Your search keyword '"Apel K"' showing total 96 results

1. A Study to Test the Safety and Efficacy of the Drug Larotrectinib for the Treatment of Tumors With NTRK-fusion in Children (SCOUT)

Published

2025

2. Lowering light intensity while extending photoperiod at a constant daily light integral synergistically interacts with warm temperature to enhance leaf expansion and crop yield in lettuce in the absence of far-red light.

Author

Jeong, Sang Jun, Zhen, Shuyang, Zhang, Qianwen, and Niu, Genhua

Abstract

Introduction: Low light intensity and far-red (FR) light act as shade signals to induce specific morphological changes mediated by plant photoreceptors phytochromes (PHYs). Applying FR light or lowering light intensity over a longer photoperiod at a constant daily light integral (DLI) can increase crop yield by enhancing leaf expansion and photon capture. However, PHY activity is also dependent on temperature. We aimed to investigate the interactive effects of FR light, light intensity, photoperiod, and temperature on plant growth and morphology. Methods: Lettuce (Lactuca sativa L.) 'Rex' was grown under three temperatures (20, 24, and 28 °C), each containing six light treatments [two levels of FR light (0 and 20% FR in total photon flux density from 400-800 nm) x three light intensities (150, 200, and 300 μmol m-2 s-1)]. As light intensity increased, photoperiod was reduced (150, 200, and 300 μmol m-2 s-1 with photoperiods of 24 h, 18 h, and 12 h, respectively) to maintain a constant DLI of 13 mol m-2 d-1. Results: Under 0% FR light, the combination of lower light intensity/longer photoperiod and warmer temperature synergistically enhanced leaf expansion and photon capture; however, this interactive effect disappeared under 20% FR light. Stem elongation exhibited an opposite response pattern to leaf expansion; lower light intensity and warm temperature had a synergistic enhancement on stem elongation under 20% FR light, but not under 0% FR light. Shoot dry weight responded to the light and temperature factors similarly to total leaf area. Our results showed that plant biomass accumulation depended primarily on photon capture (r2 = 0.93), rather than single-leaf photosynthetic efficiency. Antioxidant capacity was generally reduced by lower light intensity and FR light, but the reduction could be compensated by warmer temperatures. Discussion: Thus, we concluded that applying lower light intensity over a longer photoperiod, combined with warm temperature, can effectively maximize leaf expansion and crop yield while maintaining nutritional quality in the absence of FR light. However, under strong shade signals composed of FR light, low light intensity, and warm temperature, lettuce prioritizes stem elongation at the expense of leaf expansion, leading to reduced crop yield. [ABSTRACT FROM AUTHOR]

Published

2025

3. Combining genotyping approaches improves resolution for association mapping: a case study in tropical maize under water stress conditions.

Author

de Pontes, Fernanda Carla Ferreira, Machado, Ingrid Pinheiro, Silveira, Maria Valnice de Souza, Lobo, Antônio Lucas Aguiar, Sabadin, Felipe, Fritsche-Neto, Roberto, and DoVale, Júlio César

Subjects

SINGLE nucleotide polymorphisms, GENOME-wide association studies, PHENOTYPES, PLANT breeding, WATER levels

Abstract

Genome-wide Association Studies (GWAS) identify genome variations related to specific phenotypes using Single Nucleotide Polymorphism (SNP) markers. Genotyping platforms like SNP-Array or sequencing-based techniques (GBS) can genotype samples with many SNPs. These approaches may bias tropical maize analyses due to reliance on the temperate line B73 as the reference genome. An alternative is a simulated genome called "Mock," adapted to the population using bioinformatics. Recent studies show SNP-Array, GBS, and Mock yield similar results for population structure, heterotic groups definition, tester selection, and genomic hybrid prediction. However, no studies have examined the results generated by these different genotyping approaches for GWAS. This study aims to test the equivalence among the three genotyping scenarios in identifying significant effect genes in GWAS. To achieve this, maize was used as the model species, where SNP-Array genotyped 360 inbred lines from a public panel via the Affymetrix platform and GBS. The GBS data were used to perform SNP calling using the temperate inbred line B73 as the reference genome (GBS-B73) and a simulated genome "Mock" obtained in-silico (GBS-Mock). The study encompassed four above-ground traits with plants grown under two levels of water supply: well-watered (WW) and water-stressed (WS). In total, 46, 34, and 31 SNP were identified in the SNP-Array, GBS-B73, and GBS-Mock scenarios, respectively, across the two water levels, associated with the evaluated traits following the comparative analysis of each genotyping method individually. Overall, the identified candidate genes varied along the various scenarios but had the same functionality. Regarding SNP-Array and GBS-B73, genes with functional similarity were identified even without coincidence in the physical position of the SNPs. These genes and regions are involved in various processes and responses with applications in plant breeding. In terms of accuracy, the combination of genotyping scenarios compared to those isolated is feasible and recommended, as it increased all traits under both water conditions. In this sense, it is worth highlighting the combination of GBS-B73 and GBS-Mock scenarios, not only due to the increase in the resolution of GWAS results but also the reduction of costs associated with genotyping and the possibility of conducting genomic breeding methods. [ABSTRACT FROM AUTHOR]

Published

2025

4. Could metabolic imaging and artificial intelligence provide a novel path to non-invasive aneuploidy assessments? A certain clinical need.

Author

Horta, Fabrizzio, Sakkas, Denny, Ledger, William, Goldys, Ewa M., and Gilchrist, Robert B.

Subjects

HUMAN embryos, CELL metabolism, ARTIFICIAL intelligence, REPRODUCTIVE technology, GENETIC testing

Abstract

Pre-implantation genetic testing for aneuploidy (PGT-A) via embryo biopsy helps in embryo selection by assessing embryo ploidy. However, clinical practice needs to consider the invasive nature of embryo biopsy, potential mosaicism, and inaccurate representation of the entire embryo. This creates a significant clinical need for improved diagnostic practices that do not harm embryos or raise treatment costs. Consequently, there has been an increasing focus on developing non-invasive technologies to enhance embryo selection. Such innovations include non-invasive PGT-A, artificial intelligence (AI) algorithms, and non-invasive metabolic imaging. The latter measures cellular metabolism through autofluorescence of metabolic cofactors. Notably, hyperspectral microscopy and fluorescence lifetime imaging microscopy (FLIM) have revealed unique metabolic activity signatures in aneuploid embryos and human fibroblasts. These methods have demonstrated high accuracy in distinguishing between euploid and aneuploid embryos. Thus, this review discusses the clinical challenges associated with PGT-A and emphasizes the need for novel solutions such as metabolic imaging. Additionally, it explores how aneuploidy affects cell behaviour and metabolism, offering an opinion perspective on future research directions in this field of research. In this review, we explore the limitations on current genetic testing methods for embryos used in assisted reproductive technologies. We highlight the need for new solutions to address these clinical and technological challenges. Furthermore, we discuss a promising approach, metabolic imaging, which could potentially meet these clinical needs and improve the current issues faced by genetic testing for embryo selection. Image by Fabrizzio Horta. This article belongs to the collection: Frontiers in Reproduction Science – Rising Stars at the Society for Reproductive Biology 2023. [ABSTRACT FROM AUTHOR]

Published

2025

5. Do New Forms of Reading Pay Off? A Meta-Analysis on the Relationship Between Leisure Digital Reading Habits and Text Comprehension.

Author

Altamura, Lidia, Vargas, Cristina, and Salmerón, Ladislao

Subjects

READING comprehension, READING, CONTRAST media, MIDDLE schools, PRIMARY schools, HABIT

Abstract

Previous research has evidenced a strong positive relationship between leisure print reading habits and reading comprehension across the lifespan. The rapid evolution of new forms of leisure digital reading could modify such a relationship. This meta-analysis extends previous research by analyzing the relationship between leisure digital reading habits and reading comprehension. We analyzed 40 effect sizes using multilevel analysis. Data involved 469,564 participants from studies published between 2000 and 2022. The average effect size reflects a small significant effect on reading comprehension (r =.055), which contrasts with the medium size effects found in the literature related to print reading habits and comprehension. This relationship is significantly moderated by the reader's educational stage. At early stages (primary and middle school) negative relationships are observed between leisure digital reading and text comprehension, while at later stages (high school and university) the relationship turns positive. We highlight the different contributions that reading modalities and technological contexts have on our reading comprehension, especially across the lifespan. In sum, leisure digital reading does not seem to pay off in terms of reading comprehension, at least, as much as traditional print reading does. [ABSTRACT FROM AUTHOR]

Published

2025

6. Identification of genes involved in the tomato root response to Globodera rostochiensis parasitism under varied light conditions.

