Selenium nanoparticles induce differential shoot/root response of Capsicum annuum seedlings revealed by non-targeted metabolomic analysis

Plant Nano Biology, Journal Year: 2025, Volume and Issue: unknown, P. 100139 - 100139

Published: Jan. 1, 2025

Language: Английский

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A β‐ketoacyl carrier protein reductase confers heat tolerance via the regulation of fatty acid biosynthesis and stress signaling in rice

New Phytologist, Journal Year: 2021, Volume and Issue: 232(2), P. 655 - 672

Published: July 14, 2021

Summary Heat stress is a major environmental threat affecting crop growth and productivity. However, the molecular mechanisms associated with plant responses to heat are poorly understood. Here, we identified stress‐sensitive mutant, hts1 , in rice. HTS1 encodes thylakoid membrane‐localized β‐ketoacyl carrier protein reductase (KAR) involved de novo fatty acid biosynthesis. Phylogenetic bioinformatic analysis showed that probably originated from streptophyte algae evolutionarily conserved land plants. Thermostable predominantly expressed green tissues strongly induced by stress, but less responsive salinity, cold drought treatments. An amino substitution at A254T causes significant decrease KAR enzymatic activity and, consequently, impairs synthesis lipid metabolism especially under stress. Compared wild‐type, mutant exhibited heat‐induced higher H 2 O accumulation, larger Ca 2+ influx mesophyll cells, more damage membranes chloroplasts. Also, disrupted signaling depresses transcriptional activation of HsfA2s downstream target genes. We suggest critical for underpinning membrane stability, chloroplast integrity tolerance

Language: Английский

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Induced ligno‐suberin vascular coating and tyramine‐derived hydroxycinnamic acid amides restrict Ralstonia solanacearum colonization in resistant tomato

New Phytologist, Journal Year: 2022, Volume and Issue: 234(4), P. 1411 - 1429

Published: Feb. 13, 2022

Summary Tomato varieties resistant to the bacterial wilt pathogen Ralstonia solanacearum have ability restrict movement in plant. Inducible vascular cell wall reinforcements seem play a key role confining R. into xylem vasculature of tomato. However, type compounds involved such physico‐chemical barriers remain understudied, while being component resistance. Here we use combination histological and live‐imaging techniques, together with spectroscopy gene expression analysis understand nature ‐induced formation coatings We describe that tomato specifically responds infection by assembling structural barrier formed ligno‐suberin coating tyramine‐derived hydroxycinnamic acid amides. Further, show overexpressing genes pathway commercial susceptible variety restricts inside plant slows disease progression, enhancing resistance pathogen. propose induced plants does not only pathogen, but may also prevent degradation confer anti‐microbial properties, effectively contributing

Language: Английский

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Silicon Supplementation as a Promising Approach to Induce Thermotolerance in Plants: Current Understanding and Future Perspectives

Journal of soil science and plant nutrition, Journal Year: 2022, Volume and Issue: 23(1), P. 34 - 55

Published: July 5, 2022

Language: Английский

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A necessary considering factor for breeding: growth-defense tradeoff in plants

Stress Biology, Journal Year: 2023, Volume and Issue: 3(1)

Published: April 6, 2023

Crop diseases cause enormous yield losses and threaten global food security. Deployment of resistant cultivars can effectively control the disease to minimize crop losses. However, high level genetic immunity was often accompanied by an undesired reduction in growth yield. Recently, literatures have been rapidly emerged understanding mechanism resistance development genes plants. To determine how why costs likely benefit caused varieties, we re-summarized present knowledge about crosstalk between plant those that function as plasma membrane residents, MAPK cassette, nuclear envelope (NE) channels components pleiotropic regulators. Considering growth-defense tradeoffs on basis current advances, finally, try understand suggest a reasonable balancing strategies based interplay with should be considered enhance capacity without penalty future breeding.

Language: Английский

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Bacillus amyloliquefaciens Modulate Carbohydrate Metabolism in Rice-PGPR Cross-Talk Under Abiotic Stress and Phytohormone Treatments

Journal of Plant Growth Regulation, Journal Year: 2023, Volume and Issue: 42(7), P. 4466 - 4483

Published: Feb. 3, 2023

Language: Английский

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Progressive drought alters the root exudate metabolome and differentially activates metabolic pathways in cotton (Gossypium hirsutum)

