Spo22896 (gene)

Overview
NameSpo22896
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionClathrin heavy chain
LocationSpoScf_01568 : 84370 .. 106369 (+)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

CTCTTTTGCCCTCTCATTCACCTCCCTTTGTTCCAACCTAATATTCTCCCTTCTCACTCCTTAGCTGAGTCAATTAGCCCCCTTCTCTCTCCTCCGCCTCCCTTCTCTCATTCTCTGGTTTGTCTCCTTCTCCCTTGATGATATCGGCCATTTTCGGTTAAACTCCACCATCACCACCTCTGCTGCTTCACCCATTCATTCTCCTCTCTATTTCATTTTCTCTCTCCTCCTTTACGTCACACTCTCTTTCTGGTCATGTTAGAGATGGAGTCGAGTTCGATTAAAGGAAAAGAGCTTCTGACAAGCGAGAACAGAACTGAAGCTTCCGTTGGAAAGAAGATAAAGAATGATGTATCGAGATTGAGAAGATTCACAAGGTTAGCATTAAGTCACAATGATTTATTTGGTAATCTCCTTGTAGTTGTTTACAAGATGGAATCTGAACGTGTTTACCTCGATGAGTTGAATGCTAACAACAACGGCTACAAAGTGAAGGTTAAAGTTATAGAAAAAGGGCGAGCTAAAGTGTCTCCGGATAAGGGAGTGTTGTATCAGTCATTACTTCTCGAAGATGATAAGGGTAGATGGCAAGCTGGAGTTATGGTTAACTCTTTAAGTTACTGCAACATTGGAAACTGGAACCCTTTCGTTTCTTCTCTCTCCTTCCTTCTTTCCTCTGCTATTCGTTATTTCCTTCCTCCTTTCACCTGGTTTTTCGATTTCTCCTTCCTCTTTCCGAATTGGATCTTTTTCTCTCTCCTCCAAGCGACTTCGATCTCTTCTGCTGCTTGCAACGATTGTTGTAGCAATTGCAATCCTTCTGCCCAGAGTGTTCCTGTTCAATCTGGGAAAACACCACCATTGTTGCAATACATTGGAACATTGCTAACCAGAGGAAAACACAATGCCTTTGAGTCACTTGAATTATCTAAACTGGTTGTAAATCAGAATAAAAAGAATCTATTAGGGAATTTGTTGGAAGATGACAAGCTTGAATGTAGTGAGGAGCTTGGAGATCTTGTGAAGACAGTTGATACCGACCTTGCTCTCAAGATATACATCAAAGCTAAAGCGATTCCTAAAGTTGTAGCAGCATTTGCAGAGAGGAGAGAATTTGATAAGATTTTGATATATTCAAAGCAGGAGCCGACTTCTCACAATAATGGATCACCTGAATATTCGTGGATGGTTGATGGAGCTGGACTTTCTCCTGATGCATCCGGGTACCTACCTAAATTGGCGGATGTTGACAACAATTTTACAATAGATTATGGCGAGTTTTTGGCTCCAATGCATCTAAATAAAGTTCGGAAAGATCATTACCTATTCGCCGCATTTTCATATTTTGATAAAGATGGGAGGAGCGTAGAAAGTTAA

Coding sequence (CDS)