Author

Matuszkiewicz, Mateusz, Święcicka, Magdalena, Koter, Marek D., and Filipecki, Marcin

Abstract

Understanding the intricate interplay between abiotic and biotic stresses is crucial for deciphering plant responses and developing resilient cultivars. Here, we investigate the combined effects of elevated light intensity and nematode infection on tomato seedlings. Chlorophyll fluorescence analysis revealed significant enhancements in PSII quantum yield and photochemical fluorescence quenching under high light conditions. qRT-PCR analysis of stress-related marker genes exhibited differential expression patterns in leaves and roots, indicating robust defense and antioxidant responses. Despite root protection from light, roots showed significant molecular changes, including downregulation of genes associated with oxidative stress and upregulation of genes involved in signaling pathways. Transcriptome analysis uncovered extensive gene expression alterations, with light exerting a dominant influence. Notably, light and nematode response synergistically induced more differentially expressed genes than individual stimuli. Functional categorization of differentially expressed genes upon double stimuli highlighted enrichment in metabolic pathways, biosynthesis of secondary metabolites, and amino acid metabolism, whereas the importance of specific pathogenesis-related pathways decreased. Overall, our study elucidates complex plant responses to combined stresses, emphasizing the importance of integrated approaches for developing stress-resilient crops in the face of changing environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2025

7. Association between oxidative balance scores and peripheral artery disease in US adults: a cross-sectional study.

Author

Zhou, Min, He, Peng-Fei, Zhang, Keren, Deng, Li-Juan, Wang, Ning, Wang, Gang, Yang, Guang-Yao, and Ju, Shang

Published

2025

8. Arbuscular mycorrhizal fungi and salinity stress mitigation in plants.

Author

Boorboori, Mohammad Reza and Lackóová, Lenka

Subjects

VESICULAR-arbuscular mycorrhizas, SOIL salinity, SALT tolerance in plants, SALT marshes, SOIL structure

Abstract

In recent decades, climate change has caused a decrease in rainfall, increasing sea levels, temperatures rising, and as a result, an expansion in salt marshes across the globe. An increase in water and soil salinity has led to a decline in the cultivated areas in different areas, and consequently, a substantial decrease in crop production. Therefore, it has forced scientists to find cheap, effective and environmentally friendly methods to minimize salinity's impact on crops. One of the best strategies is to use beneficial soil microbes, including arbuscular mycorrhizal fungi, in order to increase plant tolerance to salt. The findings of this review showed that salinity can severely impact the morphological, physiological, and biochemical structures of plants, lowering their productivity. Although plants have natural capabilities to deal with salinity, these capacities are limited depending on plant type, and variety, as well as salinity levels, and other environmental factors. Furthermore, result of the present review indicates that arbuscular mycorrhizal fungi have a significant effect on increasing plant resistance in saline soils by improving the soil structure, as well as stimulating various plant factors including photosynthesis, antioxidant defense system, secondary metabolites, absorption of water and nutrients. [ABSTRACT FROM AUTHOR]

Published

2025

9. Pochonia chlamydosporia synergistically supports systemic plant defense response in Phacelia tanacetifolia against Meloidogyne hapla.

Author

Könker, Jana, Zenker, Sanja, Meierhenrich, Anja, Patel, Anant, and Dietz, Karl-Josef

Subjects

PLANT defenses, FOLIAR diagnosis, NEMATODE-destroying fungi, BIOLOGICAL pest control agents, ROOT-knot nematodes, SOUTHERN root-knot nematode

Abstract

The network of antagonistic, neutral, and synergistic interactions between (micro)organisms has moved into the focus of current research, since in agriculture, this knowledge can help to develop efficient biocontrol strategies. Applying the nematophagous fungus Pochonia chlamydosporia as biocontrol agent to manage the root-knot nematode Meloidogyne hapla is a highly promising strategy. To gain new insight into the systemic response of plants to a plant-parasitic nematode and a nematophagous fungus, Phacelia was inoculated with M. hapla and/or P. chlamydosporia and subjected to transcriptome and metabolome analysis of leaves. While the metabolome proved quite stable except for the early time point of 48 h, comparison of the single P. chlamydosporia with the combined treatment revealed even larger effects after 6 d compared to 48 h, aligning with the later root infestation by P. chlamydosporia compared to M. hapla. Simultaneous exposure to both microorganisms showed a stronger overlap with the single M. hapla treatment than P. chlamydosporia. Changes of transcripts and metabolites were higher in the combined treatment compared to the individual inoculations. The results support the conclusion that P. chlamydosporia induces plant defense in a distinct and beneficial manner if combined with M. hapla although plant defense is partly suppressed by the endophytic growth. The results tentatively suggested that the application of P. chlamydosporia as a biocontrol agent against M. hapla can be more effective by supporting these tritrophic interactions with specific additives, such as phytohormones or amino acids in the formulation. [ABSTRACT FROM AUTHOR]

Published

2025

10. Non-thermal atmospheric plasma treatments enhance the growth, photosynthesis, metabolite accumulation, and nutritional value of geranium (Pelargonium graveolens L'Herit) leaves.

Author

Mohamed, Hussein S., Shehata, Dalia, Mahmoud, Ahmed M., Khalaf, Maha H., Okla, Mohammad K., El-Tayeb, Mohamed A., Alwasel, Yasmeen A., Alaraidh, Ibrahim A., El-Keblawy, Ali, Josko, Izabela, and Sheteiwy, Mohamed S.

Subjects

UNSATURATED fatty acids, ESSENTIAL amino acids, NON-thermal plasmas, FUMARATES, OLEIC acid

Abstract

This study investigated the effects of non-thermal atmospheric plasma (NTAP) treatment on the growth, chemical composition, and biological activity of geranium (Pelargonium graveolens L'Herit) leaves. NTAP was applied at a frequency of 13.56 MHz, exposure time of 15 s, discharge temperature of 25 °C, and power levels (T1 = 50, T2 = 80, and T3 = 120 W). Results demonstrated significant increases (P < 0.05) in fresh and dry biomass at all treatment levels compared to control, with the highest improvements seen in T3. Mineral content (K, P, Ca, Fe, Mg, Zn, and N) was significantly elevated, particularly at T3. Chlorophyll content (a + b and carotenoids) also showed marked increases across all treatments, correlating with enhanced photosynthetic rates. Improved photosynthesis led to enhanced accumulation of primary metabolites, such as amino acids, organic acids, and fatty acids. NTAP treatments, mainly T3, significantly increased levels of essential and non-essential amino acids, oxalic, isobutyric, and fumaric acids. They also enhanced unsaturated fatty acids, such as oleic acid (C18:1), and saturated fatty acids, including myristic (C14:0) and stearic (C18:0). These improvements provided precursors for the synthesis of secondary metabolites, particularly phenolics. The increased phenolic content in turn explained the improved antioxidant capacity observed in Fluorescence Recovery After Photobleaching FRAP, anti-lipid peroxidation, superoxide radical scavenging, and hydroxyl radical scavenging assays, especially at T2 and T3 treatments. Antimicrobial activity was elevated across all treatments, with the T3 treatment notably inhibiting all tested bacterial and fungal strains, particularly Sarcina lutea. In conclusion, NTAP treatment significantly improved growth, biomass, and the phytochemical profile of geranium leaves, enhancing their antioxidant and antimicrobial properties, thereby increasing the potential nutritional and therapeutic value of the plant. [ABSTRACT FROM AUTHOR]

Published

2025

11. Non-linear development in statistical learning of visual orthographic regularities.

Author

Duan, Rujun, Sun, Qi, and Tong, Xiuhong

Subjects

STATISTICAL learning, COGNITIVE psychology, VISUAL learning, LINGUISTICS, ADULTS

Abstract

Statistical learning is a core ability for individuals in extracting and integrating regularities and patterns from linguistic input. Yet, the developmental trajectory of visual statistical learning has not been fully examined in the orthographic learning domain. Employing an artificial orthographic learning task, we manipulated three levels of positional consistency of radicals, i.e., high (100%), moderate (80%), and low (60%), embedded in pseudocharacters to investigate visual statistical learning across a wide age range between 4–12-year-olds and adults. The non-linear power-function models indicated that the rates of improvement in acquiring varying positional consistencies increased with age, particularly for high and moderate levels. Specifically, we observed a significant enhancement in statistical learning abilities between the ages of 4–5 years and 5–6 years, followed by a stabilization of performance after 8–9 years. Our findings support the age-dependent perspective that individuals' visual statistical learning ability improves significantly in early childhood and then decelerates its improvement progressively until adulthood. [ABSTRACT FROM AUTHOR]

Published

2025

12. Peptide hormones in plants.

Author

Zhang, Zhenbiao, Han, Huibin, Zhao, Junxiang, Liu, Zhiwen, Deng, Lei, Wu, Liuji, Niu, Junpeng, Guo, Yongfeng, Wang, Guodong, Gou, Xiaoping, Li, Chao, Li, Chuanyou, and Liu, Chun-Ming

