Imaging of Lipid Peroxidation-Associated Chemiluminescence in Plants: Spectral Features, Regulation and Origin of the Signal in Leaves and Roots

Havaux, Michel; Ksas, Brigitte

doi:10.3390/antiox11071333

Cited by 5 publications

(4 citation statements)

References 57 publications

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“…Green plants have signi cant spectral re ectance properties unlike other features, and the re ectance spectra of plants are closely linked to their growth, development and health 24 . Chlorophyll in plants is most responsive to spectra in the visible light band, absorbing light in both the blue (450 nm) and red (650 nm) wavelength ranges and producing an absorption peak near 550 nm 25 . In this study, the raw spectral re ectance of molehills at different successional stages showed that, except for ZM0, all other molehills showed different degrees of "green peaks" around 550 nm, with ZMM, ZM2, CK, and ZM1 in descending order, which was attributed to the fact that ZM0 had a lower vegetative cover, and therefore showed a spectral type closer to the soil.…”

Section: Discussionmentioning

confidence: 99%

hyperspectral classification of plateau zokor molehills at different successional stages in alpine meadows

qi,

liu,

et al. 2024

Preprint

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The distribution of molehills of the plateau zokor (Eospalax fontanierii) in alpine meadows and the age of their formation influence the structure and function of alpine meadow ecosystems. To realize a remote sensing survey of large grassland molehills, in this experiment, the Plateau zokor molehills in alpine meadows with heavy rodent infestation in Cooperative City, Gannan Tibetan Autonomous Prefecture, Gansu Province, classified according to successional stage based on soil characteristics and vegetation conditions, and categorized them into one-year-old molehills (ZM0), two-year-old molehills (ZM1), three-year-old molehills (ZM2), and perennial molehills (ZMM). The normal vegetation of the meadows adjacent to the molehills was used as a control (CK) to study the distribution status of the mouse and the control. The control (CK) was used to study the total cover, height and biomass of the vegetation of the molehills and the control group. The spectral data of the Zokor molehills and the control group at different stages of succession were collected using the ASD spectrometer to analyze the total cover, height and biomass of the vegetation of the molehills as well as the vegetation of Patrick, Shannon-Wiener, Pielou and other species. The correlation between total cover, height, biomass, Patrick, Shannon-Wiener and Pielou vegetation traits and spectral vegetation indices was analyzed, and multiple stepwise regression and random forest (RF) inversion models of vegetation traits were constructed. The results of the experiment showed that: 1) with the increase of the successional period of molehills, their Pielou, Patrick, height, biomass and the total cover showed an increasing trend, and except for Pielou, the differences with the control group were significant (P<0.05); 2) the original spectral characteristics of the surface of molehills were different in different successional periods, and the predictive ability of the multivariate stepwise regression model for the total cover was the best; the predictive ability of the random forest inversion model was the best; and the random forest modeling was based on the relationship between vegetation characteristics and spectral data of zocores in different successional periods. Total cover; Random Forest could Patrick (R2=0.537, RMSE=0.823), height (R2=0.459, RMSE=0.143), total cover (R2=0.635, RMSE=24.287), biomass (R2 = 0.948, RMSE = 15.173); TCARI (Enhanced Chlorophyll Absorption Vegetation Index) plays an important role in the inversion of Patrick, height and total cover, and SR (the ratio of NIR/R is known as Simple Ratio) plays an important role in the inversion of biomass.3) The use of vegetation spectral indices to classify molehills can distinguish molehills in different successional stages, and their out-of-bag data OOB is 23.91%, SR and TCARI are important spectral indices for classification modeling of molehills. The above results provide a theoretical basis for remote sensing methods for the classification of plateau zokor moles, and can be used to analyze the succession of zokor moles through the random forest model using the vegetation indices SR and TCARI, which can help us analyze the succession of plateau zokor more quickly and thus maintain the balance of grassland ecosystems.