ATGTTAGAGATGGAGTCGAGTTCGATTAAAGGAAAAGAGCTTCTGACAAGCGAGAACAGAACTGAAGCTTCCGTTGGAAAGAAGATAAAGAATGATGTATCGAGATTGAGAAGATTCACAAGGTTAGCATTAAGTCACAATGATTTATTTGGTAATCTCCTTGTAGTTGTTTACAAGATGGAATCTGAACGTGTTTACCTCGATGAGTTGAATGCTAACAACAACGGCTACAAAGTGAAGGTTAAAGTTATAGAAAAAGGGCGAGCTAAAGTGTCTCCGGATAAGGGAGTGTTGTATCAGTCATTACTTCTCGAAGATGATAAGGGTAGATGGCAAGCTGGAGTTATGGTTAACTCTTTAAGTTACTGCAACATTGGAAACTGGAACCCTTTCGTTTCTTCTCTCTCCTTCCTTCTTTCCTCTGCTATTCGTTATTTCCTTCCTCCTTTCACCTGGTTTTTCGATTTCTCCTTCCTCTTTCCGAATTGGATCTTTTTCTCTCTCCTCCAAGCGACTTCGATCTCTTCTGCTGCTTGCAACGATTGTTGTAGCAATTGCAATCCTTCTGCCCAGAGTGTTCCTGTTCAATCTGGGAAAACACCACCATTGTTGCAATACATTGGAACATTGCTAACCAGAGGAAAACACAATGCCTTTGAGTCACTTGAATTATCTAAACTGGTTGTAAATCAGAATAAAAAGAATCTATTAGGGAATTTGTTGGAAGATGACAAGCTTGAATGTAGTGAGGAGCTTGGAGATCTTGTGAAGACAGTTGATACCGACCTTGCTCTCAAGATATACATCAAAGCTAAAGCGATTCCTAAAGTTGTAGCAGCATTTGCAGAGAGGAGAGAATTTGATAAGATTTTGATATATTCAAAGCAGGAGCCGACTTCTCACAATAATGGATCACCTGAATATTCGTGGATGGTTGATGGAGCTGGACTTTCTCCTGATGCATCCGGGTACCTACCTAAATTGGCGGATGTTGACAACAATTTTACAATAGATTATGGCGAGTTTTTGGCTCCAATGCATCTAAATAAAGTTCGGAAAGATCATTACCTATTCGCCGCATTTTCATATTTTGATAAAGATGGGAGGAGCGTAGAAAGTTAA

Protein sequence

MLEMESSSIKGKELLTSENRTEASVGKKIKNDVSRLRRFTRLALSHNDLFGNLLVVVYKMESERVYLDELNANNNGYKVKVKVIEKGRAKVSPDKGVLYQSLLLEDDKGRWQAGVMVNSLSYCNIGNWNPFVSSLSFLLSSAIRYFLPPFTWFFDFSFLFPNWIFFSLLQATSISSAACNDCCSNCNPSAQSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSEELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQEPTSHNNGSPEYSWMVDGAGLSPDASGYLPKLADVDNNFTIDYGEFLAPMHLNKVRKDHYLFAAFSYFDKDGRSVES
Relationships

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

Feature NameUnique NameType
Spo22896.1Spo22896.1mRNA


Homology
[Close]
BLAST of Spo22896.1 vs. NCBI nr
Match: gi|902086694|gb|KNA03226.1| (hypothetical protein SOVF_211230, partial [Spinacia oleracea])

HSP 1 Score: 334.3 bits (856), Expect = 2.700e-88
Identity = 170/171 (99.42%), Postives = 170/171 (99.42%), Query Frame = 1 

		  

Query: 126 GNWNPFVSSLSFLLSSAIRYFLPPFTWFFDFSFLFPNWIFFSLLQATSISSAACNDCCSN 185
           GNWNPFVSSLSFLLSSAIRYFLPPFTWFFD SFLFPNWIFFSLLQATSISSAACNDCCSN
Sbjct: 1   GNWNPFVSSLSFLLSSAIRYFLPPFTWFFDVSFLFPNWIFFSLLQATSISSAACNDCCSN 60

Query: 186 CNPSAQSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDK 245
           CNPSAQSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDK
Sbjct: 61  CNPSAQSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDK 120

Query: 246 LECSEELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ 297
           LECSEELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ
Sbjct: 121 LECSEELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ 171
[Close]
BLAST of Spo22896.1 vs. NCBI nr
Match: gi|902224117|gb|KNA19682.1| (hypothetical protein SOVF_059150 [Spinacia oleracea])

HSP 1 Score: 201.4 bits (511), Expect = 2.700e-48
Identity = 104/129 (80.62%), Postives = 113/129 (87.60%), Query Frame = 1 

		  

