Editorial: Surviving and thriving: how crops perceive and respond to temperature stress

Frontiers in Plant Science, Год журнала: 2025, Номер 15

Опубликована: Янв. 10, 2025

revealed 12, 6, and 6 BRX candidate genes in Gossypium hirsutum, G. raimondii arboreum, respectively (Wei et al., 2024). Chromosomal localization collinearity analysis suggest that segmental duplications were the primary driver of gene amplification. Silencing abioticstress responsive GhBRX.1, GhBRX.2, GhBRXL4.3 further confirmed their pivotal roles plant tolerance to salt low-temperature stress, extending function beyond root shoot growth (Beuchat 2010).Plant-specific TIFY transcription factors (TFs), characterized by a conserved domain, are known regulate growth, development, stress (Vanholme 2007). In this issue, Wang al. identified 16 family dispersed across seven subgroups pepper (Capsicum annuum L.). particular, CaTIFY7 CaTIFY10b highly induced leaves during cold stress. Knockdown compromised tolerance, while overexpression enhanced it, influencing many cold-responsive reactive oxygen species (ROS)-related (Wang 2023).Ding al investigated impact five physiologically relevant day/night temperature regimes two thermotolerant thermosensitive genotypes (Ding A comprehensive evaluation physiological, biochemical, genetic analyses 35/27°C (T4) was optimal regime for yield study system. At temperature, plants showed photosynthesis, antioxidant activity, upregulation key heat stress-responsive genes.Singh ( 2024) performed multi-tissue comparative transcriptomic distinct genotype (tolerant vs sensitive)-and tissue (root leaf)-specific heat-responsive expression. Enrichment shock proteins (HSPs), ROS scavenging, diverse TF families, secondary metabolism pathways observed. Interestingly, foxtail millet shared high degree with pearl specific HSP genes, compared other cereal grains (Singh 2024).Fábián used cutting-edge histochemical methods compare responses heat-tolerant heat-sensitive wheat cultivars male meiosis. Their structural temporal alterations meiocytes tapetal cells transcriptional triggered meiosis-timed Notably, heattolerant cultivar maintained cytoskeletal integrity upregulated involved response meiosis, whereas displayed disruption, impaired meiotic division, aberrant tapetum development (Fábián 2024).Growth-regulating (GRFs) plant-specific including regulation under conditions (Omidbakhshfard 2015). 12 GRF potatoes (Cui systematic StGRF promoter regions numerous cis-acting elements associated abiotic hormone responses. Transcriptomic data supported tissuespecific expression (e.g. stamens, roots, young tubers) differential StGRFs abiotic/biotic Phytophthora infestans infection) treatment.In plants, mitogen-activated protein kinase (MAPK) modules (MAPKKK-MAPKK-MAPK) activated various environmental cues, triggering cascade cellular signaling events (Bigeard Hirt, 2018;Manna 2023) special topic, Zhu (2023b); (2024b) screened MAPK MAPKK potato (Solanum tuberosum) cultivated mild (30°C) and/or acute (35°C) conditions, revealing StMAPK1 StMAPKK5 exhibited sustained profiles. Overexpression modified photosynthesis preserves membrane stability inducing (StHSP90, StHSP70, StHSP20, StHSFA3) regulating multiple redox balance turgor maintenance pathways. Similarly, overexpression/silencing significantly affected both morphological (plant weight/height) physiological (photosynthesis, transpiration) traits modulating enzyme biochemical defenses.Plant GATA (TFs) developmental processes organ photomorphogenesis, chlorophyll biosynthesis, stomata formation), however, role remains relatively unexplored (Schwechheimer 2022). (2023a) over 50 factor (TF) found StGATA2 among few exhibiting strong prolonged induction. deeper understanding autophagy-related (ATG) also gained issue (Zhu 2024a). phylogenetic relationships, chromosome distribution, structure, interspecific collinearity, organ-(e.g. leaf, flower, stem, root, stolon, petiole, tuber) stress-(i.e. heat) on six putative ATG18 subfamily members genome. StATG18a emerged be several organs. StGATA2and StATG18a-overexpression elicited comparable phenotypic, atypical transgenic lines overexpressing 2023a;Zhu 2024a) .

Язык: Английский

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Selection of suitable reference lncRNAs for gene expression analysis in Osmanthus fragrans under abiotic stresses, hormone treatments, and metal ion treatments

Frontiers in Plant Science, Год журнала: 2025, Номер 15

Опубликована: Янв. 21, 2025

Intoduction Osmanthus fragrans , a well-regarded traditional flower in China, holds extensive applications gardening, food, cosmetics, and Chinese medicine. Despite its importance, research on long non-coding RNAs (lncRNAs) O. has been constrained by the absence of reliable reference genes (RGs). Methods We employed five distinct algorithms, i.e., delta-Ct, NormFinder, geNorm, BestKeeper, RefFinder, to evaluate expression stability 17 candidate RGs across various experimental conditions. Results discussion The results indicated most stable RG combinations under different conditions as follows: cold stress: lnc00249739 lnc00042194; drought lnc00042194 lnc00174850; salt lnc00239991 abiotic lnc00239991, lnc00042194, lnc00067193, lnc00265419; ABA treatment: 18S ; MeJA lnc00265419 lnc00249739; ethephon lnc00229717 lnc00044331; hormone treatments: lnc00239991; Al 3+ lnc00087780 Cu 2+ lnc00067193 Fe ACT7 metal ion lnc00067193; flowering stage: RAN1 tissues: TUA5 UBQ4 all samples: . reliability these selected was further validated analyzing patterns lnc00003036, lnc00126603, lnc00250780. This study represents first comprehensive evaluation lncRNA significantly enhancing accuracy depth analyses this species, contributing advancements plant stress resistance breeding improving environmental adaptability.

