Information report for Et_s271-1.38-1.path1
Gene Details
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Functional Annotation
- Encodes the putative catalytic subunit of the DNA polymerase alpha. Interacts with genes involved in chromatin-mediated cellular memory. ICU2 genetically interacts with TERMINAL FLOWER2, the ortholog of HETEROCHROMATIN PROTEIN1 of animals and yeasts, and with the Polycomb group (PcG) gene CURLY LEAF. A number of regulatory genes were derepressed in the icu2-1 mutant, including genes associated with flowering time, floral meristem, and floral organ identity. Mutant has curled, involute leaves and causes early flowering.
Homologous
- Oryza sativa: LOC_Os01g64820
- Setaria italica: SETIT_000033mg
- Setaria viridis: SEVIR_5G400000v2
- Triticum aestivum: TraesCS3A02G380100
Sequences
CDS Sequence
- >Et_s271-1.38-1.path1
ATTCCTCCACCAGTTGCCCATATCAAGTCCCAAGAAGCAGTCTTAGGTGTTGAAATGTTGGCCTGTTCGGACAATGGGCTCGATACTGATGGGATTTGGGACCGTGCAAATGATATGACTGTGGAAATGAGGCCGGATGCTGAGATGAAACCCAAATTGGAAGGAGCTACAGGTTCTGGTGCTGAACTGGTAACTGAGAATAAGAGCGCGGAGGAACCAAACCAGGAGGCAAATGGGGAAGTGAAGATAGAGAAGGTGCACCGCCTCAATGCAAAGATTAAGGCAGAGGATAACAGAAATGGAGATGTGACGAGTGCAACAGCAGGGTGGATGAAGATATGTGGTGATGGGGGTAATGGAGGAGGCGAGGGAGGGGTGGCTGCTGACTGTAACACCGTTGTGGATGAAAGTTCAGAGTTTGAGCTGAAAGATGGATCACTTCCATTCTACATACTGGATGCATATGAGGAACCATTTGGTGCTAATTCAGGCACAGTTTATTTGTTTGGGAAGGTTGAAGTCGGCAAGCGGTTTCATAGTTGCTGTGTCATTGTAAAGAATATTCAACGATGCATATACGCTATTCCAAACAGTTCAGTATTCACAATGGAATCCATATCAAGTATAGAAAGGAACTCTACAAGTGCTGATTATTTGCCATCACTTCGTGCAACTCTACATGAGTTGGCATCAGGATTGAAGAGTGAAATAGCTGACAAATTGTCAGATCTCAATGTGTCAAATTTTGTAATGACTCCAGTCAAGAGGAACTATGCTTTTGAGAGGACTGATTTACCGAATGGAGAGCAGTATGTCCTGAAAATCAATTATCCATACAAGGATCGTGCTCTGCCAGCAGACCTCAGAGGTGAACATTTCCATGCGTTGCTTGGGACAAACAACAGTGCTCTTGAATTGTTTCTCATCAAAAGGAAGATCAAGGGGCCTTCATGGCTATCAGTTTCCAAATTTGCCACATGCCCATCTACTCAGCGTGTTAGCTGGTGTAAATTTGAAGTCACAGTTGATTGTCCAAAGGACATATCTGTTTTGACGACAAGCACGTCTCTAGAAGTGCCTCCTGTTGTAGTTGCAGCAGTTAATCTGAAAACTGTCATCAATGAGAAACATAATGTGCATGAGATTGTGTCAGCATCTGTTATATGCTGTCATCGGGTGAAGATAGATAGTCCAATGCGTTCTGAAGATTGGCAGAAACGGGGAATGCTCAGCCATTTTACTGTTATGCGCAAGCTCGAAGGTAGTATATTTCCTGTGGGTCTCAATAAAGAAGCGTCTGACAGGAATCATAAGGCTGGTAGCAACGTGCTGGCACTAGAAAGCAGCGAACGCGCATTGTTAAATCGTTTGATGATAGAGCTGAGCAAACTTGATTGTGATGTACTTGTGGGGCACAATATTTCAGGATTCGACCTGGATGTCCTTCTACATCGTGCTCAGACATGCAAAGTGCCAAGCAGCATGTGGTCCAAGATTGGCCGTCTCAGGCGATCAGTGATGCCCAGGCTTACCAAAGGAAACACACTTTACGGTTCTGGGGCAAGTCCAGGAATTATGTCCTGTATTGCTGGCCGTCTTCTCTGTGATACCTATTTATGCTCTCGTGACCTTCTAAAGGAGGTGAGTTATTCATTGACACAACTTGCAGAAACACAATTGAAAAAGGACAGGAGAGAAATTTCTCCACATGATATACCCCCAATGTTTCAGTCTTCAGGAGAACTACTCAAACTGGTTGAATATGGTGAGACTGATGCATGGCTTTCTTTGGAGCTCATGTTTCATTTGAGTGTACTCCCCCTTACACGCCAACTGACAAATATTAGTGGTAATCTTTGGGGGAAAACGCTCCAGGGTGCTAGGGCTCAGAGAGTAGAATATCTACTGTTGCATGCATTCCATGCAAAAAAGTTTATTGTACCAGACAAATTTGCACGCAACAAAGAGCTGAACTCTACAAAACGGAAAATGAATGCTGAAACTGAGGGTGCAAATGCTGATGATGGGCCTGCTGATACTTCCATTGATGATGAGGTGCATCATGGTGATCAAGGTAAAGCAAGAAAAGGACCTTCGTATGCTGGTGGTTTGGTTTTGGAGCCTAAGAAGGGTTTATATGACAAATATGTTCTACTTCTGGATTTCAACAGTCTTTATCCTTCAATAATTCAGGAATACAATATCTGCTTTACCACTGTTGAGCGTTCTTCTGATGGCAATGTACCTAACTTACCAGCTTCAAAAGCTACTGGTGTTTTACCCGAGTTGCTGAGGAGTTTGGTGGAGAGGAGAAGAATGGTTAAATCATGGTTGAAGACTGCTTCTGGTCTTAAAAGGCAGCAGTTTGATATTCAGCAGCAAGCACTGAAGCTTACTGCTAATAGCATGTACGGTTGCTTGGGCTTTTCCAATTCCAGATTTTACGCAAAACCACTTGCTGAGCTTATTACATTGCAGGGAAGAGAGATATTGCAAAACACTGTTGATCTGGTTCAGAATAATTTAAACCTTGAGGTTATTTATGGTGACACGGATTCCATTATGATACATACCGGACTGGATGACATCTCCAGAGCAAAAGCAATTGCAGGAAAAGTTATTCAGGAGGTGAACAAAAAGTACCGCTGTCTGGAGATTGATCTTGATGGTGTATACAAAAGAATGTTGCTTCTTAAAAAGAAGAAATATGCTGCTGTTAAAGTGGCATTAGATGGTAGCTTGCGAGAGAACATTGAACGCAAGGGGCTTGATATGGTCAGGCGTGATTGGAGTTTGCTATCCAAAGAAATTGGAGATTTTTGCTTAAATCAAATATTGTCCGGAGGGACATGTGATGATGTTGTTGAGTCAATACATAGTTCACTTGTCCAGTATCATAATCTATTGATTGAAACTATGAAGGTGCAAGAGCAAATGAGAAGTGGTCAAATAGAGCTTGAAAAATATGTCATCAATAAGAGCTTAACAAAAGCGCCTGCGGATTATCCAGATGCCAAAAATCAGCCTCATGTTGCTTTGAGACTGAGGCAAAATGGTTACTCTGGTTGCTCTGCAGGTGATACAGTTCCTTATATAATCTGCTCTCCACAGGATTCAGATAACTCACATTCTGGGGGAGTAGCTCAAAGAGCTAGACATCCCGATGAGCTAAAAAGAGACCCTGACAAGTGGATGATTGACATTGAGTATTATTTGTCACAACAGATCCATCCTGTTGTTTCACGTCTGTGTGCTTCCATTCAGGGTACTAGCCCAGCCCGTCTGGCTGAATGTCTGGGGCTTGATTCATCAAAGTTCCAATCAAGGCTGACTGAGTCTAACCATCAAGATACATCTACGATGCTGCTATCTGTAATTGATGATGAAGATGAAAGATATTGTGGTTGTGAGCCACTCCATTTGTCATGTCCAAGCTGTTCCAGTACCTTCGACTGCCCCCCTGTATCTAGTCTGATTACTAGTTCTAGTAGTGCAAATATATCAGATCAAAATGAAGGAAAAGATGCTACTGCTAATTTTTGGCGCCGTATGCGGTGCCCAAGATGTCCAGATGATGTTGATGACTCCAGAATTTCTCCTCATGTGCTTGCCAATCAGATGAAAAGACAGGCTGATAATTTCATCAACCTATATTACAAAGGTTTGCTGATGTGTGATGATGAGGGATGCAAATACTCTACTCATAGTGTGAACCTTAGAGTCATGGGGGATTCTGAGAGAGGAACTATCTGCCCTAACTACCCACGTTGCAATGGTCGCCTCGTGAGACAGTACACGGAGGCAGATCTATACAGGCAGTTGTCCTACTTTTGCTATGTACTTGATGCAACTCGTTGTCTTGAGAAGCTGGACCAGAAAACAAGGCTCCCTTTTGAGAAAGAGTTTTCAGCAGTAAGCCAAAGCATTAACCTGGCACTGATGGAGATTCAGAAAATCCGGGACAGATGTGCATTTGGATGGGTTCAGTTGCAGGATCTTGCCATTTCAATCTGA
Protein Sequence
- >Et_s271-1.38-1.path1
IPPPVAHIKSQEAVLGVEMLACSDNGLDTDGIWDRANDMTVEMRPDAEMKPKLEGATGSGAELVTENKSAEEPNQEANGEVKIEKVHRLNAKIKAEDNRNGDVTSATAGWMKICGDGGNGGGEGGVAADCNTVVDESSEFELKDGSLPFYILDAYEEPFGANSGTVYLFGKVEVGKRFHSCCVIVKNIQRCIYAIPNSSVFTMESISSIERNSTSADYLPSLRATLHELASGLKSEIADKLSDLNVSNFVMTPVKRNYAFERTDLPNGEQYVLKINYPYKDRALPADLRGEHFHALLGTNNSALELFLIKRKIKGPSWLSVSKFATCPSTQRVSWCKFEVTVDCPKDISVLTTSTSLEVPPVVVAAVNLKTVINEKHNVHEIVSASVICCHRVKIDSPMRSEDWQKRGMLSHFTVMRKLEGSIFPVGLNKEASDRNHKAGSNVLALESSERALLNRLMIELSKLDCDVLVGHNISGFDLDVLLHRAQTCKVPSSMWSKIGRLRRSVMPRLTKGNTLYGSGASPGIMSCIAGRLLCDTYLCSRDLLKEVSYSLTQLAETQLKKDRREISPHDIPPMFQSSGELLKLVEYGETDAWLSLELMFHLSVLPLTRQLTNISGNLWGKTLQGARAQRVEYLLLHAFHAKKFIVPDKFARNKELNSTKRKMNAETEGANADDGPADTSIDDEVHHGDQGKARKGPSYAGGLVLEPKKGLYDKYVLLLDFNSLYPSIIQEYNICFTTVERSSDGNVPNLPASKATGVLPELLRSLVERRRMVKSWLKTASGLKRQQFDIQQQALKLTANSMYGCLGFSNSRFYAKPLAELITLQGREILQNTVDLVQNNLNLEVIYGDTDSIMIHTGLDDISRAKAIAGKVIQEVNKKYRCLEIDLDGVYKRMLLLKKKKYAAVKVALDGSLRENIERKGLDMVRRDWSLLSKEIGDFCLNQILSGGTCDDVVESIHSSLVQYHNLLIETMKVQEQMRSGQIELEKYVINKSLTKAPADYPDAKNQPHVALRLRQNGYSGCSAGDTVPYIICSPQDSDNSHSGGVAQRARHPDELKRDPDKWMIDIEYYLSQQIHPVVSRLCASIQGTSPARLAECLGLDSSKFQSRLTESNHQDTSTMLLSVIDDEDERYCGCEPLHLSCPSCSSTFDCPPVSSLITSSSSANISDQNEGKDATANFWRRMRCPRCPDDVDDSRISPHVLANQMKRQADNFINLYYKGLLMCDDEGCKYSTHSVNLRVMGDSERGTICPNYPRCNGRLVRQYTEADLYRQLSYFCYVLDATRCLEKLDQKTRLPFEKEFSAVSQSINLALMEIQKIRDRCAFGWVQLQDLAISI