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Evidence That Putrescine Modulates the Higher Plant Photosynthetic Proton Circuit

by Ioannidis, Nikolaos E. , Kotzabasis, Kiriakos , Kramer, David M. , Cruz, Jeffrey A.

in Abiotic stress / Acidification / Antennae / Arabidopsis - drug effects / Arabidopsis - physiology / Arabidopsis thaliana / ATP / ATP synthase / Biochemistry / Biology / Chemical reactions / Chloroplasts / Cytochrome / Electricity / Electrochemistry / Electron transfer / Electron transport / Energy storage / Environmental regulations / Environmental stress / Gene expression / Hydrogen-Ion Concentration - drug effects / Hypotheses / Laboratories / Light / Metabolism / Molecular biology / Nicotiana - drug effects / Nicotiana - physiology / Osmosis - drug effects / Partitioning / Photosynthesis / Photosynthesis - drug effects / Plant biochemistry / Plant Leaves - drug effects / Plant Leaves - physiology / Polyamines / Proton-Motive Force - drug effects / Protonmotive force / Protons / Putrescine / Putrescine - pharmacology / Spinacia oleracea - drug effects / Spinacia oleracea - physiology / Thylakoids - drug effects / Thylakoids - physiology / Tobacco / Tuning

2012

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Evidence That Putrescine Modulates the Higher Plant Photosynthetic Proton Circuit

by Ioannidis, Nikolaos E. , Kotzabasis, Kiriakos , Kramer, David M. , Cruz, Jeffrey A.

2012

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Evidence That Putrescine Modulates the Higher Plant Photosynthetic Proton Circuit

by Ioannidis, Nikolaos E. , Kotzabasis, Kiriakos , Kramer, David M. , Cruz, Jeffrey A.

2012

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Journal Article

Evidence That Putrescine Modulates the Higher Plant Photosynthetic Proton Circuit

Ioannidis, Nikolaos E.,

Kotzabasis, Kiriakos,

Kramer, David M.,

Cruz, Jeffrey A.

2012

Overview

The light reactions of photosynthesis store energy in the form of an electrochemical gradient of protons, or proton motive force (pmf), comprised of electrical (Δψ) and osmotic (ΔpH) components. Both components can drive the synthesis of ATP at the chloroplast ATP synthase, but the ΔpH component also plays a key role in regulating photosynthesis, down-regulating the efficiency of light capture by photosynthetic antennae via the q(E) mechanism, and governing electron transfer at the cytochrome b(6)f complex. Differential partitioning of pmf into ΔpH and Δψ has been observed under environmental stresses and proposed as a mechanism for fine-tuning photosynthetic regulation, but the mechanism of this tuning is unknown. We show here that putrescine can alter the partitioning of pmf both in vivo (in Arabidopsis mutant lines and in Nicotiana wild type) and in vitro, suggesting that the endogenous titer of weak bases such as putrescine represents an unrecognized mechanism for regulating photosynthetic responses to the environment.

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Publisher

Public Library of Science,Public Library of Science (PLoS)

Subject

Abiotic stress

/ Acidification

/ Antennae

/ Arabidopsis - drug effects

/ Arabidopsis - physiology

/ Arabidopsis thaliana

/ ATP