Spo17730 (gene)

Overview
NameSpo17730
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionAdaptin ear-binding coat-associated protein
LocationSpoScf_02688 : 33022 .. 48204 (+)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

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

mRNA sequence

ATGAGAACATCCGGATATATGTGGTCACATATCTTACAACCTAAAAGCAAGGAATATGATTTCACTATTCATCCAATAGTGTATTGCCTAAAAAACCCTTAAGATTTTTATCATTTATCATTTGTGCCCTCCTCTAACTCTCGTGTTCACTCCTCCTTGCCTCGGTGCCTCCCTTCTCCCTCCTCCCTACTTCCTACTTGCCTTCTTCTTTTCCTTTCACCCGTGGTTCTTCCATTGATGGTTTTTCAGCAAACCCTAGATCTCACTCAATCTCCTACGCCCCCATTTTCTCTCTCCTCTCCTCTCCCTCCTTCTTTCTTTATCCATTTTCTTCTTCGCTACATCTATCTCACTCCACAATAACTGAATATGGCGGCTGATATCCTTGATTGTGGTTAGGGTTTTCTCGTTCTTCTTCTTTCAAGGTTAACTGGAAGTAGACGAAGATAATGGACAAGGTAGATTTCCAGCCAAAGGAAGGAGATAATGCTAAAACTAAGCTTGAAAATCACTAGGATACTCTTGGCTGAGATGGCTTGAGCTGAGGAAGCTAAGAAACTCTAGGCTTATATTAAAGTGAAGGATTTGCTCAAGATCCCAACAAGCGTAACATAAAATGTGACAAGCTGTTGCATTCCATTGTTCGTGTAGATACGATCAACAAGTTCCAGATGAATAAATCTCTCTATAAGCATGTATGTCCGCTCAATCAGAAGAAGGTTACTAATCAACGAGATTAGTCAGGAAAAGTTTCCCTTGTTGGTCAAAGAAAGCGGGAAAGAAGGCCATCTTAATTGCGGTGTGGATGCTGAGGGTGATCAACATTTTCAAGGGACTCCGTCATGTCGAGAAGAGAAGTCAGCAGGCTTAAAATTAGATGATGAATGGGATGTAAATAAATGGGCATGGGAGGGAGTCTTGAAAGTTATTAGCAAGGGAGAAGAGTGCATAATCAGACTTGAGGATAAGTCAACAGGTGAACTCTATGCTCGGGCTTTTTTGAGAAAAGGAGAGCCACATCATGTGGAAACTATACCTTTTGCTTCGAATAGAAGAGAAAACAGATATCTCGATAACAAGAAAACTGCTGAAGAAATGGAGCAGCAATTCCAGAATTCTTCAGCCATTGATTACAGTTTGAAAGATGGAGAGACCCTTGTTCTTCAGTTAAAATAAGGTGTTCTACCGACATACCGGCAAATCTCCCGTGGGCAAACTCAGCCACTGGCTAAGTCAGATAAGAAGGACAACCAAGTCTTACCGGCATTAATCTACATATCTTACTGACATAAACCATCTTCCACGTGATCAGAGATCACCAAGAGGTCACCATCAGAAAAGTCATTGTCCTGCAAAGTAGAGGCTACTCGACTATACAAGGAAATTTGTGTATATAAGGAGGACCTTATTTATTGCTACAAGGTACAAAATCCTTAAATACTTTCACTAATACCACACAACTTACTTACTTACTTCTTAGTTAATCCTTAAATACTTTAAGTAATCTTACTTTAGCATCGGAGGGGAGATCCTCAAACCACCACCGAGGCTAGTTAATCCATTATGTTGTGCATATCACAATCAGTGATCTCAGCAGAAGACATCTATCCCACAGTCAACTGTTCTAATTCCACATCCGGAATATCTGATGCTAGAAGGAGGGGACCTCATCCCTTAGTAACGGTATATCAACTCACATGGAAATCTTTTCAAAAGACAGTAGTAAGAAATCGAAGAAAAATCAGGAGAAAATGACAACTCCACAACCAACGGGTAATGCAAAGCCTCATGCAGCAGTTGTACTGCCAGAAACAATCATCCCACCTATCCAATCGGTAATATCACCCATTGTAAGACATATCCCCCAGTAGGCCCCAGAGGGGTAATTATGGAGGTCGATGACGATGAAAATGAATAAGAGAGGCCACCTAGGAAACATCGAAGCATACCCCTCTCACAAATATTGACGAATCAGTTGTCGCCCCTTTCGGGAATATTCACAAGACCAAAATTGAAAACGTTGTCGGGTGTTATGAAAACATTGTCTGAACTAAAACCACCTCCGATTCCTAGTGGTGGTGTTACCGGTGAAGACACAAAACCAAGTGCACCCAAATTTCCAATCAAAAATCTTCTAGCATCCCTAAACTGAGAAAACCCAACACAAAAAAGGAAACATCCCCACCTGCAAGAGGAAGAACCAAGAGAGGAACTAGAGGAGGAACAACAACTATTCCCAGTGTCTGAGCATAGAAAACCAGTGCACCAAGTATACATACAGCATATTGTCCACCCAAAAGATTCCCCATTATGAAGAAAAGATCTAGAGGAGAGAATGAAAACAATCAAGATGCCAACCGACAAATATGATGGTACCACAGATCCTGAGAATCATTGCACCACGTTCGAGAAACACATAATGATGTACACTGACTCTGATTCCATGTGGTGTAAAGTCTTACTATCCACACTTCTCGATGAGGAGGCTAGTTGGTACAAGGGGTTGGAAGCCGGCTCAATATACAGTTTCAGGCAATTGCAAGTAGACTTCATGGCATGCTTTGTCAGTAAGCAAAAAAGAAAGATGTTAGGAGAACTGATGTCATTTCTCCAGAAATACAGGGAATCCCTAAGGGATTATCTCACCAGCTTTAACAATGAATCAATCACCAATTCAAACTTGCAGTAAGAGGTTGCGGTTCTTGCCTTGATGAGAGGGATGCACGACTGCGAGTTCAAAAAGTATCTCAGCCGAAAGTCATACACAAATCTAGGCGATGTTTTGCACAAAGAAAATGAGTACATAATGGGAGATGAAATGATAAGAATTTCAAATTCTACAGCCCCAACCATCTATAACTCAACGTATAGCTCATTTATAACCCAGACTACAACAATCAGCAACCCACGAAGGGTAATAATCAAAACAATCAGAACCACTATAAAGGGGGGAATTTCAAAAAGGAGAACGGAGGAAATACTGATCAGAAAGAAGAGAAGTCCGCGGATTTTTTGATAATCACACTCCGTTGAGTACGGCAAGAGCCACAATCTGCAATGTGAACAAAATACTGGACAGTTGGAAAAAACCACCGCCAATGATGAGCAAAGAGTGAAACCTCAAAGAGTTTCGCGATTTTCATAATGAGCACGACCATAATAAGGAGGACTGCCAAGACCTCATGGATAACATCAAGGATATGGTGAAAATGGGGCACTTCTGATAATACAGGGCGAGCCAAGGAAACAATAATTACAACCCAGCCAAAAATTTCCAGCAATAACAGTGGAAGTTCATACCAACCATCAGAACAACAATTGCAGAAGCAGGCTCCCAAAATTGAACAACCATACCAGGCACCAAGAATAGAGCAACGACCGGTTGAGACTAGTGCTAGGGGAGAACAAAAAGATAACAACAAGAAACTAATGATATACGTTATCTCTGGCGGTCTAATTCATGAGGTGACAATTAGTGGAGCATTGGCCGAAAGGCCATCGGAACGCATACGAGGAGCAGCCCACGAGCCGAGTGTGCGAAGAACTCAAGGCCCATGAGTGTCTGGGAGCAAGGCCGCACAACAACAACAGCGACAACAATCCCGTGGCTTGGTTGTGCTGCGCGCGTAGGCCGAGCGGAGGGAATAGAAGCAACAGCAGCATCAACAGCCGCTGGCTTGGGAGCGACCCAAGGATTAGCGTTAGGCGCATGCTTGCGGTATATTGTGTTTGCTGGCCACAAGGCTTCATGCATTGGTCAGTCAATTGAACTAATAGCTTAGGTCAATTTATTATCCTATTCCTAATAATTTTCCAACTAACCTAATTTGCACAAAATCCCAAGACACCTAAAGATCCCCGATTCTCACTGTGCCTCCTAATCAATGATCATCCAAAAAAGCCTACACCCTATGACTAAAGATCTAAGCTATCAATATTCAAGATGGATCTGCACGTGTCGGTGGACGTTTGTAGAGGAACTATGATCGGAGTTCTCATTCGTGTTCGTAGACTAATCGGGAATACACACATCAAATGTAACTATGCTTAAACTAACCTCAACTTTCACATTGTTCCTGCTATCAGCTTCAATCTTTTCAACACGCGCAACATAGGGTGGCTTGACTACATCAGCAGGTCTCATCAAAACACAATCTCCAGCAAAAAAATTGGAAGAAAATAAAAACGAAAATTCAGGGAATTAAAATTAACCCAGCAATCAATCAATTGGAAACATCGGAAACCAGAAACTATTCGATTTAGAAACTGTTGTTCTTACCTCTGACGACCTTGTTGGTGCCTTTAATGGTGTACGAATCAAGGTCCCGCTTTTCGGGGCGAGTCTTCGCCATTGGAGAGATATTGGGAGAGAAATGGGGAAGTAGAGAGAGAAAGATTGAATCTTGGAGAATAAAATGGGGGGAATTTGAGGAGAAAATGAAATGCGCAAAACCCTAGATTTTAGGGGAGAAAACCCTAGAGCTTGAAGGTGTTCATGGGAAGAGAAGGAGGAGAGAGAGAGAGTGAGTTTAGAAGGACTTTCAGACTGACGGAGTAAGGTCTTTCGAGCAGCAGGCAGGAGGACGAACGACCGTCCGGAGCAGTTGGCCTGGGTGCAGTGAAAAGTTGGAGGAAGGAAGGAAGCAGGAGGACAAGGCAGTGAAGGCTGAAGCAGATTTTCGATTTAGGTCACAGTAATATTAATTAATTAGAGCAAGTGAGAATAGAAGGTGAGCGCTAAACAAATTTCTGAAAAGTTTCAAACTCATTTGCGTCGCAGTGTCACTAATCTGCGACGCAAATGACTCTAGAGTCATTTGCGAGTCATTTGCGTCGCAGATTAGTAGCATTGCGGCGCAAATCGGTGAGTAT

