Indirect Export of Reducing Equivalents From the Chloroplast to Resupply NADP for C3 Photosynthesis—Growing Importance for Stromal NAD(H)?

Krämer, Moritz; Kunz, Hans‐Henning

doi:10.3389/fpls.2021.719003

Cited by 9 publications

(3 citation statements)

References 90 publications

(128 reference statements)

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“…To assess the in vivo responsiveness of the sensors, we illuminated leaf tissue, reasoning that activation of photosynthesis triggers the exchange of redox equivalents between the chloroplast stroma and the cytosol by different metabolite shuttles ( Figure 4 ) [35]. Consecutive illumination of discs from mature Arabidopsis leaves, for periods of 5, 15, 30 and 60 min, each of which was followed by fluorimetric time-lapse measurements, revealed a pronounced reduction of the cytosolic NAD pool as monitored by Peredox ( Figure 4D ) [23].…”

Section: Resultsmentioning

confidence: 99%

The NAPstar family of NADP redox state sensors highlights glutathione as the primary mediator of anti-oxidative electron flux

Scherschel,

Niemeier,

Jacobs

et al. 2024

Preprint

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The NADPH/NADP+ redox couple is central to metabolism and redox signalling. NADP redox state is differentially regulated by distinct enzymatic machineries at the subcellular compartment level. Nonetheless, a detailed understanding of subcellular NADP redox dynamics is limited by the availability of appropriate tools. Here, we introduce NAPstars, a family of genetically encoded, fluorescent protein-based NADP redox state biosensors. NAPstars offer real-time, specific, pH-resistant measurements, across a broad-range of NADP redox states, with subcellular resolution. We establish NAPstar measurements in yeast, plants and mammalian cell models, revealing a conserved robustness of cytosolic NADP redox homeostasis. NAPstars uncovered NADP redox oscillations linked to the cell cycle in yeast and illumination- and hypoxia-dependent NADP redox changes in plant leaves. By selectively impairing the glutathione and thioredoxin anti-oxidative pathways under acute oxidative challenge, NAPstars demonstrated an unexpected role for the glutathione system as the primary mediator of anti-oxidative electron flux that is conserved across eukaryotic kingdoms.

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Section: Resultsmentioning

confidence: 99%

The NAPstar family of NADP redox state sensors highlights glutathione as the primary mediator of anti-oxidative electron flux

Scherschel,

Niemeier,

Jacobs

et al. 2024

Preprint

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“…The transfer of electrons from complex I to molecular oxygen through the alternative oxidase is much less efficient than the cytochrome pathway in ATP production, but it nevertheless ensures the consumption of reducing power, which is likely a pivotal function in photosynthetically active cells (Dahal et al, 2017; Krämer & Kunz, 2021; Moreno-García et al, 2022). It is well known that the photosynthetic electron transport produces NADPH in excess of ATP for CO 2 fixation, and multiple mechanisms exist to balance this ratio, such as cyclic and pseudo cyclic electron transport (Shikanai & Yamamoto, 2017).…”

Section: Discussionmentioning

confidence: 99%

Inactivation of mitochondrial complex IV inPhyscomitrium patensreveals the essential role of respiration in coordinating plants metabolism

Vera-Vives,

Mellon,

Gurrieri

et al. 2024

Preprint

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Photosynthetic organisms use sunlight as energy source but rely on respiration during the night and in non-photosynthetic tissues. Respiration is also active in photosynthetically active cells, where its role is still unclear due to a lack of viable mutants. Plants lacking cytochrome c oxidase (complex IV) activity are generally lethal but were here isolated exploiting the possibility of generating knockout lines through vegetative propagation in the moss Physcomitrium patens. The mutants showed severely impaired growth, with an altered composition of the respiratory apparatus and increased electron transfer through the alternative oxidase. The light phase of photosynthesis remained largely unaffected while the efficiency of carbon fixation was moderately reduced. Transcriptomic and metabolomic analyses showed that the disruption of the cytochrome pathway had broad consequences for carbon and nitrogen metabolism. A major alteration in nitrogen assimilation was observed with a general reduction in amino acid abundance. A partial rescue of the growth could be obtained by growing the plants with an external supply of amino acids but not with sugars, demonstrating that respiration in plant photosynthetic cells plays an essential role at the interface between carbon and nitrogen metabolism and a key role in providing carbon skeletons for amino acid biosynthesis.

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“…3 Moreover, the nicotinamide-dependent enzyme (NADPH) is an important electron and hydride donor in the CO 2 reduction reaction, concurrently delivering the NADP radical immediate. 4 Inspired by these natural systems, we recently questioned whether a water-phase electron donor–acceptor (WEDA) mechanism upon visible-light irradiation could be exploited to synthesize sterically hindered tertiary alcohols through a green chemistry approach. Indeed, merging water as a medium with visible-light catalysis has received little attention so far in the field of sustainable chemical synthesis.…”

mentioning

confidence: 99%

Visible-light-mediated green synthesis of tertiary alcohols from dicarbonyl compounds and arylamines in water

Xin

Zhang

et al. 2023

Green Chem.

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Indirect Export of Reducing Equivalents From the Chloroplast to Resupply NADP for C3 Photosynthesis—Growing Importance for Stromal NAD(H)?

Cited by 9 publications

References 90 publications

The NAPstar family of NADP redox state sensors highlights glutathione as the primary mediator of anti-oxidative electron flux

The NAPstar family of NADP redox state sensors highlights glutathione as the primary mediator of anti-oxidative electron flux

Inactivation of mitochondrial complex IV inPhyscomitrium patensreveals the essential role of respiration in coordinating plants metabolism

Visible-light-mediated green synthesis of tertiary alcohols from dicarbonyl compounds and arylamines in water

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