Gene Details:

  • Gene ID: Jr15_08850
  • Suggest Gene Name: TRANSLOCATED PROMOTER REGION, NUCLEAR PORE ANCHOR
  • Description: putative flowering gene
  • Species: Juglans regia
  • Source: Putative flowering gene from PlantCFG

Protein Features:

Functional Descriptions:

  • Encodes a 237-kDA protein with similarity to vertebrate Tpr, a long coiled-coil proteins of nuclear pore inner basket filaments. It is localized to the inner surface of the nuclear envelope and is a component of the nuclear pore-associated steps of sumoylation and mRNA export in plants. Mutations affect flowering time regulation and other developmental processes. Probably acts in the same pathway as ESD4 in affecting flowering time, vegetative and inflorescence development.

Homologous

Sequences:

CDS Sequence
  • >Jr15_08850
    ATGCCTCTGTTCCTCTCCGATGAGGAGTTCTCGCAGTGCGCAGAAGACGCCGCTGCGGTGGCGGAGAAGGCCGACACGTTCATCGCCGAGCTGTACAAGGAGGTCGAGATCGTCAGGGCCCGGGCCGACGCCTCTGCCATCACCGCCGAGCAGACCTGCTCTCTGCTCGAGCAGAAGTACCTCTCCCTCTCTGCAGAATTCTCCAAGCTCGAGTCCCAAAACGCACAGCTTCACTCCTCCCTCGATCAGCGTCTCTCCGACCTCGCCCAAGTCCAGGCCCAAAAGCATCAACTCCAGTTGCAATCCATCGGAAAGGATGGGCAGATAGAGAGGTTGACAACGGAGGTGTCGGAGTTGCATAAGTCTAAAAGACAGTTGATAGAGTTGGTGGAGCAGAAGGATTTGGAGACTGGTGGGAAGAATGCCACTAGCAAGAGCTATCTTGATAAGATTGTCAAATTGTCCGCCACTGCTGCGCAAAGAGAGTCCCGTTTGAGTGAAATCGAGGCTGAGTTGTCGCGTGCGCAGGCTACACGCTCTCGTCTTTCACAGGAAAAGGAGCTTGTTGAGAGGCATAATGTCTGGCTTAATGATGAGTTGACTGAAAAAGTTAATAGTCTCAATGAACTGCAGAGAAAATATAATGATATTGAGGCTGATATGTCTGCTAAGCTTGCAGAAGTTGAGAGGCAATACAACGAATGCTCTGGTTCATTACAATGGAACAGGGAAAGAGTGAGGGAACTAGAAACAAAACTAACATCCTTGCAGGAGGAGTTGTGTTCATCTAAAGATGCTGCCGCCGCCAATGAAGAGCGATTATCTGCTGAACTCTCAACACTAAATAAGCTTGTTGAACTATACAAGGAAAGTTCTGATGAATGGTCCAAGAGGGCAGGAGAGCTTGAGGGCGTCGTTAAAGCCCTAAAGACACATTTGATTCAAGTCGAAATTGATTATAAAGAGAGACTTGAAAAGGAAGTATCTGCAAGGAACCAATTTGAAAAGGATGCTGCAGATCTGAAAGCAAAACTTGAAAAGTGTGAAGCTGATGTTGAAAACAGTAGAAAATCAAATGAACTGAATCTTCTTCCACACAGCAATTTCAGTACTGAAATATTGATGAATTCATTTGAAACAAATTGCATGGTTGAGGATAATCACATGGTTGTCCCCAAGATTCCTGCAGGTGTTTCAGGAACAGCCTTGGCAGCTTCGCTTCTGCGTGATGGTTGGAGTCTGGCTAAAGTGTATTTGAAATATCAAGAGACTGTTGATGCCCTAATACATGAACAGTTGGGAAGGAAGCAATCTGAGGTCATTCTGCAACGGGTCTTATATGAATTAGAGGAGAAAGCTGAAGTCATTTTGGATGAAAGAGCGGAACATGAAAGAATGGCCGAGGCATACTCTGAAATCAACCAGAAGCTGCAGAACTTGCTGTCTGAACAGACTAACTTTGAGAAAACCATACAGAAATTGAAGGCTGATTTAAGGAGACATGAGCGTGACTATACTCTCGCGCAAAAAGAGATTGTTGACCTCCAGAAACAGGTGACAGTTCTTCTTAAGGAATGTCGAGATATACGACTTCGTTGTGGATCTACTGGGCTAGAAAGTTTTGATGATGGTAGCACTGTTACGGGGACAAATGCAGAGTCTGATACTGAAAAAGTGATTTCTGAACGACTGTTGACATTTAAGGACATAAATGGATTAGTGGAGCAAAATGTACAACTCAGGAGCCTTTTGCGCAGTCTTTCTGATCAAGTTGAAAGTACAGAGATGGAGTTCAAGGAAAAGTTTGAAATGGAGCTTAAAAACCATACTGATGAATCTTCCTCTAAAGTTGCTGCTGTCTTACAAAGAGCAGAGGAGCAAGGGCGAATGATTGAATCTCTCCACACCTCTGTTGCTATGTACAAAAGGTTATATGAAGAGGAACGTAAACTTGATTCATGTCTGCCCCATTTTTCAGAAGCTGCTCCAGATGATGGCAGGACCAATCTCAAGCTTCTTCTTGAAAGATCTCAGGAAGCTTCAACAAAGGCCCAGGAACATGCTGTGGAGCGAGGGAGATGCCTTGAAGAAGAACTGGTGAAGTCTAGGACTGAGATTATATCATTATGCACAGAGCGTGACAAGTTCACTCTGGAAGCAAATTTTGCAAGAGAAAGACTTGATAGCTTCACGAAGGAATTTGAGCAGCAGAGAATTGAAAGCAATGGCATTTTAGCCAGAAATGTGGAGTTCTCGCAATTAATAATTGACTATCAACGAAAGCTGCGTGAAAGTTCTGAATCTTTGCATGCTGCTGAGGACCTTTCTCGGAAGCTTACTATGGAGGTATCTGTTTTTAAGCATGAAAAAGATATGTTAGTCAGTGCGGAGAAGAGAGCTTGTAATGAAGTTCGTGGTTTGTCAGAGAGGGTCTACCATCTGCAGGCTAGTTTGGACACTATACAGGGTGCCGAGGAAGTTCACGAGGAGGCAAGAACTTCTGAGAGGAGAAAACAAGAGGAGCACATAAAGCAAGTTGAGAGAGAATGGGCCGAGGCTGAGAAACAGTTGCAAGAAGAGCGGGACAATGTTCAGAACCTCAGAGTAGACCGTGAGCAGACTATAAAAGATGCCATGAGACAAGTTGAAGAAATGGGAAAAGAGTTAACTCTTGCTTTGCGTGCTGTTGCAGCTGCTGAATCGAGAGCTGTGGTTGCTGAGGTGAAACTGTCTGATCTAGAGAGAAAAATCAAATCCTCAGATGCCAAGGATGTTGACATAGATGGTGCAAGTGAATCTTCGTCTTTCTTGAGCAAGGAGATTGTTGCCGAATTACAAATGGCAAAGGAAGAGATTGAAAAATTGATATTGGAAGCACAGGCTAACAAGGATCACATGCAACAGTATAAGAGCATTGTGCAGGTGAATGAAGATGCATTAAAGCAGATGGAAAGTGCCCATGAAACCTTCAAGATTGAGGCAAACAAACTAAAGAAATCACTAGAGGATGAAGTTCTTTCCCTTAGAGAGAGGGTTTCTGAACTTGAATATGAATCTAGTTTGAAGTCCGAAGAAGTAGCTTCTATAACTGCAGAGAAAGAGGAGAGCCTTGTGTCTGCTTTAGCAGAAATAAAAAATCTTAAGGAAGAATCATTGGTTAAAACTTCGCAAATTTTAGCAATGGAAATTCAGAATTCTGTCTTAAAAGAAGACTTGGAGAAGGAGCATCAGCGATGGCGTGGCGCTCAGACCAATTATGAAAGACAGGTCATCCTCCTGTCAGAGACTATTCAGGAGTTGACAACAACATCAGAAACCTTGGGTTCGCTCCAAGAGGAAGCATCTGAATTGCGTAAAATGGCAGATGCACACAAAAGTGAAAATAATAAATTGAAGTCCAAGTGGGAAGTAGGTAAGGCAATGCTTGAGGAGTCAAAAAATGCAGCTGAGAAGAAGTACAATGATACCAATGAACAGAACAAAATACTGCACAGTCGACTTGAAGCTTTGCACATTCAGTTGGCTGAGAAGGATCGTAATTCTGTTGGAGTTTCTTCTGGAAGCACCAGCAGTGATACCCTTGGTGATGCTGGTTTACAGAATATTATTAATTATCTCCGACGATCAAAAGAGATTGCAGAAACAGAGATTTCATTGTTAAAACAGGAAAAGTTGCAACTGCAATCACAACTCGAGAGGGCTCTCAAGGCAATAGAGACTGCCCAAGCATCACTGCAAGCTGAGCATGCAAATTCAAGAGCATCGTTGTTCACTGAGGAAGAAATCAAGTCTTTACAACTTCAGGTTAGAGAAATGAACTTACTTCGTGAAAGCAACATGCAACTCAGAGAAGAAAACAAGCACAATTTCGAGGAATGCCTGAAATTTCGTGAAGTAGTTCAAAATGCAAAGGTTGAGACAGAGAATTTAGGGTCTCTACTGAGGGAGCGACAAATTGAGGTGGAAGCTTGTAAGAAAGAAATTGAAATGCAAAAGGTTAATAAAGATAACCTGGAAAAGAGGGTTTGTGAGTTACTTGAAAGGTGTAAAAAAATAGATGTGGAAGATTATGACCGTATGAAGGATGATATTCAACGAATGCAGGAGAAACTGAAAGATAAGGATGCACAGATAGCTGAGATCAGAAAGCTTCTGTATGAAAGGCAGGATACAACATCAAAATTGGAACAAGATCTTTCAAAACGCAAATTAGAACTGAGTGAGAGGGAGAAGAGGATAAATGAGATTTTGCAAGTTGAGGCTCGTTCAAAGCTAGATGCCGAGAAGCAAAGAAAGATGTTTATTCAGTTGAAGAGGAGGTTTGAGACTCTGTCAAAGGAAAAGGAGGAACTGAGCAAGGAGAATCAAGCTCTCTCTGGGCAGTTAGAGGAGGTCAAACAAGGGAAGAGGTCTATCAGTGATACTGCTGGTGAGCAGGCCACAAAGGAGGAGAAAGACACCAAAATACAGACTCTAGAGAAACATTTGGCGAGGCAGAGGGAGGAGTTAAGGAAGGAGAAAGAAAGACGTCTGAATGCTGAGAAGGCACAAAGAGATTCTTATAATAAAATTGAGCAGGATAAAACAAAGTTTGTAAATGAGCTTGAGATGCATAAGCAGGCATTGAAGCAGCTTTCAGATGAACTTCGAAAGCTTAAGCATGCGAAAGACAGTTTACCTGAGGGTGCTTCAGTGGTTCAAATTCTTTCTGGCACTCTTCTGGATGATCTTGCTGCTCCCTATGTCATGGCCGTTGAAAATTTAGAAAAGGTAGCACATTCAGTTTTGGGTGAACTTGGAGCTCATGGTGTTCCCACGGACACCTCTTCGATTGCAGACACTTCATTGACTACTGCTGCAGGTCCTATAGTTTCTATGCAAGCCCCTAGTCTTGTAATCCCACTGGGACCTTCAACAAGTGGCTTGCCAGCCAAAGCAACTGAAGAAAGTGAGAAGAGATTCACTTTGGCCAAAACCAATGTTGAGACTCGAAAAGCTGGCAGGAAGTTAGTCCTAGTCCGGCCACGTATTGTAAAATCTGATGAGCCCCAAGGGGATGTGGAGATGTCAGAGGTTGAAGGAGCAAACAATGCGGGCAAACCTGCACCTTCTAGTGACACAGAAACTCAGGGAAATCTTACTTTACTAACCCAACCATTGGTCCGCAAACGTATAGCATCTTCATCCACTTCTGAGTTGCATGAGGAGACAGTTATCCAAGGAGAAATCAGCACTGATGTGGGTGTACCTGTGCTCAAAAAAACAAAAGGTTCAGAACCTGCACAAGAGAGTTCTGAATGTCAATTTGCTGTTCCTGTTGAAAATCTTGGGACACTAGTGGCTACTGAAGGATTATCTGAGGTTCGTGAGTTTCCTCAAGGTCCAAATGAGGAAGTAATGGATGGTGAGGAAGAGGTTGAGACTACAGGAGATAAAGCAGAGGATAAGAAGAGTGTTCCAGATGAGAATGTGGATAGACAAGGTGGATTGCTGGGTTATAAGAAGAGTGTTCCAGATGAGAATGTGGATAGACAAGGTGGATTGCATGGTGATAAGAAGAGTGTTCTAGATGAGAATGAAGATAGACTAGATGGATCGGATATGGTGTCTGATGATGGGCCAAAGGATCAAGCAGAGGAGAGGAAGAAGGGGAATCTGGAATCTGGAAGTGAAAGAGAAGAGGGTGAGCTCATGCCTGATTTTACCGACCCTGAGGTTGGTGATATTTCTAACACAATGGGGAAGTCAAAAATAGGGGAAGGACAACCGGAGGCTATTGCAACCCCATTGGCTTCACCAGCTAGGGCTGGTGATGAAACTCTAGTTGCTGCAGCAATGGAGATTGGTGAGATAAATTCTCCAGAGGCTTTAAATGATGAGAAAAATGAGGAAGGTTATGCGGAAGTAGAGACTGCTGAGGGTTCCGATAAGTCAAACGATGGGAAGGAACAAATTGTGGTGGAAACTGCTCAGGTCAGCGAAACTTCCTATGTTCCAGTCGAGAATACTTCAGGTGGTGGAGTTACAGAAGCTGATGTCTCAAAACAAGGTAGTCCTTTATCAGAACAAGGCATTTCAACTGTCAACACAGAAACCGACGTGGTAAGGCAGGGGTCACCTGTAGGTATTACTTCAACTACTATTAATCTTTCAGAGCGAGCTAGGCAGAATGCTGCGAGGAGATTAGGTGTGGTCTCATCTCCAGTGGTTAGAGGCCGTGGAAGAGCTGTGCCACGTGCTCGAGGCCCACGTGCTCGAGGTCCACGTGGTGGGCGTGGTGGACCTGATGGGCGTGGACAATCATCCAATGAACAAGGTTAA
Protein Sequence
  • >Jr15_08850
