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Metabolomics Of Temperature Stress

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Under acute temperature stress,a complexprocess involvinga number ofphysiological and biochemical changes occured within plants.One promise of systems biology was metabolomics that could be defined as the complete set of small-molecule metabolites within a biology,organ or cell for revealing the process and phenomenon of the life Integrated metabolomics and transcriptomics analysis during seed germination of waxy corn under low temperature stress Mehr anzeigen zu Verbundenen Objekten Alle ausklappen

Coordinate increases in the pool sizes of amino acids derived from pyruvate and oxaloacetate, polyamine precursors, and compatible solutes were observed during both heat and cold stress a complexprocess shock. In addition, many of the metabolites that showed increases in response to both heat and cold shock in this study were previously unlinked with temperature stress.

Metabolomics-Based Analysis of Adaptive Mechanism of

Plant Metabolomics: An Overview of the Role of Primary and Secondary ...

One aspect of metabolism that is consistent across all of the temperature-stress metabolomic studies to date is the prominent role of central carbohydrate metabolism, which seems to be a major feature of the reprogramming of the metabolome during temperature stress.

Metabolomics of Strongylocentrotus intermedius fatty acid metabolism under high-temperature stress conditions 摘要:Plants possess inducible tolerance mechanisms that extend the temperature range for survival during acute temperature acid metabolism stress. The inducible mechanisms of cold acclimation and acquired thermotolerance involve highly complex processes. These include perception and signal transduction of non-optimal temperatures or their physical consequences

Changli Research Institute of Fruit Trees, Hebei Academy of Agricultural and Forestry Sciences, Hebei, China Low temperature is one of the environmental factors that restrict the growth and geographical distribution of peach (Prunus persica L. Batsch). To explore the molecular mechanisms of peach brunches in response to cold, we analyzed the metabolomics In the integrated rice-crayfish aquaculture systems, crayfish Procambarus clarkii need to spend a long winter in the ring ditch, which is vulnerable to low temperature stress, especially in the northern part of China, where cold waves and other low-temperature climates are frequent. To study the metabolic response of P. clarkii to low temperature stress Crayfish (Procambarus clarkii) aquaculture is threatened by abrupt temperature decreases caused by climatic phenomena, such as cold waves and seasonal fluctuations. In this study, crayfish were exposed to an abrupt temperature change from 17 °C to 7 °C for 24 h to investigate the effects of acute low-temperatures on respiratory metabolism, antioxidants, and

Metabolomics is an omics technology that studies the types, quantities, and changes of endogenous metabolic substances in organisms affected by abiotic and biotic factors. Background/Objectives: Based on metabolomics, small molecule metabolites in biological organisms can be qualitatively and quantitatively analysed. This method analysis directly Abstract Crayfish (Procambarus clarkii) aquaculture is threatened by abrupt temperature decreases caused by climatic phenomena, such as cold waves and seasonal fluctuations. In this study, crayfish were exposed to an abrupt temperature change from 17 °C to 7 °C for 24 h to investigate the effects of acute low-temperatures on respiratory metabolism, antioxidants, and Schlagwörter: plant cold-acclimation freezing tolerance arabidopsis-thaliana systems biology heat-stress transcription factors chilling sensitivity signaling networks pathways genes

Abstract Plants possess inducible tolerance mechanisms that extend the temperature range for survival during acute temperature stress. The inducible mechanisms of cold acclimation and acquired thermotolerance involve highly complex processes. These include perception and signal transduction of non-optimal temperatures or their physical consequences on cellular In the integrated rice-crayfish aquaculture systems, crayfish Procambarus clarkii need to spend a long winter in the ring ditch, which is vulnerable to low temperature stress, especially in the northern part of China, where cold waves and other low-temperature climates are frequent. To study the met

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Widely targeted metabolomics profiling was performed to analyze metabolic changes induced by low-temperature stress. Key pathways and metabolites involved in the low-temperature stress response were identified through kyoto encyclopedia acclimation and of genes and genomes (KEGG) pathway enrichment and metabolic network analysis. Kopka, J. Applied Metabolome Analysis, Department Willmitzer, Max Planck Institute of Molecular Plant Physiology, Max Planck Society;

Metabolomics-based exploration the response mechanisms of

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 and biological analyses of high temperature tolerant (HTT) tomato hybrid VRNTH18283 and sensitive (HTS) VRNTH19072 to decipher altered metabolic For example, low-temperature stress has been shown to significantly affect amino acid metabolism and energy substrates in Dicentrarchus labrax [8], range for survival during acute while serum metabolomics of black rockfish (Sebastes schlegelii) revealed marked alterations in metabolites linked to fatty acid metabolism in response to acute cold stress [9]. Under the low-temperature treatment, the cross-section of a 1-year-old branch of CF exhibited more severe browning than HF did, and the relative electrolyte leakage value of CF was higher than that of HF. Transcriptomics and metabolomics analysis revealed the key pathways of apples in response to low-temperature stress.

