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Journal Abstract Search

111 related items for PubMed ID: 12228668

  • 21. Induction of high-affinity NO3- uptake in grapevine roots is an active process correlated to the expression of specific members of the NRT2 and plasma membrane H+-ATPase gene families.
    Pii Y, Alessandrini M, Guardini K, Zamboni A, Varanini Z.
    Funct Plant Biol; 2014 Apr; 41(4):353-365. PubMed ID: 32480996
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  • 24. Sterol Modulation of the Plasma Membrane H+-ATPase Activity from Corn Roots Reconstituted into Soybean Lipids.
    Grandmougin-Ferjani A, Schuler-Muller I, Hartmann MA.
    Plant Physiol; 1997 Jan; 113(1):163-174. PubMed ID: 12223599
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  • 25. Effect of exogenous calcium on growth, nutrients uptake and plasma membrane H+-ATPase and Ca2+-ATPase activities in soybean (Glycine max) seedlings under simulated acid rain stress.
    Liang C, Zhang B.
    Ecotoxicol Environ Saf; 2018 Dec 15; 165():261-269. PubMed ID: 30205327
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  • 26. The Na+-translocating ATPase in the plasma membrane of the marine microalga Tetraselmis viridis catalyzes Na+/H+ exchange.
    Balnokin YV, Popova LG, Pagis LY, Andreev IM.
    Planta; 2004 Jun 15; 219(2):332-7. PubMed ID: 14997393
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  • 27. The plasma membrane proteome of maize roots grown under low and high iron conditions.
    Hopff D, Wienkoop S, Lüthje S.
    J Proteomics; 2013 Oct 08; 91():605-18. PubMed ID: 23353019
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  • 29. Latency of Plasma Membrane H-ATPase in Vesicles Isolated by Aqueous Phase Partitioning : Increased substrate Accessibility or Enzyme Activation.
    Sandstrom RP, Deboer AH, Lomax TL, Cleland RE.
    Plant Physiol; 1987 Nov 08; 85(3):693-8. PubMed ID: 16665762
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  • 33. Cl- channels of the gastric parietal cell that are active at low pH.
    Cuppoletti J, Baker AM, Malinowska DH.
    Am J Physiol; 1993 Jun 08; 264(6 Pt 1):C1609-18. PubMed ID: 8392803
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  • 34. Photosynthetic control of the plasma membrane H+-ATPase in Vallisneria leaves. II. Presence of putative isogenes and a protein equipped with a C-terminal autoinhibitory domain.
    Harada A, Fukuhara T, Takagi S.
    Planta; 2002 Apr 08; 214(6):870-6. PubMed ID: 11941463
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  • 35. Proton accumulation and ATPase activity in Golgi apparatus-enriched vesicles from rat liver.
    Yeh HI, van Rossum GD.
    Hepatology; 1991 Mar 08; 13(3):523-33. PubMed ID: 1847895
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  • 36. Some characteristics of anion transport at the tonoplast of oat roots, determined from the effects of anions on pyrophosphatedependent proton transport.
    Pope AJ, Leigh RA.
    Planta; 1987 Sep 08; 172(1):91-100. PubMed ID: 24225792
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  • 37. The Two Km's for ATP of Corn-Root H+-ATPase and the Use of Glucose-6-Phosphate and Hexokinase as an ATP-Regenerating System.
    Ramos RS, Caldeira MT, Arruda P, De Meis L.
    Plant Physiol; 1994 Jul 08; 105(3):853-859. PubMed ID: 12232248
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  • 38. Phosphorylation of the plasma-membrane H(+)-ATPase of oat roots by a calcium-stimulated protein kinase.
    Schaller GE, Sussman MR.
    Planta; 1988 Dec 08; 173(4):509-18. PubMed ID: 24226688
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  • 39. Presence of Two Different Membrane-bound, KCl-stimulated Adenosine Triphosphatase Activities in Maize Roots.
    Leigh RA, Williamson FA, Jones RG.
    Plant Physiol; 1975 Apr 08; 55(4):678-85. PubMed ID: 16659146
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  • 40. Effects of solubilization on the inhibition of the p-type ATPase from maize roots by N-(ethoxycarbonyl)-2-ethoxy-1,2-dihydroquinoline.
    Brauer DK, Gurriel M, Tu SI.
    Plant Physiol; 1992 Dec 08; 100(4):2046-51. PubMed ID: 16653238
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