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Journal Abstract Search

191 related items for PubMed ID: 9071009

  • 1. Evolutionary origin of cryptomonad microalgae: two novel chloroplast/cytosol-specific GAPDH genes as potential markers of ancestral endosymbiont and host cell components.
    Liaud MF, Brandt U, Scherzinger M, Cerff R.
    J Mol Evol; 1997; 44 Suppl 1():S28-37. PubMed ID: 9071009
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  • 2. The evolutionary origin of red algae as deduced from the nuclear genes encoding cytosolic and chloroplast glyceraldehyde-3-phosphate dehydrogenases from Chondrus crispus.
    Liaud MF, Valentin C, Martin W, Bouget FY, Kloareg B, Cerff R.
    J Mol Evol; 1994 Apr; 38(4):319-27. PubMed ID: 8007000
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  • 3. Functional divergence and convergent evolution in the plastid-targeted glyceraldehyde-3-phosphate dehydrogenases of diverse eukaryotic algae.
    Gaston D, Roger AJ.
    PLoS One; 2013 Apr; 8(7):e70396. PubMed ID: 23936198
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  • 4. 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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  • 7. Nuclear genome sequence of the plastid-lacking cryptomonad Goniomonas avonlea provides insights into the evolution of secondary plastids.
    Cenci U, Sibbald SJ, Curtis BA, Kamikawa R, Eme L, Moog D, Henrissat B, Maréchal E, Chabi M, Djemiel C, Roger AJ, Kim E, Archibald JM.
    BMC Biol; 2018 Nov 28; 16(1):137. PubMed ID: 30482201
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  • 8. The chloroplast division protein FtsZ is encoded by a nucleomorph gene in cryptomonads.
    Fraunholz MJ, Moerschel E, Maier UG.
    Mol Gen Genet; 1998 Nov 28; 260(2-3):207-11. PubMed ID: 9862473
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  • 11. A nuclear gene of eubacterial origin in Euglena gracilis reflects cryptic endosymbioses during protist evolution.
    Henze K, Badr A, Wettern M, Cerff R, Martin W.
    Proc Natl Acad Sci U S A; 1995 Sep 26; 92(20):9122-6. PubMed ID: 7568085
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  • 12. Nuclear-encoded, plastid-targeted genes suggest a single common origin for apicomplexan and dinoflagellate plastids.
    Fast NM, Kissinger JC, Roos DS, Keeling PJ.
    Mol Biol Evol; 2001 Mar 26; 18(3):418-26. PubMed ID: 11230543
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  • 14. Evidence for a chimeric nature of nuclear genomes: eubacterial origin of eukaryotic glyceraldehyde-3-phosphate dehydrogenase genes.
    Martin W, Brinkmann H, Savonna C, Cerff R.
    Proc Natl Acad Sci U S A; 1993 Sep 15; 90(18):8692-6. PubMed ID: 8378350
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  • 15. Glyceraldehyde-3-phosphate dehydrogenase gene diversity in eubacteria and eukaryotes: evidence for intra- and inter-kingdom gene transfer.
    Figge RM, Schubert M, Brinkmann H, Cerff R.
    Mol Biol Evol; 1999 Apr 15; 16(4):429-40. PubMed ID: 10331270
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  • 17. Gene structure, expression in Escherichia coli and biochemical properties of the NAD+ -dependent glyceraldehyde-3-phosphate dehydrogenase from Pinus sylvestris chloroplasts.
    Meyer-Gauen G, Herbrand H, Pahnke J, Cerff R, Martin W.
    Gene; 1998 Mar 16; 209(1-2):167-74. PubMed ID: 9583948
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  • 18. Diplonemid glyceraldehyde-3-phosphate dehydrogenase (GAPDH) and prokaryote-to-eukaryote lateral gene transfer.
    Qian Q, Keeling PJ.
    Protist; 2001 Sep 16; 152(3):193-201. PubMed ID: 11693658
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  • 19. Multiple gene phylogenies support the monophyly of cryptomonad and haptophyte host lineages.
    Patron NJ, Inagaki Y, Keeling PJ.
    Curr Biol; 2007 May 15; 17(10):887-91. PubMed ID: 17462896
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  • 20. Evidence in favor of the symbiotic origin of chloroplasts: primary structure and evolution of tobacco glyceraldehyde-3-phosphate dehydrogenases.
    Shih MC, Lazar G, Goodman HM.
    Cell; 1986 Oct 10; 47(1):73-80. PubMed ID: 3757034
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