELAERIKKGSVKVGGVSKILCQDLSKHCNMSSD-SHQADADD 180

Query: 206 DDDDDDV 211
           D+ D ++
Sbjct: 181 DEPDGEL 186
[Close]
BLAST of Spo26489.1 vs. UniProtKB/TrEMBL
Match: A0A0J8FU89_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_1g014380 PE=4 SV=1)

HSP 1 Score: 306.6 bits (784), Expect = 2.400e-80
Identity = 154/181 (85.08%), Postives = 165/181 (91.16%), Query Frame = 1 

		  

Query: 29  SWLWLATIFAFLTLAASIEDKCAACHAVAKELDHGLANEKPRNHLDLRNRLDSKGQRRGK 88
           SWLWLAT FAFLT A  I+DKCAAC+AVA+EL+HG+ANEKPRNHLDLRNRLDSKGQRRGK
Sbjct: 6   SWLWLATFFAFLTFATPIDDKCAACYAVAEELEHGIANEKPRNHLDLRNRLDSKGQRRGK 65

Query: 89  VIDYRVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIKVNNWENLTASKQEARAHSKDI 148
           VIDYRVSELRVVELLDGLCEKMQDYTL KTDS RQ WIKVNNWENLT +KQEARAHSKD+
Sbjct: 66  VIDYRVSELRVVELLDGLCEKMQDYTLLKTDSKRQTWIKVNNWENLTVNKQEARAHSKDM 125

Query: 149 SSYCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKTSNLQKEADSDDDDDDD 208
           SSYCGRLLEETEDELAELIKKGSVE GAV KVLCED+SQHC+KTS   KE D DD+DD +
Sbjct: 126 SSYCGRLLEETEDELAELIKKGSVEPGAVAKVLCEDVSQHCKKTSGSLKEVDGDDNDDIE 185

Query: 209 D 210
           D
Sbjct: 186 D 186
[Close]
BLAST of Spo26489.1 vs. UniProtKB/TrEMBL
Match: D7UDC4_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_18s0122g01020 PE=4 SV=1)

HSP 1 Score: 258.5 bits (659), Expect = 7.400e-66
Identity = 133/189 (70.37%), Postives = 161/189 (85.19%), Query Frame = 1 

		  

Query: 26  MAASWLWLATIFAFLTLAASIEDKCAACHAVAKELDHGLANEKPRNHLDLRNRLDSKGQR 85
           MA + + +A IFA  ++A  I+DKCAAC+AVA+EL+ GL+NEKPRNHLD+R+RLDSKGQR
Sbjct: 1   MAVAMVRIAMIFAIFSVAFCIDDKCAACNAVAEELEFGLSNEKPRNHLDMRHRLDSKGQR 60

Query: 86  RGKVIDYRVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIKVNNWENLTASKQEARAHS 145
           +GKVIDYRVSELRVVELLDGLCEKMQDYTL+K DS R+EW+KV++W+N+T +KQEARA+S
Sbjct: 61  KGKVIDYRVSELRVVELLDGLCEKMQDYTLEKIDSTRREWVKVDDWDNITTNKQEARAYS 120

Query: 146 KDISSYCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKTSNLQKEADSDDDD 205
           KDISSYCGRLLEETEDELA+LIKKGSV+ G V KVLC+DLS+HC  TS    +    D +
Sbjct: 121 KDISSYCGRLLEETEDELADLIKKGSVKTGEVSKVLCQDLSKHCSVTSFSSHQV--VDHE 180

Query: 206 DDDDVEEEL 215
           DDDD  EEL
Sbjct: 181 DDDDASEEL 187
[Close]
BLAST of Spo26489.1 vs. UniProtKB/TrEMBL
Match: B9H5K0_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0005s27500g PE=4 SV=1)

HSP 1 Score: 252.3 bits (643), Expect = 5.300e-64
Identity = 123/182 (67.58%), Postives = 159/182 (87.36%), Query Frame = 1 

		  

