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215 related items for PubMed ID: 25697796

  • 1. Differentiating phosphate-dependent and phosphate-independent systemic phosphate-starvation response networks in Arabidopsis thaliana through the application of phosphite.
    Jost R, Pharmawati M, Lapis-Gaza HR, Rossig C, Berkowitz O, Lambers H, Finnegan PM.
    J Exp Bot; 2015 May; 66(9):2501-14. PubMed ID: 25697796
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  • 2. Acclimation responses of Arabidopsis thaliana to sustained phosphite treatments.
    Berkowitz O, Jost R, Kollehn DO, Fenske R, Finnegan PM, O'Brien PA, Hardy GE, Lambers H.
    J Exp Bot; 2013 Apr; 64(6):1731-43. PubMed ID: 23404904
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  • 5. Suppression of the auxin response pathway enhances susceptibility to Phytophthora cinnamomi while phosphite-mediated resistance stimulates the auxin signalling pathway.
    Eshraghi L, Anderson JP, Aryamanesh N, McComb JA, Shearer B, Hardy GS.
    BMC Plant Biol; 2014 Mar 20; 14():68. PubMed ID: 24649892
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  • 6. Members of the PHO1 gene family show limited functional redundancy in phosphate transfer to the shoot, and are regulated by phosphate deficiency via distinct pathways.
    Stefanovic A, Ribot C, Rouached H, Wang Y, Chong J, Belbahri L, Delessert S, Poirier Y.
    Plant J; 2007 Jun 20; 50(6):982-94. PubMed ID: 17461783
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  • 7. Phosphite, an analog of phosphate, suppresses the coordinated expression of genes under phosphate starvation.
    Varadarajan DK, Karthikeyan AS, Matilda PD, Raghothama KG.
    Plant Physiol; 2002 Jul 20; 129(3):1232-40. PubMed ID: 12114577
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  • 10. Vacuolar Ca2+/H+ transport activity is required for systemic phosphate homeostasis involving shoot-to-root signaling in Arabidopsis.
    Liu TY, Aung K, Tseng CY, Chang TY, Chen YS, Chiou TJ.
    Plant Physiol; 2011 Jul 20; 156(3):1176-89. PubMed ID: 21546457
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  • 11. Phosphite-Mediated Suppression of Anthocyanin Accumulation Regulated by Mitochondrial ATP Synthesis and Sugars in Arabidopsis.
    Leong SJ, Lu WC, Chiou TJ.
    Plant Cell Physiol; 2018 Jun 01; 59(6):1158-1169. PubMed ID: 29514351
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  • 15. Phosphate transport in Arabidopsis: Pht1;1 and Pht1;4 play a major role in phosphate acquisition from both low- and high-phosphate environments.
    Shin H, Shin HS, Dewbre GR, Harrison MJ.
    Plant J; 2004 Aug 01; 39(4):629-42. PubMed ID: 15272879
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  • 16. Arabidopsis pdr2 reveals a phosphate-sensitive checkpoint in root development.
    Ticconi CA, Delatorre CA, Lahner B, Salt DE, Abel S.
    Plant J; 2004 Mar 01; 37(6):801-14. PubMed ID: 14996215
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  • 17. Phosphite disrupts the acclimation of Saccharomyces cerevisiae to phosphate starvation.
    McDonald AE, Niere JO, Plaxton WC.
    Can J Microbiol; 2001 Nov 01; 47(11):969-78. PubMed ID: 11766057
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  • 19. Nitrate-inducible NIGT1 proteins modulate phosphate uptake and starvation signalling via transcriptional regulation of SPX genes.
    Ueda Y, Kiba T, Yanagisawa S.
    Plant J; 2020 May 01; 102(3):448-466. PubMed ID: 31811679
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  • 20. Uncoupling phosphate deficiency from its major effects on growth and transcriptome via PHO1 expression in Arabidopsis.
    Rouached H, Stefanovic A, Secco D, Bulak Arpat A, Gout E, Bligny R, Poirier Y.
    Plant J; 2011 Feb 01; 65(4):557-70. PubMed ID: 21288266
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