Shey-Li Lim scite author profile

The challenge of monitoring in planta dynamic changes of NADP(H) and NAD(H) redox states at the subcellular level is considered a major obstacle in plant bioenergetics studies. Here, we introduced two circularly permuted yellow fluorescent protein sensors, iNAP and SoNar, into Arabidopsis thaliana to monitor the dynamic changes in NADPH and the NADH/ NAD + ratio. In the light, photosynthesis and photorespiration are linked to the redox states of NAD(P)H and NAD(P) pools in several subcellular compartments connected by the malate-OAA shuttles. We show that the photosynthetic increases in stromal NADPH and NADH/ NAD + ratio, but not ATP, disappear when glycine decarboxylation is inhibited. These observations highlight the complex interplay between chloroplasts and mitochondria during photosynthesis and support the suggestions that, under normal conditions, photorespiration supplies a large amount of NADH to mitochondria, exceeding its NADH-dissipating capacity, and the surplus NADH is exported from the mitochondria to the cytosol through the malate-OAA shuttle.

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Modulating the activities of chloroplasts and mitochondria promotes adenosine triphosphate production and plant growth

Voon

Law

Guan

et al. 2021

Quant Plant Bio.

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Efficient photosynthesis requires a balance of ATP and NADPH production/consumption in chloroplasts, and the exportation of reducing equivalents from chloroplasts is important for balancing stromal ATP/NADPH ratio. Here, we showed that the overexpression of purple acid phosphatase 2 on the outer membranes of chloroplasts and mitochondria can streamline the production and consumption of reducing equivalents in these two organelles, respectively. A higher capacity of consumption of reducing equivalents in mitochondria can indirectly help chloroplasts to balance the ATP/NADPH ratio in stroma and recycle NADP+, the electron acceptors of the linear electron flow (LEF). A higher rate of ATP and NADPH production from the LEF, a higher capacity of carbon fixation by the Calvin–Benson–Bassham (CBB) cycle and a greater consumption of NADH in mitochondria enhance photosynthesis in the chloroplasts, ATP production in the mitochondria and sucrose synthesis in the cytosol and eventually boost plant growth and seed yields in the overexpression lines.

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Biotization of in vitro calli and embryogenic calli of oil palm (Elaeis guineensis Jacq.) with diazotrophic bacteria Herbaspirillum seropedicae (Z78)

Lim

Subramaniam

Ishak

et al. 2016

Plant Cell Tiss Organ Cult

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Arabidopsis guard cell chloroplasts import cytosolic ATP for starch turnover and stomatal opening

et al. 2022

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Stomatal opening requires the provision of energy in the form of ATP for proton pumping across the guard cell (GC) plasma membrane and for associated metabolic rearrangements. The source of ATP for GCs is a matter of ongoing debate that is mainly fuelled by controversies around the ability of GC chloroplasts (GCCs) to perform photosynthesis. By imaging compartment-specific fluorescent ATP and NADPH sensor proteins in Arabidopsis, we show that GC photosynthesis is limited and mitochondria are the main source of ATP. Unlike mature mesophyll cell (MC) chloroplasts, which are impermeable to cytosolic ATP, GCCs import cytosolic ATP through NUCLEOTIDE TRANSPORTER (NTT) proteins. GCs from ntt mutants exhibit impaired abilities for starch biosynthesis and stomatal opening. Our work shows that GCs obtain ATP and carbohydrates via different routes from MCs, likely to compensate for the lower chlorophyll contents and limited photosynthesis of GCCs.

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Modulating the activities of chloroplasts and mitochondria promotes ATP production and plant growth

Voon

Law

Guan

et al. 2020

Preprint

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Efficient photosynthesis requires a balance of ATP and NADPH production/consumption in chloroplasts as the linear electron flow generates a higher NADPH/ATP ratio than that is consumed by the Calvin-Benson-Bassham cycle. Recent works suggested that ATP importation into mature chloroplasts of Arabidopsis thaliana is negligible, and therefore the exportation of reducing equivalents from chloroplasts is important for balancing stromal ATP/NADPH ratio. Here we showed that the overexpression of purple acid phosphatase 2 on the outer membranes of chloroplasts and mitochondria can streamline the production and consumption of reducing equivalents in these two organelles, respectively. A higher capacity of consumption of reducing equivalents in mitochondria can indirectly help chloroplasts to balance the ATP/NADPH ratio in stroma and recycle NADP+, the electron acceptors of the linear electron flow. A higher rate of ATP and NADPH production from the linear electron flow, a higher capacity of carbon fixation by the Calvin-Benson-Bassham cycle and a greater consumption of NADH in mitochondria, enhance photosynthesis in the chloroplasts, ATP production in the mitochondria, sucrose synthesis in the cytosol, and eventually boosting plant growth and seed yields in the overexpression lines.One-Sentence SummaryThis study demonstrates the importance of chloroplast-mitochondria cooperation in redox balance and illustrates that an optimized function of mitochondria can enhance the efficiency of photosynthesis.

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Shey-Li Lim

In planta study of photosynthesis and photorespiration using NADPH and NADH/NAD+ fluorescent protein sensors

Modulating the activities of chloroplasts and mitochondria promotes adenosine triphosphate production and plant growth

Biotization of in vitro calli and embryogenic calli of oil palm (Elaeis guineensis Jacq.) with diazotrophic bacteria Herbaspirillum seropedicae (Z78)

Arabidopsis guard cell chloroplasts import cytosolic ATP for starch turnover and stomatal opening

Modulating the activities of chloroplasts and mitochondria promotes ATP production and plant growth

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