Query: 29  SWLWLATIFAFLTLAASIEDKCAACHAVAKELDHGLANEKPRNHLDLRNRLDSKGQRRGK 88
           +WL +  +    T+ +SI+DKCAAC+AVA+E+++GL+NEKPRNHLD+R+RLDSKGQR+GK
Sbjct: 6   AWLLMILVVLTFTVVSSIDDKCAACNAVAEEIENGLSNEKPRNHLDMRHRLDSKGQRKGK 65

Query: 89  VIDYRVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIKVNNWENLTASKQEARAHSKDI 148
           VIDYRVSELRVVELLDGLC+KMQDYTLQK DS R EW++V++W+NL  +KQEA+A+SKDI
Sbjct: 66  VIDYRVSELRVVELLDGLCDKMQDYTLQKVDSKRYEWVRVDSWDNLAINKQEAKAYSKDI 125

Query: 149 SSYCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKTSNLQKEADSDDDDDDD 208
           SSYCGRLLEETEDELAE IKKGSV++G V K+LC+DLS+HC  +S+   +AD+DDD+ D 
Sbjct: 126 SSYCGRLLEETEDELAERIKKGSVKVGDVSKILCQDLSKHCNMSSD-SHQADADDDEPDG 185

Query: 209 DV 211
           ++
Sbjct: 186 EL 186
[Close]
BLAST of Spo26489.1 vs. UniProtKB/TrEMBL
Match: A0A0D2M9I0_GOSRA (Uncharacterized protein OS=Gossypium raimondii GN=B456_002G114400 PE=4 SV=1)

HSP 1 Score: 251.5 bits (641), Expect = 9.000e-64
Identity = 129/180 (71.67%), Postives = 154/180 (85.56%), Query Frame = 1 

		  

Query: 26  MAASWLWLATIFAFLTLAASIEDKCAACHAVAKELDHGLANEKPRNHLDLRNRLDSKGQR 85
           MAA  LWL +IF+ L++AA I+DKCAAC+AVA EL+  L+ EKPRNHLD+R+RLDSKGQR
Sbjct: 1   MAAPMLWLLSIFSILSIAACIDDKCAACNAVAAELEIQLSKEKPRNHLDMRHRLDSKGQR 60

Query: 86  RGKVIDYRVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIKVNNWENLTASKQEARAHS 145
           +GKVIDYR+SELR VELLDGLCEKMQDYTL+K DS+R+EWIKV+NW+ LT  KQEA+A+S
Sbjct: 61  QGKVIDYRMSELRAVELLDGLCEKMQDYTLEKLDSSRREWIKVHNWDILTIDKQEAKAYS 120

Query: 146 KDISSYCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKTSNLQKEADSDDDD 205
           KDISSYCGRLLEETEDEL  LIKKGSV+ G V KVLCEDLS+HC  +S    + DSD+D+
Sbjct: 121 KDISSYCGRLLEETEDELTGLIKKGSVKQGDVSKVLCEDLSEHCSGSS----DRDSDNDE 176
[Close]
BLAST of Spo26489.1 vs. UniProtKB/TrEMBL
Match: M5WAS4_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa012034mg PE=4 SV=1)

HSP 1 Score: 249.2 bits (635), Expect = 4.500e-63
Identity = 127/176 (72.16%), Postives = 150/176 (85.23%), Query Frame = 1 

		  

Query: 33  LATIFAFLTLAASIEDKCAACHAVAKELDHGLANEKPRNHLDLRNRLDSKGQRRGKVIDY 92
           L  IF  L++A+SI+DKCAAC+AVA+EL  GL+NEKPRNHLD+R+RLDS GQRRGKVIDY
Sbjct: 10  LVLIFTILSVASSIDDKCAACNAVAEELKLGLSNEKPRNHLDMRHRLDSTGQRRGKVIDY 69

Query: 93  RVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIKVNNWENLTASKQEARAHSKDISSYC 152
           RVSELRVVELLDG+CEKMQDYT  K DSNR+EWIKV+NW+NLT SKQEA+A+SKD+S+YC
Sbjct: 70  RVSELRVVELLDGICEKMQDYTFHKIDSNRKEWIKVDNWDNLTISKQEAKAYSKDLSTYC 129