Subjects

PEPTIDE hormones, PLANT hormones, TISSUE differentiation, CELL receptors, CELL communication

Abstract

Peptide hormones are defined as small secreted polypeptide-based intercellular communication signal molecules. Such peptide hormones are encoded by nuclear genes, and often go through proteolytic processing of preproproteins and post-translational modifications. Most peptide hormones are secreted out of the cell to interact with membrane-associated receptors in neighboring cells, and subsequently activate signal transductions, leading to changes in gene expression and cellular responses. Since the discovery of the first plant peptide hormone, systemin, in tomato in 1991, putative peptide hormones have continuously been identified in different plant species, showing their importance in both short- and long-range signal transductions. The roles of peptide hormones are implicated in, but not limited to, processes such as self-incompatibility, pollination, fertilization, embryogenesis, endosperm development, stem cell regulation, plant architecture, tissue differentiation, organogenesis, dehiscence, senescence, plant-pathogen and plant-insect interactions, and stress responses. This article, collectively written by researchers in this field, aims to provide a general overview for the discoveries, functions, chemical natures, transcriptional regulations, and post-translational modifications of peptide hormones in plants. We also updated recent discoveries in receptor kinases underlying the peptide hormone sensing and down-stream signal pathways. Future prospective and challenges will also be discussed at the end of the article. [ABSTRACT FROM AUTHOR]

Published

2025

13. The biological function of Atractylodes lancea and its application in animal husbandry: a review.

Author

Gao, Yang, Wang, Dong, Ma, Xue, Li, Jiahui, Wang, Difei, Chen, Bo, Yang, Xuexi, and Leng, Huan

Subjects

ANIMAL culture, CHINESE medicine, FEED additives, HERBACEOUS plants, HUMIDITY control

Abstract

Atractylodes lancea , is a herbaceous plant of the Asteraceae family which is a traditional Chinese herbal medicine. It is often used for dehumidification, antiemetics, spleen strengthening and antipyretic effects. Atractylodes lancea is rich in various bio-active substances and has many biological functions, for instance anti-inflammatory, antioxidant and antiviral effects. Therefore, it is widely used in animal production, such as relieving heat stress, protecting intestinal health and regulating immunity. In recent years, it has received widespread attention in green cultivation. This article reviews the biological functions of Atractylodes lancea and looks forward to its application prospects in animal husbandry, in order to provide a theoretical basis for Atractylodes lancea to become a new feed additive in animal production. [ABSTRACT FROM AUTHOR]

Published

2025

14. Development of the Grammar Learning Awareness Scale.

Author

Taşdemir, Fazilet, Atalay, Elif, and Ekinci Çelikpazu, Esra

Subjects

COGNITIVE grammar, CRONBACH'S alpha, NATIVE language, INDIVIDUAL development, GRAMMAR

Abstract

This study was conducted in order to develop a measurement tool to determine the awareness of why students learn grammar in their mother tongue. The sample of the research consists of 900 participants who continue their education at different grade levels in 6 high schools in a province in Turkey. As a result of the analysis, it was confirmed that the sub-factors of the scale were the components of the structure called grammar learning awareness and that they formed the determined structure together. The model-data fit indexes of the scale were found to be higher than the values accepted by the literature. Cronbach's Alpha internal consistency coefficient scale's sub-dimensions were 0.76 for "The Contribution of Grammar to Individual Development", 0.76 for "The Contribution of Grammar to Language Skills", 0.76 for "The Contribution of Grammar to Cognitive Functions" and 0.78 for "The Contribution of Grammar to Communication Skills". The internal consistency coefficient for the entire scale was determined as 0.83. The obtained values provided evidence showing that the Grammar Learning Awareness Scale is a valid and reliable measurement tool. It is thought that the contribution of grammar learning awareness to individual development, language skills, cognitive functions and communication skills can be measured by this scale. [ABSTRACT FROM AUTHOR]

Published

2025

15. Prohexadione-Calcium Reduced Stem and Tiller Damage and Maintained Yield by Improving the Photosynthetic and Antioxidant Capacity of Rice (Oryza sativa L.) Under NaCl Stress.

Author

Mei, Wanqi, Yang, Shaoxia, Xiong, Jian, Khan, Aaqil, Zhao, Liming, Du, Xiaole, Huo, Jingxin, Zhou, Hang, Sun, Zhiyuan, Yang, Xiaohui, Yue, Nana, Feng, Naijie, and Zheng, Dianfeng

Subjects

TILLERING (Botany), PROHEXADIONE-calcium, SUPEROXIDE dismutase, PLANT productivity, OXIDANT status

Abstract

Salt stress is a vital environmental stress that severely limits plant growth and productivity. Prohexadione-calcium (Pro-Ca) has been extensively studied to regulate plant growth, development, and stress responses. However, the constructive role of Pro-Ca in alleviating damages and enhancing rice tillers' morph-physiological characteristics under salt stress remains largely unknown. The results showed that Pro-Ca significantly improved Changmaogu's (CMG's) productive tillering rate and the total yield per plant by 17.1% and 59.4%, respectively. At tillering stage, the results showed that Pro-Ca significantly improved the morph-physiological traits, i.e., leaf area, and photosynthetic traits of the rice variety with salt tolerance, under NaCl stress. Pro-Ca significantly increased the seedling index of the main stem and tiller by 10.3% and 20.0%, respectively. Pro-Ca significantly increased the chlorophyll a (chl a), chlorophyll b (chl b) and carotenoid contents by 32.8%, 58.4%, and 33.2%, respectively under NaCl stress. Moreover, Pro-Ca significantly enhanced the net photosynthetic rate (A) by 25.0% and the non-photochemical (NPQ) by 9.0% under NaCl stress. Furthermore, the application of Pro-Ca increased the activities of antioxidant enzymes by 7.5% and 14.7% in superoxide dismutase (SOD), 6.76% and 18.0% in peroxidase (POD), 26.4% and 58.5% in catalase (CAT), 11.0% and 15.9% in ascorbate peroxidase (APX), and Pro-Ca reduced the membrane damage index by 10.8% and 2.19% in malondialdehyde (MDA) content, respectively, for main stem and tiller leaves under NaCl stress. Pro-Ca significantly enhanced the soluble protein content of the main stem and tiller leaves by 2.60% and 6.08%, respectively. The current findings strongly suggested that exogenous application of Pro-Ca effectively alleviated the adverse impact of NaCl stress on the main stem and tillers by enhancing the photosynthetic capacity and antioxidant enzyme activity, and ultimately increased the productive tillering rate and grain yield. [ABSTRACT FROM AUTHOR]

Published

2025

16. Genome-Wide Identification of GmPIF Family and Regulatory Pathway Analysis of GmPIF3g in Different Temperature Environments.

Author

Liang, Xuefeng, Zhao, Caitong, Cui, Jiayang, Liu, Zhihua, Han, Dezhi, Chen, Qingshan, Yang, Mingliang, and Jiang, Zhenfeng

Subjects

TRANSCRIPTION factors, AMINO acid sequence, GENE expression, GENE families, PLANT growth

Abstract

Phytochrome-interacting factors (PIFs) play a crucial role in regulating plant growth and development. However, studies on soybean PIFs are limited. Here, we identified 22 GmPIF genes from the soybean genome and classified the GmPIF proteins into 13 subfamilies based on amino acid sequence homology, secondary and tertiary structures, protein structure, and conserved motifs. Genome-wide collinearity analysis revealed that fragment duplication events play a dominant role in expanding the GmPIF gene family. Cis-acting element analysis revealed that the GmPIF gene family is involved in light response, hormone response, biotic–abiotic stress response elements, and plant growth and development. Gene expression analysis in different temperature environments showed that the GmPIF family was found to be induced by phytohormone treatments, with a significant increase in the expression level of GmPIF3g. GmPIF3g plays a key role in the regulation of the entire network, and in addition, 30 proteins interacting with the GmPIF3g promoter were identified through the use of a novel biofilm interference technique. This technique showed that the transcription factor Dof (DNA binding with one finger) binds to the GmPIF3g promoter, and Y1H assays indicated that Dof regulates its expression by binding to the PIF promoter. These results provide a theoretical basis for further studies on the regulatory network of GmPIF genes to improve the structure of soybean plants under shade environments, as well as a new method for analyzing regulatory elements that interact with gene promoters. [ABSTRACT FROM AUTHOR]

Published

2025

17. Effects of aluminum on metabolism of reactive oxygen species and reactive nitrogen species in root tips of different Eucalyptus species.