Query: 168 LLQATSISSAACNDCCSNCNPSAQSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKL 227
           ++ A   SSAA +DCC N NPSAQSVPVQSG+TP  LQYIGTL+T GK+NAFESLEL +L
Sbjct: 1   MMAAHDFSSAAFDDCCINRNPSAQSVPVQSGQTPSFLQYIGTLITSGKYNAFESLELPRL 60

Query: 228 VVNQNKKNLLGNLLEDDKLECSEELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREF 287
           VVNQNK  LLGN LE+DKLECSEELGDLVKT DTDLALKIYIKA+AIPKVVAAF ERREF
Sbjct: 61  VVNQNKNKLLGNWLEEDKLECSEELGDLVKTADTDLALKIYIKARAIPKVVAAFVERREF 120

Query: 288 DKILIYSKQ 297
           DKILIYSKQ
Sbjct: 121 DKILIYSKQ 129
[Close]
BLAST of Spo22896.1 vs. NCBI nr
Match: gi|629084098|gb|KCW50455.1| (hypothetical protein EUGRSUZ_J00193 [Eucalyptus grandis])

HSP 1 Score: 184.9 bits (468), Expect = 2.600e-43
Identity = 105/152 (69.08%), Postives = 119/152 (78.29%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QSVPVQSG+TPPLLQY GTLLTRGK NAFESLELS+LVVNQNKKNLL N L +DKLECSE
Sbjct: 415 QSVPVQSGQTPPLLQYFGTLLTRGKLNAFESLELSRLVVNQNKKNLLENWLAEDKLECSE 474

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQEPTSHNNGSPEYSW 310
           ELGDLVKTVD DLALKIYIKA+A PKVVAAFAERREFDKILIYSKQ    +N   P+Y +
Sbjct: 475 ELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQ--VGYN---PDYLF 534

Query: 311 MVDGAGLSPDASGYLP---KLADVDNNFTIDY 340
           ++    L  DA G L     ++ ++    +DY
Sbjct: 535 LLQTI-LRTDAQGALNFALMMSQMEGGCPVDY 560
[Close]
BLAST of Spo22896.1 vs. NCBI nr
Match: gi|702472870|ref|XP_010031191.1| (PREDICTED: clathrin heavy chain 1 isoform X1 [Eucalyptus grandis])

HSP 1 Score: 184.9 bits (468), Expect = 2.600e-43
Identity = 105/152 (69.08%), Postives = 119/152 (78.29%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QSVPVQSG+TPPLLQY GTLLTRGK NAFESLELS+LVVNQNKKNLL N L +DKLECSE
Sbjct: 415 QSVPVQSGQTPPLLQYFGTLLTRGKLNAFESLELSRLVVNQNKKNLLENWLAEDKLECSE 474

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQEPTSHNNGSPEYSW 310
           ELGDLVKTVD DLALKIYIKA+A PKVVAAFAERREFDKILIYSKQ    +N   P+Y +
Sbjct: 475 ELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQ--VGYN---PDYLF 534

Query: 311 MVDGAGLSPDASGYLP---KLADVDNNFTIDY 340
           ++    L  DA G L     ++ ++    +DY
Sbjct: 535 LLQTI-LRTDAQGALNFALMMSQMEGGCPVDY 560
[Close]
BLAST of Spo22896.1 vs. NCBI nr
Match: gi|902233827|gb|KNA23212.1| (hypothetical protein SOVF_026880 [Spinacia oleracea])

HSP 1 Score: 184.9 bits (468), Expect = 2.600e-43
Identity = 105/152 (69.08%), Postives = 118/152 (77.63%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QSVPVQSG+TPPLLQY GTLLTRGK NAFESLELS+LVVNQNKKNLL N L +DKLECSE
Sbjct: 416 QSVPVQSGQTPPLLQYFGTLLTRGKLNAFESLELSRLVVNQNKKNLLENWLAEDKLECSE 475

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQEPTSHNNGSPEYSW 310
           ELGDLVKTVDTDLALKIYIKA+A PKVVAAFAERREFDKILIYSKQ        +P+Y +
Sbjct: 476 ELGDLVKTVDTDLALKIYIKARATPKVVAAFAERREFDKILIYSKQV-----GYTPDYLF 535

