The oxidative phosphorylation system of the mitochondria in plants

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OriginalspracheEnglisch
Seiten (von - bis)66-75
Seitenumfang10
FachzeitschriftMITOCHONDRION
Jahrgang53
PublikationsstatusVeröffentlicht - 22 Apr. 2020

Abstract

Mitochondrial Oxidative Phosphorylation (OXPHOS) provides ATP for driving cellular functions. In plants, OXPHOS takes place in the context of photosynthesis. Indeed, metabolism of mitochondria and chloroplasts is tightly linked. OXPHOS has several extra functions in plants. This review takes a view on the OXPHOS system of plants, the electron transfer chain (ETC), the ATP synthase complex and the numerous supplementary enzymes involved. Electron transport pathways are especially branched in plants. Furthermore, the "classical" OXPHOS complexes include extra subunits, some of which introduce side activities into these complexes. Consequently, and to a remarkable degree, OXPHOS is a multi-functional system in plants that needs to be efficiently regulated with respect to all its physiological tasks in the mitochondria, the chloroplasts, and beyond. Regulatory mechanisms based on posttranslational protein modifications and formation of supramolecular protein assemblies are summarized and discussed.

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The oxidative phosphorylation system of the mitochondria in plants. / Braun, Hans-Peter.
in: MITOCHONDRION, Jahrgang 53, 22.04.2020, S. 66-75.

Publikation: Beitrag in FachzeitschriftÜbersichtsarbeitForschungPeer-Review

Braun HP. The oxidative phosphorylation system of the mitochondria in plants. MITOCHONDRION. 2020 Apr 22;53:66-75. doi: 10.1016/j.mito.2020.04.007, 10.15488/11676
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abstract = "Mitochondrial Oxidative Phosphorylation (OXPHOS) provides ATP for driving cellular functions. In plants, OXPHOS takes place in the context of photosynthesis. Indeed, metabolism of mitochondria and chloroplasts is tightly linked. OXPHOS has several extra functions in plants. This review takes a view on the OXPHOS system of plants, the electron transfer chain (ETC), the ATP synthase complex and the numerous supplementary enzymes involved. Electron transport pathways are especially branched in plants. Furthermore, the {"}classical{"} OXPHOS complexes include extra subunits, some of which introduce side activities into these complexes. Consequently, and to a remarkable degree, OXPHOS is a multi-functional system in plants that needs to be efficiently regulated with respect to all its physiological tasks in the mitochondria, the chloroplasts, and beyond. Regulatory mechanisms based on posttranslational protein modifications and formation of supramolecular protein assemblies are summarized and discussed.",
keywords = "Arabidopsis thaliana, ATP synthase, Electron transfer chain, Gamma-type carbonic anhydrase, NADH dehydrogenase, Oxidative phosphorylation, Photosynthesis, Plant mitochondria, Respiratory protein complexes, Respiratory supercomplexes",
author = "Hans-Peter Braun",
note = "Funding information: I thank Holger Eubel and Jennifer Senkler for critically reading the manuscript. The author thanks the Deutsche Forschungsgemeinschaft (DFG) for funding of several projects related to the topic of this review article (current grant: BR 1829/16-1).",
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AU - Braun, Hans-Peter

N1 - Funding information: I thank Holger Eubel and Jennifer Senkler for critically reading the manuscript. The author thanks the Deutsche Forschungsgemeinschaft (DFG) for funding of several projects related to the topic of this review article (current grant: BR 1829/16-1).

PY - 2020/4/22

Y1 - 2020/4/22

N2 - Mitochondrial Oxidative Phosphorylation (OXPHOS) provides ATP for driving cellular functions. In plants, OXPHOS takes place in the context of photosynthesis. Indeed, metabolism of mitochondria and chloroplasts is tightly linked. OXPHOS has several extra functions in plants. This review takes a view on the OXPHOS system of plants, the electron transfer chain (ETC), the ATP synthase complex and the numerous supplementary enzymes involved. Electron transport pathways are especially branched in plants. Furthermore, the "classical" OXPHOS complexes include extra subunits, some of which introduce side activities into these complexes. Consequently, and to a remarkable degree, OXPHOS is a multi-functional system in plants that needs to be efficiently regulated with respect to all its physiological tasks in the mitochondria, the chloroplasts, and beyond. Regulatory mechanisms based on posttranslational protein modifications and formation of supramolecular protein assemblies are summarized and discussed.

AB - Mitochondrial Oxidative Phosphorylation (OXPHOS) provides ATP for driving cellular functions. In plants, OXPHOS takes place in the context of photosynthesis. Indeed, metabolism of mitochondria and chloroplasts is tightly linked. OXPHOS has several extra functions in plants. This review takes a view on the OXPHOS system of plants, the electron transfer chain (ETC), the ATP synthase complex and the numerous supplementary enzymes involved. Electron transport pathways are especially branched in plants. Furthermore, the "classical" OXPHOS complexes include extra subunits, some of which introduce side activities into these complexes. Consequently, and to a remarkable degree, OXPHOS is a multi-functional system in plants that needs to be efficiently regulated with respect to all its physiological tasks in the mitochondria, the chloroplasts, and beyond. Regulatory mechanisms based on posttranslational protein modifications and formation of supramolecular protein assemblies are summarized and discussed.

KW - Arabidopsis thaliana

KW - ATP synthase

KW - Electron transfer chain

KW - Gamma-type carbonic anhydrase

KW - NADH dehydrogenase

KW - Oxidative phosphorylation

KW - Photosynthesis

KW - Plant mitochondria

KW - Respiratory protein complexes

KW - Respiratory supercomplexes

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U2 - 10.1016/j.mito.2020.04.007

DO - 10.1016/j.mito.2020.04.007

M3 - Review article

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VL - 53

SP - 66

EP - 75

JO - MITOCHONDRION

JF - MITOCHONDRION

SN - 1567-7249

ER -

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