Coding sequence (CDS)

ATGTATGTCCGCTCAATCAGAAGAAGGTTACTAATCAACGAGATTAGTCAGGAAAAGTTTCCCTTGTTGGTCAAAGAAAGCGGGAAAGAAGGCCATCTTAATTGCGGTGTGGATGCTGAGGGTGATCAACATTTTCAAGGGACTCCGTCATGTCGAGAAGAGAAGTCAGCAGGCTTAAAATTAGATGATGAATGGGATGTAAATAAATGGGCATGGGAGGGAGTCTTGAAAGTTATTAGCAAGGGAGAAGAGTGCATAATCAGACTTGAGGATAAGTCAACAGGTGAACTCTATGCTCGGGCTTTTTTGAGAAAAGGAGAGCCACATCATGTGGAAACTATACCTTTTGCTTCGAATAGAAGAGAAAACAGATATCTCGATAACAAGAAAACTGCTGAAGAAATGGAGCAGCAATTCCAGAATTCTTCAGCCATTGATTACAGTTTGAAAGATGGAGAGACCCTTGTTCTTCAGTTAAAATAA

Protein sequence

MYVRSIRRRLLINEISQEKFPLLVKESGKEGHLNCGVDAEGDQHFQGTPSCREEKSAGLKLDDEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHHVETIPFASNRRENRYLDNKKTAEEMEQQFQNSSAIDYSLKDGETLVLQLK
Relationships

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

Feature NameUnique NameType
Spo17730.1Spo17730.1mRNA


Homology
[Close]
BLAST of Spo17730.1 vs. NCBI nr
Match: gi|902236163|gb|KNA24245.1| (hypothetical protein SOVF_017320 [Spinacia oleracea])

HSP 1 Score: 159.1 bits (401), Expect = 6.600e-36
Identity = 91/142 (64.08%), Postives = 93/142 (65.49%), Query Frame = 1 

		  

Query: 55  KSAGLKLDDEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHHVETI 114
           KSA     DEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPH VET+
Sbjct: 44  KSAASYRADEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHPVETV 103

Query: 115 -----PFASNRREN-------------------------------RYLDNKKTAEEMEQQ 161
                 F     EN                               +YLD KKTAEEMEQQ
Sbjct: 104 IDSSRYFVLRIEENIGGRLRHAFVGIGFRERTEAYDFQAALHDHMKYLDKKKTAEEMEQQ 163
[Close]
BLAST of Spo17730.1 vs. NCBI nr
Match: gi|731356813|ref|XP_010689877.1| (PREDICTED: uncharacterized protein At1g03900 [Beta vulgaris subsp. vulgaris])

HSP 1 Score: 152.5 bits (384), Expect = 6.100e-34
Identity = 86/142 (60.56%), Postives = 91/142 (64.08%), Query Frame = 1 

		  

Query: 55  KSAGLKLDDEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHHVETI 114
           K+A     DEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPH VE +
Sbjct: 42  KTAASYRADEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHPVEPV 101

Query: 115 -----PFASNRREN-------------------------------RYLDNKKTAEEMEQQ 161
                 F     EN                               +YLD KKTAEEMEQQ
Sbjct: 102 IDSSRYFVLRIEENIDGRLRHAFIGLGFRERTEAYDFQAALHDHMKYLDKKKTAEEMEQQ 161
[Close]
BLAST of Spo17730.1 vs. NCBI nr
Match: gi|475563186|gb|EMT14226.1| (Adaptin ear-binding coat-associated protein 2 [Aegilops tauschii])

HSP 1 Score: 148.3 bits (373), Expect = 1.200e-32
Identity = 72/98 (73.47%), Postives = 84/98 (85.71%), Query Frame = 1 

		  

Query: 63  DEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHHVETIPFASNRRE 122
           DEW+VNKWAWEG LKV SKGEECII+LEDKSTGELYARAFLR+GEPH VE +  +S    
Sbjct: 51  DEWNVNKWAWEGALKVASKGEECIIKLEDKSTGELYARAFLREGEPHPVEAVIDSS---- 110

Query: 123 NRYLDNKKTAEEMEQQFQNSSAIDYSLKDGETLVLQLK 161
            RYL+ KKTAEEM Q ++N+S++DYSLK+GETLVLQLK
Sbjct: 111 -RYLNKKKTAEEMVQHYENTSSVDYSLKEGETLVLQLK 143
[Close]
BLAST of Spo17730.1 vs. NCBI nr
Match: gi|474159928|gb|EMS57249.1| (Adaptin ear-binding coat-associated protein 1 [Triticum urartu])

HSP 1 Score: 147.9 bits (372), Expect = 1.500e-32
Identity = 71/98 (72.45%), Postives = 84/98 (85.71%), Query Frame = 1 

		  

Query: 63  DEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHHVETIPFASNRRE 122
           DEW+VNKWAWEG LKV SKGEEC+I+LEDKSTGELYARAFLR+GEPH VE +  +S    
Sbjct: 53  DEWNVNKWAWEGALKVASKGEECVIKLEDKSTGELYARAFLREGEPHPVEAVIDSS---- 112