Query: 311 MVDGAGLSPDASG---YLPKLADVDNNFTIDY 340
           ++    L  D  G   +   L+ ++    IDY
Sbjct: 536 LLQTI-LRTDPQGAVNFALMLSQMEGGCPIDY 561
[Close]
BLAST of Spo22896.1 vs. UniProtKB/TrEMBL
Match: A0A0K9Q9P0_SPIOL (Uncharacterized protein (Fragment) OS=Spinacia oleracea GN=SOVF_211230 PE=4 SV=1)

HSP 1 Score: 334.3 bits (856), Expect = 1.800e-88
Identity = 170/171 (99.42%), Postives = 170/171 (99.42%), Query Frame = 1 

		  

Query: 126 GNWNPFVSSLSFLLSSAIRYFLPPFTWFFDFSFLFPNWIFFSLLQATSISSAACNDCCSN 185
           GNWNPFVSSLSFLLSSAIRYFLPPFTWFFD SFLFPNWIFFSLLQATSISSAACNDCCSN
Sbjct: 1   GNWNPFVSSLSFLLSSAIRYFLPPFTWFFDVSFLFPNWIFFSLLQATSISSAACNDCCSN 60

Query: 186 CNPSAQSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDK 245
           CNPSAQSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDK
Sbjct: 61  CNPSAQSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDK 120

Query: 246 LECSEELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ 297
           LECSEELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ
Sbjct: 121 LECSEELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ 171
[Close]
BLAST of Spo22896.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RLI6_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_059150 PE=4 SV=1)

HSP 1 Score: 201.4 bits (511), Expect = 1.900e-48
Identity = 104/129 (80.62%), Postives = 113/129 (87.60%), Query Frame = 1 

		  

Query: 168 LLQATSISSAACNDCCSNCNPSAQSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKL 227
           ++ A   SSAA +DCC N NPSAQSVPVQSG+TP  LQYIGTL+T GK+NAFESLEL +L
Sbjct: 1   MMAAHDFSSAAFDDCCINRNPSAQSVPVQSGQTPSFLQYIGTLITSGKYNAFESLELPRL 60

Query: 228 VVNQNKKNLLGNLLEDDKLECSEELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREF 287
           VVNQNK  LLGN LE+DKLECSEELGDLVKT DTDLALKIYIKA+AIPKVVAAF ERREF
Sbjct: 61  VVNQNKNKLLGNWLEEDKLECSEELGDLVKTADTDLALKIYIKARAIPKVVAAFVERREF 120

Query: 288 DKILIYSKQ 297
           DKILIYSKQ
Sbjct: 121 DKILIYSKQ 129
[Close]
BLAST of Spo22896.1 vs. UniProtKB/TrEMBL
Match: A0A059AAT1_EUCGR (Clathrin heavy chain OS=Eucalyptus grandis GN=EUGRSUZ_J00193 PE=3 SV=1)

HSP 1 Score: 184.9 bits (468), Expect = 1.800e-43
Identity = 105/152 (69.08%), Postives = 119/152 (78.29%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QSVPVQSG+TPPLLQY GTLLTRGK NAFESLELS+LVVNQNKKNLL N L +DKLECSE
Sbjct: 415 QSVPVQSGQTPPLLQYFGTLLTRGKLNAFESLELSRLVVNQNKKNLLENWLAEDKLECSE 474

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQEPTSHNNGSPEYSW 310
           ELGDLVKTVD DLALKIYIKA+A PKVVAAFAERREFDKILIYSKQ    +N   P+Y +
Sbjct: 475 ELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQ--VGYN---PDYLF 534

Query: 311 MVDGAGLSPDASGYLP---KLADVDNNFTIDY 340
           ++    L  DA G L     ++ ++    +DY
Sbjct: 535 LLQTI-LRTDAQGALNFALMMSQMEGGCPVDY 560
[Close]
BLAST of Spo22896.1 vs. UniProtKB/TrEMBL
Match: A0A059A9Z8_EUCGR (Clathrin heavy chain OS=Eucalyptus grandis GN=EUGRSUZ_J00193 PE=3 SV=1)