Author

Ouyang, Zilong, Liu, Bing, Li, Tangkan, Bai, Tiandao, and Teng, Weichao

Subjects

EUCALYPTUS, LIPID peroxidation (Biology), REACTIVE nitrogen species, BIOCOMPATIBILITY, REACTIVE oxygen species, HABITAT selection

Abstract

On acidified soil, the growth of Eucalyptus is seriously restricted by aluminum (Al) stress. Therefore, breeding Eucalyptus species with excellent Al tolerance, developing the genetic potential of species, and improving tolerance to Al stress are important for the sustainable development of artificial Eucalyptus forests. By observing the occurrence and distribution of the main reactive oxygen species (ROS) and reactive nitrogen species (RNS) in root tips of Eucalyptus seedlings under Al stress, this study analyzed change in the growth and physiological indexes of Eucalyptus seedlings under Al stress. The antioxidant enzymes activities of the root tips of different Eucalyptus species induced by Al stress resulted in different ROS and RNS contents, ultimately resulting in differing degrees of membrane lipid peroxidation. In addition to suppressions of root relative elongation and root activity, the accumulations of soluble sugar, soluble protein, and proline can be used as indicators of Al sensitivity in Eucalyptus species. This may be an important determinant of the differences in Al tolerance among Eucalyptus species. The accumulation of ROS and RNS in the roots of E. grandis and E. tereticornis resulted in severe oxidative and nitrification stress. The tolerance of E. urophylla and E. urophylla × E. grandis to Al stress was stronger than that of E. grandis and E. tereticornis. Differences in Al toxicity tolerance were related to long-term selection of the original habitat of the species; moreover, the Al tolerance was hereditary. Eucalyptus urophylla × E. grandis had stronger Al tolerance than its parents, which is indicative of heterosis. These results provide theoretical support for the breeding of tree species in areas with acidic soil. Key message: In addition to suppressions of root relative elongation and root activity, the accumulations of soluble sugar, soluble protein, and proline can be used as indicators of aluminum (Al) sensitivity in Eucalyptus species. The Al tolerance of E. urophylla × E. grandis was better than that of both parents, which may have been due to heterosis. [ABSTRACT FROM AUTHOR]

Published

2025

18. Current writing assessment practices of kindergarten through second grade educators.

Author

McKenna, Meaghan, Gerde, Hope, and Grasley-Boy, Nicolette

Subjects

TEACHERS, STATISTICAL decision making, ASSESSMENT of education, SPECIAL education teachers, SECOND grade (Education)

Abstract

This article describes the development and administration of the Kindergarten-Second Grade (K-2) Writing Data-Based Decision Making (DBDM) Survey. The K-2 Writing DBDM Survey was developed to learn more about current DBDM practices specific to early writing. A total of 376 educational professionals (175 general education classroom teachers, 42 special education teachers, 118 speech-language pathologists, and 41 specialists (e.g., interventionists, coaches, educators supporting emergent bilinguals) who work with kindergarten, first, and/or second grade students in school settings in the United States participated in this survey study. Results include participant responses to 32 closed-ended items and 2 open-ended items covering five domains: (a) demographic information; (b) assessment(s) types, (c) administration procedures, (d) scoring procedures, and (e) information gathered. Descriptive and regression analyses were applied to summarize the survey results. Findings from this survey indicated that even with limited or no guidance, some educators within all groups of professionals surveyed are assessing students. However, ongoing improvements need to be made to prioritize writing upon school entry. These results remind us of the importance of partnership with educators to ensure accurate understanding of resources available for assessment, current areas of need, and how implementation can feasibly occur in the practice setting when developing and studying approaches to assessment. [ABSTRACT FROM AUTHOR]

Published

2025

19. Comparison of the Cytotoxic Mechanisms of Different Garlic (Allium sativum L.) Cultivars with the Crucial Involvement of Peroxisome Proliferator-Activated Receptor Gamma.

Author

Binduga, Urszula E., Kopeć, Aneta, Skoczylas, Joanna, and Szychowski, Konrad A.

Subjects

PEROXISOME proliferator-activated receptors, BIOACTIVE compounds, GARLIC, USEFUL plants, MICROTUBULE-associated proteins

Abstract

Garlic (Allium sativum L.) is one of the oldest known useful plants, valued for thousands of years. This plant contains many biologically active compounds, including polyphenols, sterols, cysteine-sulfoxides, carbohydrates, proteins, and amino acids. The aim of our study was to compare the antioxidant potential, cytotoxicity, and apoptosis induction properties of four garlic cultivars—Harnaś, Ornak, Violeta, and Morado—in human squamous carcinoma (SCC-15) cells, colon adenocarcinoma (CACO-2) cells, and normal fibroblasts (BJ). Additionally, we investigated the mRNA and protein expression of peroxisome proliferator-activated receptor gamma (PPARγ), microtubule-associated protein 1 light chain 3 (LC3A), superoxide dismutase 1 (SOD1), and catalase (CAT) after treatment with the studied garlic extracts. Our study demonstrated that high ROS production was correlated with the strong toxicity of the garlic extracts. All studied extracts produced a lesser increase in ROS in normal BJ fibroblasts and were less toxic to these cells. The expression patterns of PPARγ, LC3A, SOD1, and CAT, along with chromatographic analysis, suggest differing mechanisms among the garlic cultivars. The highest levels of catechin, a known PPARγ agonist, were detected in the Harnaś (3.892 µg/mL) and Ornak (3.189 µg/mL) cultivars. A high catechin content was correlated with similar changes in PPARγ and related SOD1 and LC3A. Our findings showed the health-promoting and anticancer properties of garlic. However, we could not definitively identify which polyphenol or how it is involved in PPARγ activation. Further studies are required to elucidate the role of PPARγ in the mechanism of action of garlic extracts. [ABSTRACT FROM AUTHOR]

Published

2025

20. Impact of Low Light on Photosynthetic Characteristics, Antioxidant Activity, and Yield of Brassica napus L.

Author

Hu, Yue, Javed, Hafiz Hassan, Liu, Li, Liu, Yalong, Yang, Xiaohui, Xu, Feifei, Liu, Ying, Peng, Xiao, and Wu, Yongcheng

Subjects

COMPOSITION of leaves, OXIDANT status, SOLAR radiation, GRAIN yields, CROP growth, RAPESEED

Abstract

Low light is an abiotic stress that has a significant impact on crop growth. However, the impact of low light on rapeseed yield has not been well documented. Our study aims to examine the potential effects of low light on the photosynthesis antioxidant capacity and yield composition of leaves by simulating low light environments. According to the study results, low light reduces key photosynthetic enzymes and sucrose synthase activity in rapeseed leaves, leading to a decrease in leaf carbohydrate accumulation. The reduced number of pods per plant and the number of pods per grain are the direct factors leading to the decrease in rapeseed grain yield, while the increase in grain weight compensates for some of the yield loss. In addition, low light increased the content of malondialdehyde in leaves and altered the activities of catalase (CAT) and superoxide dismutase (SOD). Low light inhibits photosynthesis in leaves, reduces leaf productivity, and leads to a decrease in yield. High-yielding varieties have stronger antioxidant capacity and lower production of malondialdehyde. By revealing the effects of low light on the photosynthesis and antioxidant capacity of rapeseed leaves, this studyprovide new insights into the composition of low light affecting rapeseed grain yield and explain significant guidance for the planting and management of different rapeseed varieties in low light areas. [ABSTRACT FROM AUTHOR]

Published

2025

21. Safe-by-design assessment of an SiO2@ZnO multi-component nanomaterial used in construction.

Author

Brunelli, A., Serrano-Lotina, A., Bañares, M. A., Alcolea-Rodriguez, V., Blosi, M., Costa, A., Ortelli, S., Peijnenburg, W., Fito, C., Fernandez, E. G., Hermosilla, J. S., Soeteman-Hernández, L. G., Garmendia Aguirre, I., Rauscher, H., Murphy, F., Stone, V., Balbuena, J., Cormano, J. M. L., Pizzol, L., and Hristozov, D.

Published

2025

22. Are Speech Sound Difficulties Risk Factors for Difficulties in Language and Reading Skills? A Systematic Review and Meta-Analysis.

