3,695 results on '"temperature stress"'
Search Results
2. Proteome trait regulation of marine Synechococcus elemental stoichiometry under global change.
- Author
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Garcia, Nathan, Du, Mingyu, Guindani, Michele, McIlvin, Matthew, Moran, Dawn, Saito, Mak, and Martiny, Adam
- Subjects
Synechococcus ,elemental stoichiometry ,global change ,growth rate hypothesis ,nutrient stress ,proteome ,resource allocation ,temperature stress ,traits ,Ecosystem ,Synechococcus ,Proteome ,Bayes Theorem ,Temperature ,Nitrogen - Abstract
Recent studies have demonstrated regional differences in marine ecosystem C:N:P with implications for carbon and nutrient cycles. Due to strong co-variance, temperature and nutrient stress explain variability in C:N:P equally well. A reductionistic approach can link changes in individual environmental drivers with changes in biochemical traits and cell C:N:P. Thus, we quantified effects of temperature and nutrient stress on Synechococcus chemistry using laboratory chemostats, chemical analyses, and data-independent acquisition mass spectrometry proteomics. Nutrient supply accounted for most C:N:Pcell variability and induced tradeoffs between nutrient acquisition and ribosomal proteins. High temperature prompted heat-shock, whereas thermal effects via the translation-compensation hypothesis were only seen under P-stress. A Nonparametric Bayesian Local Clustering algorithm suggested that changes in lipopolysaccharides, peptidoglycans, and C-rich compatible solutes may also contribute to C:N:P regulation. Physiological responses match field-based trends in ecosystem stoichiometry and suggest a hierarchical environmental regulation of current and future ocean C:N:P.
- Published
- 2024
3. Dietary seaweed extract mitigates oxidative stress in Nile tilapia by modulating inflammatory response and gut microbiota.
- Author
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Siddik, Muhammad A. B., Francis, Prue, Foysal, Md Javed, and Francis, David S.
- Abstract
Introduction: Extreme water temperature affects the well-being of all aquatic animals, including fish. Higher temperatures can lead to the generation of reactive oxygen species (ROS), which can induce oxidative stress and negatively impact fish health and well-being. This study investigated the protective effects of seaweed extract on growth, antioxidant status, inflammatory responses, and gut microbiota to gain a better understanding of the acclimatization ability of Nile tilapia, Oreochromis niloticus in response to oxidative stress caused by high water temperatures. Methods: Red-seaweed, Gracilaria tenuistipitata rich in polyphenols (i.e., total phenolics and flavonoids content) was considered for the preparation of the Gracilaria extract (GE) for the study. Nile tilapia were fed the GE supplemented diet along with a control diet for 42 days, followed by 14 days of temperature ramping at a rate of 1°C every two days to the desired target (35°C) and 14 days of holding at 32°C for acclimatation. Results: Nile tilapia fed the GE had a significantly higher growth performance attributed to increased muscle fiber size compared to control (p < 0.05) after the 70 days of feeding trial. Fish fed the GE diet also showed a significantly lower lipid peroxidation by decreased malondialdehyde level when compared to control (p < 0.05). Furthermore, GE diet exhibited increased red blood cell counts with the decreased number of cellular and nuclear abnormalities. The gene expression of tight junction (i.e., occludin, claudin1, ZO-1) and nrf2 (antioxidant biomarker) were upregulated, while hsp70 (related to stress response) was downregulated in fish fed the GE diet. Additionally, GE supplementation led to an increase in bacterial diversity and the abundance of phylum Firmicutes, order Lactobacillales , and genera Sphingobacterium and Prevotella in the distal gut of Nile tilapia, which are mostly considered as beneficial for fish. Conclusion: The findings suggest that GE has the potential to be used as a dietary supplement to improve health, particularly as a stress-resistant supplement in the diet for Nile tilapia. This study may help make more informed decisions for tailoring the nutrient requirements of fish in the face of climate warming. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
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4. Metabolism of 2,4‐D in plants: comparative analysis of metabolic detoxification pathways in tolerant crops and resistant weeds.
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Torra, Joel, Alcántara‐de la Cruz, Ricardo, de Figueiredo, Marcelo Rodrigues Alves, Gaines, Todd A., Jugulam, Mithila, Merotto, Aldo, Palma‐Bautista, Candelario, Rojano‐Delgado, Antonia M., and Riechers, Dean E.
- Subjects
METABOLIC detoxification ,WEED control ,HEREDITY ,CYTOCHROME P-450 ,TARGET marketing - Abstract
The commercialization of 2,4‐D (2,4‐dichlorophenoxyacetic acid) latifolicide in 1945 marked the beginning of the selective herbicide market, with this active ingredient playing a pivotal role among commercial herbicides due to the natural tolerance of monocots compared with dicots. Due to its intricate mode of action, involving interactions within endogenous auxin signaling networks, 2,4‐D was initially considered a low‐risk herbicide to evolve weed resistance. However, the intensification of 2,4‐D use has contributed to the emergence of 2,4‐D‐resistant broadleaf weeds, challenging earlier beliefs. This review explores 2,4‐D tolerance in crops and evolved resistance in weeds, emphasizing an in‐depth understanding of 2,4‐D metabolic detoxification. Nine confirmed 2,4‐D‐resistant weed species, driven by rapid metabolism, highlight cytochrome P450 monooxygenases in Phase I and glycosyltransferases in Phase II as key enzymes. Resistance to 2,4‐D may also involve impaired translocation associated with mutations in auxin/indole‐3‐acetic acid (Aux/IAA) co‐receptor genes. Moreover, temperature variations affect 2,4‐D efficacy, with high temperatures increasing herbicide metabolism rates and reducing weed control, while drought stress did not affect 2,4‐D efficacy. Research on 2,4‐D resistance has primarily focused on non‐target‐site resistance (NTSR) mechanisms, including 2,4‐D metabolic detoxification, with limited exploration of the inheritance and genetic basis underlying these traits. Resistance to 2,4‐D in weeds is typically governed by a single gene, either dominant or incompletely dominant, raising questions about gain‐of‐function or loss‐of‐function mutations that confer resistance. Future research should unravel the physiological and molecular‐genetic basis of 2,4‐D NTSR, exploring potential cross‐resistance patterns and assessing fitness costs that may affect future evolution of auxin‐resistant weeds. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Comparative transcriptome analysis of low- and high-latitude populations of Charybdis japonica under temperature stress.
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Sun, Shaolei, He, Zhiqi, Zhang, Feijun, and Han, Zhiqiang
- Subjects
CELLULAR signal transduction ,CRAB populations ,CLIMATE change ,PORTUNIDAE ,GENE expression ,PHYSIOLOGICAL effects of cold temperatures - Abstract
Global climate change has caused rapid temperature changes in marine environments. Understanding how marine organisms respond to temperature changes can help predict their richness of future biodiversity. In this study, we examined the gene expression levels and the difference in the pathways that are responsive to acute temperature stress in low- and high-latitude populations of the shore swimming crab, Charybdis japonica. The two populations of C. japonica were exposed to low- and high-temperature stresses (15°C and 28°C) and used for transcriptome sequencing. Genetic regulatory ability changes were compared to determine the diverse response of the two crab populations to temperature change. The gene expression levels and functional enrichment analysis showed that the low-latitude crab regulated more genes (938) that were mainly enriched in DNA replication and metabolic pathways, whereas the high-latitude crab regulated less genes (309) that were mainly enriched in genetic information processing at low-temperature stress. Furthermore, the low-latitude crab regulated less genes (33) that were mainly enriched in genetic information processing, whereas the high-latitude crab regulated more genes (280) that were mainly enriched in signal transduction and cellular process at high-temperature stress. These results implied that the low-latitude population was more resilient to high-temperature stress, while the high-latitude population was more resilient to low-temperature stress. This study enhances our understanding of how different geographic C. japonica populations respond to varying temperature environments in their living zone, which could be helpful for predicting future biodiversity trends of intertidal crustaceans under global climate change. [ABSTRACT FROM AUTHOR]
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- 2024
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6. Physiological and Genetic Aspects of Resistance to Abiotic Stresses in Capsicum Species.
- Author
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Zhang, Xiaolin, Ma, Xiuming, Wang, Shihui, Liu, Shumei, and Shi, Shaochuan
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EXTREME weather ,ABIOTIC stress ,VEGETABLE farming ,NUTRITIONAL value ,LOW temperatures - Abstract
Abiotic stress is one of the key factors harming global agriculture today, seriously affecting the growth and yield of vegetables. Pepper is the most widely grown vegetable in the world, with both high nutritional and economic values. Currently, the increase in global extreme weather events has heightened the frequency of abiotic stresses, such as drought, high and low temperatures, waterlogging, and high salt levels, which impairs pepper growth and development, leading to its reduced yield and quality. In this review, we summarize the research progress on the responses of pepper to abiotic stress in recent years in terms of physiology, biochemistry, molecular level, and mitigation measures. We then explore the existing problems and propose future research directions. This work provides a reference for the cultivation and development of new pepper varieties resistant to abiotic stress. [ABSTRACT FROM AUTHOR]
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- 2024
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7. Abiotic stress response of medicinally potential <italic>Curcuma</italic> spp. in changing climate: Do we have enough clues?
