Information report for A04p018390.1_BraROA
Gene Details
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Functional Annotation
- HLP1 is a member of the conserved hnRNP A/B family and contains RNA Recognition Motifs (RRM).It binds mRNA and appears to be involved in targeting alternative polyadenylation (APA). APA targets include genes involved in flowering. Loss of HLP1 function results causes late flowering under long and short day conditions. This phenotype is suppressed by loss of FLC.
Homologous
- Arabidopsis thaliana — AT5G40490
Sequences
gDNA Sequence
- >A04p018390.1_BraROA
TGGACCCTTATGCAACGGAAACAGTCGTGGATGAGGAGAACCACGAAGTGAAACCATCCGAAGATGTTGAGGACGATGACGACAAATCTCAGCCTCAATCCGGTGGTGGCATCGATAGCGCTGGGTAAGTTTTCTCAAAATATTCTAGATTCAATAATTAGCGTTCGAATTGAGATAGAGGAGAAGAAAATAGCATCGTATTGTTTTCGATTCTTCTGTTACAAAAATTCGTGATAGGGAAATAGAAAAGTTTTCAACTTTATATGGATACTCTTACTGATTGGTGAAAGCCTAGAGAAATCTGGAGTGGAAAAGGATTACTTATACTTAGTGAGTTAGTCTACTTATACGGTGTTTTTTTTGGAATTTGTAGAAAGATATTTGTTGGAGGTTTAGCCAGGGAGACAACTTCAGGTTAGCTCTTTGTGTCTGGTTGCCACTTTGTTAAGAAGAGGTTAGCTCTCTCGTTATTGGGTTAAAGTTCAATACTTTATTCGGATTCTTTTTTATCTGTTTATGCAGCTGAGTTCGTCAAGCATTTTGAGAAGTATGGAGAGATTACAGATTCTGTGATTATGAAGGATAGGAAAACTGGACAGCCCCGAGGGTTTGGGTTTGTTACTTATGCTGATTCCTCTGTGGTCGATAAACTTATTCAGGACAATCACATTATAAACGGGAAGCAGGTTAGTATTTAGCTAACAAGCTTAAGTGTGTGTTCTTAAGTTGTGTCTTACAGTGAAATAACGTTTGCTTCTTCTTTTTTGGCTCTTCAGGTTGAGATTAAGCGGACGATACCGAGAGGATCCATGAGCTCCTCCAACGAGATCAAAACCAAGAAGATATTTGTTGGGGGAATTCCTTCAACTGTTGATGATGGTAGGACACTTGGCTCGTTTATCATAATATTGTCATTTCATGATCATGTCTATCTGTGAAGTAACTCATCTGGTGATTGGGGTTTGTGTAGATGAGTTCAAGGAGTTCTTTATGCAATTTGGGGAGCTGAAGGAACACCAGATTATGCGTGATCACGCAACTGGAAGATCACGTGGGTTCGGGTTTGTTACATATGAAAGTGAAGAGATGGTTGATCTTCTCTTGGCAAAAGGGAACAGAATTGAGCTCTCTGGGACTCAGGTAACCAAATATTGTTGAGATTCTAAGGCTTTTGTAGCTAAACAGAACACTTACATCTCCCTCTTACATTGTTGTATTGTCTTATATAGGTTGAGATAAAGAAGGCAGAGCCAAAGAAACCAAACTCGGTAACAACCCCATCAAGGCGGTTTGGTGACTCACGCTCTAACTTTGGCGGAGGCTATGGAGACGGTTATGGTGGAGGACCCGGCGGTGGATATGGTGGTCCAGATGGTCCTTACAAATCTGGTGGCGGCTATGGAGGTGGCCGGTCTGGTGGCTATGGAGGGTACGGAGGAGAGTTTGGCGGGTATGGCGGCGGTGGATATGGTGGTGGTGTTGGACCATATAGAGGAGGAGAGCCTCCACTTGGATACTCTGGTCGTTATGGAGGAGGAGGCGGTGGTGGTTACAACAGAGGTGGTTACGGCATGGGAGGTGGAGGAGGAGGAGGGTACGGTGGTGGACCTGGAGATATGTATGGTGGGCCGTATGGTGAGCCAGCAGGTGGTTATGGTGGACCAAGTGGGAGTTATGGAAGTGGATACGGTAGTGGTGGGTATGGTGGAGGAGGCTATAGAGGCAGCAGTGGTGGGTATGAGATGGGTGGTACTGGAGTTGGAGGCGGAGGAGGCTACCCTGGTGGTGGCGGCGGAGCAAGCGGAGGAGGCTCGTTCTATGGTGGTGGAGGAGGAGGAGGGGGAAGTAGAGGAGGATATGGAGGAGGTTCGGGACGGTACCATCCTTACGGAAGGTAG
CDS Sequence
- >A04p018390.1_BraROA
ATGGACCCTTATGCAACGGAAACAGTCGTGGATGAGGAGAACCACGAAGTGAAACCATCCGAAGATGTTGAGGACGATGACGACAAATCTCAGCCTCAATCCGGTGGTGGCATCGATAGCGCTGGAAAGATATTTGTTGGAGGTTTAGCCAGGGAGACAACTTCAGCTGAGTTCGTCAAGCATTTTGAGAAGTATGGAGAGATTACAGATTCTGTGATTATGAAGGATAGGAAAACTGGACAGCCCCGAGGGTTTGGGTTTGTTACTTATGCTGATTCCTCTGTGGTCGATAAACTTATTCAGGACAATCACATTATAAACGGGAAGCAGGTTGAGATTAAGCGGACGATACCGAGAGGATCCATGAGCTCCTCCAACGAGATCAAAACCAAGAAGATATTTGTTGGGGGAATTCCTTCAACTGTTGATGATGATGAGTTCAAGGAGTTCTTTATGCAATTTGGGGAGCTGAAGGAACACCAGATTATGCGTGATCACGCAACTGGAAGATCACGTGGGTTCGGGTTTGTTACATATGAAAGTGAAGAGATGGTTGATCTTCTCTTGGCAAAAGGGAACAGAATTGAGCTCTCTGGGACTCAGGTTGAGATAAAGAAGGCAGAGCCAAAGAAACCAAACTCGGTAACAACCCCATCAAGGCGGTTTGGTGACTCACGCTCTAACTTTGGCGGAGGCTATGGAGACGGTTATGGTGGAGGACCCGGCGGTGGATATGGTGGTCCAGATGGTCCTTACAAATCTGGTGGCGGCTATGGAGGTGGCCGGTCTGGTGGCTATGGAGGGTACGGAGGAGAGTTTGGCGGGTATGGCGGCGGTGGATATGGTGGTGGTGTTGGACCATATAGAGGAGGAGAGCCTCCACTTGGATACTCTGGTCGTTATGGAGGAGGAGGCGGTGGTGGTTACAACAGAGGTGGTTACGGCATGGGAGGTGGAGGAGGAGGAGGGTACGGTGGTGGACCTGGAGATATGTATGGTGGGCCGTATGGTGAGCCAGCAGGTGGTTATGGTGGACCAAGTGGGAGTTATGGAAGTGGATACGGTAGTGGTGGGTATGGTGGAGGAGGCTATAGAGGCAGCAGTGGTGGGTATGAGATGGGTGGTACTGGAGTTGGAGGCGGAGGAGGCTACCCTGGTGGTGGCGGCGGAGCAAGCGGAGGAGGCTCGTTCTATGGTGGTGGAGGAGGAGGAGGGGGAAGTAGAGGAGGATATGGAGGAGGTTCGGGACGGTACCATCCTTACGGAAGGTAG
Protein Sequence
- >A04p018390.1_BraROA
MDPYATETVVDEENHEVKPSEDVEDDDDKSQPQSGGGIDSAGKIFVGGLARETTSAEFVKHFEKYGEITDSVIMKDRKTGQPRGFGFVTYADSSVVDKLIQDNHIINGKQVEIKRTIPRGSMSSSNEIKTKKIFVGGIPSTVDDDEFKEFFMQFGELKEHQIMRDHATGRSRGFGFVTYESEEMVDLLLAKGNRIELSGTQVEIKKAEPKKPNSVTTPSRRFGDSRSNFGGGYGDGYGGGPGGGYGGPDGPYKSGGGYGGGRSGGYGGYGGEFGGYGGGGYGGGVGPYRGGEPPLGYSGRYGGGGGGGYNRGGYGMGGGGGGGYGGGPGDMYGGPYGEPAGGYGGPSGSYGSGYGSGGYGGGGYRGSSGGYEMGGTGVGGGGGYPGGGGGASGGGSFYGGGGGGGGSRGGYGGGSGRYHPYGR