Author

Walquist-Sørli, Line, Caglar-Ryeng, Ømur, Furnes, Bjarte, Nergård-Nilssen, Trude, Donolato, Enrica, and Melby-Lervåg, Monica

Subjects

DYSLEXIA -- Risk factors, READING disability, RISK assessment, CHILDREN with disabilities, RESEARCH funding, META-analysis, DESCRIPTIVE statistics, SYSTEMATIC reviews, MEDLINE, LANGUAGE disorders, INFERENTIAL statistics, SPEECH disorders, DATA analysis software, CONFIDENCE intervals, PSYCHOLOGY information storage & retrieval systems, ERIC (Information retrieval system), REGRESSION analysis, DISEASE risk factors, DISEASE complications, CHILDREN

Abstract

Background: Children with speech sound difficulties often require educational psychology services, yet systematic reviews examining the association between these difficulties and language or reading problems are lacking. This metaanalysis examines whether these children are at higher risk of language and reading difficulties compared to their peers. Method: The study analyzed 290 effect sizes from cross-sectional and longitudinal studies that compared language and reading skills between children with speech sound difficulties and controls. Additionally, we evaluated 37 effect sizes from correlational studies in general populations to examine the relationship between speech sound skills and language or reading skills. Results: Children with speech sound difficulties showed significant concurrent language (Hedges' g = --0.60) and reading (Hedges' g = --0.58) problems. Correlational studies also demonstrated a relationship between speech sound skills and language (r = .23) and reading (r = .23) skills. Phonological awareness and study quality were significant moderators. Longitudinal studies showed persistent or increasing group differences over time in language (Hedges' g = --0.85) and reading (Hedges' g = --0.50). These findings were consistent regardless of the severity or types of speech sound difficulties, nonverbal IQ, country, age, and publication year. However, a precision-effect test and the precision-effect estimate with standard errors analysis suggested a potential decrease in effect size due to publication bias from small sample sizes in primary studies. Conclusion: Children with speech sound difficulties are at an increased risk of language and reading difficulties, emphasizing the need for broader language assessments and early interventions to mitigate future academic difficulties. [ABSTRACT FROM AUTHOR]

Published

2025

23. Developing Adolescent Word-Level Knowledge: Challenges and Opportunities in Professional Learning with Secondary Educators.

Author

Williams, Jenelle

Subjects

CLASSROOM environment, EDUCATION, INDUSTRIAL learners

Abstract

The article highlights the gaps and strengths in instructional approaches for developing word-level knowledge in adolescent learners.

Published

2025

24. Effects of Luteolin Treatment on Postharvest Quality and Antioxidant Capacity of Nanfeng Tangerines.

Author

Dong, Wenjuan, Wang, Xiaohan, Xiang, Miaolian, Chen, Jinyin, Zeng, Jiaoke, and Chen, Ming

Subjects

ORGANIC acids, OXIDANT status, LUTEOLIN, OXALIC acid, SUPEROXIDE dismutase

Abstract

Postharvest quality deterioration is a major factor affecting the economic value and marketing of Nanfeng tangerines. The objective of this study was to explore the effects of luteolin treatment on the postharvest quality and antioxidant capacity of Nanfeng tangerines. We applied 1 g/L and 3 g/L luteolin to fruit after harvest and evaluated the decay rate, postharvest quality, and antioxidant capacity during a 60-day storage period at room temperature. The results indicated that, compared to untreated fruit, Nanfeng tangerines treated with 3 g/L luteolin exhibited enhanced appearance and flavor quality, as well as delayed disease incidence, during room-temperature storage. Additionally, flavor quality analysis revealed that luteolin treatment maintained high levels of titratable acid (TA) by delaying the degradation of organic acids such as citric, tartaric, succinic, ascorbic, and oxalic acids. Furthermore, luteolin treatment inhibited malondialdehyde (MDA) and H2O2 accumulation by enhancing the content of total phenols and flavonoids content, augmenting antioxidant enzyme activities (peroxidase (POD), catalase (CAT), and superoxide dismutase (SOD)), and elevating the overall antioxidant capacity measured through the 2,2-diphenyl-1-picrylhydrazyl (DPPH) free radical scavenging rate. Collectively, these results demonstrate that luteolin has potential as a preservative for promoting postharvest quality and antioxidant capacity. Additionally, our findings elucidate the mechanisms by which plant-derived flavonoids contribute to the preservation of freshness. [ABSTRACT FROM AUTHOR]

Published

2025

25. Deciphering Oxidative Stress in Cardiovascular Disease Progression: A Blueprint for Mechanistic Understanding and Therapeutic Innovation.

Author

Zhang, Zhaoshan and Guo, Jiawei

Subjects

DRUG target, DISEASE susceptibility, GENE therapy, DISEASE progression, DRUG development

Abstract

Oxidative stress plays a pivotal role in the pathogenesis and progression of cardiovascular diseases (CVDs). This review focuses on the signaling pathways of oxidative stress during the development of CVDs, delving into the molecular regulatory networks underlying oxidative stress in various disease stages, particularly apoptosis, inflammation, fibrosis, and metabolic imbalance. By examining the dual roles of oxidative stress and the influences of sex differences on oxidative stress levels and cardiovascular disease susceptibility, this study offers a comprehensive understanding of the pathogenesis of cardiovascular diseases. The study integrates key findings from current research in three comprehensive ways. First, it outlines the major CVDs associated with oxidative stress and their respective signaling pathways, emphasizing oxidative stress's central role in cardiovascular pathology. Second, it summarizes the cardiovascular protective effects, mechanisms of action, and animal models of various antioxidants, offering insights into future drug development. Third, it discusses the applications, advantages, limitations, and potential molecular targets of gene therapy in CVDs, providing a foundation for novel therapeutic strategies. These tables underscore the systematic and integrative nature of this study while offering a theoretical basis for precision treatment for CVDs. A major contribution of this study is the systematic review of the differential effects of oxidative stress across different stages of CVDs, in addition to the proposal of innovative, multi-level intervention strategies, which open new avenues for precision treatment of the cardiovascular system. [ABSTRACT FROM AUTHOR]

Published

2025

26. Physico-Chemical Characteristics of Rosa canina L. Seeds and Determining Their Potential Use.

Author

Stryjecka, Małgorzata, Kiełtyka-Dadasiewicz, Anna, and Michalak, Monika

Subjects

FOOD industry, LINOLENIC acids, GLUTAMIC acid, OLEIC acid, DIETARY fiber, LINOLEIC acid

Abstract

Rosa canina is well-known plant, and its fruits have been used for centuries. The seeds have been less utilized and remain untested. The objective of this study was to examine the physico-chemical properties of rosehip seeds and to identify potential applications based on their properties. The physico-chemical properties of the seeds were determined, including swelling index (2.51), color in the CIE L * a * b * space (b * = 26.2), as well as carbohydrate (79.2 g/100 g), soluble dietary fiber (71.6 g/100 g), protein (7.67 g/100 g), fat (6.23 g/100 g), and ash (1.96 g/100 g) content. Among the amino acids, glutamic acid dominated (1.58 mg/100 g), while among the fatty acids, linoleic acid (53.19%), linolenic acid (20.24%), and oleic acid (17.63%) were the most dominant. In addition, rosehip seeds contained large amounts of calcium (3851 mg/kg), potassium (2732 mg/kg), and phosphorus (991 mg/kg), as well as vitamin C (1783 μg/g). It was found that the content of other valuable phytochemicals, such as phenolic compounds (2633 μg/g) and carotenoids (3.13 μg/g) influenced the antioxidant properties of the tested raw material. This activity examined by the ferric-reducing antioxidant power (FRAP) and DPPH radical scavenging activity methods was assessed at a level of 191 and 229 μmol TE/g, respectively. The results indicate the potential use of rosehip seed, a by-product of the food processing industry, as a new high-value ingredient for health products, such as nutraceuticals, pharmaceuticals, and cosmeceuticals. [ABSTRACT FROM AUTHOR]

Published

2025

27. Quantitative Trait Loci for Phenology, Yield, and Phosphorus Use Efficiency in Cowpea.

Author

Mohammed, Saba B., Ongom, Patrick Obia, Belko, Nouhoun, Umar, Muhammad L., Muñoz-Amatriaín, María, Huynh, Bao-Lam, Togola, Abou, Ishiyaku, Muhammad F., and Boukar, Ousmane

Subjects

LOCUS (Genetics), PLANT phenology, PHOSPHATE fertilizers, GRAIN yields, SOIL fertility, COWPEA

Abstract

Background/Objectives: Cowpea is an important legume crop in sub-Saharan Africa (SSA) and beyond. However, access to phosphorus (P), a critical element for plant growth and development, is a significant constraint in SSA. Thus, it is essential to have high P-use efficiency varieties to achieve increased yields in environments where little-to- no phosphate fertilizers are applied. Methods: In this study, crop phenology, yield, and grain P efficiency traits were assessed in two recombinant inbred line (RIL) populations across ten environments under high- and low-P soil conditions to identify traits' response to different soil P levels and associated quantitative trait loci (QTLs). Single-environment (SEA) and multi-environment (MEA) QTL analyses were conducted for days to flowering (DTF), days to maturity (DTM), biomass yield (BYLD), grain yield (GYLD), grain P-use efficiency (gPUE) and grain P-uptake efficiency (gPUpE). Results: Phenotypic data indicated significant variation among the RILs, and inadequate soil P had a negative impact on flowering, maturity, and yield traits. A total of 40 QTLs were identified by SEA, with most explaining greater than 10% of the phenotypic variance, indicating that many major-effect QTLs contributed to the genetic component of these traits. Similarly, MEA identified 23 QTLs associated with DTF, DTM, GYLD, and gPUpE under high- and low-P environments. Thirty percent (12/40) of the QTLs identified by SEA were also found by MEA, and some of those were identified in more than one P environment, highlighting their potential in breeding programs targeting PUE. QTLs on chromosomes Vu03 and Vu08 exhibited consistent effects under both high- and low-P conditions. In addition, candidate genes underlying the QTL regions were identified. Conclusions: This study lays the foundation for molecular breeding for PUE and contributes to understanding the genetic basis of cowpea response in different soil P conditions. Some of the identified genomic loci, many being novel QTLs, could be deployed in marker-aided selection and fine mapping of candidate genes. [ABSTRACT FROM AUTHOR]

Published

2025

28. La resonancia en la teoría crítica de Hartmut Rosa: una respuesta a los límites prácticos de la ética discursiva para las sociedades aceleradas.