Frontiers in Plant Science, Journal Year: 2023, Volume and Issue: 14

Published: Aug. 30, 2023

Root exudates comprise various primary and secondary metabolites that are responsive to plant stressors, including drought. As increasing drought episodes predicted with climate change, identifying shifts in the metabolome profile of drought-induced root exudation is necessary understand molecular interactions govern relationships between plants, microbiomes, environment, which will ultimately aid developing strategies for sustainable agriculture management. This study utilized an aeroponic system simulate progressive recovery while non-destructively collecting cotton (Gossypium hirsutum) exudates. The composition collected was characterized by untargeted metabolomics using Fourier-Transform Ion Cyclotron Resonance Mass Spectrometry (FT-ICR MS) mapped Kyoto Encyclopedia Genes Genomes (KEGG) databases. Over 700 unique were identified throughout water-deficit phase. Potential KEGG pathways modules associated biosynthesis flavonoid compounds, hormones (abscisic acid jasmonic acid), other highly induced under severe drought, but not at wilting point. Additionally, precursors these metabolites, such as amino acids (phenylalanine tyrosine), phenylpropanoids, carotenoids, also mapped. potential biochemical transformations further calculated data generated FT-ICR MS. Under stress, highest number transformations, methylation, ethyl addition, oxidation/hydroxylation, identified, many known reactions some pathways. With application MS, we revealed dynamics response providing valuable information drought-tolerance cotton.

Language: Английский

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Targeted and untargeted metabolomics reveals deep analysis of drought stress responses in needles and roots of Pinus taeda seedlings

Frontiers in Plant Science, Journal Year: 2023, Volume and Issue: 13

Published: Jan. 31, 2023

Drought stress is one of major environmental stresses affecting plant growth and yield. Although Pinus taeda trees are planted in rainy southern China, local drought sometime occurs can last several months, further their resin production. In this study, P. seedlings were treated with long-term (42 d), then targeted untargeted metabolomics analysis carried out to evaluate tolerance . Targeted showed that levels some sugars, phytohormones, amino acids significantly increased the roots needles water-stressed (WS) seedlings, compared well-watered (WW) pine seedlings. These metabolites included sucrose roots, phytohormones abscisic acid sacylic needles, phytohormone gibberellin (GA4) two acids, glycine asparagine, WS roots. Compared WW neurotransmitter acetylcholine but reduced The neurotransmitters L-glutamine hydroxytyramine respectively, noradrenaline Levels unsaturated fatty or such as linoleic acid, oleic myristelaidic myristoleic palmitelaidic erucic alpha-linolenic needles. However, three saturated i.e., dodecanoic tricosanoic heptadecanoic Untargeted especially long-chain lipids, flavonoids, terpenoids. A few specific greatly, androsin, piceatanol, panaxatriol Comparing it was found most enriched pathways flavone flavonol biosynthesis, ABC transporters, diterpenoid hormone signal transduction, flavonoid biosynthesis; tryptophan metabolism, caffeine sesquiterpenoid triterpenoid biosynthesis phenylalanine, tyrosine, tryptophan. Under stress, own characteristics, new found, providing a guideline for breeding drought-tolerant cultivars

Language: Английский

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Metabolic diversity, biosynthetic pathways, and metabolite biomarkers analysed via untargeted metabolomics and the antioxidant potential reveal for high temperature tolerance in tomato hybrid

Plant Stress, Journal Year: 2024, Volume and Issue: 11, P. 100420 - 100420

Published: March 1, 2024

High-temperature tolerant varieties/hybrids of tomato overcome stress-related changes due to their intrinsic cellular metabolic capabilities. We have used untargeted metabolite profiling and comparative biochemical biological analyses high temperature (HTT) hybrid VRNTH18283 sensitive (HTS) VRNTH19072 decipher altered pathways biomarker metabolites which were linked with enhanced antioxidant activity in HTT fruits. Parameters like fruit weight, yield per plant key determinants viz. total soluble sugar (TSS), titratable acidity, ascorbic acid lycopene content significantly compared HTS. Metabolomics revealed upregulated diversity extract (11453 m/z features) as 8834 features Statistical analysis 423 differentially up-regulated 410 down-regulated features. Multivariate data showed sample discrimination based on distinct phytochemical diversification. Functionally annotated enrichment including linoleic linolenic metabolism, monoterpenoids biosynthesis degradation, cutin, suberin wax biosynthesis, sphingolipids metabolism. Metabolite categorized benzamides, amino acids, sugars, nucleotides, sterols, glycosides, phenylacetaldehydes, indoles, tryptamines organic acids major compound classes. Among 22 potentially discriminatory obtained from OPLS-DA model, all prominently abundant solasodine, thiamine diphosphate, L-tryptophan, folic acid, lycopene, dihydrozeatin, myricetin, tomatidine, chlorogenic α-tocotrienol classified biomarkers correlated activity. The study that the physicochemical profile, increased compositional are liable for improved performance against negative impact comparison HTS VRNTH19072.

Language: Английский

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Physiological and molecular functions of brassinosteroids during fruit development, ripening, and postharvest damage of horticultural products: A review

Postharvest Biology and Technology, Journal Year: 2024, Volume and Issue: 214, P. 112984 - 112984

Published: May 9, 2024

Language: Английский

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