Query: 153 GRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKTSNLQKEADSDDDDDDD 209
           GRLLEETEDELAELIKKGSV  G V KVLC+DLS HC +TS L +     ++ D +
Sbjct: 130 GRLLEETEDELAELIKKGSVRGGDVSKVLCQDLSAHCSRTSALHQGNGYGNESDGE 185
[Close]
BLAST of Spo26489.1 vs. ExPASy Swiss-Prot
Match: CNPY1_DANRE (Protein canopy-1 OS=Danio rerio GN=cnpy1 PE=1 SV=1)

HSP 1 Score: 59.7 bits (143), Expect = 4.500e-8
Identity = 44/174 (25.29%), Postives = 78/174 (44.83%), Query Frame = 1 

		  

Query: 31  LWLATIFAFLTLAASIEDK---CAACHAVAKELDHGLANEKPRNHLDLRN-RLDSKGQRR 90
           L L   F  +    S +D+   C+AC A+A E+++ ++   P+  + +   RL   G   
Sbjct: 10  LVLVAAFMLVKTTESKKDEALYCSACMAIADEINYSISQTDPKKMIHVGGFRLKPDGSLT 69

Query: 91  GKVIDYRVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIK--------VNNWENLTASK 150
            K +    SE  + ELL+ +C+ M DY L +    +++  K          N+ +    K
Sbjct: 70  DKKVPLARSETYLTELLEEVCKSMSDYALYENPDTKEKSYKRFAPRDNDGGNFPDFKNFK 129

Query: 151 QEARAHSKDISSYCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKT 193
            +    S  +   C  ++EE ED++  L    S     V K LC ++S HC+ +
Sbjct: 130 FDGPESSSALKFACESIVEELEDDIISLFASDS---DHVAKTLCSEVSDHCKSS 180
[Close]
BLAST of Spo26489.1 vs. ExPASy Swiss-Prot
Match: CNPY2_HUMAN (Protein canopy homolog 2 OS=Homo sapiens GN=CNPY2 PE=1 SV=1)

HSP 1 Score: 54.3 bits (129), Expect = 1.900e-6
Identity = 50/172 (29.07%), Postives = 81/172 (47.09%), Query Frame = 1 

		  

Query: 30  WLWLATIFAFLTLAA----SIEDKCAACHAVAKELDHGLANEKPRNHLDLRN-RLDSKGQ 89
           W WLA +   L   A    S +  C AC A+  EL+  +A   P+  + + + R++  G 
Sbjct: 4   WGWLALLLGALLGTAWARRSQDLHCGACRALVDELEWEIAQVDPKKTIQMGSFRINPDGS 63

Query: 90  RRGKVIDYRVSELRVVELLDGLCEKMQDYTLQ-KTDSNRQEWIKV--NNWENLTASKQEA 149
           +    + Y  SE  + ELL+ +C++M++Y  Q    ++R+ +++V   N E+     Q  
Sbjct: 64  QSVVEVPYARSEAHLTELLEEICDRMKEYGEQIDPSTHRKNYVRVVGRNGESSELDLQGI 123

Query: 150 RAHSKDISS----YCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHC 190
           R  S DIS      C  ++EE EDEL E   +   E   V   LC   +  C
Sbjct: 124 RIDS-DISGTLKFACESIVEEYEDELIEFFSR---EADNVKDKLCSKRTDLC 171
[Close]
BLAST of Spo26489.1 vs. ExPASy Swiss-Prot
Match: CNPY2_MOUSE (Protein canopy homolog 2 OS=Mus musculus GN=Cnpy2 PE=1 SV=1)

HSP 1 Score: 54.3 bits (129), Expect = 1.900e-6
Identity = 50/172 (29.07%), Postives = 81/172 (47.09%), Query Frame = 1 

		  

Query: 30  WLWLATIFAFLTLAA----SIEDKCAACHAVAKELDHGLANEKPRNHLDLRN-RLDSKGQ 89
           W WLA +   L   A    S +  C AC A+  EL+  +A   P+  + + + R++  G 
Sbjct: 4   WGWLALLLGVLLGTAWARRSQDLHCGACRALVDELEWEIARVDPKKTIQMGSFRINPDGS 63