- Author
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Bharali, Pritimani and Bhattacharyya, Nabanita
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ABIOTIC stress , *PLANT metabolites , *METABOLITES , *LIGHT metals , *ENDANGERED species - Abstract
Changing climate imposes abiotic stress factors, including salinity, flood, drought, high and low temperature, and light as well as heavy metals on medicinal plants. Plants respond to stress in terms of growth and biosynthesis of metabolites. The rhizomatous genus
Curcuma has been extensively used in traditional or folk medicine worldwide and its therapeutic potential relies on its phyto-constituents. A discrete array of literature depicts negative effects on growth and alterations in yield of secondary metabolites under abiotic stress. However, one complete and precise document on the response ofCurcuma spp. towards abiotic stress and their molecular mechanism is lacking. Hence, this review has been prepared by pulling together the published information on the abiotic stress response as well as the future research prospects on theCurcuma spp. along with other related rhizomatous plants of the family Zingiberaceae, to obtain prospective clues on possible responses of these medicinally potential species in the verge of changing climate. We have also highlighted the stress mitigation strategies employed by these plants in the light of available literature and by comparing with information on related species of Zingiberaceae family. We have focused on the urgency of multiomics approaches to find out the genetic and biochemical strategies ofCurcuma spp. to cope with stress as well as emphasized for conservation of rare and endangered species ofCurcuma . This review will be helpful for plant physiologists, farmers, pharmaceutical industries, and policy makers, to implement better plans and policies regarding uninterrupted commercial yield ofCurcuma secondary metabolites in changing climate. [ABSTRACT FROM AUTHOR]- Published
- 2024
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8. GhASHH1.A and GhASHH2.A Improve Tolerance to High and Low Temperatures and Accelerate the Flowering Response to Temperature in Upland Cotton (Gossypium hirsutum).
- Author
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Ju, Jisheng, Yang, Junning, Wei, Jiazhi, Yuan, Wenmin, Li, Ying, Li, Dandan, Ling, Pingjie, Ma, Qi, Wang, Caixiang, Dai, Maohua, and Su, Junji
- Subjects
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GENE silencing , *HISTONE methylation , *GENE families , *LOW temperatures , *GERMPLASM - Abstract
The trithorax group (TrxG) complex is an important protein in the regulation of plant histone methylation. The ABSENT, SMALL, OR HOMEOTIC DISCS 1 (ASH1) gene family, as important family members of the TrxG complex, has been shown to regulate tolerance to abiotic stress and growth and development in many plants. In this study, we identified nine GhASH1s in upland cotton. Bioinformatics analysis revealed that GhASH1s contain a variety of cis-acting elements related to stress resistance and growth and development. The transcriptome expression profiles revealed that GhASHH1.A and GhASHH2.A genes expression were upregulated in flower organs and in response to external temperature stress. The results of virus-induced gene silencing (VIGS) indicated that GhASHH1.A and GhASHH2.A genes silencing reduced the ability of cotton to adapt to temperature stress and delayed the development of the flowering phenotype. We also showed that the silencing of these two target genes did not induce early flowering at high temperature (32 °C), suggesting that GhASHH1.A and GhASHH2.A might regulate cotton flowering in response to temperature. These findings provide genetic resources for future breeding of early-maturing and temperature-stress-tolerant cotton varieties. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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9. Transcriptomic Analysis of Hippocampus abdominalis Larvae Under High Temperature Stress.
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Xiao, Wenjie, Guo, Baoying, Tan, Jie, Liu, Changlin, Jiang, Da, Yu, Hao, and Geng, Zhen
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GENE expression , *DNA replication , *OXIDATION-reduction reaction , *DATA scrubbing , *HIGH temperatures - Abstract
Objectives: Acute temperature stress was explored in Hippocampus abdominalis through a comprehensive RNA-seq analysis. Methods: RNA-seq was conducted on 20-day-old H. abdominalis after 24 h of temperature stress. Four experimental conditions were established: a control group (18 °C) and three temperature treatment groups (21, 24, and 27 °C). Results: Seahorse larvae were found to be unaffected by 21 °C and 24 °C and were able to survive for short periods of time during 24 h of incubation, whereas mortality approached 50% at 27 °C. The sequencing process produced 75.63 Gb of high-quality clean data, with Q20 and Q30 base percentages surpassing 98% and 96%, respectively. A total of 141, 333, and 1598 differentially expressed genes were identified in the 21, 24, and 27 °C groups vs. a control comparison group, respectively. Notably, the number of up-regulated genes was consistently higher than that of down-regulated genes across all comparisons. Gene Ontology functional annotation revealed that differentially expressed genes were predominantly associated with metabolic processes, redox reactions, and biosynthetic functions. In-depth KEGG pathway enrichment analysis demonstrated that down-regulated genes were significantly enriched in pathways related to steroid biosynthesis, terpenoid backbone biosynthesis, spliceosome function, and DNA replication. Up-regulated genes were enriched in pathways associated with the FoxO signaling pathway and mitophagy (animal). The results indicated that temperature stress induced extensive changes in gene expression in H. abdominalis, involving crucial biological processes such as growth, biosynthesis, and energy metabolism. Conclusions: This study provided key molecular mechanisms in the response of H. abdominalis to temperature stress, offering a strong basis for future research aimed at understanding and mitigating the effects of environmental stressors on marine species. [ABSTRACT FROM AUTHOR]
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- 2024
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10. Acclimation during Embryogenesis Remodulates Telomerase Activity and Gene Expression in Baikal Whitefish Larvae, Mitigating the Effects of Acute Temperature Stress.
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Koroleva, Anastasiya G., Vakhteeva, Eugenia A., Epifantsev, Alexander A., Sukhanova, Lyubov V., Yakhnenko, Vera M., Glyzina, Olga Yu., Tolstikova, Lyubov I., Cherezova, Valeria M., Sidorova, Tuyana V., Potapov, Sergey A., Kirilchik, Sergey V., and Sapozhnikova, Yulia P.
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COLD-blooded animals , *GENE expression , *REACTIVE oxygen species , *SUPEROXIDE dismutase , *TELOMERASE - Abstract
Simple Summary: Temperature acclimation enables animals, especially aquatic ones, to safely survive climate fluctuations in the natural environment. The aim of our work was to study how temperature acclimation in aquaculture affects cold-water Baikal whitefish at the embryonic stage and their well-being during a heat shock (24 °C). Selected molecular markers (telomere length, telomerase activity, and expression of target genes) showed that acclimation at the early developmental stages has a positive effect on the Baikal whitefish larvae and allows them to tolerate acute temperature stress without the harmful consequences. The data obtained will improve the survival of fish and increase their plasticity under aquaculture conditions. Acclimation through the hormesis effect increases the plasticity of organisms, which has been shown for many ectothermic animals, including fish. We investigated the effect of temperature acclimation in Baikal whitefish Coregonus baicalensis (Dybowski, 1874). Telomere length, telomerase activity, and the expression of genes, whose products are involved in the regulation of telomere length and defense against reactive oxygen species, were selected to assess the state of the larvae. Acclimation and acute temperature stress (+12 °C) had no effect on telomere length, but altered telomerase activity (acclimation decreased it; stress increased it) and the levels of genes expression. Under stress, the expression of superoxide dismutase genes was increased in acclimated larvae and that of glutathione peroxidases in non-acclimated larvae, which may indicate lower reactive oxygen species formation and slower antioxidant responses in acclimated fish. The expression of some telomere-related genes was reduced under temperature stress, but the expression of the tzap and smg genes, whose products improve the control of telomere length by preventing them from lengthening or shortening, was increased in acclimated individuals. The data obtained indicate a positive effect of acclimation on the state of the Baikal whitefish larvae by remodulation of their telomerase activity and the transcriptional profile. [ABSTRACT FROM AUTHOR]
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- 2024
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11. Effects of Pollen Germination and Pollen Tube Growth under Different Temperature Stresses in Mango (Mangifera indica L.) by Metabolome.
- Author
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Liu, Xinyu, Zhou, Lirong, Du, Chengxun, Wang, Songbiao, Chen, Hongjin, Xu, Wentian, Yang, Zhuanying, and Liang, Qingzhi
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MANGO ,EXTREME weather ,TEMPERATURE effect ,POLLEN tube ,LOW temperatures - Abstract
Background: The dramatic temperature fluctuations spurred by global warming and the accompanying extreme weather events inhibit mango growth and threaten mango productivity. Particularly, mango flowering is highly sensitive to temperature changes. The mango fruit setting rate was significantly positively correlated with pollen activity, and pollen activity was regulated by different metabolites. Methods: In this study, the in vitro pollen of two mango varieties ('Renong No.1' and 'Jinhuang'), in which sensitivity to temperature differed significantly, were subjected to different temperature stresses (15 °C, 25 °C and 35 °C), and their metabolomics were analyzed. Results: The present results showed that 775 differential metabolites were screened by liquid chromatography–mass spectrometry and divided into 12 categories. The two varieties had significant differences in metabolite expression under different temperature stresses and the effect of low temperature on 'Renong No.1' mainly focused on amino acid metabolism, while the effect on 'Jinhuang' was mainly related to glycolysis. However, under the 35 °C temperature stress, 'Renong No.1' responded by redistributing riboflavin and betaine in vivo and the most obvious metabolic pathway of 'Jinhuang' enrichment was pyrimidine metabolism, which had undergone complex main body formation and extensive regulatory processes. The changes of metabolites of different varieties under low temperature and high temperature stress were different. Among them, flavonoids or flavonoid derivatives were included in class A (216 metabolites), C (163 metabolites) and D (233 metabolites) metabolites, indicating that flavonoid metabolites had an obvious regulatory effect on mango pollen metabolism under different temperature stress. Conclusions: The present results provide valuable information for reproductive biology studies and breeding in mango, in particular, the selection and breeding of the most suitable varieties for different production areas. [ABSTRACT FROM AUTHOR]
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- 2024
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12. 无管冷系统厚壁衬砌的水化热影响.