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Section: Discussionmentioning

confidence: 99%

hyperspectral classification of plateau zokor molehills at different successional stages in alpine meadows

qi,

liu,

et al. 2024

Preprint

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“…101 LP causes oxidative degradation of lipids in the cell membrane, leads to the oxidation of protein SH groups, and inhibits the synthesis of proteins and enzymes, which provokes cell death. 102 During the LP process, primary and secondary metabolites are formed such as conjugated dienes (CDs) and malonic dialdehyde (MDA), respectively. 103 LP products are toxic compounds that alter the functional properties of biopolymers.…”

Section: Effect Of Manganese Nanoparticles On Plantsmentioning

confidence: 99%

“…The interaction of PUFAs with ROS triggers successive LP reactions . LP causes oxidative degradation of lipids in the cell membrane, leads to the oxidation of protein SH groups, and inhibits the synthesis of proteins and enzymes, which provokes cell death . During the LP process, primary and secondary metabolites are formed such as conjugated dienes (CDs) and malonic dialdehyde (MDA), respectively .…”

Section: Effect Of Manganese Nanoparticles On Plantsmentioning

confidence: 99%

Manganese Nanoparticles: Synthesis, Mechanisms of Influence on Plant Resistance to Stress, and Prospects for Application in Agricultural Chemistry

Perfileva,

Krutovsky

2024

J. Agric. Food Chem.

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Manganese (Mn) is an important microelement for the mineral nutrition of plants, but it is not effectively absorbed from the soil and mineral salts added thereto and can also be toxic in high concentrations. Mn nanoparticles (NPs) are less toxic, more effective, and economical than Mn salts due to their nanosize. This article critically reviews the current publications on Mn NPs, focusing on their effects on plant health, growth, and stress tolerance, and explaining possible mechanisms of their effects. This review also provides basic information and examples of chemical, physical, and ecological (“green”) methods for the synthesis of Mn NPs. It has been shown that the protective effect of Mn NPs is associated with their antioxidant activity, activation of systemic acquired resistance (SAR), and pronounced antimicrobial activity against phytopathogens. In conclusion, Mn NPs are promising agents for agriculture, but their effects on gene expression and plant microbiome require further research.

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“…The work of V.Y. Horgan et al [4,5,6] revealed the high toxicity of lipid peroxides accumulating in the irradiated organism. Low-molecular toxic substances were found in the blood of irradiated animals and plants [7,8].…”

Section: Introductionmentioning

confidence: 99%

Determination of the antigenic properties of quinoidr adiotoxin using the indirect hemagglutination test (IHA)

Kamalova¹,

Gainullin²,

Низамов³

et al. 2023

Agrarnaâ nauka

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Relevance. The article presents the results of experiments to determine the antigenic properties (the ability of quinoid radiotoxin to synthesize antiradiotoxic antibodies) of plant radiotoxin using IHA.Methods. An antigenic variant of the erythrocyte diagnosticum (AGED), which is a ram erythrocytes sensitized by radiation antigens, was used to conduct the IHA-test. As control (positive) antiradiation antibodies in the reaction, we used antiradiation antibodies obtained by hyperimmunization of rabbits with a radiation antigen — radiotoxin isolated from the liver tissue of lethally irradiated sheep, tested antitoxic antibodies — hyperimmune sera from sheep hyperimmunized with quinoid (plant) radiotoxin, negative serum obtained from intact (non-irradiated, not vaccinated with any vaccines) sheep, heterologous sera (antiburn, anticolibacillary). The reaction was placed on microplates in a volume of 50 ml and was taken into account according to a four-point system in crosses.Results. The study of the antigenic activity of the test radiation antigen — plant quinoidr adiotoxin (QRT) — using the IHA-test showed that the test antigen has a high antigenic activity, inducing in the body of immunized animals (sheep) the synthesis of antiradiotoxic antibodies, the titers of which significantly exceed those immunized with liver (animal) antigen — animal radiotoxin. Quinoidr adiotoxin, obtained from plant tissue (potato tubers) and conjugated with a protein-lipoid group (incomplete Freund's adjuvant — IFA), has a high antigenicity, inducing the synthesis of specific antiradiotoxic antibodies, which can be used as an essential component of the immunochemical test system — sensitin used for sensitization of micro- and nanoparticles of bentonite in the design of antiradiation antibody variant of bentonited iagnosticum (ABBD).

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Imaging of Lipid Peroxidation-Associated Chemiluminescence in Plants: Spectral Features, Regulation and Origin of the Signal in Leaves and Roots

Cited by 5 publications

References 57 publications

hyperspectral classification of plateau zokor molehills at different successional stages in alpine meadows

hyperspectral classification of plateau zokor molehills at different successional stages in alpine meadows

Manganese Nanoparticles: Synthesis, Mechanisms of Influence on Plant Resistance to Stress, and Prospects for Application in Agricultural Chemistry

Determination of the antigenic properties of quinoidr adiotoxin using the indirect hemagglutination test (IHA)

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