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Journal Abstract Search

332 related items for PubMed ID: 25811607

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  • 4. The role of plastidial glucose-6-phosphate/phosphate translocators in vegetative tissues of Arabidopsis thaliana mutants impaired in starch biosynthesis.
    Kunz HH, Häusler RE, Fettke J, Herbst K, Niewiadomski P, Gierth M, Bell K, Steup M, Flügge UI, Schneider A.
    Plant Biol (Stuttg); 2010 Sep; 12 Suppl 1():115-28. PubMed ID: 20712627
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  • 5. Glucose-6-P/phosphate translocator2 mediates the phosphoglucose-isomerase1-independent response to microbial volatiles.
    Gámez-Arcas S, Muñoz FJ, Ricarte-Bermejo A, Sánchez-López ÁM, Baslam M, Baroja-Fernández E, Bahaji A, Almagro G, De Diego N, Doležal K, Novák O, Leal-López J, León Morcillo RJ, Castillo AG, Pozueta-Romero J.
    Plant Physiol; 2022 Nov 28; 190(4):2137-2154. PubMed ID: 36111879
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  • 6. Starch Biosynthesis in Guard Cells But Not in Mesophyll Cells Is Involved in CO2-Induced Stomatal Closing.
    Azoulay-Shemer T, Bagheri A, Wang C, Palomares A, Stephan AB, Kunz HH, Schroeder JI.
    Plant Physiol; 2016 Jun 28; 171(2):788-98. PubMed ID: 27208296
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  • 7. HPLC-MS/MS analyses show that the near-Starchless aps1 and pgm leaves accumulate wild type levels of ADPglucose: further evidence for the occurrence of important ADPglucose biosynthetic pathway(s) alternative to the pPGI-pPGM-AGP pathway.
    Bahaji A, Baroja-Fernández E, Sánchez-López AM, Muñoz FJ, Li J, Almagro G, Montero M, Pujol P, Galarza R, Kaneko K, Oikawa K, Wada K, Mitsui T, Pozueta-Romero J.
    PLoS One; 2014 Jun 28; 9(8):e104997. PubMed ID: 25133777
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  • 12. Role of the plastidic glucose translocator in the export of starch degradation products from the chloroplasts in Arabidopsis thaliana.
    Cho MH, Lim H, Shin DH, Jeon JS, Bhoo SH, Park YI, Hahn TR.
    New Phytol; 2011 Apr 28; 190(1):101-112. PubMed ID: 21175634
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  • 14. Starch biosynthesis in guard cells has features of both autotrophic and heterotrophic tissues.
    Flütsch S, Horrer D, Santelia D.
    Plant Physiol; 2022 Jun 01; 189(2):541-556. PubMed ID: 35238373
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  • 15. Cytosolic phosphoglucose isomerase is essential for microsporogenesis and embryogenesis in Arabidopsis.
    Liu HC, Chen HC, Huang TH, Lue WL, Chen J, Suen DF.
    Plant Physiol; 2023 Jan 02; 191(1):177-198. PubMed ID: 36271861
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  • 16. Correction: Plastidic phosphoglucose isomerase is an important determinant of starch accumulation in mesophyll cells, growth, photosynthetic capacity, and biosynthesis of plastidic cytokinins in Arabidopsis.
    Bahaji A, Sánchez-López ÁM, De Diego N, Muñoz FJ, Baroja-Fernández E, Li J, Ricarte-Bermejo A, Baslam M, Aranjuelo I, Almagro G, Humplík JF, Novák O, Spíchal L, Doležal K, Pozueta-Romero J.
    PLoS One; 2015 Jan 02; 10(4):e0126531. PubMed ID: 25906238
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  • 17. Correction: correction: plastidic phosphoglucose isomerase is an important determinant of starch accumulation in mesophyll cells, growth, photosynthetic capacity, and biosynthesis of plastidic cytokinins in Arabidopsis.
    PLOS ONE Staff.
    PLoS One; 2015 Jan 02; 10(5):e0128736. PubMed ID: 25978815
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  • 18. The sink-specific plastidic phosphate transporter PHT4;2 influences starch accumulation and leaf size in Arabidopsis.
    Irigoyen S, Karlsson PM, Kuruvilla J, Spetea C, Versaw WK.
    Plant Physiol; 2011 Dec 02; 157(4):1765-77. PubMed ID: 21960139
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  • 19. Starch Granules in Arabidopsis thaliana Mesophyll and Guard Cells Show Similar Morphology but Differences in Size and Number.
    Liu Q, Li X, Fettke J.
    Int J Mol Sci; 2021 May 26; 22(11):. PubMed ID: 34073516
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