Author

LÓPEZ GONZÁLEZ, JOSE L.

Published

2025

29. Tetraspanin 5 orchestrates resilience to salt stress through the regulation of ion and reactive oxygen species homeostasis in rice.

Author

Mani, Balaji, Kaur, Inderjit, Dhingra, Yashika, Saxena, Vidisha, Krishna, G K, Kumar, Rahul, Chinnusamy, Viswanathan, Agarwal, Manu, and Katiyar‐Agarwal, Surekha

Subjects

IONIC equilibrium, TRANSMEMBRANE domains, REACTIVE oxygen species, ABIOTIC stress, TRANSGENIC rice, DROUGHT tolerance

Abstract

Summary: Tetraspanins (TETs) are integral membrane proteins, characterized by four transmembrane domains and a unique signature motif in their large extracellular loop. They form dynamic supramolecular complexes called tetraspanin‐enriched microdomains (TEMs), through interactions with partner proteins. In plants, TETs are involved in development, reproduction and immune responses, but their role in defining abiotic stress responses is largely underexplored. We focused on OsTET5, which is differentially expressed under various abiotic stresses and localizes to both plasma membrane and endoplasmic reticulum. Using overexpression and underexpression transgenic lines we demonstrate that OsTET5 contributes to salinity and drought stress tolerance in rice. OsTET5 can interact with itself in yeast, suggesting homomer formation. Immunoblotting of native PAGE of microsomal fraction enriched from OsTET5‐Myc transgenic rice lines revealed multimeric complexes containing OsTET5, suggesting the potential formation of TEM complexes. Transcriptome analysis, coupled with quantitative PCR‐based validation, of OsTET5‐altered transgenic lines unveiled the differential expression patterns of several stress‐responsive genes, as well as those coding for transporters under salt stress. Notably, OsTET5 plays a crucial role in maintaining the ionic equilibrium during salinity stress, particularly by preserving an elevated potassium‐to‐sodium (K+/Na+) ratio. OsTET5 also regulates reactive oxygen species homeostasis, primarily by modulating the gene expression and activities of antioxidant pathway enzymes and proline accumulation. Our comprehensive investigation underscores the multifaceted role of OsTET5 in rice, accentuating its significance in developmental processes and abiotic stress tolerance. These findings open new avenues for potential strategies aimed at enhancing stress resilience and making valuable contributions to global food security. [ABSTRACT FROM AUTHOR]

Published

2025

30. [Recommendations of the DGRh Committee on Complementary Medicine and Nutrition on the application of selected phytotherapeutic drugs and herbal medicines in rheumatology].

Author

Keyßer G, Seifert O, Frohne I, Michalsen A, Pfeil A, Reuß-Borst M, and Sander O

Abstract

Background: Herbal preparations and phytotherapeutic substances are offered for symptoms and diseases of the rheumatic spectrum and are often intensively advertised in the lay press. The German Society for Rheumatology and Clinical Immunology (DGRh) Committee on Complementary Medicine and Nutrition reviewed the scientific literature on selected over the counter preparations and prescription phytotherapeutic substances and examined the possibilities for their use in rheumatology., Methods: In an online meeting of the Committee on 8 February 2023 a list of herbal preparations that are frequently used in rheumatology (mostly as self-medication) was drawn up. Each member of the committee then carried out a literature search on one or two substances and summarized the results according to a defined matrix. Research was carried out on borage oil, stinging nettle preparations, cannabis preparations and preparations of dog rose, rosemary, saffron and willow bark. The data on the mixed preparation Phytodolor® (Bayer Vital GmbH, Germany) were also examined. The results were reviewed by a circulation procedure and approved in two further online meetings of the Committee. After review by the DGRh board, the recommendations were transferred to the professional organization's website., Results: Even though there are reports of anti-inflammatory or immunological effects in vitro and/or in animal models for all the plant substances examined, the evidence for a clinically relevant benefit is sparse. None of the preparations investigated has a therapeutic efficacy that justifies its use in inflammatory joint diseases. Herbal preparations based on saffron and rosemary are generally not recommended. Borage oil from seeds can be taken in standardized form as part of a health-conscious diet but is not expected to have any significant anti-inflammatory effect. Rheumatologists need not advise against Phytodolor® or preparations based on stinging nettle, willow bark or dog rose, which are taken on the patient's initiative for degenerative joint diseases, if a sensible therapy concept is otherwise adhered to. There is insufficient evidence to prescribe medicinal cannabis for inflammatory rheumatic diseases for disease modification or symptomatic therapy. In individual cases, however, its use to reduce chronic pain, particularly neuropathic pain and sleep disorders and to reduce opiate consumption may be justified., Conclusion: Even if the herbal preparations presented here must be considered in a differentiated manner for rheumatology practice, the value of phytotherapy for the discipline is low., Competing Interests: Einhaltung ethischer Richtlinien. Interessenkonflikt: G. Keyßer, O. Seifert, I. Frohne, A. Michalsen, A. Pfeil, M. Reuß-Borst und O. Sander geben an, dass kein Interessenkonflikt besteht. Für diesen Beitrag wurden von den Autor/-innen keine Studien an Menschen oder Tieren durchgeführt. Für die aufgeführten Studien gelten die jeweils dort angegebenen ethischen Richtlinien., (© 2025. The Author(s).)

Published

2025

31. Alternating inverse modulation of xylem K + /NO 3 - loading by HY5 and PIF facilitates diurnal regulation of root-to-shoot water and nutrient transport.

Author

Jing S, Zhang H, Yang Z, Du XQ, Hu Y, Wang SS, Wang S, Zhang K, Li Z, Wu WH, Kudla J, Li J, and Wang Y

Abstract

Diurnal light-dark cycles regulate nutrient uptake and transport; however, the underlying molecular mechanisms remain largely unknown. Transcription factor MYB59 and ion transporter NPF7.3 participate in root-to-shoot K + /NO 3 translocation in Arabidopsis. In this study, transcriptional analyses and western blotting experiments revealed the diurnal expression of the MYB59-NPF7.3 module. ChIP-qPCR and EMSA showed that transcription factors HY5 and PIF directly bind to the MYB59 promoter. Phenotype analyses and ion content measurement indicated that HY5 and PIF antagonistically control root-to-shoot K - translocation in Arabidopsis. In this study, transcriptional analyses and western blotting experiments revealed the diurnal expression of the MYB59-NPF7.3 module. ChIP-qPCR and EMSA showed that transcription factors HY5 and PIF directly bind to the MYB59 promoter. Phenotype analyses and ion content measurement indicated that HY5 and PIF antagonistically control root-to-shoot K + translocation through the MYB59-NPF7.3 module. We found HY5 proteins accumulate in roots and repress MYB59 transcription during daytime, while PIF proteins promote MYB59 transcription in the dark. The expression levels of the NPF7.3 transcript and protein are gradually decreased during daytime, but increased at night. The enhancement of K 3 - translocation through the MYB59-NPF7.3 module. We found HY5 proteins accumulate in roots and repress MYB59 transcription during daytime, while PIF proteins promote MYB59 transcription in the dark. The expression levels of the NPF7.3 transcript and protein are gradually decreased during daytime, but increased at night. The enhancement of K + /NO 3 - loading into the xylem mediated by NPF7.3 could increase root pressure at night, which maintained the root-to-shoot water/nutrient translocation. This study reveals a synergistic mechanism between light signaling and nutrient transport in plants, and defines a diurnal molecular switch of driving forces for root-to-shoot water/nutrient translocation., (© 2025 The Author(s). New Phytologist © 2025 New Phytologist Foundation.)