- Author
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胡保刚 and 董建辉
- Abstract
Copyright of Fly Ash Comprehensive Utilization is the property of Hebei Fly Ash Comprehensive Utilization Magazine Co., Ltd. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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- 2024
- Full Text
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13. 糙皮侧耳 BAG 家族蛋白鉴定及其基因表达模式分析.
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于 振, 田 甜, 刘元栋, 麦非凡, 胡延如, 文 晴, 戚元成, and 王风芹
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FRUITING bodies (Fungi) ,PLEUROTUS ostreatus ,PROTEIN domains ,LOW temperatures ,HIGH temperatures - Abstract
Copyright of Acta Edulis Fungi is the property of Acta Edulis Fungi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2024
- Full Text
- View/download PDF
14. In Vitro Screening of Molecular Diversity Among Sorghums (Sorghum bicolor (L.) Landraces in Marathwada Region by Molecular Markers.
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Shukre, Vikas Manikrao, Tahakik, Rushikesh, Kumar, Kunvar Gyanendra, Tarte, Shilpa Hanmatrao, and Kore, Ganesh
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Allelic variation is a valuable tool for displaying high levels of polymorphism within species and is closely correlated with crop productivity. In Marathawada, there is a significant amount of phenotypic heterogeneity among sorghum landraces. However, molecular variability needs to be reevaluated in order to identify any potential barriers that can interfere with current improvement initiatives. In the current work, we used 5 SSR markers to categorize 20 genotypes of elite (Sorghum bicolor L. Moench) accession from the Marathwada region, including one standard cultivar from various agro-economic zones. According to the results of this study, 14 alleles were found among the 20 genotypes, with a PIC value that ranged from 0.37 to 0.70 and a mean of 0.44 per locus. Each locus had anything from 1 (gpsb089) and 5 (mSbCIR223), with an average of 2.80 alleles per locus. A neighbor-joining tree was constructed and showed clustering of genotypes into two groups; this indicates that there is considerable diversity in genotypes compared with advanced cultivar for desired genotype (IS1042) by using SSR markers. Results show that most diverse cultivars were IS-4564, IS18357, and IS-18381, and significant variation was also reported in IS4566 and IS18379. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
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15. Complete mitochondrial genome assembly of Juglans regia unveiled its molecular characteristics, genome evolution, and phylogenetic implications
- Author
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Hang Ye, Hengzhao Liu, Haochen Li, Dingfan Lei, Zhimei Gao, Huijuan Zhou, and Peng Zhao
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Juglans regia ,Mitochondrial genome ,Comparative analysis ,Temperature stress ,Biotechnology ,TP248.13-248.65 ,Genetics ,QH426-470 - Abstract
Abstract Background The Persian walnut (Juglans regia), an economically vital species within the Juglandaceae family, has seen its mitochondrial genome sequenced and assembled in the current study using advanced Illumina and Nanopore sequencing technology. Results The 1,007,576 bp mitogenome of J. regia consisted of three circular chromosomes with a 44.52% GC content encoding 39 PCGs, 47 tRNA, and five rRNA genes. Extensive repetitive sequences, including 320 SSRs, 512 interspersed, and 83 tandem repeats, were identified, contributing to genomic complexity. The protein-coding sequences (PCGs) favored A/T-ending codons, and the codon usage bias was primarily shaped by selective pressure. Intracellular gene transfer occurred among the mitogenome, chloroplast, and nuclear genomes. Comparative genomic analysis unveiled abundant structure and sequence variation among J. regia and related species. The results of selective pressure analysis indicated that most PCGs underwent purifying selection, whereas the atp4 and ccmB genes had experienced positive selection between many species pairs. In addition, the phylogenetic examination, grounded in mitochondrial genome data, precisely delineated the evolutionary and taxonomic relationships of J. regia and its relatives. We identified a total of 539 RNA editing sites, among which 288 were corroborated by transcriptome sequencing data. Furthermore, expression profiling under temperature stress highlighted the complex regulation pattern of 28 differently expressed PCGs, wherein NADH dehydrogenase and ATP synthase genes might be critical in the mitochondria response to cold stress. Conclusions Our results provided valuable molecular resources for understanding the genetic characteristics of J. regia and offered novel perspectives for population genetics and evolutionary studies in Juglans and related woody species.
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- 2024
- Full Text
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16. The rhizobacterial Priestia megaterium strain SH-19 mitigates the hazardous effects of heat stress via an endogenous secondary metabolite elucidation network and molecular regulation signalling
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Shifa Shaffique, Anis Ali Shah, Odongkara Peter, Md. Injamum-Ul-Hoque, Hosam O. Elansary, Sang-Mo kang, Tiba Nazar Ibrahim Al Azzawi, Byung-Wook Yun, and In-Jung Lee
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SH-19 ,Temperature stress ,Phytohormones ,ROS ,Botany ,QK1-989 - Abstract
Abstract Global warming is a leading environmental stress that reduces plant productivity worldwide. Several beneficial microorganisms reduce stress; however, the mechanism by which plant–microbe interactions occur and reduce stress remains to be fully elucidated. The aim of the present study was to elucidate the mutualistic interaction between the plant growth-promoting rhizobacterial strain SH-19 and soybeans of the Pungsannamul variety. The results showed that SH-19 possessed several plant growth-promoting traits, such as the production of indole-3-acetic acid, siderophore, and exopolysaccharide, and had the capacity for phosphate solubilisation. The heat tolerance assay showed that SH-19 could withstand temperatures up to 45 °C. The strain SH-19 was identified as P. megaterium using the 16S ribosomal DNA gene sequence technique. Inoculation of soybeans with SH-19 improved seedling characteristics under high-temperature stress. This may be due to an increase in the endogenous salicylic acid level and a decrease in the abscisic acid level compared with the negative control group. The strain of SH-19 increased the activity of the endogenous antioxidant defense system, resulting in the upregulation of GSH (44.8%), SOD (23.1%), APX (11%), and CAT (52.6%). Furthermore, this study involved the transcription factors GmHSP, GmbZIP1, and GmNCED3. The findings showed upregulation of the two transcription factors GmbZIP1 (17%), GmNCED3 (15%) involved in ABA biosynthesis and induced stomatal regulation, similarly, a downregulation of the expression pattern of GmHSP by 25% was observed. Overall, the results of this study indicate that the strain SH-19 promotes plant growth, reduces high-temperature stress, and improves physiological parameters by regulating endogenous phytohormones, the antioxidant defense system, and genetic expression. The isolated strain (SH-19) could be commercialized as a biofertilizer.
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- 2024
- Full Text
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17. Discovery and demonstration of the temperature stress response functions of Dermatophagoides farinae proteins 1 and 2
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Wanyu Zhang, Dongling Niu, Yae Zhao, Li Hu, Chenglin Guan, and Rong Chai
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Dermatophagoides farinae ,Temperature stress ,DFP1 and 2 ,Expression level ,Survival rate of mite ,Biotechnology ,TP248.13-248.65 ,Genetics ,QH426-470 - Abstract
Abstract Background Dermatophagoides farinae proteins (DFPs) are abundantly expressed in D. farinae; however, their functions remain unknown. Our previous transcriptome sequencing analyses revealed that the basal expression of DFP1 and DFP2 in D. farinae was high and, more importantly, upregulated under temperature stress. Therefore, DFPs were speculated to exert a temperature stress response function. Results Real-time quantitative polymerase chain reaction detection revealed that both DFP1 and DFP2 were significantly upregulated under temperature stress. Particularly, DFP1 was upregulated under cold stress. Electrophoresis of D. farinae total proteins revealed an increased abundance of DFP1 and DFP2 (40–55 kDa bands) under temperature stress, which was corroborated by the mass spectrometry results. After silencing DFP1 and DFP2 further, temperature stress led to decreases in gene expression and survival rates. Moreover, DFP1 was identified as the upstream regulator of DFP2. Conclusion This study highlights the temperature stress response functions of DFP1 and DFP2 at the mRNA and protein levels. These results provide important insights for applying DFP1 and DFP2 as potential target genes for the molecular prevention and control of D. farinae to prevent allergic diseases. The newly established methods provide methodological guidance for the study of genes with unknown functions in mites.
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- 2024
- Full Text
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18. Complete mitochondrial genome assembly of Juglans regia unveiled its molecular characteristics, genome evolution, and phylogenetic implications.