HSP 1 Score: 184.9 bits (468), Expect = 1.800e-43
Identity = 105/152 (69.08%), Postives = 119/152 (78.29%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QSVPVQSG+TPPLLQY GTLLTRGK NAFESLELS+LVVNQNKKNLL N L +DKLECSE
Sbjct: 415 QSVPVQSGQTPPLLQYFGTLLTRGKLNAFESLELSRLVVNQNKKNLLENWLAEDKLECSE 474

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQEPTSHNNGSPEYSW 310
           ELGDLVKTVD DLALKIYIKA+A PKVVAAFAERREFDKILIYSKQ    +N   P+Y +
Sbjct: 475 ELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQ--VGYN---PDYLF 534

Query: 311 MVDGAGLSPDASGYLP---KLADVDNNFTIDY 340
           ++    L  DA G L     ++ ++    +DY
Sbjct: 535 LLQTI-LRTDAQGALNFALMMSQMEGGCPVDY 560
[Close]
BLAST of Spo22896.1 vs. UniProtKB/TrEMBL
Match: A0A059A9S8_EUCGR (Clathrin heavy chain OS=Eucalyptus grandis GN=EUGRSUZ_J00193 PE=3 SV=1)

HSP 1 Score: 184.9 bits (468), Expect = 1.800e-43
Identity = 105/152 (69.08%), Postives = 119/152 (78.29%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QSVPVQSG+TPPLLQY GTLLTRGK NAFESLELS+LVVNQNKKNLL N L +DKLECSE
Sbjct: 415 QSVPVQSGQTPPLLQYFGTLLTRGKLNAFESLELSRLVVNQNKKNLLENWLAEDKLECSE 474

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQEPTSHNNGSPEYSW 310
           ELGDLVKTVD DLALKIYIKA+A PKVVAAFAERREFDKILIYSKQ    +N   P+Y +
Sbjct: 475 ELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQ--VGYN---PDYLF 534

Query: 311 MVDGAGLSPDASGYLP---KLADVDNNFTIDY 340
           ++    L  DA G L     ++ ++    +DY
Sbjct: 535 LLQTI-LRTDAQGALNFALMMSQMEGGCPVDY 560
[Close]
BLAST of Spo22896.1 vs. ExPASy Swiss-Prot
Match: CLH2_ORYSJ (Clathrin heavy chain 2 OS=Oryza sativa subsp. japonica GN=Os12g0104800 PE=3 SV=1)

HSP 1 Score: 179.9 bits (455), Expect = 5.200e-44
Identity = 93/106 (87.74%), Postives = 99/106 (93.40%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QSVPVQ+G+TPPLLQY GTLLTRGK NA+ESLELS+LVVNQNKKNLL N L +DKLECSE
Sbjct: 415 QSVPVQAGQTPPLLQYFGTLLTRGKLNAYESLELSRLVVNQNKKNLLENWLAEDKLECSE 474

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ 297
           ELGDLVKTVD DLALKIYIKA+A PKVVAAFAERREFDKILIYSKQ
Sbjct: 475 ELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQ 520
[Close]
BLAST of Spo22896.1 vs. ExPASy Swiss-Prot
Match: CLH1_ORYSJ (Clathrin heavy chain 1 OS=Oryza sativa subsp. japonica GN=Os11g0104900 PE=3 SV=1)

HSP 1 Score: 179.9 bits (455), Expect = 5.200e-44
Identity = 93/106 (87.74%), Postives = 99/106 (93.40%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QSVPVQ+G+TPPLLQY GTLLTRGK NA+ESLELS+LVVNQNKKNLL N L +DKLECSE
Sbjct: 415 QSVPVQAGQTPPLLQYFGTLLTRGKLNAYESLELSRLVVNQNKKNLLENWLAEDKLECSE 474

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ 297
           ELGDLVKTVD DLALKIYIKA+A PKVVAAFAERREFDKILIYSKQ
Sbjct: 475 ELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQ 520
[Close]
BLAST of Spo22896.1 vs. ExPASy Swiss-Prot
Match: CLAH1_ARATH (Clathrin heavy chain 1 OS=Arabidopsis thaliana GN=CHC1 PE=1 SV=1)

