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Journal Abstract Search

268 related items for PubMed ID: 18599495

  • 1. Nucleus-encoded periplastid-targeted EFL in chlorarachniophytes.
    Gile GH, Keeling PJ.
    Mol Biol Evol; 2008 Sep; 25(9):1967-77. PubMed ID: 18599495
    [Abstract] [Full Text] [Related]

  • 2. Characterization of periplastidal compartment-targeting signals in chlorarachniophytes.
    Hirakawa Y, Gile GH, Ota S, Keeling PJ, Ishida K.
    Mol Biol Evol; 2010 Jul; 27(7):1538-45. PubMed ID: 20133351
    [Abstract] [Full Text] [Related]

  • 3. Nucleus-to-nucleus gene transfer and protein retargeting into a remnant cytoplasm of cryptophytes and diatoms.
    Gould SB, Sommer MS, Kroth PG, Gile GH, Keeling PJ, Maier UG.
    Mol Biol Evol; 2006 Dec; 23(12):2413-22. PubMed ID: 16971693
    [Abstract] [Full Text] [Related]

  • 4. Der1-mediated preprotein import into the periplastid compartment of chromalveolates?
    Sommer MS, Gould SB, Lehmann P, Gruber A, Przyborski JM, Maier UG.
    Mol Biol Evol; 2007 Apr; 24(4):918-28. PubMed ID: 17244602
    [Abstract] [Full Text] [Related]

  • 5. Nucleus- and nucleomorph-targeted histone proteins in a chlorarachniophyte alga.
    Hirakawa Y, Burki F, Keeling PJ.
    Mol Microbiol; 2011 Jun; 80(6):1439-49. PubMed ID: 21470316
    [Abstract] [Full Text] [Related]

  • 6. Molecular chaperones encoded by a reduced nucleus: the cryptomonad nucleomorph.
    Archibald JM, Cavalier-Smith T, Maier U, Douglas S.
    J Mol Evol; 2001 Jun; 52(6):490-501. PubMed ID: 11443352
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  • 7. Proteomics reveals plastid- and periplastid-targeted proteins in the chlorarachniophyte alga Bigelowiella natans.
    Hopkins JF, Spencer DF, Laboissiere S, Neilson JA, Eveleigh RJ, Durnford DG, Gray MW, Archibald JM.
    Genome Biol Evol; 2012 Jun; 4(12):1391-406. PubMed ID: 23221610
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  • 10. Overexpression of molecular chaperone genes in nucleomorph genomes.
    Hirakawa Y, Suzuki S, Archibald JM, Keeling PJ, Ishida K.
    Mol Biol Evol; 2014 Jun; 31(6):1437-43. PubMed ID: 24603278
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  • 13. Comparative rates of evolution in endosymbiotic nuclear genomes.
    Patron NJ, Rogers MB, Keeling PJ.
    BMC Evol Biol; 2006 Jun 14; 6():46. PubMed ID: 16772046
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  • 14. Genomic reduction and evolution of novel genetic membranes and protein-targeting machinery in eukaryote-eukaryote chimaeras (meta-algae).
    Cavalier-Smith T.
    Philos Trans R Soc Lond B Biol Sci; 2003 Jan 29; 358(1429):109-33; discussion 133-4. PubMed ID: 12594921
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  • 15. Chromalveolates and the evolution of plastids by secondary endosymbiosis.
    Keeling PJ.
    J Eukaryot Microbiol; 2009 Jan 29; 56(1):1-8. PubMed ID: 19335769
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  • 16. Dual targeting of aminoacyl-tRNA synthetases to the mitochondrion and complex plastid in chlorarachniophytes.
    Hirakawa Y, Burki F, Keeling PJ.
    J Cell Sci; 2012 Dec 15; 125(Pt 24):6176-84. PubMed ID: 23038770
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  • 17. Eukaryotic and eubacterial contributions to the establishment of plastid proteome estimated by large-scale phylogenetic analyses.
    Suzuki K, Miyagishima SY.
    Mol Biol Evol; 2010 Mar 15; 27(3):581-90. PubMed ID: 19910386
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  • 18. Evolutionary origin of a preprotein translocase in the periplastid membrane of complex plastids: a hypothesis.
    Bodył A.
    Plant Biol (Stuttg); 2004 Sep 15; 6(5):513-8. PubMed ID: 15375721
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  • 20. EFL GTPase in cryptomonads and the distribution of EFL and EF-1alpha in chromalveolates.
    Gile GH, Patron NJ, Keeling PJ.
    Protist; 2006 Oct 15; 157(4):435-44. PubMed ID: 16904374
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