Язык: Английский

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ncRNAs in plant development and stress responses

Plant Physiology and Biochemistry, Год журнала: 2024, Номер 214, С. 108950 - 108950

Опубликована: Июль 18, 2024

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Exploring the critical role of non-coding RNAs in plant development and stress adaptation-current status and insights

Progress in molecular biology and translational science, Год журнала: 2025, Номер unknown

Опубликована: Янв. 1, 2025

Язык: Английский

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PotatoBSLnc: a curated repository of potato long noncoding RNAs in response to biotic stress

Database, Год журнала: 2025, Номер 2025

Опубликована: Янв. 1, 2025

Abstract The biotic stress significantly influences the production of potato (Solanum tuberosum L.) all over world. Long noncoding RNAs (lncRNAs) play key roles in plant response to environmental stressors. However, their resistance pathogens, insects, and other are still unclear. PotatoBSLnc is a database for study lncRNAs major stress. Here, we collected 364 RNA sequencing (RNA-seq) data derived from 12 kinds stresses 26 cultivars wild potatoes. currently contains 18 636 44 263 mRNAs. In addition, select functional mRNAs under different stresses, differential expression analyses Gene Ontology (GO) Kyoto Encyclopedia Genes Genomes (KEGG) related cis/trans-targets differentially expressed (DElncRNAs) (DEmRNAs) were also conducted. five modules: Home, Browse, Expression, Biotic stress, Download. Among these, “Browse” module can be used search detailed information about RNA-seq (disease, cultivator, organ types, treatment samples, others), exon numbers, length, location, sequence each lncRNA/mRNA. “Expression” transcripts per million/raw count value lncRNAs/mRNAs at data. “Biotic stress” shows results DElncRNAs, GO KEGG analysis DEmRNAs, targets DElncRNAs. platform provides researchers with on which speed up breeding resistant varieties based molecular methods. Database URL: https://www.sdklab-biophysics-dzu.net/PotatoBSLnc

Язык: Английский

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Involvement of Toxoplasma gondii natural antisense transcripts in cellular stress responses.

Experimental Parasitology, Год журнала: 2025, Номер unknown, С. 108931 - 108931

Опубликована: Март 1, 2025

Язык: Английский

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Antiabiotic Stress Capacities of Crops Gained by CRISPR/Cas‐Edited Small RNAs

Опубликована: Май 9, 2025

Язык: Английский

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CRISPR/Cas‐Modified Long Noncoding RNAs for Regulating Plant Abiotic Responses

Опубликована: Май 9, 2025

Язык: Английский

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A Brief Overview of the Epigenetic Regulatory Mechanisms in Plants

International Journal of Molecular Sciences, Год журнала: 2025, Номер 26(10), С. 4700 - 4700

Опубликована: Май 14, 2025

Plants continuously adapt to their environments by responding various intrinsic and extrinsic signals. They face numerous biotic abiotic stresses such as extreme temperatures, drought, or pathogens, requiring complex regulatory mechanisms control gene activity proteome for survival. Epigenetic regulation plays a crucial role in these adaptations, potentially leading both heritable non-heritable changes across generations. This process enables plants adjust expression profiles acclimate effectively. It is also vital plant development productivity, affecting growth, yield, seed quality, enabling “remember” environmental stimuli accordingly. Key epigenetic that play significant roles include DNA methylation, histone modification, ubiquitin ligase activity. These processes, which have been extensively studied the last two decades, led better understanding of underlying expanded potential improving agriculturally economically important traits. methylation fundamental regulates altering chromatin structure. The addition methyl groups cytosines methylases leads suppression, whereas demethylases reverse this effect. Histone modifications, on other hand, collectively referred “histone code”, influence structure promoting either transcription silencing. modifications are recognized, added, removed variety enzymes act practically an memory, having impact responses stimuli. Finally, complexes, tag specific histones proteins with ubiquitin, regulation. complexes involved protein degradation regulating cellular activities. intricate interplay between ligases adds complexity our expression, generating branching network interdependent pathways. A deeper helps stressful conditions will provide valuable insights into involved. knowledge could pave way new biotechnological approaches breeding strategies aimed at enhancing crop resilience, sustainable agriculture.

Язык: Английский

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Variability of plant transcriptomic responses under stress acclimation: a review from high throughput studies

Acta Biochimica Polonica, Год журнала: 2024, Номер 71

Опубликована: Окт. 25, 2024

Plant transcriptomes are complex entities shaped spatially and temporally by a multitude of stressors. The aim this review was to summarize the most relevant transcriptomic responses selected abiotic (UV radiation, chemical compounds, drought, suboptimal temperature) biotic (bacteria, fungi, viruses, viroids) stress conditions in variety plant species, including model crops, medicinal plants. Selected basic applicative studies employing RNA-seq from various sequencing platforms single-cell were involved. responsiveness species diversity affected gene families discussed. Under acclimation, respond particularly dynamically. Stress response involved both distinct, but also similar families, depending on tissue, quality dosage stressor. We noted over-representation data for some organs. Studies allow better understanding strategies environmental conditions. Functional analyses reveal stress-affected genes as well acclimatory mechanisms suggest metabolome diversity, among species. Extensive characterization would result development new cultivars that cope with more efficiently. These actions include modern methodological tools, advanced genetic engineering, editing, especially expression proteins

Язык: Английский

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