Query: 90  RRGKVIDYRVSELRVVELLDGLCEKMQDYTLQ-KTDSNRQEWIKV--NNWENLTASKQEA 149
           +    + Y  SE  + ELL+ +C++M++Y  Q    ++R+ +++V   N E+     Q  
Sbjct: 64  QSVVEVPYARSEAHLTELLEEVCDRMKEYGEQIDPSTHRKNYVRVVSRNGESSELDLQGI 123

Query: 150 RAHSKDISS----YCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHC 190
           R  S DIS      C  ++EE EDEL E   +   E   V   LC   +  C
Sbjct: 124 RIDS-DISGTLKFACESIVEEYEDELIEFFSR---EADNVKDKLCSKRTDLC 171
[Close]
BLAST of Spo26489.1 vs. TAIR (Arabidopsis)
Match: AT1G42480.1 (unknown protein)

HSP 1 Score: 224.9 bits (572), Expect = 4.600e-59
Identity = 115/183 (62.84%), Postives = 149/183 (81.42%), Query Frame = 1 

		  

Query: 26  MAASWLWLATIFAFLTLAASIEDKCAACHAVAKELDHGLANEKPRNHLDLRNRLDSKGQR 85
           MA   L+ A I A  +  +S++DKCAAC+AVA+EL+  L  EKPRNHLD+RNRL+SKGQR
Sbjct: 1   MAKLVLFTAVIIAIFSHGSSVDDKCAACNAVAEELELQLLKEKPRNHLDMRNRLNSKGQR 60

Query: 86  RGKVIDYRVSELRVVELLDGLCEKMQDYTLQKTDSNRQEWIKVNNWENLTASKQEARAHS 145
            GKVIDYR+S+LRVV+LLDGLC++MQDYTLQK +   ++W+KV N++NLT +KQEA+AH+
Sbjct: 61  EGKVIDYRISDLRVVDLLDGLCDRMQDYTLQKVEPKNRQWVKVGNFDNLT-NKQEAKAHA 120

Query: 146 KDISSYCGRLLEETEDELAELIKKGSVELGAVGKVLCEDLSQHCRKTSNLQKEADSDDDD 205
            DIS+YCGRLLEETEDEL E+IK GS++ G V KVLC+ LS HCR++S    E DS+D++
Sbjct: 121 NDISTYCGRLLEETEDELGEVIKNGSLKAGEVRKVLCQTLSNHCRQSS----ETDSEDEE 178

Query: 206 DDD 209
           DDD
Sbjct: 181 DDD 178
The following BLAST results are available for this feature:
BLAST of Spo26489.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|731314517|ref|XP_010686912.1|3.4e-8085.0PREDICTED: protein canopy-1 is... [more]
gi|720032803|ref|XP_010266228.1|6.2e-6669.7PREDICTED: protein canopy-1 [N... [more]
gi|225457592|ref|XP_002273352.1|1.1e-6570.3PREDICTED: protein canopy-1 [V... [more]
gi|645265038|ref|XP_008237962.1|1.8e-6578.2PREDICTED: protein canopy homo... [more]
gi|743943776|ref|XP_011016401.1|2.0e-6468.4PREDICTED: uncharacterized pro... [more]
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BLAST of Spo26489.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0J8FU89_BETVU2.4e-8085.0Uncharacterized protein OS=Bet... [more]
D7UDC4_VITVI7.4e-6670.3Putative uncharacterized prote... [more]
B9H5K0_POPTR5.3e-6467.5Uncharacterized protein OS=Pop... [more]
A0A0D2M9I0_GOSRA9.0e-6471.6Uncharacterized protein OS=Gos... [more]
M5WAS4_PRUPE4.5e-6372.1Uncharacterized protein OS=Pru... [more]
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BLAST of Spo26489.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 3
Match NameE-valueIdentityDescription
CNPY1_DANRE4.5e-825.2Protein canopy-1 OS=Danio reri... [more]
CNPY2_HUMAN1.9e-629.0Protein canopy homolog 2 OS=Ho... [more]
CNPY2_MOUSE1.9e-629.0Protein canopy homolog 2 OS=Mu... [more]
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BLAST of Spo26489.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 1
Match NameE-valueIdentityDescription
AT1G42480.14.6e-5962.8unknown protein[more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR021852Domain of unknown function DUF3456PFAMPF11938DUF3456coord: 49..189
score: 3.8
NoneNo IPR availablePANTHERPTHR31775FAMILY NOT NAMEDcoord: 24..212
score: 9.4
NoneNo IPR availablePANTHERPTHR31775:SF2REMORINcoord: 24..212
score: 9.4