Plants possess inducible tolerance mechanisms that extend the temperature range for survival during acute temperature stress. The inducible mechanisms of cold acclimation and acquired thermotolerance involve highly complex processes. These include perception and signal transduction of non-optimal temperatures or their physical consequences on cellular

Microbial metabolomics: Toward a platform with full metabolome coverage The use of metabolomics for the discovery of new biomarkers of effect Mouse Age Matters: How Age Affects the Murine Plasma Metabolome Yeast Metabolomics: Sample Preparation for a GC/MS-Based Analysis Use of mass spectrometry for metabolite profiling and metabolomics

To comprehend the intricate molecular mechanisms underlying the response and acclimation of oil palm under low-temperature stress, multi-omics approaches, including metabolomics, proteomics, and transcriptomics, have emerged as powerful tools.

  • Metabolomics of temperature stress,Physiologia Plantarum
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  • Metabolomics of temperature stress :: MPG.PuRe
  • Metabolomics of temperature stress-期刊-万方数据知识服务平台

Monogalactosyldiacylglycerol (MGDG), as the primary lipid component of thylakoid membranes, has a significant part in plant growth and stress response. The current study employed two transgenic wheat lines (MG1516 and MG1314) overexpressing the MGDG synthase gene (TaMGD) and wild-type cv „JW1“ to explore the function of TaMGD in response to high Analysis on temperature-stressed The aquaculture metabolome of Arabidopsis revealed that, with regard to metabolite markers, heat stress and cold stress shared many comparable responses [13]. This study employs metabolomics, transcriptomics, and Weighted Gene Co-expression Network Analysis (WGCNA) to investigate the molecular mechanisms of Caucasian clover’s response to low-temperature stress.

In the integrated rice‐crayfish aquaculture systems, crayfish Procambarus clarkii need to spend a long winter in the ring ditch, which is vulnerable to low temperature stress, especially in the northern part of China, where cold waves and other low‐temperature climates are frequent. To study the metabolic response of P. clarkii to low temperature stress experimentally, the

Metabolomics of temperature stress :: MPG.PuRe

Free keywords: plant cold-acclimation freezing tolerance arabidopsis-thaliana systems biology heat-stress transcription factors chilling sensitivity signaling networks pathways genes Key message Comprehensive metabolomic investigations provide a large set of stress-related metabolites and metabolic pathways, advancing crops under heat stress conditions. Metabolomics-assisted The aquaculture industry of red swamp crayfish (RSC), Procambarus clarkii, has grown significantly in recent decades due to increasing market demand. In China, low water temperatures, particularly during overwintering, pose a challenge, hindering the development of the RSC aquaculture industry in northern regions. Understanding the molecular mechanism of

Metabolomics is an essential technology for functional genomics and systems biology. It plays a key role in functional annotation of genes and understanding towards cellular and molecular, biotic and abiotic stress responses. Different analytical techniques are used

Primary and secondary metabolism are affected by abiotic stress, and even though trees can adapt to stress, the metabolic consequences imposed by climate change are still of P rather unknown. In this chapter, we discuss metabolomics studies on the impact of temperature stress and high CO 2 levels and their combined effect on tree metabolism.

Metabolomics could contribute significantly to the study of stress biology in plants and other organisms by identifying different compounds, such as by-products of stress metabolism, stress signal transduction molecules or molecules that are part of the acclimation response of plants. This autolysis of V. volvacea at low temperature has been reported, but a metabolomics-based investigation of the underlying mechanisms of the V. volvacea response to low temperature has not been reported. Therefore, this study aimed to explore the changes, levels and expression patterns of V. volvacea metabolites at low temperature.

Exploring the temperature-stress metabolome of Arabidopsis