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Journal Abstract Search

413 related items for PubMed ID: 27233821

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  • 6. NADPH Thioredoxin Reductase C and Thioredoxins Act Concertedly in Seedling Development.
    Ojeda V, Pérez-Ruiz JM, González M, Nájera VA, Sahrawy M, Serrato AJ, Geigenberger P, Cejudo FJ.
    Plant Physiol; 2017 Jul; 174(3):1436-1448. PubMed ID: 28500266
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  • 7. Thioredoxin f1 and NADPH-Dependent Thioredoxin Reductase C Have Overlapping Functions in Regulating Photosynthetic Metabolism and Plant Growth in Response to Varying Light Conditions.
    Thormählen I, Meitzel T, Groysman J, Öchsner AB, von Roepenack-Lahaye E, Naranjo B, Cejudo FJ, Geigenberger P.
    Plant Physiol; 2015 Nov; 169(3):1766-86. PubMed ID: 26338951
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  • 8. Maintaining the Chloroplast Redox Balance through the PGR5-Dependent Pathway and the Trx System Is Required for Light-Dependent Activation of Photosynthetic Reactions.
    Okegawa Y, Tsuda N, Sakamoto W, Motohashi K.
    Plant Cell Physiol; 2022 Jan 25; 63(1):92-103. PubMed ID: 34623443
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  • 10. Two chloroplast thioredoxin systems differentially modulate photosynthesis in Arabidopsis depending on light intensity and leaf age.
    Guinea Diaz M, Nikkanen L, Himanen K, Toivola J, Rintamäki E.
    Plant J; 2020 Nov 25; 104(3):718-734. PubMed ID: 32772439
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  • 11. Chloroplast redox homeostasis is essential for lateral root formation in Arabidopsis.
    Ferrández J, González M, Cejudo FJ.
    Plant Signal Behav; 2012 Sep 01; 7(9):1177-9. PubMed ID: 22899086
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  • 12. NTRC-dependent redox balance of 2-Cys peroxiredoxins is needed for optimal function of the photosynthetic apparatus.
    Pérez-Ruiz JM, Naranjo B, Ojeda V, Guinea M, Cejudo FJ.
    Proc Natl Acad Sci U S A; 2017 Nov 07; 114(45):12069-12074. PubMed ID: 29078290
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  • 13. Insights into the function of NADPH thioredoxin reductase C (NTRC) based on identification of NTRC-interacting proteins in vivo.
    González M, Delgado-Requerey V, Ferrández J, Serna A, Cejudo FJ.
    J Exp Bot; 2019 Oct 24; 70(20):5787-5798. PubMed ID: 31294455
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  • 14. A point mutation in atpC1 raises the redox potential of the Arabidopsis chloroplast ATP synthase gamma-subunit regulatory disulfide above the range of thioredoxin modulation.
    Wu G, Ortiz-Flores G, Ortiz-Lopez A, Ort DR.
    J Biol Chem; 2007 Dec 21; 282(51):36782-9. PubMed ID: 17959606
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  • 15. The contribution of glutathione peroxidases to chloroplast redox homeostasis in Arabidopsis.
    Casatejada A, Puerto-Galán L, Pérez-Ruiz JM, Cejudo FJ.
    Redox Biol; 2023 Jul 21; 63():102731. PubMed ID: 37245286
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  • 17. The impact of light and thioredoxins on the plant thiol-disulfide proteome.
    Hou LY, Sommer F, Poeker L, Dziubek D, Schroda M, Geigenberger P.
    Plant Physiol; 2024 May 31; 195(2):1536-1560. PubMed ID: 38214043
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  • 19. Deletion of chloroplast NADPH-dependent thioredoxin reductase results in inability to regulate starch synthesis and causes stunted growth under short-day photoperiods.
    Lepistö A, Pakula E, Toivola J, Krieger-Liszkay A, Vignols F, Rintamäki E.
    J Exp Bot; 2013 Sep 31; 64(12):3843-54. PubMed ID: 23881397
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  • 20. A comparative analysis of the NADPH thioredoxin reductase C-2-Cys peroxiredoxin system from plants and cyanobacteria.
    Pascual MB, Mata-Cabana A, Florencio FJ, Lindahl M, Cejudo FJ.
    Plant Physiol; 2011 Apr 31; 155(4):1806-16. PubMed ID: 21335525
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