- Author
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Ye, Hang, Liu, Hengzhao, Li, Haochen, Lei, Dingfan, Gao, Zhimei, Zhou, Huijuan, and Zhao, Peng
- Subjects
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MITOCHONDRIAL DNA , *POPULATION genetics , *TANDEM repeats , *ENGLISH walnut , *ADENOSINE triphosphatase , *NADH dehydrogenase - Abstract
Background: The Persian walnut (Juglans regia), an economically vital species within the Juglandaceae family, has seen its mitochondrial genome sequenced and assembled in the current study using advanced Illumina and Nanopore sequencing technology. Results: The 1,007,576 bp mitogenome of J. regia consisted of three circular chromosomes with a 44.52% GC content encoding 39 PCGs, 47 tRNA, and five rRNA genes. Extensive repetitive sequences, including 320 SSRs, 512 interspersed, and 83 tandem repeats, were identified, contributing to genomic complexity. The protein-coding sequences (PCGs) favored A/T-ending codons, and the codon usage bias was primarily shaped by selective pressure. Intracellular gene transfer occurred among the mitogenome, chloroplast, and nuclear genomes. Comparative genomic analysis unveiled abundant structure and sequence variation among J. regia and related species. The results of selective pressure analysis indicated that most PCGs underwent purifying selection, whereas the atp4 and ccmB genes had experienced positive selection between many species pairs. In addition, the phylogenetic examination, grounded in mitochondrial genome data, precisely delineated the evolutionary and taxonomic relationships of J. regia and its relatives. We identified a total of 539 RNA editing sites, among which 288 were corroborated by transcriptome sequencing data. Furthermore, expression profiling under temperature stress highlighted the complex regulation pattern of 28 differently expressed PCGs, wherein NADH dehydrogenase and ATP synthase genes might be critical in the mitochondria response to cold stress. Conclusions: Our results provided valuable molecular resources for understanding the genetic characteristics of J. regia and offered novel perspectives for population genetics and evolutionary studies in Juglans and related woody species. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
19. Short-Term Warming Induces Cyanobacterial Blooms and Antibiotic Resistance in Freshwater Lake, as Revealed by Metagenomics Analysis.
- Author
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Manna, Bharat, Jay, Emma, Zhang, Wensi, Zhou, Xueyang, Lyu, Boyu, Thomas, Gevargis Muramthookil, and Singhal, Naresh
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CYANOBACTERIAL blooms ,MULTIDRUG resistance ,DRUG resistance in bacteria ,REACTIVE oxygen species ,LAKES - Abstract
Climate change threatens freshwater ecosystems, potentially intensifying cyanobacterial blooms and antibiotic resistance. We investigated these risks in Cosseys Reservoir, New Zealand, using short-term warming simulations (22 °C, 24 °C, and 27 °C) with additional oxidative stress treatments. A metagenomic analysis revealed significant community shifts under warming. The cyanobacterial abundance increased from 6.11% to 20.53% at 24 °C, with Microcystaceae and Nostocaceae proliferating considerably. The microcystin synthesis gene (mcy) cluster showed a strong association with cyanobacterial abundance. Cyanobacteria exhibited enhanced nutrient acquisition (pstS gene) and an upregulated nitrogen metabolism under warming. Concurrently, antibiotic resistance genes (ARGs) increased, particularly multidrug resistance genes (50.82% of total ARGs). A co-association network analysis identified the key antibiotic-resistant bacteria (e.g., Streptococcus pneumoniae and Acinetobacter baylyi) and ARGs (e.g., acrB, MexK, rpoB2, and bacA) central to resistance dissemination under warming conditions. Oxidative stress exacerbated both cyanobacterial growth and ARGs' proliferation, especially efflux pump genes (e.g., acrB, adeJ, ceoB, emrB, MexK, and muxB). This study demonstrated that even modest warming (2–5 °C) could promote both toxic cyanobacteria and antibiotic resistance. These findings underscore the synergistic effects of temperature and oxidative stress posed by climate change on water quality and public health, emphasizing the need for targeted management strategies in freshwater ecosystems. Future research should focus on long-term impacts and potential mitigation measures. [ABSTRACT FROM AUTHOR]
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- 2024
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20. The rhizobacterial Priestia megaterium strain SH-19 mitigates the hazardous effects of heat stress via an endogenous secondary metabolite elucidation network and molecular regulation signalling.
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Shaffique, Shifa, Shah, Anis Ali, Peter, Odongkara, Injamum-Ul-Hoque, Md., Elansary, Hosam O., kang, Sang-Mo, Al Azzawi, Tiba Nazar Ibrahim, Yun, Byung-Wook, and Lee, In-Jung
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GENE expression , *ABSCISIC acid , *RIBOSOMAL DNA , *SALICYLIC acid , *PLANT productivity - Abstract
Global warming is a leading environmental stress that reduces plant productivity worldwide. Several beneficial microorganisms reduce stress; however, the mechanism by which plant–microbe interactions occur and reduce stress remains to be fully elucidated. The aim of the present study was to elucidate the mutualistic interaction between the plant growth-promoting rhizobacterial strain SH-19 and soybeans of the Pungsannamul variety. The results showed that SH-19 possessed several plant growth-promoting traits, such as the production of indole-3-acetic acid, siderophore, and exopolysaccharide, and had the capacity for phosphate solubilisation. The heat tolerance assay showed that SH-19 could withstand temperatures up to 45 °C. The strain SH-19 was identified as P. megaterium using the 16S ribosomal DNA gene sequence technique. Inoculation of soybeans with SH-19 improved seedling characteristics under high-temperature stress. This may be due to an increase in the endogenous salicylic acid level and a decrease in the abscisic acid level compared with the negative control group. The strain of SH-19 increased the activity of the endogenous antioxidant defense system, resulting in the upregulation of GSH (44.8%), SOD (23.1%), APX (11%), and CAT (52.6%). Furthermore, this study involved the transcription factors GmHSP, GmbZIP1, and GmNCED3. The findings showed upregulation of the two transcription factors GmbZIP1 (17%), GmNCED3 (15%) involved in ABA biosynthesis and induced stomatal regulation, similarly, a downregulation of the expression pattern of GmHSP by 25% was observed. Overall, the results of this study indicate that the strain SH-19 promotes plant growth, reduces high-temperature stress, and improves physiological parameters by regulating endogenous phytohormones, the antioxidant defense system, and genetic expression. The isolated strain (SH-19) could be commercialized as a biofertilizer. [ABSTRACT FROM AUTHOR]
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- 2024
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21. Exploring Gut Microbiota in Red Palm Weevil (Rhynchophorus ferrugineus): Effects on Pest Management, Pesticide Resistance, and Thermal Stress Tolerance.
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Elkraly, Omnia Abdullah, Elrahman, Tahany Abd, Awad, Mona, El-Saadany, Hassan Mohamed, Atia, Mohamed A. M., Dosoky, Noura S., Ibrahim, El-Desoky S., and Elnagdy, Sherif M.
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PESTICIDE resistance , *THERMAL stresses , *BIOLOGICAL pest control , *DATE palm , *GUT microbiome - Abstract
The red palm weevil (RPW), Rhynchophorus ferrugineus, poses a significant threat to date palms globally, heavily relying on symbiotic microbes for various physiological and behavioral functions. This comprehensive study delves into the intricate dynamics of RPW gut microbiota, revealing a diverse microbial community consisting of seven genera and eight species from Proteobacteria, Firmicutes, and Actinobacteria. The stability of gut bacteria across different life stages was observed, with notable impacts on larval metabolism attributed to shifts in bacterial composition. Bacillus subtilis emerged as a key player, producing a spectrum of metabolic enzymes. Furthermore, the gut bacteria exhibited remarkable pesticide degradation capabilities, suggesting a potential role in the host's resistance to pesticides. The Arthrobacter sp. was identified as a promising candidate for eco-friendly pest biocontrol and biodegradation strategies. Investigating the influence of thermal stress on two groups of RPW larvae (conventional-fed and antibiotic-fed) at varying temperatures (15, 27, and 35 °C) unveiled potential survival implications. This study highlights the pivotal role of bacterial symbionts in enabling larvae adaptation and thermal stress tolerance. In essence, this research contributes crucial insights into the diversity and functions of RPW gut bacteria, emphasizing their prospective applications in pest control strategies. [ABSTRACT FROM AUTHOR]
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- 2024
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22. The pyrexia channel remodels egg‐laying of Liriomyza huidobrensis in response to temperature change.
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Wu, Yaxi, Wang, Huimin, Hu, Zhihao, Pan, Mengchen, Wu, Yanan, Guo, Xiaojiao, Ge, Jin, Wang, Zhengjun, and Yang, Meiling
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INSECT pests ,LEAFMINERS ,LOW temperatures ,HIGH temperatures ,FEVER - Abstract
BACKGROUND: The pea leafminer, Liriomyza huidobrensis, is one of the most important insect pests on vegetables and ornamentals. The survival and egg‐laying behavior of leafminers are markedly affected by the environment temperature. However, the mechanisms underlying the relationship between egg‐laying and temperature are still largely unknown. RESULTS: Here, we find that leafminers have evolved an adaptive strategy to overcome the stress from high or low temperature by regulating oviposition‐punching plasticity. We further show that this oviposition‐punching plasticity is mediated by the expression of pyx in the ovipositor when subjected to disadvantageous temperature. Specifically, down‐regulation of pyx expression in leafminers under low temperature stress led to a significant decrease in the swing numbers of ovipositor and puncture area of the egg spot, and consequently the lower amount of egg‐laying compared to leafminers at ambient temperature. Conversely, activation of pyx expression under high temperature stress increased the swing numbers and puncture area, still resulting in a reduction of egg‐laying amount. CONCLUSION: Thereby, leafminers are able to coordinate pyx channel expression level and accordingly depress the oviposition. Our study uncovers a molecular mechanism underlying the adaptive strategy in insects that can avoid disadvantageous temperature for reproducing offspring. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]
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- 2024
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23. Discovery and demonstration of the temperature stress response functions of Dermatophagoides farinae proteins 1 and 2.