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0034976 response to endoplasmic reticulum stress
biological_process GO:0051604 protein maturation
biological_process GO:0034645 cellular macromolecule biosynthetic process
biological_process GO:0016311 dephosphorylation
biological_process GO:0006021 inositol biosynthetic process
biological_process GO:0000023 maltose metabolic process
biological_process GO:0019243 methylglyoxal catabolic process to D-lactate via S-lactoyl-glutathione
biological_process GO:0009627 systemic acquired resistance
biological_process GO:0019252 starch biosynthetic process
biological_process GO:0019872 streptomycin biosynthetic process
biological_process GO:0006470 protein dephosphorylation
biological_process GO:0045454 cell redox homeostasis
biological_process GO:0010027 thylakoid membrane organization
biological_process GO:0009658 chloroplast organization
biological_process GO:0006662 glycerol ether metabolic process
biological_process GO:0034051 negative regulation of plant-type hypersensitive response
biological_process GO:0042793 plastid transcription
biological_process GO:0045036 protein targeting to chloroplast
biological_process GO:0006399 tRNA metabolic process
biological_process GO:0008152 metabolic process
biological_process GO:0015994 chlorophyll metabolic process
biological_process GO:0016126 sterol biosynthetic process
biological_process GO:0010228 vegetative to reproductive phase transition of meristem
biological_process GO:0046854 phosphatidylinositol phosphorylation
biological_process GO:0006364 rRNA processing
biological_process GO:0045893 positive regulation of transcription, DNA-templated
biological_process GO:0005975 carbohydrate metabolic process
biological_process GO:0044262 cellular carbohydrate metabolic process
biological_process GO:0044260 cellular macromolecule metabolic process
biological_process GO:0009987 cellular process
biological_process GO:0009735 response to cytokinin
biological_process GO:0042254 ribosome biogenesis
biological_process GO:0006412 translation
biological_process GO:0016226 iron-sulfur cluster assembly
biological_process GO:0048481 plant ovule development
biological_process GO:0009793 embryo development ending in seed dormancy
biological_process GO:0055114 oxidation-reduction process
cellular_component GO:0008287 protein serine/threonine phosphatase complex
cellular_component GO:0009507 chloroplast
cellular_component GO:0005840 ribosome
cellular_component GO:0005829 cytosol
cellular_component GO:0009295 nucleoid
cellular_component GO:0010007 magnesium chelatase complex
cellular_component GO:0016020 membrane
cellular_component GO:0009570 chloroplast stroma
cellular_component GO:0009941 chloroplast envelope
cellular_component GO:0009579 thylakoid
molecular_function GO:0003735 structural constituent of ribosome
molecular_function GO:0019843 rRNA binding
molecular_function GO:0005524 ATP binding
molecular_function GO:0004386 helicase activity
molecular_function GO:0015035 protein disulfide oxidoreductase activity
molecular_function GO:0016851 magnesium chelatase activity
molecular_function GO:0047134 protein-disulfide reductase activity
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0005515 protein binding
molecular_function GO:0009055 electron transfer activity
molecular_function GO:0000166 nucleotide binding
molecular_function GO:0046914 transition metal ion binding
molecular_function GO:0016491 oxidoreductase activity
molecular_function GO:0004722 protein serine/threonine phosphatase activity
molecular_function GO:0046872 metal ion binding
molecular_function GO:0052833 inositol monophosphate 4-phosphatase activity
molecular_function GO:0052832 inositol monophosphate 3-phosphatase activity
molecular_function GO:0008934 inositol monophosphate 1-phosphatase activity
molecular_function GO:0046422 violaxanthin de-epoxidase activity
RNA-Seq Expression