Yujian Jin scite author profile

BackgroundPlant phenology has crucial biological, physical, and chemical effects on the biosphere. Phenological drivers have largely been studied, but the role of plant microbiota, particularly rhizosphere microbiota, has not been considered.ResultsWe discovered that rhizosphere microbial communities could modulate the timing of flowering of Arabidopsis thaliana. Rhizosphere microorganisms that increased and prolonged N bioavailability by nitrification delayed flowering by converting tryptophan to the phytohormone indole acetic acid (IAA), thus downregulating genes that trigger flowering, and stimulating further plant growth. The addition of IAA to hydroponic cultures confirmed this metabolic network.ConclusionsWe document a novel metabolic network in which soil microbiota influenced plant flowering time, thus shedding light on the key role of soil microbiota on plant functioning. This opens up multiple opportunities for application, from helping to mitigate some of the effects of climate change and environmental stress on plants (e.g. abnormal temperature variation, drought, salinity) to manipulating plant characteristics using microbial inocula to increase crop potential.Electronic supplementary materialThe online version of this article (10.1186/s40168-018-0615-0) contains supplementary material, which is available to authorized users.

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Effects of the Herbicide Imazethapyr on Photosynthesis in PGR5- and NDH-DeficientArabidopsis thalianaat the Biochemical, Transcriptomic, and Proteomic Levels

Sun¹,

Chen²,

Jin³

et al. 2016

J. Agric. Food Chem.

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Photosynthesis is a very important metabolic pathway for plant growth and crop yield. This report investigated the effect of the herbicide imazethapyr on photosynthesis in the Arabidopsis thaliana pnsB3 mutant (a defect in the NDH pathway) and pgr5 mutant (a defect in the PGR5 pathway) to determine which cyclic electron transport chain (CET) of the NDH and PGR5 pathways is more important for protecting the photosynthetic system under herbicide stress. The results showed that 20 μg/L imazethapyr markedly inhibited the growth of the three ecotypes of A. thaliana and produced more anthocyanins and reactive oxygen species (ROS), particularly in the pgr5 mutant. The chlorophyll fluorescence results showed that PSII was severely damaged in the pgr5 mutant. Additionally, the CET was significantly stimulated to protect the photosynthetic system from light damage in Wt and the pnsB3 mutant but not the pgr5 mutant. The real-time PCR analysis indicated that imazethapyr treatment considerably decreased the transcript levels of most photosynthesis-related genes in the three treated groups. Several genes in the PGR5 pathway were significantly induced in the pnsB3 mutant, but no genes in the NDH pathway were induced in the pgr5 mutant. The gene transcription analysis showed that the pgr5 mutant cannot compensate for the deficit in the PGR5 pathway by stimulating the NDH pathway, whereas the pnsB3 mutant can compensate for the deficit in the CET cycle by regulating the PGR5 pathway. The iTRAQ analyses also showed that the photosynthesis system, glycolysis, and TCA cycle suffered the most severe damage in the pgr5 mutant. All of these results showed that the PGR5 pathway is more critical for electron transfer around PSI than the NDH pathway to resist herbicide stress.

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Interaction of chiral herbicides with soil microorganisms, algae and vascular plants

Asad

Lavoie

Song

et al. 2017

Science of The Total Environment

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The Effects of Low Concentrations of Silver Nanoparticles on Wheat Growth, Seed Quality, and Soil Microbial Communities

Liu

Zhang

Jin

et al. 2017

Water Air Soil Pollut

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Diclofop-methyl affects microbial rhizosphere community and induces systemic acquired resistance in rice

Chen

Lavoie

et al. 2017

Journal of Environmental Sciences

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Yujian Jin

Rhizosphere microorganisms can influence the timing of plant flowering

Effects of the Herbicide Imazethapyr on Photosynthesis in PGR5- and NDH-DeficientArabidopsis thalianaat the Biochemical, Transcriptomic, and Proteomic Levels

Interaction of chiral herbicides with soil microorganisms, algae and vascular plants

The Effects of Low Concentrations of Silver Nanoparticles on Wheat Growth, Seed Quality, and Soil Microbial Communities

Diclofop-methyl affects microbial rhizosphere community and induces systemic acquired resistance in rice

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