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Zhang, Wanyu, Niu, Dongling, Zhao, Yae, Hu, Li, Guan, Chenglin, and Chai, Rong
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GENE expression , *POLYMERASE chain reaction , *DERMATOPHAGOIDES , *ALLERGIES , *SURVIVAL rate - Abstract
Background: Dermatophagoides farinae proteins (DFPs) are abundantly expressed in D. farinae; however, their functions remain unknown. Our previous transcriptome sequencing analyses revealed that the basal expression of DFP1 and DFP2 in D. farinae was high and, more importantly, upregulated under temperature stress. Therefore, DFPs were speculated to exert a temperature stress response function. Results: Real-time quantitative polymerase chain reaction detection revealed that both DFP1 and DFP2 were significantly upregulated under temperature stress. Particularly, DFP1 was upregulated under cold stress. Electrophoresis of D. farinae total proteins revealed an increased abundance of DFP1 and DFP2 (40–55 kDa bands) under temperature stress, which was corroborated by the mass spectrometry results. After silencing DFP1 and DFP2 further, temperature stress led to decreases in gene expression and survival rates. Moreover, DFP1 was identified as the upstream regulator of DFP2. Conclusion: This study highlights the temperature stress response functions of DFP1 and DFP2 at the mRNA and protein levels. These results provide important insights for applying DFP1 and DFP2 as potential target genes for the molecular prevention and control of D. farinae to prevent allergic diseases. The newly established methods provide methodological guidance for the study of genes with unknown functions in mites. [ABSTRACT FROM AUTHOR]
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- 2024
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24. Transcriptome and Physiological Analysis of Heat and Chilling Stress Responses in Chinese Cabbage (Brassicarapa L. var. pekinensis)
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Gu, L., Zhao, Y., Dou, Y., Zhang, G., Wang, Y., and Li, Q.
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Temperature stress impacts the quality and growth of Chinese cabbage. To evaluate resistance mechanisms of temperature stress in Chinese cabbage, the levels of oxidative stress response enzymes such as superoxide dismutase (SOD), peroxidase (POD) and catalase (CAT), as well as metabolites including proline, malondialdehyde (MDA), chlorophylls a and b were estimated. Under temperature stress, the contents of proline and MDA, along with the activities of SOD, POD and CAT increased significantly. Through transcriptome analysis, we found that 11 759 differentially expressed genes were highly enriched in metabolic pathways, which were concentrated on ‘starch and sucrose metabolism’ and ‘plant hormone signal transduction’. Besides, spliceosome pathway was upregulated for heat stress adaptation, but no upregulation of the spliceosome pathway was observed during cold treatment. qRT-PCR validation and transcriptome analysis indicated that the genes of reactive oxygen species scavenging enzymes have different expression patterns under heat and cold stresses. BraA08g030930 (SOD-related), BraA01g040660 (POD-related), and BraA01g003280 (CAT-related) were significantly upregulated under heat stress, while BraA08g015510 (CAT-related) downregulated under cold stress. We found that the transcription factors of MYBs were the main family involved in heat and chilling stress response, and NACs (NAM, ATAF, and CUC transcription factors) actively responded to chilling stress. Our results reveal the changes in physiological parameters and gene expression patterns under heat and chilling stress, thereby providing valuable insights into elucidating the regulatory mechanisms of cold or heat tolerance in Chinese cabbage. [ABSTRACT FROM AUTHOR]
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- 2024
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25. Research Progress of Arbuscular Mycorrhizal Fungi Improving Plant Resistance to Temperature Stress.
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Jian, Panyu, Zha, Qian, Hui, Xinran, Tong, Cuiling, and Zhang, Dejian
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VESICULAR-arbuscular mycorrhizas ,PLANT-fungus relationships ,PHYTOPATHOGENIC fungi ,HOST plants ,PLANT anatomy - Abstract
Arbuscular mycorrhizal fungi (AMF) are beneficial microorganisms ubiquitous in soil that form symbiotic mycorrhizal structures with plant roots. When the host plant is exposed to temperature stress, arbuscular mycorrhizal fungi can improve the host plant's resistance by helping regulate the growth of underground and aboveground parts. In recent years, due to climate change, extremely high and low temperatures have occurred more frequently and for longer durations, significantly impacting plant growth, antioxidant systems, osmotic balance, photosynthesis, and related gene expression. Consequently, numerous scholars have used arbuscular mycorrhizal fungi to aid plants, confirming that arbuscular mycorrhizal fungi can help host plants improve their ability to resist temperature stress. In this paper, the quantitative research method of Meta-analysis was used to collate and build a database of 129 relevant works to evaluate the effects of AMF on plant resistance to temperature stress and explore the response mechanism of AMF to host plants subjected to temperature stress, providing a theoretical basis for further exploring arbuscular mycorrhizal fungi in improving plant resistance to temperature stress. [ABSTRACT FROM AUTHOR]
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- 2024
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26. 大体积混凝土配合比优化设计在大型动载设备 基础中的应用研究.
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李灿, 周殷弘, 余建国, 熊俊驰, and 王典
- Abstract
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- 2024
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27. Proliferating cell nuclear antigen of Ulva prolifera is involved in the response to temperature stress.
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He, Hongyan, Yang, Juanjuan, He, Yuan, Yang, Xiuwen, Fu, Caiwei, Zhang, Dongren, Dong, Jingwei, Zeb, Aurang, Qu, Jing, and Shen, Songdong
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ANTIGENS , *ULVACEAE , *PROTOPLASTS , *TRANSCRIPTOMES , *PHYSIOLOGICAL effects of temperature - Abstract
Ulva prolifera is the most common specie causative to green tide, and its growth is sensitive to temperature stress. However, the mechanisms of U. prolifera response to temperature stress remain elusive. In this study, high temperature (36 °C) stimulus promoted the death of unformed cell wall protoplasts and delayed the division of formed cell wall protoplasts, while low-temperature (4 °C) stimulus did not, suggesting that the mechanisms of the response of U. prolifera to high and low-temperature stresses are different. Transcriptome results show that proliferation-related genes were differentially expressed under high and low-temperature stresses, especially the proliferating cell nuclear antigen (PCNA) and cyclins (CYCs). Subsequently, the interaction between PCNA and Cyclin A was confirmed by Co-immunoprecipitation, yeast two-hybrid, and so on. Furthermore, high- and low-temperature stresses induced the expression of PCNA and Cyclin A in varying of degrees, and activated extracellular signal-regulated kinase (ERK) signal pathway. These results suggest, PCNA, Cyclin A, and ERK signal pathway played important roles in the resistance of U. prolifera to temperature stress. Interestingly, high-temperature stress induced an increase of miR-2916 in abundance, and exhibiting reverse expression of PCNA; and PCNA was target gene of miR-2916, suggesting that miR-2916 protected U. prolifera from high-temperature stress via post-transcriptionally regulation of PCNA. This study laid a foundation for understanding the function of PCNA and Cyclin A, moreover, it has a guiding significance to explore the mechanisms of the response to temperature stress from proliferation-related genes regulatory networks in U. prolifera. [ABSTRACT FROM AUTHOR]
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- 2024
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28. Calculated and Experimental Substantiation of Increasing the Interval between Repairs of the SGT5-2000E Gas Turbine Cooled Blades.
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Radin, Yu. A., Lenev, S. N., Pikhlakas, A. P., and Lyubimov, A. A.
