Optimization of Light-Harvesting Pigment Improves Photosynthetic Efficiency

Jin, Haoli; Li, Mengshu; Duan, Sujuan; Fu, Mei; Dong, Xiaoxiao; Liu, Bing; Feng, Dan; Wang, Jinfa; Wang, Hongbin

doi:10.1104/pp.16.00698

Cited by 54 publications

(37 citation statements)

References 44 publications

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“…The CF characteristics of the hpe1 mutants and LCF1 are very similar, having low CF, as well as high φPSII and F q ′/F v ′ (also known as qP) 11 . However, marked differences exist.…”

Section: Discussionmentioning

confidence: 98%

An Arabidopsis mutant with high operating efficiency of Photosystem II and low chlorophyll fluorescence

Tol

Rolloos

Augustijn

et al. 2017

Sci Rep

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The overall light energy to biomass conversion efficiency of plant photosynthesis is generally regarded as low. Forward genetic screens in Arabidopsis have yielded very few mutants with substantially enhanced photochemistry. Here, we report the isolation of a novel Arabidopsis mutant with a high operating efficiency of Photosystem II (φPSII) and low chlorophyll fluorescence from a library of lines harboring T-DNA constructs encoding artificial transcription factors. This mutant was named Low Chlorophyll Fluorescence 1 (LCF1). Only a single T-DNA insertion was detected in LCF1, which interrupted the expression of the full length mRNA of the gene At4g36280 (MORC2). We demonstrate that the high φPSII and low levels of chlorophyll fluorescence were due to a decrease in PSII:PSI ratio. Although LCF1 plants had decreased rosette surface area and biomass under normal growth conditions, they contained more starch per gram fresh weight. The growth defect of LCF1 was alleviated by low light and short day conditions, and growth could even be enhanced after a period of dark-induced senescence, showing that the plant can utilize its excess photosynthetic conversion capacity as a resource when needed.

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“…The CF characteristics of the hpe1 mutants and LCF1 are very similar, having low CF, as well as high φPSII and F q ′/F v ′ (also known as qP) 11 . However, marked differences exist.…”

Section: Discussionmentioning

confidence: 98%

An Arabidopsis mutant with high operating efficiency of Photosystem II and low chlorophyll fluorescence

Tol

Rolloos

Augustijn

et al. 2017

Sci Rep

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“…Mutant tobacco plants possessing truncated light-harvesting chlorophyll antenna size (TLA) exhibited 25% higher stem and leaf biomass [39]. The loss of the regulator protein HPE1 also reduced photosynthetic antennae size and led to improved photosynthesis and biomass production of Arabidopsis thaliana mutants [40]. The optimisation of plant architecture may also prevent futile over-absorption of light by the upper leaves leading more light absorption for shade leaves.…”

Section: Improving Light Reactionsmentioning

confidence: 99%

Current and possible approaches for improving photosynthetic efficiency

2019

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One of the most important tasks laying ahead today's biotechnology is to improve crop productivity with the aim of meeting increased food and energy demands of humankind. Plant productivity depends on many genetic factors, including life cycle, harvest index, stress tolerance and photosynthetic activity. Many approaches were already tested or suggested to improve either. Limitations of photosynthesis have also been uncovered and efforts been taken to increase its efficiency. Examples include decreasing photosynthetic antennae size, 2 increasing the photosynthetically available light spectrum, countering oxygenase activity of Rubisco by implementing C4 photosynthesis to C3 plants and altering source to sink transport of metabolites. A natural and effective photosynthetic adaptation, the sugar alcohol metabolism got however remarkably little attention in the last years, despite being comparably efficient as C4, and can be considered easier to introduce to new species. We also propose root to shoot carbon-dioxide transport as a means to improve photosynthetic performance and drought tolerance at the same time. Different suggestions and successful examples are covered here for improving plant photosynthesis as well as novel perspectives are presented for future research.

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“…Pot and field experiments using rice with up to 50% less chlorophyll content showed an increase in the rates of photosynthesis of up to 40%, displayed elevated concentrations of ribulose-1,5-bisphosphate carboxylase/oxygenase and faster growth rates, which translated into similar yields to the wild-type in less time [ 20 ]. Another mutant of Arabidopsis thaliana , possibly affected in the regulation of chlorophyll synthesis, showed improvements in light use, which translated into a 50% increase in the amounts of accumulated glucose and fructose, as well as more than 10% dry-weight biomass in mature plants [ 21 ].…”

Section: Enhancing Light Capturementioning

confidence: 99%

Enhancing photosynthesis in plants: the light reactions

Cardona

Shao

Nixon

2018

Essays in Biochemistry

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In this review, we highlight recent research and current ideas on how to improve the efficiency of the light reactions of photosynthesis in crops. We note that the efficiency of photosynthesis is a balance between how much energy is used for growth and the energy wasted or spent protecting the photosynthetic machinery from photodamage. There are reasons to be optimistic about enhancing photosynthetic efficiency, but many appealing ideas are still on the drawing board. It is envisioned that the crops of the future will be extensively genetically modified to tailor them to specific natural or artificial environmental conditions.

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Optimization of Light-Harvesting Pigment Improves Photosynthetic Efficiency

Cited by 54 publications

References 44 publications

An Arabidopsis mutant with high operating efficiency of Photosystem II and low chlorophyll fluorescence

An Arabidopsis mutant with high operating efficiency of Photosystem II and low chlorophyll fluorescence

Current and possible approaches for improving photosynthetic efficiency

Enhancing photosynthesis in plants: the light reactions

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