HSP 1 Score: 178.7 bits (452), Expect = 1.200e-43
Identity = 92/106 (86.79%), Postives = 99/106 (93.40%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QSVPVQ+G+TPPLLQY GTLLTRGK N++ESLELS+LVVNQNKKNLL N L +DKLECSE
Sbjct: 415 QSVPVQAGQTPPLLQYFGTLLTRGKLNSYESLELSRLVVNQNKKNLLENWLAEDKLECSE 474

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ 297
           ELGDLVKTVD DLALKIYIKA+A PKVVAAFAERREFDKILIYSKQ
Sbjct: 475 ELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQ 520
[Close]
BLAST of Spo22896.1 vs. ExPASy Swiss-Prot
Match: CLAH2_ARATH (Clathrin heavy chain 2 OS=Arabidopsis thaliana GN=CHC2 PE=1 SV=1)

HSP 1 Score: 178.7 bits (452), Expect = 1.200e-43
Identity = 92/106 (86.79%), Postives = 99/106 (93.40%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QSVPVQ+G+TPPLLQY GTLLTRGK N++ESLELS+LVVNQNKKNLL N L +DKLECSE
Sbjct: 415 QSVPVQAGQTPPLLQYFGTLLTRGKLNSYESLELSRLVVNQNKKNLLENWLAEDKLECSE 474

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ 297
           ELGDLVKTVD DLALKIYIKA+A PKVVAAFAERREFDKILIYSKQ
Sbjct: 475 ELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQ 520
[Close]
BLAST of Spo22896.1 vs. ExPASy Swiss-Prot
Match: CLH2_HUMAN (Clathrin heavy chain 2 OS=Homo sapiens GN=CLTCL1 PE=1 SV=2)

HSP 1 Score: 116.7 bits (291), Expect = 5.400e-25
Identity = 59/106 (55.66%), Postives = 76/106 (71.70%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QS+P QSG+  PLLQY G LL +G+ N  ESLEL  LV+ Q +K LL   L++DKLECSE
Sbjct: 402 QSIPAQSGQASPLLQYFGILLDQGQLNKLESLELCHLVLQQGRKQLLEKWLKEDKLECSE 461

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ 297
           ELGDLVKT D  LAL +Y++A    KV+  FAE  +F KI++Y+K+
Sbjct: 462 ELGDLVKTTDPMLALSVYLRANVPSKVIQCFAETGQFQKIVLYAKK 507
[Close]
BLAST of Spo22896.1 vs. TAIR (Arabidopsis)
Match: AT3G11130.1 (Clathrin, heavy chain)

HSP 1 Score: 178.7 bits (452), Expect = 6.600e-45
Identity = 92/106 (86.79%), Postives = 99/106 (93.40%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QSVPVQ+G+TPPLLQY GTLLTRGK N++ESLELS+LVVNQNKKNLL N L +DKLECSE
Sbjct: 415 QSVPVQAGQTPPLLQYFGTLLTRGKLNSYESLELSRLVVNQNKKNLLENWLAEDKLECSE 474

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ 297
           ELGDLVKTVD DLALKIYIKA+A PKVVAAFAERREFDKILIYSKQ
Sbjct: 475 ELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQ 520
[Close]
BLAST of Spo22896.1 vs. TAIR (Arabidopsis)
Match: AT3G08530.1 (Clathrin, heavy chain)

HSP 1 Score: 178.7 bits (452), Expect = 6.600e-45
Identity = 92/106 (86.79%), Postives = 99/106 (93.40%), Query Frame = 1 

		  

Query: 191 QSVPVQSGKTPPLLQYIGTLLTRGKHNAFESLELSKLVVNQNKKNLLGNLLEDDKLECSE 250
           QSVPVQ+G+TPPLLQY GTLLTRGK N++ESLELS+LVVNQNKKNLL N L +DKLECSE
Sbjct: 415 QSVPVQAGQTPPLLQYFGTLLTRGKLNSYESLELSRLVVNQNKKNLLENWLAEDKLECSE 474