Query: 123 NRYLDNKKTAEEMEQQFQNSSAIDYSLKDGETLVLQLK 161
            RYL+ KKTAEEM Q ++N+S++DYSLK+GETLVLQLK
Sbjct: 113 -RYLNKKKTAEEMVQHYENTSSVDYSLKEGETLVLQLK 145
[Close]
BLAST of Spo17730.1 vs. NCBI nr
Match: gi|703109721|ref|XP_010099373.1| (Uncharacterized protein L484_004799 [Morus notabilis])

HSP 1 Score: 144.8 bits (364), Expect = 1.300e-31
Identity = 82/142 (57.75%), Postives = 88/142 (61.97%), Query Frame = 1 

		  

Query: 55  KSAGLKLDDEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHHVETI 114
           KSA     DEWDVNKW WEGVLKVISKGEECIIRLEDK TGELYARAFLR GEPH VE +
Sbjct: 41  KSAASYRADEWDVNKWVWEGVLKVISKGEECIIRLEDKKTGELYARAFLRNGEPHPVEPV 100

Query: 115 -----PFASNRREN-------------------------------RYLDNKKTAEEMEQQ 161
                 F     EN                               +YL+ KKTAEEMEQQ
Sbjct: 101 IDSSRYFVLRIEENIGGRLRHAFIGIGFRERTEAYDFQAALHDHMKYLNKKKTAEEMEQQ 160
[Close]
BLAST of Spo17730.1 vs. UniProtKB/TrEMBL
Match: A0A0K9RXH9_SPIOL (Uncharacterized protein OS=Spinacia oleracea GN=SOVF_017320 PE=4 SV=1)

HSP 1 Score: 159.1 bits (401), Expect = 4.600e-36
Identity = 91/142 (64.08%), Postives = 93/142 (65.49%), Query Frame = 1 

		  

Query: 55  KSAGLKLDDEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHHVETI 114
           KSA     DEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPH VET+
Sbjct: 44  KSAASYRADEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHPVETV 103

Query: 115 -----PFASNRREN-------------------------------RYLDNKKTAEEMEQQ 161
                 F     EN                               +YLD KKTAEEMEQQ
Sbjct: 104 IDSSRYFVLRIEENIGGRLRHAFVGIGFRERTEAYDFQAALHDHMKYLDKKKTAEEMEQQ 163
[Close]
BLAST of Spo17730.1 vs. UniProtKB/TrEMBL
Match: G5DW97_SILLA (Adaptin ear-binding coat-associated protein (Fragment) OS=Silene latifolia PE=2 SV=1)

HSP 1 Score: 154.8 bits (390), Expect = 8.600e-35
Identity = 87/142 (61.27%), Postives = 92/142 (64.79%), Query Frame = 1 

		  

Query: 55  KSAGLKLDDEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHHVETI 114
           K+A     DEWDVNKWAWEGVLKV+SKGEECIIRLEDKSTGELYARAFLRKGEPH VE +
Sbjct: 45  KTAASYRADEWDVNKWAWEGVLKVVSKGEECIIRLEDKSTGELYARAFLRKGEPHPVEPV 104

Query: 115 -----PFASNRREN-------------------------------RYLDNKKTAEEMEQQ 161
                 F     EN                               +YLD KKTAEEMEQQ
Sbjct: 105 IDSSRYFVLRIEENIGGRLRHAFIGIGFRERTEAYDFQAALHDHMKYLDKKKTAEEMEQQ 164
[Close]
BLAST of Spo17730.1 vs. UniProtKB/TrEMBL
Match: A0A0J8BK80_BETVU (Uncharacterized protein OS=Beta vulgaris subsp. vulgaris GN=BVRB_9g210170 PE=4 SV=1)

HSP 1 Score: 152.5 bits (384), Expect = 4.300e-34
Identity = 86/142 (60.56%), Postives = 91/142 (64.08%), Query Frame = 1 

		  

Query: 55  KSAGLKLDDEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHHVETI 114
           K+A     DEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPH VE +
Sbjct: 42  KTAASYRADEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHPVEPV 101

