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Literature DB >> 16667404

Fe uptake mechanism in fe-efficient cucumber roots.

Abstract

Fe-efficient plants respond to iron stress both by morphological and physiological modifications. In roots of a Fe-efficient plant (Cucumis sativus L.) grown in the presence or in the absence of iron, the capacity to acidify the external medium, change in the transmembrane electrical potential, and the ATPase activity have been determined. Roots from plants grown in the absence of iron showed a great capacity to acidify the external medium, a higher transmembrane electrical potential difference (-145 millivolts, versus -105 millivolts), and a higher ATPase activity (+30%). The administration of Fe(2+), but not Fe(3+), caused a block of the acidification capacity, a great decrease in the transmembrane electrical potential difference in root cells, and a large inhibition of the ATPase activity of isolated microsomal membrane vesicles.

Entities: Chemical Species

Year: 1990 PMID： 16667404 PMCID： PMC1062394 DOI： 10.1104/pp.92.4.908

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

11 in total

Review 1. Regulated redox processes at the plasmalemma of plant root cells and their function in iron uptake.

Authors: H F Bienfait
Journal: J Bioenerg Biomembr Date: 1985-04 Impact factor: 2.945

Review 2. Transplasma-membrane redox systems in growth and development.

Authors: F L Crane; I L Sun; M G Clark; C Grebing; H Löw
Journal: Biochim Biophys Acta Date: 1985-08-01

Review 3. The proton pumps of the plasmalemma and the tonoplast of higher plants.

Authors: E Marrè; A Ballarin-Denti
Journal: J Bioenerg Biomembr Date: 1985-02 Impact factor: 2.945

4. Purification of a plasma membrane-bound adenosine triphosphatase from plant roots.

Authors: T K Hodges; R T Leonard
Journal: Methods Enzymol Date: 1974 Impact factor: 1.600

5. Depolarization of Cell Membrane Potential during Trans-Plasma Membrane Electron Transfer to Extracellular Electron Acceptors in Iron-Deficient Roots of Phaseolus vulgaris L.

Authors: P C Sijmons; F C Lanfermeijer; A H de Boer; H B Prins; H F Bienfait
Journal: Plant Physiol Date: 1984-12 Impact factor: 8.340

6. Rhizosphere acidification as a response to iron deficiency in bean plants.

Authors: C R de Vos; H J Lubberding; H F Bienfait
Journal: Plant Physiol Date: 1986-07 Impact factor: 8.340

7. Plasmalemma redox activity and h extrusion: I. Activation of the h-pump by ferricyanide-induced potential depolarization and cytoplasm acidification.

Authors: M T Marrè; A Moroni; F G Albergoni; E Marrè
Journal: Plant Physiol Date: 1988-05 Impact factor: 8.340

6. Flooding impairs Fe uptake and distribution in Citrus due to the strong down-regulation of genes involved in Strategy I responses to Fe deficiency in roots.

Authors: Mary-Rus Martínez-Cuenca; Ana Quiñones; Eduardo Primo-Millo; M Ángeles Forner-Giner
Journal: PLoS One Date: 2015-04-21 Impact factor: 3.240

6 in total

Fe uptake mechanism in fe-efficient cucumber roots.

Review 1. Regulated redox processes at the plasmalemma of plant root cells and their function in iron uptake.

Review 2. Transplasma-membrane redox systems in growth and development.

Review 3. The proton pumps of the plasmalemma and the tonoplast of higher plants.

4. Purification of a plasma membrane-bound adenosine triphosphatase from plant roots.

5. Depolarization of Cell Membrane Potential during Trans-Plasma Membrane Electron Transfer to Extracellular Electron Acceptors in Iron-Deficient Roots of Phaseolus vulgaris L.

6. Rhizosphere acidification as a response to iron deficiency in bean plants.

7. Plasmalemma redox activity and h extrusion: I. Activation of the h-pump by ferricyanide-induced potential depolarization and cytoplasm acidification.

8. Localization and capacity of proton pumps in roots of intact sunflower plants.

9. Relationship of Transplasmalemma Redox Activity to Proton and Solute Transport by Roots of Zea mays.

10. Obligatory reduction of ferric chelates in iron uptake by soybeans.

Review 1. Electron and proton transport across the plasma membrane.

2. Plasmalemma redox activity and h extrusion in roots of fe-deficient cucumber plants.

3. Iron Reduction and Trans Plasma Membrane Electron Transfer in the Yeast Saccharomyces cerevisiae.

4. Metabolic Implications in the Biochemical Responses to Iron Deficiency in Cucumber (Cucumis sativus L.) Roots.

5. Proteomic characterization of iron deficiency responses in Cucumis sativus L. roots.

6. Flooding impairs Fe uptake and distribution in Citrus due to the strong down-regulation of genes involved in Strategy I responses to Fe deficiency in roots.