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The article presents substantiation of the possibility to extend the operation of the SGT5-2000E series gas turbine units beyond the period specified by the manufacturer after which the "hot" parts and, primarily, the cooled nozzle vanes and rotor blades of the turbine's first stages should be replaced. Each gas turbine unit is provided, along with the operation manual, with a maintenance program proceeding from the assigned fleet service life, in accordance with which the time of operation with one set of cooled blades of the turbine's first stages is determined. A gas turbine cannot operate reliably unless its worn "hot parts" are checked and, if necessary, are subjected to restorative repair. As a rule, this can be done in the course of appropriately long outages (e.g., minor inspections, overhauls, and hot gas path visual examinations). All time-dependent wear coefficients are calculated simultaneously, and the calculation result is expressed in equivalent hours of operation (equiv. h), which vary depending on the pattern and number of working cycles, operational mode, used fuel, and water injection availability. A service life reduction is determined and expressed as an equivalent number of operation at the base load. The total number of equivalent hours of operation is the sum of hours calculated under the specific operation conditions. The article presents scientifically substantiated recommendations for a limited extension of the interval between maintenances obtained from mathematical modeling of the wear processes of cooled nozzle vanes and rotor blades in the first stages, and from an analysis of a change in the longevity characteristics of the alloy they are made of. [ABSTRACT FROM AUTHOR]
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- 2024
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29. Effect of eyestalk ablation and water temperature on the gonadal transcriptome of greasyback shrimp (Metapenaeus ensis)
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Xinhe Ruan, Huitao Cheng, Jinhong Shan, Lihua Li, Zijie Xuan, Kaishan Liang, Xianze Jia, Jie Yu, Zongyang Li, Liyuan Luo, Xiaoling Zuo, Kun Wu, Qing Wang, Xiaobo Wen, and Huihong Zhao
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Metapenaeus ensis ,Transcriptome analysis ,Gonadal development ,Eyestalk ablation ,Temperature stress ,Aquaculture. Fisheries. Angling ,SH1-691 - Abstract
Metapenaeus ensis (De Haan 1850), a commercially viable species in China, has yet to be studied in depth, particularly with regard to gonadal development. Understanding the dynamics of gonadal development is crucial for the successful culture of this shrimp. To this end, we conducted a comparative analysis of the gonadal transcriptomes of M. ensis using Illumina RNA-seq technology. Our study aimed to identify gonad-related genes by comparing gonadal transcriptomes after two key methods of stimulating gonadal development in females and males: eyestalk ablation and temperature stress. A total of 54,425 unigenes were obtained after assembly and annotated in the database, yielding 25,715 unigenes. Differentially expressed gene (DEG) analysis was performed on male and female gonads post-eyestalk ablation gonads and post-temperature stress and compared to controls. The DEGs showed functional enrichment in KEGG pathways related to DNA replication, starch and sucrose metabolism, and mitochondrial autophagy. A total of 17 DEGs known to be associated with gonadal development were searched in the transcriptome of M. ensis. Female-specific DEGs, including VG, VGR, AK, PGFS, CYP49A1, SRM, and PGES2, and male-biased DEGs, including IGF1R, SPATA20, DMRT1, INSR, SPATA2, SPATA13, GNRHR, MPRS-γ, SMOX, and FOXJ2–3, were identified. This study also demonstrated the capacity to regulate the expression of CHH and SPATA13 following eyestalk ablation, as well as the capacity to regulate the expression of HSP70 and MIH following temperature stress, subsequently impacting gonadal development. These results highlight the genes involved in gonadal development, which will enhance our understanding in further studies on the reproduction and breeding of M. ensis and other marine crustacea.
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- 2024
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30. Editorial: The influence of environmental conditions on chloroplast functioning and development
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Małgorzata Adamiec, Małgorzata Pietrowska-Borek, and Robert Luciński
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light stress ,osmotic stress ,water stress ,temperature stress ,nutrient availability ,chloroplast ,Plant culture ,SB1-1110 - Published
- 2024
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31. Dietary seaweed extract mitigates oxidative stress in Nile tilapia by modulating inflammatory response and gut microbiota
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Muhammad A. B. Siddik, Prue Francis, Md Javed Foysal, and David S. Francis
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Gracilaria tenuistipitata ,phenolic and flavonoid compounds ,adipocyte tissue ,temperature stress ,RBC abnormality ,tight junction protein ,Immunologic diseases. Allergy ,RC581-607 - Abstract
IntroductionExtreme water temperature affects the well-being of all aquatic animals, including fish. Higher temperatures can lead to the generation of reactive oxygen species (ROS), which can induce oxidative stress and negatively impact fish health and well-being. This study investigated the protective effects of seaweed extract on growth, antioxidant status, inflammatory responses, and gut microbiota to gain a better understanding of the acclimatization ability of Nile tilapia, Oreochromis niloticus in response to oxidative stress caused by high water temperatures.MethodsRed-seaweed, Gracilaria tenuistipitata rich in polyphenols (i.e., total phenolics and flavonoids content) was considered for the preparation of the Gracilaria extract (GE) for the study. Nile tilapia were fed the GE supplemented diet along with a control diet for 42 days, followed by 14 days of temperature ramping at a rate of 1°C every two days to the desired target (35°C) and 14 days of holding at 32°C for acclimatation.ResultsNile tilapia fed the GE had a significantly higher growth performance attributed to increased muscle fiber size compared to control (p < 0.05) after the 70 days of feeding trial. Fish fed the GE diet also showed a significantly lower lipid peroxidation by decreased malondialdehyde level when compared to control (p < 0.05). Furthermore, GE diet exhibited increased red blood cell counts with the decreased number of cellular and nuclear abnormalities. The gene expression of tight junction (i.e., occludin, claudin1, ZO-1) and nrf2 (antioxidant biomarker) were upregulated, while hsp70 (related to stress response) was downregulated in fish fed the GE diet. Additionally, GE supplementation led to an increase in bacterial diversity and the abundance of phylum Firmicutes, order Lactobacillales, and genera Sphingobacterium and Prevotella in the distal gut of Nile tilapia, which are mostly considered as beneficial for fish.ConclusionThe findings suggest that GE has the potential to be used as a dietary supplement to improve health, particularly as a stress-resistant supplement in the diet for Nile tilapia. This study may help make more informed decisions for tailoring the nutrient requirements of fish in the face of climate warming.
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- 2024
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32. Comparative transcriptome analysis of low- and high-latitude populations of Charybdis japonica under temperature stress
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Shaolei Sun, Zhiqi He, Feijun Zhang, and Zhiqiang Han
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Charybdis japonica ,temperature stress ,Illumina sequencing ,gene expression level ,adaption ,Science ,General. Including nature conservation, geographical distribution ,QH1-199.5 - Abstract
Global climate change has caused rapid temperature changes in marine environments. Understanding how marine organisms respond to temperature changes can help predict their richness of future biodiversity. In this study, we examined the gene expression levels and the difference in the pathways that are responsive to acute temperature stress in low- and high-latitude populations of the shore swimming crab, Charybdis japonica. The two populations of C. japonica were exposed to low- and high-temperature stresses (15°C and 28°C) and used for transcriptome sequencing. Genetic regulatory ability changes were compared to determine the diverse response of the two crab populations to temperature change. The gene expression levels and functional enrichment analysis showed that the low-latitude crab regulated more genes (938) that were mainly enriched in DNA replication and metabolic pathways, whereas the high-latitude crab regulated less genes (309) that were mainly enriched in genetic information processing at low-temperature stress. Furthermore, the low-latitude crab regulated less genes (33) that were mainly enriched in genetic information processing, whereas the high-latitude crab regulated more genes (280) that were mainly enriched in signal transduction and cellular process at high-temperature stress. These results implied that the low-latitude population was more resilient to high-temperature stress, while the high-latitude population was more resilient to low-temperature stress. This study enhances our understanding of how different geographic C. japonica populations respond to varying temperature environments in their living zone, which could be helpful for predicting future biodiversity trends of intertidal crustaceans under global climate change.
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- 2024
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33. Simultaneous Effects of Food-related Stresses on the Antibiotic Resistance of Foodborne Salmonella Serotypes
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Ata Kaboudari, Javad Aliakbarlu, and Tooraj Mehdizadeh
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Antibiotic resistance ,Thermal tolerance ,Temperature stress ,Osmotic pressure ,Food processing and manufacture ,TP368-456 ,Nutrition. Foods and food supply ,TX341-641 - Abstract
Antibiotic resistance has become one of the most critical issues in the field of public health in recent years. Exposure to food environment stresses may result in the development of antibiotic resistance in Salmonella. The present study aimed to investigate the simultaneous effects of food-related stresses (osmotic pressure, acid, heat, cold, and freezing stresses) on the antibiotic resistance changes in Salmonella Enteritidis and Salmonella Typhimurium. A factorial design with five factors at two levels was used to evaluate the main and interactive effects of stress factors on the antibiotic resistance of Salmonella serotypes. The changes in the antibiotic resistance of Salmonella serotypes were evaluated using the disc diffusion assay. The results showed that the different stresses had different effects on the antibiotic resistance of Salmonella serotypes. The freezing time and osmotic stresses had the most significant effects on the antibiotic resistance (P
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- 2024
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34. Editorial: The influence of environmental conditions on chloroplast functioning and development.
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Adamiec, Małgorzata, Pietrowska-Borek, Małgorzata, and Luciński, Robert
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- 2024
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35. Climate Change Impact on Rice Production and Breeding for Climate Resilient Rice
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Suresh, Ramalingam, Shanmugam, Aravindan, Viswabharathy, Sakthivel, Antony, J. Bonipas, Samuthirapandi, Subburaj, Manonmani, Swaminathan, Singh, Akansha, editor, Singh, Shravan Kumar, editor, and Shrestha, Jiban, editor
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- 2024
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36. Nanotechnology-Enabled Approaches to Mitigating Abiotic Stresses in Agricultural Crops
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Ali, Liaqat, Manzoor, Natasha, Masood, Hafiza Ayesha, Abbas, Aown, Shahid, Muhammad, editor, and Gaur, Rajarshi, editor
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- 2024
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37. Mustard Yield Forecast Using Radiation Use Efficiency Method
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Shweta, Rai, Praveen Kumar, Pandey, Ranju Joshi, Himiyama, Yukio, Series Editor, Anand, Subhash, Series Editor, Tripathi, Gaurav, editor, Shakya, Achala, editor, Kanga, Shruti, editor, Singh, Suraj Kumar, editor, and Rai, Praveen Kumar, editor
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- 2024
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38. First Report of Diplodia sapinea P. Karst. on Pinus sylvestris L. in Central Siberia
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Litovka, Y. A., Poznukhova, S. S., Fomina, N. V., Timofeev, A. A., and Pavlov, I. N.