Query: 115 -----PFASNRREN-------------------------------RYLDNKKTAEEMEQQ 161
                 F     EN                               +YLD KKTAEEMEQQ
Sbjct: 102 IDSSRYFVLRIEENIDGRLRHAFIGLGFRERTEAYDFQAALHDHMKYLDKKKTAEEMEQQ 161
[Close]
BLAST of Spo17730.1 vs. UniProtKB/TrEMBL
Match: G5DW96_SILLA (Adaptin ear-binding coat-associated protein (Fragment) OS=Silene latifolia PE=2 SV=1)

HSP 1 Score: 152.5 bits (384), Expect = 4.300e-34
Identity = 85/142 (59.86%), Postives = 92/142 (64.79%), Query Frame = 1 

		  

Query: 55  KSAGLKLDDEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHHVETI 114
           K+A     DEWDVNKWAWEGVLKV+SKGEECII+LEDKSTGELYARAFLRKG+PH VE +
Sbjct: 45  KTAASYRADEWDVNKWAWEGVLKVVSKGEECIIKLEDKSTGELYARAFLRKGDPHPVEPV 104

Query: 115 -----PFASNRREN-------------------------------RYLDNKKTAEEMEQQ 161
                 F     EN                               +YLD KKTAEEMEQQ
Sbjct: 105 IDSSRYFVLRIEENIGGRLRHAFIGIGFRERTEAYDFQAALHDHMKYLDKKKTAEEMEQQ 164
[Close]
BLAST of Spo17730.1 vs. UniProtKB/TrEMBL
Match: R7W3C0_AEGTA (Adaptin ear-binding coat-associated protein 2 OS=Aegilops tauschii GN=F775_27229 PE=4 SV=1)

HSP 1 Score: 148.3 bits (373), Expect = 8.100e-33
Identity = 72/98 (73.47%), Postives = 84/98 (85.71%), Query Frame = 1 

		  

Query: 63  DEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHHVETIPFASNRRE 122
           DEW+VNKWAWEG LKV SKGEECII+LEDKSTGELYARAFLR+GEPH VE +  +S    
Sbjct: 51  DEWNVNKWAWEGALKVASKGEECIIKLEDKSTGELYARAFLREGEPHPVEAVIDSS---- 110

Query: 123 NRYLDNKKTAEEMEQQFQNSSAIDYSLKDGETLVLQLK 161
            RYL+ KKTAEEM Q ++N+S++DYSLK+GETLVLQLK
Sbjct: 111 -RYLNKKKTAEEMVQHYENTSSVDYSLKEGETLVLQLK 143
[Close]
BLAST of Spo17730.1 vs. TAIR (Arabidopsis)
Match: AT3G58600.1 (Adaptin ear-binding coat-associated protein 1 NECAP-1)

HSP 1 Score: 131.3 bits (329), Expect = 5.200e-31
Identity = 73/142 (51.41%), Postives = 89/142 (62.68%), Query Frame = 1 

		  

Query: 55  KSAGLKLDDEWDVNKWAWEGVLKVISKGEECIIRLEDKSTGELYARAFLRKGEPHHVETI 114
           K+A     DEWDVNKWAWEG LKV+SKGEECII+L DK+TGELYA+AFLR+GE H VE +
Sbjct: 51  KTAASYRADEWDVNKWAWEGALKVVSKGEECIIKLVDKTTGELYAQAFLREGELHPVEAV 110