Published

2025

32. Using case-based learning to teach evidence-based practice: A pilot study.

Author

Brock AS

Subjects

Humans, Pilot Projects, Problem-Based Learning, Evidence-Based Practice education, Speech-Language Pathology education

Abstract

Background: The American Speech-Language-Hearing Association (ASHA) promotes the use of evidence-based practice (EBP) in the provision of clinical services by speech-language pathologists (SLPs). Therefore, training in the EBP process is vital in the education of future SLPs. Case-based learning (CBL) has been found effective in facilitating transfer of knowledge and skills in various fields; however, its utilisation to teach EBP to SLP students is understudied., Methods: This phenomenological investigation explores the use of CBL, an active learning strategy that gives students the opportunity to practice application of knowledge to realistic scenarios, to teach EBP to graduate SLP students. Graduate SLP students worked in small groups to complete an article review activity centred around an assigned hypothetical clinical case. Students submitted article review papers and written reflections on their learning process. The written reflections and review papers were analysed using qualitative content analysis to understand students' approach to clinical cases and their perspectives on the CBL approach., Results: Analysis of the papers and reflections indicated that students tended to rely heavily on scientific evidence for clinical decision making, often to the exclusion of clinical expertise or client perspectives. Students reported that the project was applicable to their future clinical practice. Further, they reported learning from multiple sources, including the instructor, class discussion and their peers., Conclusion: Results indicate that graduate SLP students found CBL activities beneficial for learning the principles of EBP. Students specifically indicated an appreciation for the realistic nature of the activities. Future applications are examined., (© 2024 Association for the Study of Medical Education and John Wiley & Sons Ltd.)

Published

2025

33. Arabidopsis CIRP1 E3 ligase modulates drought and oxidative stress tolerance and reactive oxygen species homeostasis by directly degrading catalases.

Author

Yang H, Zhang Y, Lyu S, Mao Y, Yu F, Liu S, Fang Y, and Deng S

Abstract

Reactive oxygen species (ROS) plays critical roles in modulating plant growth and stress response and its homeostasis is fine tuned using multiple peroxidases. H 2 O 2 , a major kind of ROS, is removed rapidly and directly using three catalases, CAT1, CAT2, and CAT3, in Arabidopsis. Although the activity regulations of catalases have been well studied, their degradation pathway is less clear. Here, we report that CAT2 and CAT3 protein abundance was partially controlled using the 26S proteasome. To further identify candidate proteins that modulate the stability of CAT2, we performed yeast-two-hybrid screening and recovered several clones encoding a protein with RING and vWA domains, CIRP1 (CAT2 Interacting RING Protein 1). Drought and oxidative stress downregulated CIRP1 transcripts. CIRP1 harbored E3 ubiquitination activity and accelerated the degradation of CAT2 and CAT3 by direct interaction and ubiquitination. The cirp1 mutants exhibited stronger drought and oxidative stress tolerance, which was opposite to the cat2 and cat3 mutants. Genetic analysis revealed that CIRP1 acts upstream of CAT2 and CAT3 to negatively regulate drought and oxidative stress tolerance. The increased drought and oxidative stress tolerance of the cirp1 mutants was due to enhanced catalase (CAT) activities and alleviated ROS levels. Our data revealed that the CIRP1-CAT2/CAT3 module plays a vital role in alleviating ROS levels and balancing growth and stress responses in Arabidopsis., (© 2025 Institute of Botany, Chinese Academy of Sciences.)

Published

2025

34. "Methyl jasmonate: bridging plant defense mechanisms and human therapeutics".

Author

Sharma G, Badruddeen, Akhtar J, Khan MI, Ahmad M, and Sharma PK

Abstract

A volatile organic substance produced from jasmonic acid, methyl jasmonate (MJ/MeJA), is an important plant hormone involved in stress responses and plant defense. Apart from its role in plants, MJ has garnered significant attention because of its pharmacological effects and possible therapeutic use in human health. This thorough analysis looks into the many biological actions of MJ, such as its antioxidant, anti-inflammatory, and anti-cancer effects. The underlying mechanism of these actions is examined, emphasizing MJ's ability to modulate important signaling pathways, cause cancer cells to undergo apoptosis, and boost immunological responses. Furthermore, MJ's capacity to manage long-term illnesses like cancer and neurological conditions like Parkinson's and Alzheimer's is examined. Preclinical and clinical research are beginning to provide evidence that MJ may be a useful medicinal drug. Nevertheless, more research is needed to fully understand its mode of action, enhance its administration methods, and evaluate its efficacy and safety in humans. This review highlights MJ's therapeutic promise and supports earlier research into its pharmacological capabilities and possible medical applications. This abstract highlights methyl jasmonate's pharmacological effects and therapeutic potential by providing a concise overview of the main topics covered in a thorough review., Competing Interests: Declarations. Competing interests: The authors declare no competing interests., (© 2025. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2025

35. Ascorbate Biosynthesis and Recycling Genes Are Involved in the Responses of Garlic Allium sativum L. Plants to Fusarium proliferatum Infection.

Author

Shchennikova AV, Kochieva EZ, and Filyushin MA

Abstract

The expression profile of the key genes of biosynthesis (VTC2, GPP, GalDH, and GalLDH) and recycling (MDHAR1, MDHAR4, and MDHAR5) of ascorbate in response to infection with the fungal pathogen Fusarium proliferatum in garlic cultivars resistant (Podnebesny) and sensitive (Dubkovsky) to Fusarium rot was determined. It was found that differences in resistance to Fusarium lead to discrepancies in the dynamics and expression of individual genes of the ascorbate pathway, as well as in the ascorbate content. It was shown that, in response to infection, the expression level of the MDHAR4 gene increases in the resistant cultivar and decreases in the Fusarium-sensitive accession. As infection progresses, the expression levels of the VTC2 and GalLDH genes increase significantly (higher in the cv. Dubkovsky than in the cv. Podnebesny). In both cultivars, the ascorbate content increases (1.5 times higher in the cv. Dubkovsky than in the cv. Podnebesny)., Competing Interests: ETHICS APPROVAL AND CONSENT TO PARTICIPATE: This work does not contain any studies involving human and animal subjects. CONFLICT OF INTEREST: The authors of this work declare that they have no conflicts of interest., (© 2025. Pleiades Publishing, Ltd.)

Published

2025

36. Growth, physiological and molecular response of calcium and salicylic acid primed wheat under lead stress.

Author

Sobhy SE, Abo-Kassem EM, Sewelam NA, Saad-Allah KM, Aseel DG, Saleh AA, and Hafez EE

Subjects

Stress, Physiological drug effects, Stress, Physiological genetics, Oxidative Stress drug effects, Gene Expression Regulation, Plant drug effects, Germination drug effects, Antioxidants metabolism, Antioxidants pharmacology, Triticum drug effects, Triticum genetics, Triticum growth & development, Triticum metabolism, Salicylic Acid pharmacology, Salicylic Acid metabolism, Lead toxicity, Calcium metabolism, Seedlings drug effects, Seedlings metabolism, Seedlings growth & development, Seedlings genetics

Abstract

Background: Heavy metal contamination, particularly from lead (Pb), poses a significant threat to plant agriculture worldwide, adversely affecting growth, physiological functions, and yield. Signalling molecules such as calcium and salicylic acid are known to mitigate various stresses in plants, prompting this study to explore their interaction with Pb stress in wheat., Methods: A pot experiment was conducted in which wheat grains were primed with either distilled water, 5 mM calcium (Ca), or 0.05 mM salicylic acid (SA) for 12 h. Following germination, seedlings were exposed to 100 mM Pb six days later, while the control group received water irrigation. Growth parameters, physiological changes, molecular responses, and yield characteristics were assessed to understand the impact of the treatments., Results: The application of Ca and SA acid significantly ameliorated Pb-induced reductions in growth parameters, yield criteria, and phenolic content. These treatments also reduced oxidative stress by restoring osmoprotectants, Pb ion content, and antioxidant enzyme activities to normal levels. Additionally, they downregulated genes that were overexpressed in Pb-stressed wheat., Conclusions: Ca and SA treatments effectively mitigate lead toxicity in wheat by protecting growth, enhancing physiological resilience, and maintaining productivity. These findings suggest that leveraging chemical stimulants such as calcium and salicylic acid constitutes a viable strategy for reducing the detrimental impacts of heavy metal stress on crop yields., Competing Interests: Declarations. Competing Interests: The authors declare no competing interests. Ethical approval: Not applicable. Consent to participate: The authors agreed to participate in this work. Consent for publication: The authors agreed to publish this work., (© 2025. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2025

37. Application of ultra-weak photon emission imaging in plant stress assessment.

Author

Prasad A, Mihačová E, Manoharan RR, and Pospíšil P

Abstract

The oxidative damage induced by abiotic stress factors such as salinity, drought, extreme temperatures, heavy metals, pollution, and high irradiance has been studied in Arabidopsis thaliana. Ultra-weak photon emission (UPE) is presented as a signature reflecting the extent of the oxidation process and/or damage. It can be used to predict the physiological state and general health of plants. This study presents an overview of a potential research platform where the technique can be applied. The results presented can aid in providing invaluable information for developing strategies to mitigate abiotic stress in crops by improving plant breeding programs with a focus on enhancing tolerance. This study evaluates the applicability of charged couple device (CCD) imaging in evaluating plant stress and degree of damage and to discuss the advantages and limitations of the claimed non-invasive label-free tool., Competing Interests: Declarations. Ethical approval: N/A. Consent to participate: N/A. Consent for publication: N/A. Conflict of interest: The authors (AP, EM, RRM and PP) declare no conflict of interest., (© 2024. The Author(s).)