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- 2024
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39. Ambient temperature-related sex ratio at birth in historical urban populations: the example of the city of Poznań, 1848–1900
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Grażyna Liczbińska, Szymon Antosik, Marek Brabec, and Arkadiusz M. Tomczyk
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Secondary sex ratio ,Conception ,Pregnancy ,Temperature stress ,Climate ,Nineteenth century ,Medicine ,Science - Abstract
Abstract This study examines whether exposure to ambient temperature in nineteenth-century urban space affected the ratio of boys to girls at birth. Furthermore, we investigate the details of temperature effects timing upon sex ratio at birth. The research included 66,009 individual births, aggregated in subsequent months of births for the years 1847–1900, i.e. 33,922 boys and 32,087 girls. The statistical modelling of the probability of a girl being born is based on logistic GAM with penalized splines and automatically selected complexity. Our research emphasizes the significant effect of temperature in the year of conception: the higher the temperature was, the smaller probability of a girl being born was observed. There were also several significant temperature lags before conception and during pregnancy. Our findings indicate that in the past, ambient temperature, similar to psychological stress, hunger, malnutrition, and social and economic factors, influenced the viability of a foetus. Research on the effects of climate on the sex ratio in historical populations may allow for a better understanding of the relationship between environmental factors and reproduction, especially concerning historical populations since due to some cultural limitations, they were more prone to stronger environmental stressors than currently.
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- 2024
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40. A study on the reliability of relay protection devices considering dynamic changes in temperature stress
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GONG Jie, XU Xidong, YANG Jianyou, and FANG Yudong
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relay protection device ,reliability ,temperature stress ,normal distribution ,arrhenius model ,weibull model ,Electrical engineering. Electronics. Nuclear engineering ,TK1-9971 - Abstract
Relay protection devices contain numerous electronic components, and environmental factors such as temperature, humidity, and vibration can impact their reliability. Addressing the complex dynamic changes in temperature stress experienced by protection devices installed in switchgear during operation, this study considers environmental temperature as a random variable following a normal distribution. Based on the Arrhenius model and the Weibull model, conditional probability density functions along with probability density functions of temperature stress distribution are used to derive the overall probability density function, reliability function, and failure rate function of protection devices. Through numerical computation, the study assesses the impact of changes in temperature mean and variance parameters on the reliability of protection devices, providing a theoretical basis for reliability research on relay protection devices during field operation.
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- 2024
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41. Lag effects of vegetation of temperature stress on and its ecological risk assessment.
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Chenxing Fu, Hongke Hao, Te Li, Yuxin Li, and Fang Yang
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ECOLOGICAL risk assessment ,NORMALIZED difference vegetation index ,TEMPERATURE effect ,RESIDUAL stresses ,LOW temperatures - Abstract
Extreme high and low temperatures both exert impacts on terrestrial ecosystems. However, current research still lacks a precise assessment of the risk of vegetation loss under simultaneous consideration of different temperature stresses and lag effects. To this end, we propose a methodology for assessing the risk of vegetation loss under temperature stress that incorporates lag effects, based on weekly normalized difference vegetation index and temperature data. Quantified risk probabilities of different terrestrial ecosystems to warming and cooling stresses in Heilongjiang Province, China. The results of the study revealed a strong association between vegetation and temperature change during the growing season, reaching the most sensitive state around 9 weeks and 23 weeks lag, respectively, with high spatial consistency. The study identifies the eastern and western edges of the study area as high-risk zones for vegetation loss, while the risk is comparatively lower in the northwestern and central regions. The probability of risk increased by about 0.5% for every 1°C of warming in average temperatures and by about 0.7% for every 1°C of cooling. This indicates that cooling has a greater impact on vegetation than warming. Farmland ecosystems had a higher change in risk to temperature stress and forest ecosystems had the least. This study provides new perspectives for understanding the specific impacts of temperature extremes on different ecosystems and provides a scientific basis for developing adaptive management measures. [ABSTRACT FROM AUTHOR]
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- 2024
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42. Improving chilling tolerance of peanut seedlings by enhancing antioxidant‐modulated ROS scavenging ability, alleviating photosynthetic inhibition, and mobilizing nutrient absorption.
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Dong, J., Zhang, H., Ai, X., Dong, Q., Shi, X., Zhao, X., Zhong, C., and Yu, H.
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PEANUTS , *SEEDLINGS , *PLANT adaptation , *ABSORPTION , *LOW temperatures , *CLIMATE change - Abstract
Peanut production is threatened by climate change. Damage to seedlings from low temperatures in early spring can limit yield. Plant adaptations to chilling stress remain unclear in peanut seedlings. It is essential to understand how peanut acquires chilling tolerance.We evaluated effects of chilling stress on growth and recovery of peanut seedlings. We compared and analysed biological characteristics, antioxidants, photosynthesis, biochemical and physiological responses, and nutrient absorption at varying levels of chilling.Compared with chilling‐sensitive FH18, the reduced impact of chilling stress on chilling‐tolerant NH5 was associated with reduced ROS accumulation, higher ascorbate peroxidase activity and soluble sugar content, lower soluble protein content, and smaller reductions in nutrient content during stress. After removal of chilling stress, FH18 had significant accumulation of O2•− and H2O2, which decreased photosynthesis, nutrient absorption, and transport. ROS‐scavenging reduced damage from chilling stress, allowed remobilization of nutrients, improved chilling tolerance, and restored plant functioning after chilling stress removal.These findings provide a reference for targeted research on peanut seedling tolerance to chilling and lay the foundation for bioinformatics‐based research on peanut chilling tolerance mechanisms. [ABSTRACT FROM AUTHOR]
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- 2024
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43. Regulation of Plant Responses to Temperature Stress: A Key Factor in Food Security and for Mitigating Effects of Climate Change.
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Lee, Ziwei, Lim, Jie Ann, Harikrishna, Jennifer Ann, Islam, Tofazzal, Abd Rahim, Muhamad Hafiz, and Yaacob, Jamilah Syafawati
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FOOD security , *FOOD supply , *FOOD prices , *CLIMATE change , *CROP improvement , *FOOD crops - Abstract
Among the many threats to food security, extremes of temperature, and unpredictable changes in temperature such as unseasonal frost or snowfall resulting from climate change have significant impacts on crop productivity and yields. It has been projected that for each increase by 1 °C of the global temperature, agricultural outputs of some staple food crops will decline by up to 3–8%. Alarmingly, reports from the National Aeronautics and Space Administration (NASA) and National Oceanic and Atmospheric Administration (NOAA) have revealed that our earth experienced one of the warmest summers in 2022, indicating that temperature stress is not a threat that can be taken lightly. Global food prices have risen by more than 70% since the middle of 2020, however, the UN Food and Agriculture Organization (FAO) projects that by 2027, the combined effects of climate change, conflict and poverty may lead to an additional rise in food prices by 8.5%. Taken together, the impacts of extreme temperatures on staple food supply amplify the risks of child malnutrition and food insecurity, especially in less-developed countries. This review offers a novel perspective on the intricate interplay between plant responses to heat and cold stresses, aiming to pave the way for innovative and efficient crop improvement programs crucial for ensuring a resilient and sustainable food supply in the face of climate change. A thorough and comprehensive understanding on plant mechanisms can effectively help agricultural industry to produce stress-resilient and climate-tolerant crops. Also, with the assistance from robust breeding techniques and genetic tools, the goal to achieve sustainable food supply chain can be attained. [ABSTRACT FROM AUTHOR]
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- 2024
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44. Rice stem lodging properties and bending modeling under the influence of circadian temperature difference.
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Bangzhui Wang, Zhong Tang, Liyun Lao, Guoqiang Wang, Tiantian Jing, and Yao Yu
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CIRCADIAN rhythms , *RICE , *BEND testing , *TEMPERATURE , *MECHANICAL models , *MODULUS of elasticity , *REGRESSION analysis - Abstract
Under diurnal temperature stress, the vascular bundle content of mature rice stems will change which will cause a change in the modulus of elasticity. Therefore, the rice stems will collapse with the reduction in bending resistance because of the change in the modulus of elasticity. In order to reveal the distribution of vascular bundle gradients in rice stems under different climatic temperatures and explore the locations where stems are prone to bending and the form of stem damage, this study established a model of stem stiffness under free loading based on observing microstructure of the rice. The lodging characteristics of rice stems was explored seldom in different environmental temperatures from a micro structure of rice stems. So, the statistical analysis and t-tests were carried out on stems 1 to 4 in combination for cantilever bending tests at room temperature on stem internodes 3, versus three-point bending tests at -10°C to 65°C temperature treatment. Results showed that the bending resistance of the stem can be well predicted by using the vascular bundle distribution regression model and the variable stiffness mechanical model. The bending resistance of No. 3 stem was established by using the results obtained from the three-point bending test in a temperature range between 10°C-65°C. The correction coefficient TF of stem bending resistance under temperature difference induced stress was established based on the Gauss regression model. Statistical analysis showed that the bending resistance of No.3 stem was relatively large in a temperature range of 16°C-34°C. This study elucidated the variations of the mechanical properties of rice stems under temperature difference induced stress and provided a theoretical foundation for understanding the lodging characteristics of rice during mechanized harvesting. [ABSTRACT FROM AUTHOR]
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- 2024
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45. 考虑应力路径的深埋高地温隧洞黏弹塑性围岩解析解.