Query: 251 ELGDLVKTVDTDLALKIYIKAKAIPKVVAAFAERREFDKILIYSKQ 297
           ELGDLVKTVD DLALKIYIKA+A PKVVAAFAERREFDKILIYSKQ
Sbjct: 475 ELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQ 520
[Close]
BLAST of Spo22896.1 vs. TAIR (Arabidopsis)
Match: AT2G38910.1 (calcium-dependent protein kinase 20)

HSP 1 Score: 64.3 bits (155), Expect = 1.800e-10
Identity = 32/56 (57.14%), Postives = 40/56 (71.43%), Query Frame = 1 

		  

Query: 314 GAGLSPDASGYLPKLADVDNNFTIDYGEFLAPM-HLNKVRKDHYLFAAFSYFDKDG 369
           GA L       L + AD+DN+ TIDYGEF+A M HLNK+ K+ +LF AFSYFD+DG
Sbjct: 468 GADLKDSEILGLMQAADIDNSGTIDYGEFIAAMVHLNKIEKEDHLFTAFSYFDQDG 523
[Close]
BLAST of Spo22896.1 vs. TAIR (Arabidopsis)
Match: AT5G04870.1 (calcium dependent protein kinase 1)

HSP 1 Score: 61.6 bits (148), Expect = 1.200e-9
Identity = 31/56 (55.36%), Postives = 40/56 (71.43%), Query Frame = 1 

		  

Query: 314 GAGLSPDASGYLPKLADVDNNFTIDYGEFLAP-MHLNKVRKDHYLFAAFSYFDKDG 369
           GA L       L + ADVDN+ TIDY EF+A  +HLNK+ ++ +LFAAF+YFDKDG
Sbjct: 484 GANLKESEILDLMQAADVDNSGTIDYKEFIAATLHLNKIEREDHLFAAFTYFDKDG 539
[Close]
BLAST of Spo22896.1 vs. TAIR (Arabidopsis)
Match: AT3G10660.1 (calmodulin-domain protein kinase cdpk isoform 2)

HSP 1 Score: 60.1 bits (144), Expect = 3.400e-9
Identity = 31/55 (56.36%), Postives = 39/55 (70.91%), Query Frame = 1 

		  

Query: 314 GAGLSPDASGYLPKLADVDNNFTIDYGEFLAP-MHLNKVRKDHYLFAAFSYFDKD 368
           GA L       L + ADVDN+ TIDY EF+A  +HLNK+ ++ +LFAAFSYFDKD
Sbjct: 520 GANLKESEILDLMQAADVDNSGTIDYKEFIAATLHLNKIEREDHLFAAFSYFDKD 574
The following BLAST results are available for this feature:
BLAST of Spo22896.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902086694|gb|KNA03226.1|2.7e-8899.4hypothetical protein SOVF_2112... [more]
gi|902224117|gb|KNA19682.1|2.7e-4880.6hypothetical protein SOVF_0591... [more]
gi|629084098|gb|KCW50455.1|2.6e-4369.0hypothetical protein EUGRSUZ_J... [more]
gi|702472870|ref|XP_010031191.1|2.6e-4369.0PREDICTED: clathrin heavy chai... [more]
gi|902233827|gb|KNA23212.1|2.6e-4369.0hypothetical protein SOVF_0268... [more]
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BLAST of Spo22896.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9Q9P0_SPIOL1.8e-8899.4Uncharacterized protein (Fragm... [more]
A0A0K9RLI6_SPIOL1.9e-4880.6Uncharacterized protein OS=Spi... [more]
A0A059AAT1_EUCGR1.8e-4369.0Clathrin heavy chain OS=Eucaly... [more]
A0A059A9Z8_EUCGR1.8e-4369.0Clathrin heavy chain OS=Eucaly... [more]
A0A059A9S8_EUCGR1.8e-4369.0Clathrin heavy chain OS=Eucaly... [more]
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BLAST of Spo22896.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 5
Match NameE-valueIdentityDescription
CLH2_ORYSJ5.2e-4487.7Clathrin heavy chain 2 OS=Oryz... [more]
CLH1_ORYSJ5.2e-4487.7Clathrin heavy chain 1 OS=Oryz... [more]
CLAH1_ARATH1.2e-4386.7Clathrin heavy chain 1 OS=Arab... [more]
CLAH2_ARATH1.2e-4386.7Clathrin heavy chain 2 OS=Arab... [more]
CLH2_HUMAN5.4e-2555.6Clathrin heavy chain 2 OS=Homo... [more]
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BLAST of Spo22896.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 5
Match NameE-valueIdentityDescription
AT3G11130.16.6e-4586.7Clathrin, heavy chain[more]
AT3G08530.16.6e-4586.7Clathrin, heavy chain[more]
AT2G38910.11.8e-1057.1calcium-dependent protein kina... [more]
AT5G04870.11.2e-955.3calcium dependent protein kina... [more]
AT3G10660.13.4e-956.3calmodulin-domain protein kina... [more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR011992EF-hand domain pairGENE3D1.10.238.10coord: 316..368
score: 0
IPR011992EF-hand domain pairunknownSSF47473EF-handcoord: 318..368
score: 2.1
IPR012331Clathrin, heavy chain, linkerGENE3D1.25.40.30coord: 191..283
score: 7.6
IPR016024Armadillo-type foldunknownSSF48371ARM repeatcoord: 191..276
score: 8.92
NoneNo IPR availablePANTHERPTHR10292CLATHRIN HEAVY CHAINcoord: 191..296
score: 6.9
NoneNo IPR availablePANTHERPTHR10292:SF10CLATHRIN HEAVY CHAIN 1-RELATEDcoord: 191..296
score: 6.9