    MPLFLSDEEFSQCAEDAAAVAEKADTFIAELYKEVEIVRARADASAITAEQTCSLLEQKYLSLSAEFSKLESQNAQLHSSLDQRLSDLAQVQAQKHQLQLQSIGKDGQIERLTTEVSELHKSKRQLIELVEQKDLETGGKNATSKSYLDKIVKLSATAAQRESRLSEIEAELSRAQATRSRLSQEKELVERHNVWLNDELTEKVNSLNELQRKYNDIEADMSAKLAEVERQYNECSGSLQWNRERVRELETKLTSLQEELCSSKDAAAANEERLSAELSTLNKLVELYKESSDEWSKRAGELEGVVKALKTHLIQVEIDYKERLEKEVSARNQFEKDAADLKAKLEKCEADVENSRKSNELNLLPHSNFSTEILMNSFETNCMVEDNHMVVPKIPAGVSGTALAASLLRDGWSLAKVYLKYQETVDALIHEQLGRKQSEVILQRVLYELEEKAEVILDERAEHERMAEAYSEINQKLQNLLSEQTNFEKTIQKLKADLRRHERDYTLAQKEIVDLQKQVTVLLKECRDIRLRCGSTGLESFDDGSTVTGTNAESDTEKVISERLLTFKDINGLVEQNVQLRSLLRSLSDQVESTEMEFKEKFEMELKNHTDESSSKVAAVLQRAEEQGRMIESLHTSVAMYKRLYEEERKLDSCLPHFSEAAPDDGRTNLKLLLERSQEASTKAQEHAVERGRCLEEELVKSRTEIISLCTERDKFTLEANFARERLDSFTKEFEQQRIESNGILARNVEFSQLIIDYQRKLRESSESLHAAEDLSRKLTMEVSVFKHEKDMLVSAEKRACNEVRGLSERVYHLQASLDTIQGAEEVHEEARTSERRKQEEHIKQVEREWAEAEKQLQEERDNVQNLRVDREQTIKDAMRQVEEMGKELTLALRAVAAAESRAVVAEVKLSDLERKIKSSDAKDVDIDGASESSSFLSKEIVAELQMAKEEIEKLILEAQANKDHMQQYKSIVQVNEDALKQMESAHETFKIEANKLKKSLEDEVLSLRERVSELEYESSLKSEEVASITAEKEESLVSALAEIKNLKEESLVKTSQILAMEIQNSVLKEDLEKEHQRWRGAQTNYERQVILLSETIQELTTTSETLGSLQEEASELRKMADAHKSENNKLKSKWEVGKAMLEESKNAAEKKYNDTNEQNKILHSRLEALHIQLAEKDRNSVGVSSGSTSSDTLGDAGLQNIINYLRRSKEIAETEISLLKQEKLQLQSQLERALKAIETAQASLQAEHANSRASLFTEEEIKSLQLQVREMNLLRESNMQLREENKHNFEECLKFREVVQNAKVETENLGSLLRERQIEVEACKKEIEMQKVNKDNLEKRVCELLERCKKIDVEDYDRMKDDIQRMQEKLKDKDAQIAEIRKLLYERQDTTSKLEQDLSKRKLELSEREKRINEILQVEARSKLDAEKQRKMFIQLKRRFETLSKEKEELSKENQALSGQLEEVKQGKRSISDTAGEQATKEEKDTKIQTLEKHLARQREELRKEKERRLNAEKAQRDSYNKIEQDKTKFVNELEMHKQALKQLSDELRKLKHAKDSLPEGASVVQILSGTLLDDLAAPYVMAVENLEKVAHSVLGELGAHGVPTDTSSIADTSLTTAAGPIVSMQAPSLVIPLGPSTSGLPAKATEESEKRFTLAKTNVETRKAGRKLVLVRPRIVKSDEPQGDVEMSEVEGANNAGKPAPSSDTETQGNLTLLTQPLVRKRIASSSTSELHEETVIQGEISTDVGVPVLKKTKGSEPAQESSECQFAVPVENLGTLVATEGLSEVREFPQGPNEEVMDGEEEVETTGDKAEDKKSVPDENVDRQGGLLGYKKSVPDENVDRQGGLHGDKKSVLDENEDRLDGSDMVSDDGPKDQAEERKKGNLESGSEREEGELMPDFTDPEVGDISNTMGKSKIGEGQPEAIATPLASPARAGDETLVAAAMEIGEINSPEALNDEKNEEGYAEVETAEGSDKSNDGKEQIVVETAQVSETSYVPVENTSGGGVTEADVSKQGSPLSEQGISTVNTETDVVRQGSPVGITSTTINLSERARQNAARRLGVVSSPVVRGRGRAVPRARGPRARGPRGGRGGPDGRGQSSNEQG