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Literature DB >> 11891257

Ferrous ion transport across chloroplast inner envelope membranes.

Richard Shingles¹, Marisa North, Richard E McCarty.

Abstract

The initial rate of Fe(2+) movement across the inner envelope membrane of pea (Pisum sativum) chloroplasts was directly measured by stopped-flow spectrofluorometry using membrane vesicles loaded with the Fe(2+)-sensitive fluorophore, Phen Green SK. The rate of Fe(2+) transport was rapid, coming to equilibrium within 3s. The maximal rate and concentration dependence of Fe(2+) transport in predominantly right-side-out vesicles were nearly equivalent to those measured in largely inside-out vesicles. Fe(2+) transport was stimulated by an inwardly directed electrochemical proton gradient across right-side-out vesicles, an effect that was diminished by the addition of valinomycin in the presence of K(+). Fe(2+) transport was inhibited by Zn(2+), in a competitive manner, as well as by Cu(2+) and Mn(2+). These results indicate that inward-directed Fe(2+) transport across the chloroplast inner envelope occurs by a potential-stimulated uniport mechanism.

Entities: Chemical Species

Mesh：

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Year: 2002 PMID： 11891257 PMCID： PMC152214 DOI： 10.1104/pp.010858

Source DB: PubMed Journal: Plant Physiol ISSN： 0032-0889 Impact factor: 8.340

18 in total

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2. Chloroplast Inner-Envelope ATPase Acts as a Primary H+ Pump.

Authors: G. A. Berkowitz; J. S. Peters
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3. Assay of proteins in the presence of interfering materials.

Authors: A Bensadoun; D Weinstein
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4. Determination of the chelatable iron pool of isolated rat hepatocytes by digital fluorescence microscopy using the fluorescent probe, phen green SK.

Authors: F Petrat; U Rauen; H de Groot
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5. Evidence for a specific uptake system for iron phytosiderophores in roots of grasses.

Authors: V Römheld; H Marschner
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6. Pyrithione, a zinc ionophore, inhibits NF-kappaB activation.

Authors: C H Kim; J H Kim; S J Moon; K C Chung; C Y Hsu; J T Seo; Y S Ahn
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7. A novel iron-regulated metal transporter from plants identified by functional expression in yeast.

Authors: D Eide; M Broderius; J Fett; M L Guerinot
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9. Characterization of calcium fluxes across the envelope of intact spinach chloroplasts.

Authors: G Kreimer; M Melkonian; J A Holtum; E Latzko
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10. A knowledge base for predicting protein localization sites in eukaryotic cells.

Authors: K Nakai; M Kanehisa
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22 in total

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6. Vacuolar Iron Stores Gated by NRAMP3 and NRAMP4 Are the Primary Source of Iron in Germinating Seeds.

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7. Chlorophyll fluorescence images demonstrate variable pathways in the effects of plasma membrane excitation on electron flow in chloroplasts of Chara cells.

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