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006886 intracellular protein transport
biological_process GO:0006508 proteolysis
biological_process GO:0032482 Rab protein signal transduction
biological_process GO:0006623 protein targeting to vacuole
biological_process GO:0006913 nucleocytoplasmic transport
biological_process GO:0061025 membrane fusion
biological_process GO:0006888 ER to Golgi vesicle-mediated transport
biological_process GO:0000902 cell morphogenesis
biological_process GO:0016049 cell growth
biological_process GO:0000165 MAPK cascade
biological_process GO:0007205 protein kinase C-activating G-protein coupled receptor signaling pathway
biological_process GO:0016310 phosphorylation
biological_process GO:0009395 phospholipid catabolic process
biological_process GO:0016192 vesicle-mediated transport
biological_process GO:0006769 nicotinamide metabolic process
biological_process GO:0046486 glycerolipid metabolic process
biological_process GO:0046497 nicotinate nucleotide metabolic process
biological_process GO:0009069 serine family amino acid metabolic process
biological_process GO:0006468 protein phosphorylation
biological_process GO:0008654 phospholipid biosynthetic process
biological_process GO:0044237 cellular metabolic process
cellular_component GO:0030130 clathrin coat of trans-Golgi network vesicle
cellular_component GO:0044425 membrane part
cellular_component GO:0005783 endoplasmic reticulum
cellular_component GO:0005773 vacuole
cellular_component GO:0005886 plasma membrane
cellular_component GO:0000139 Golgi membrane
cellular_component GO:0005789 endoplasmic reticulum membrane
cellular_component GO:0030132 clathrin coat of coated pit
molecular_function GO:0004674 protein serine/threonine kinase activity
molecular_function GO:0003924 GTPase activity
molecular_function GO:0019003 GDP binding
molecular_function GO:0003824 catalytic activity
molecular_function GO:0005488 binding
molecular_function GO:0005198 structural molecule activity
molecular_function GO:0008234 cysteine-type peptidase activity
molecular_function GO:0050662 coenzyme binding
molecular_function GO:0003723 RNA binding
molecular_function GO:0003951 NAD+ kinase activity
molecular_function GO:0004143 diacylglycerol kinase activity
molecular_function GO:0016746 transferase activity, transferring acyl groups
molecular_function GO:0005524 ATP binding
molecular_function GO:0005525 GTP binding
RNA-Seq Expression