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王家辉, 姜海波, and 喻天龙
- Abstract
In the viscoelastic-plastic rock mass of the hydraulic tunnel buried deep in high ground temperature, due to the influence of high temperature environment and tunnel cooling, certain temperature stress is generated in the surrounding rock. Therefore, when studying the analytical solution of surrounding rock of high geothermal tunnel, it is necessary to study the influence of temperature stress on the plastic zone and stress strain of the surrounding rock. Based on the mechanical model of viscoelastic-plastic surrounding rock of high-geothermal deep-buried hydraulic tunnel composed of generalized Kelvin model and Bingham model, and considering the influence of stress path on surrounding rock and support, combined with the influence of temperature stress on surrounding rock and lining in high-geothermal environment, the analytical solutions of stress, strain, cave wall displacement and radius of plastic zone radius of surrounding rock under the thermodynamic coupling of high-geothermal environment were derived. Based on the analysis and calculation of a highland temperature hydraulic tunnel project in Xinjiang, the relationship between temperature, stress strain and plastic zone radius of surrounding rock was theoretically calculated and analyzed. The results show that the displacement of the surrounding rock calculated after considering the temperature stress is smaller. When the temperature change in the tunnel reaches a certain amount, the resulting temperature stress may affect the stability of the surrounding rock interaction with the lining. [ABSTRACT FROM AUTHOR]
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- 2024
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46. Differential Mitochondrial Genome Expression of Four Hylid Frog Species under Low-Temperature Stress and Its Relationship with Amphibian Temperature Adaptation.
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Hong, Yue-Huan, Yuan, Ya-Ni, Li, Ke, Storey, Kenneth B., Zhang, Jia-Yong, Zhang, Shu-Sheng, and Yu, Dan-Na
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- *
MITOCHONDRIAL DNA , *HYLIDAE , *GENE expression , *BIOLOGICAL extinction , *BODY temperature regulation , *EXTREME weather , *COLD adaptation , *PHYLOGEOGRAPHY - Abstract
Extreme weather poses huge challenges for animals that must adapt to wide variations in environmental temperature and, in many cases, it can lead to the local extirpation of populations or even the extinction of an entire species. Previous studies have found that one element of amphibian adaptation to environmental stress involves changes in mitochondrial gene expression at low temperatures. However, to date, comparative studies of gene expression in organisms living at extreme temperatures have focused mainly on nuclear genes. This study sequenced the complete mitochondrial genomes of five Asian hylid frog species: Dryophytes japonicus, D. immaculata, Hyla annectans, H. chinensis and H. zhaopingensis. It compared the phylogenetic relationships within the Hylidae family and explored the association between mitochondrial gene expression and evolutionary adaptations to cold stress. The present results showed that in D. immaculata, transcript levels of 12 out of 13 mitochondria genes were significantly reduced under cold exposure (p < 0.05); hence, we put forward the conjecture that D. immaculata adapts by entering a hibernation state at low temperature. In H. annectans, the transcripts of 10 genes (ND1, ND2, ND3, ND4, ND4L, ND5, ND6, COX1, COX2 and ATP8) were significantly reduced in response to cold exposure, and five mitochondrial genes in H. chinensis (ND1, ND2, ND3, ND4L and ATP6) also showed significantly reduced expression and transcript levels under cold conditions. By contrast, transcript levels of ND2 and ATP6 in H. zhaopingensis were significantly increased at low temperatures, possibly related to the narrow distribution of this species primarily at low latitudes. Indeed, H. zhaopingensis has little ability to adapt to low temperature (4 °C), or maybe to enter into hibernation, and it shows metabolic disorder in the cold. The present study demonstrates that the regulatory trend of mitochondrial gene expression in amphibians is correlated with their ability to adapt to variable climates in extreme environments. These results can predict which species are more likely to undergo extirpation or extinction with climate change and, thereby, provide new ideas for the study of species extinction in highly variable winter climates. [ABSTRACT FROM AUTHOR]
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- 2024
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47. 市政埋地供水管网抗寒潮服务可靠度分析.
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梁建文, 赵雅坤, and 肖笛
- Abstract
A method of cold-wave resistance serviceability analysis of the buried municipal water distribution system is proposed. Considering the influence of cold-wave temperature change on the temperature stress of water pipeline and the frozen stress of the soil around the pipeline, the water distribution system model with pipeline joint leakage is established, and the first-order second-moment method is used to calculate the cold-wave resistance serviceability of the water distribution system. Taking one water distribution system as an example, the serviceability of the water distribution system under the blue, yellow, orange and red cold-wave warning is presented respectively. The study shows that, the cold-wave temperature change has a significant impact on the serviceability of buried municipal water distribution system, and code-wave intensity, pipeline joint, and network topology are important factors affecting the serviceability of buried municipal water distribution system. The study may have certain reference value for the hazard resistance design of buried municipal water distribution system. [ABSTRACT FROM AUTHOR]
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- 2024
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48. Temperature stress (cold and heat) strongly affect the phytotoxicity of polycyclic aromatic hydrocarbon (phenanthrene) to wheat.
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Suszek‐Łopatka, Beata, Maliszewska‐Kordybach, Barbara, Klimkowicz‐Pawlas, Agnieszka, and Smreczak, Bożena
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POLYCYCLIC aromatic hydrocarbons ,PHENANTHRENE ,PHYTOTOXICITY ,COLD (Temperature) ,SOIL degradation - Abstract
Anthropogenic activity could create different threats leading to irreversible changes in the global environment and, as a consequence, posing varied stressful conditions acting together (combined stress) on organisms. Our research concerned the combined stress of two of the main threats to soil health and plant health: temperature stress and pollution. The aim of this research was the quantitative assessment of the impact of temperature stress on the phytotoxicity of PAHs (polycyclic aromatic hydrocarbons; specifically, phenanthrene, which is a widespread, harmful organic contamination of soil) on the growth of wheat seedlings in relation to the level of soil contamination by phenanthrene (0–1000 mg kg−1 dry mass of soil) and the type of temperature stress: cold (10°C) and heat (35°C) stress, in three different soils. Earlier studies have investigated the effect of temperature stress on PAH toxicity mainly on soil invertebrates. However, the impact of temperature stress on PAH phytotoxicity towards crop plants, which are important for human food security but could be affected by chemical soil degradation, is still poorly understood. Our results indicated that the phenanthrene phytotoxicity was significantly enhanced by cold stress and heat stress. The effects of cold and heat temperature stress increased with increasing phenanthrene level. Our research is important for improving the risk assessment of PAH and food security forecasting. [ABSTRACT FROM AUTHOR]
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- 2024
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49. 考虑温度应力动态变化的继电保护装置可靠性研究.
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龚 杰, 徐习东, 杨剑友, and 方愉冬
- Abstract
Copyright of Zhejiang Electric Power is the property of Zhejiang Electric Power Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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- 2024
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50. Adjustments of the Phytochemical Profile of Broccoli to Low and High Growing Temperatures: Implications for the Bioactivity of Its Extracts.
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Šola, Ivana, Gmižić, Daria, Pinterić, Marija, Tot, Ana, and Ludwig-Müller, Jutta
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BROCCOLI , *HIGH temperatures , *COLE crops , *LIPASES , *LIVER cells , *FERULIC acid , *NUTRITIONAL value - Abstract
Climate change causes shifts in temperature patterns, and plants adapt their chemical content in order to survive. We compared the effect of low (LT) and high (HT) growing temperatures on the phytochemical content of broccoli (Brassica oleracea L. convar. botrytis (L.) Alef. var. cymosa Duch.) microgreens and the bioactivity of their extracts. Using different spectrophotometric, LC-MS/MS, GC-MS, and statistical methods, we found that LT increased the total phenolics and tannins in broccoli. The total glucosinolates were also increased by LT; however, they were decreased by HT. Soluble sugars, known osmoprotectants, were increased by both types of stress, considerably more by HT than LT, suggesting that HT causes a more intense osmotic imbalance. Both temperatures were detrimental for chlorophyll, with HT being more impactful than LT. HT increased hormone indole-3-acetic acid, implying an important role in broccoli's defense. Ferulic and sinapic acid showed a trade-off scheme: HT increased ferulic while LT increased sinapic acid. Both stresses decreased the potential of broccoli to act against H2O2 damage in mouse embryonal fibroblasts (MEF), human keratinocytes, and liver cancer cells. Among the tested cell types treated by H2O2, the most significant reduction in ROS (36.61%) was recorded in MEF cells treated with RT extracts. The potential of broccoli extracts to inhibit α-amylase increased following both temperature stresses; however, the inhibition of pancreatic lipase was increased by LT only. From the perspective of nutritional value, and based on the obtained results, we conclude that LT conditions result in more nutritious broccoli microgreens than HT. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
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