Query: 115 PFASNR----------------------REN--------------RYLDNKKTAEEMEQQ 161
             +S                        RE               +YL+ KKTAEEMEQ 
Sbjct: 111 IDSSRYFVLRVEEKIDGRVRHAFIGLGFRERTEAYDFQAALHDHMKYLNKKKTAEEMEQH 170
The following BLAST results are available for this feature:
BLAST of Spo17730.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 5
Match NameE-valueIdentityDescription
gi|902236163|gb|KNA24245.1|6.6e-3664.0hypothetical protein SOVF_0173... [more]
gi|731356813|ref|XP_010689877.1|6.1e-3460.5PREDICTED: uncharacterized pro... [more]
gi|475563186|gb|EMT14226.1|1.2e-3273.4Adaptin ear-binding coat-assoc... [more]
gi|474159928|gb|EMS57249.1|1.5e-3272.4Adaptin ear-binding coat-assoc... [more]
gi|703109721|ref|XP_010099373.1|1.3e-3157.7Uncharacterized protein L484_0... [more]
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BLAST of Spo17730.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 5
Match NameE-valueIdentityDescription
A0A0K9RXH9_SPIOL4.6e-3664.0Uncharacterized protein OS=Spi... [more]
G5DW97_SILLA8.6e-3561.2Adaptin ear-binding coat-assoc... [more]
A0A0J8BK80_BETVU4.3e-3460.5Uncharacterized protein OS=Bet... [more]
G5DW96_SILLA4.3e-3459.8Adaptin ear-binding coat-assoc... [more]
R7W3C0_AEGTA8.1e-3373.4Adaptin ear-binding coat-assoc... [more]
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BLAST of Spo17730.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of Spo17730.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 1
Match NameE-valueIdentityDescription
AT3G58600.15.2e-3151.4Adaptin ear-binding coat-assoc... [more]
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InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
IPR TermIPR DescriptionSourceSource TermSource DescriptionAlignment
IPR011993PH domain-likeGENE3D2.30.29.30coord: 62..114
score: 8.5
IPR011993PH domain-likeunknownSSF50729PH domain-likecoord: 63..114
score: 1.12
IPR012466NECAP-1, N-terminalPFAMPF07933DUF1681coord: 63..113
score: 3.
NoneNo IPR availablePANTHERPTHR12847ATP-BINDING CASSETTE ABC TRANSPORTER-RELATEDcoord: 63..160
score: 2.0
NoneNo IPR availablePANTHERPTHR12847:SF4ADAPTIN EAR-BINDING COAT-ASSOCIATED PROTEIN 1 NECAP-1coord: 63..160
score: 2.0

GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0006897 endocytosis
biological_process GO:0006289 nucleotide-excision repair
biological_process GO:0006013 mannose metabolic process
biological_process GO:0006020 inositol metabolic process
biological_process GO:0006096 glycolytic process
biological_process GO:0046486 glycerolipid metabolic process
biological_process GO:0006094 gluconeogenesis
biological_process GO:0006000 fructose metabolic process
biological_process GO:0015976 carbon utilization
biological_process GO:0006366 transcription by RNA polymerase II
biological_process GO:0000394 RNA splicing, via endonucleolytic cleavage and ligation
biological_process GO:0032508 DNA duplex unwinding
biological_process GO:0005983 starch catabolic process
biological_process GO:0008152 metabolic process
biological_process GO:0019252 starch biosynthetic process
biological_process GO:0006470 protein dephosphorylation
biological_process GO:0043085 positive regulation of catalytic activity
biological_process GO:0000023 maltose metabolic process
cellular_component GO:0009570 chloroplast stroma
cellular_component GO:0016020 membrane
cellular_component GO:0000439 core TFIIH complex
cellular_component GO:0005657 replication fork
cellular_component GO:0009569 chloroplast starch grain
cellular_component GO:0009535 chloroplast thylakoid membrane
molecular_function GO:0005516 calmodulin binding
molecular_function GO:0005515 protein binding
molecular_function GO:0005524 ATP binding
molecular_function GO:0004003 ATP-dependent DNA helicase activity
molecular_function GO:0008568 microtubule-severing ATPase activity
molecular_function GO:0046983 protein dimerization activity
molecular_function GO:0003676 nucleic acid binding
molecular_function GO:0008138 protein tyrosine/serine/threonine phosphatase activity
molecular_function GO:0019203 carbohydrate phosphatase activity
molecular_function GO:0004807 triose-phosphate isomerase activity
RNA-Seq Expression