Published

2025

38. Effect of glutathione reductase on photosystem II characterization and reactive oxygen species metabolism in cotton cytoplasmic male sterile line Jin A.

Author

Zhang L, Jing P, Geng B, Shi J, Zhang J, Liang D, Yang Y, Qu Y, and Huang J

Subjects

Gene Expression Regulation, Plant, Plants, Genetically Modified, Chloroplasts metabolism, Plant Infertility genetics, Photosynthesis, Arabidopsis genetics, Arabidopsis metabolism, Nicotiana genetics, Nicotiana metabolism, Gossypium genetics, Gossypium metabolism, Reactive Oxygen Species metabolism, Photosystem II Protein Complex metabolism, Photosystem II Protein Complex genetics, Glutathione Reductase metabolism, Glutathione Reductase genetics, Plant Proteins metabolism, Plant Proteins genetics

Abstract

Glutathione reductase (GR) maintains the cellular redox state by reducing oxidized glutathione to glutathione (GSH), which regulates antioxidant defense. Additionally, GR plays an essential role in photosynthesis; however, the mechanism by which GR regulates photosystem II (PSII) is largely unknown. We identified six, three, and three GR genes in Gossypium hirsutum, Gossypium arboreum, and Gossypium raimondii, respectively. We found that GhGR1 and GhGR3 proteins were localized in the chloroplasts, whereas GhGR5 was localized in the cell membrane. Cytoplasmic male sterile (CMS) line Jin A was ideal to explore GR functions because accumulation of reactive oxygen species (ROS) was increased and expression of GhGR was downregulated at the key stage of microspore abortion in anthers compared to maintainer Jin B. The GR activity and relative GhGR1, GhGR3, GhGR5 gene expressions decreased significantly at the key stage of microspore abortion in Jin A-CMS compared to that in Jin B, resulting in an increase in ROS and a decrease in photochemical efficiency in PSII. GhGR1 and GhGR3 overexpression in Arabidopsis decreased ROS levels in anthers and leaves compared to the wild-type. Biochemical analysis of GhGR1 and GhGR3 silencing in Gossypium L. showed that ROS content was increased and photochemical efficiency of PSII was inhibited in leaves. Complementation experiments in tobacco and yeast indicated that GhGR1 interacted with GhPsbX, which was one of the subunits of the PSII protein complex. Taken together, these findings suggest that chloroplast GR plays an important role in PSII and ROS metabolism by interacting with PsbX in cotton plants., (© 2025 Society for Experimental Biology and John Wiley & Sons Ltd.)

Published

2025

39. Surgical interpretation of the WHO subclassification of intrahepatic cholangiocarcinoma: a narrative review.

Author

Akita M, Yanagimoto H, Tsugawa D, Zen Y, and Fukumoto T

Subjects

Humans, Prognosis, Practice Guidelines as Topic, Bile Ducts, Intrahepatic surgery, Bile Ducts, Intrahepatic pathology, Cholangiocarcinoma pathology, Cholangiocarcinoma classification, Cholangiocarcinoma surgery, Bile Duct Neoplasms pathology, Bile Duct Neoplasms classification, Bile Duct Neoplasms surgery, World Health Organization, Lymphatic Metastasis

Abstract

Intrahepatic cholangiocarcinoma (iCCA) has been subclassified by its gross morphology into the mass-forming (MF), periductal-infiltrating (PI), and intraductal growth (IG) types and their combinations. This classification correlates well with clinical features; for example, MF-iCCA has less lymph-node metastasis and a better prognosis than PI-iCCA. According to the recently accumulated evidence from histological investigations, the WHO classification endorsed a subclassification scheme in which iCCA cases are classified into small- and large-duct types. Small-duct iCCA is considered to originate from septal or smaller bile ducts and is characterized by less frequent lymph-node metastasis, a favorable prognosis, and an MF appearance. Large-duct iCCA arises around the second branch of the biliary tree and has more aggressive biology and distinct genetic abnormalities. According to the practice guidelines for iCCA from the Liver Cancer Study Group of Japan and the National Comprehensive Cancer Network, upfront surgery is recommended for iCCA without distant metastasis regardless of the morphological subtype, based on clinical experience. In consideration of the biological heterogeneity of iCCA, the treatment strategy for iCCA needs to be reconsidered based on the WHO subtypes., Competing Interests: Declarations. Conflict of interest: We have no conflicts of interest to declare. There was no grant or financial support for this study. Ethical approval: Because this is a literature review article, IRB approval was not required., (© 2024. The Author(s) under exclusive licence to Springer Nature Singapore Pte Ltd.)

Published

2025

40. Impact of water stress to plant epigenetic mechanisms in stress and adaptation.

Author

Aanniz T, El Baaboua A, Aboulaghras S, Bouyahya A, Benali T, Balahbib A, El Omari N, Butnariu M, Muzammil K, Yadav KK, Al Abdulmonem W, Lee LH, Zengin G, and Chamkhi I

Subjects

Water metabolism, Plants genetics, Plants metabolism, Dehydration genetics, Acclimatization genetics, Epigenesis, Genetic, Adaptation, Physiological genetics, Gene Expression Regulation, Plant, Stress, Physiological genetics, Droughts

Abstract

Water is the basic molecule in living beings, and it has a major impact on vital processes. Plants are sessile organisms with a sophisticated regulatory network that regulates how resources are distributed between developmental and adaptation processes. Drought-stressed plants can change their survival strategies to adapt to this unfavorable situation. Indeed, plants modify, change, and modulate gene expression when grown in a low-water environment. This adaptation occurs through several mechanisms that affect the expression of genes, allowing these plants to resist in dry regions. Epigenetic modulation has emerged as a major factor in the transcription regulation of drought stress-related genes. Moreover, specific molecular and epigenetic modifications in the expression of certain genetic networks lead to adapted responses that aid a plant's acclimatization and survival during repeated stress. Indeed, understanding plant responses to severe environmental stresses, including drought, is critical for biotechnological applications. Here, we first focused on drought stress in plants and their general adaptation mechanisms to this stress. We also discussed plant epigenetic regulation when exposed to water stress and how this adaptation can be passed down through generations., (© 2025 Scandinavian Plant Physiology Society.)

Published

2025

41. A Golgi vesicle-membrane-localized cytochrome B561 regulates ascorbic acid regeneration and confers Verticillium wilt resistance in cotton.

Author

Liu H, Zhang W, Zeng J, Zheng Q, Guo Z, Ruan C, Li W, Wang G, Wang X, and Guo W

Subjects

Hydrogen Peroxide metabolism, Cytochrome b Group genetics, Cytochrome b Group metabolism, Golgi Apparatus metabolism, Gene Expression Regulation, Plant, Plants, Genetically Modified, Verticillium, Gossypium genetics, Gossypium microbiology, Gossypium physiology, Gossypium metabolism, Ascorbic Acid metabolism, Plant Proteins genetics, Plant Proteins metabolism, Disease Resistance genetics, Plant Diseases microbiology, Plant Diseases immunology, Plant Diseases genetics

Abstract

Ascorbic acid (AsA) serves as a key antioxidant involved in the various physiological processes and against diverse stresses in plants. Due to the insufficiency of AsA de novo biosynthesis, the AsA regeneration is essential to supplement low AsA synthesis rates. Redox reactions play a crucial role in response to biotic stress in plants; however, how AsA regeneration participates in hydrogen peroxide (H 2 O 2 ) homeostasis and plant defense remains largely unknown. Here, we identified a Golgi vesicle-membrane-localized cytochrome B561 (CytB561) encoding gene, GhB561-11, involved in AsA regeneration and plant resistance to Verticillium dahliae in cotton. GhB561-11 was significantly downregulated upon V. dahliae attack. Knocking down GhB561-11 greatly enhanced cotton resistance to V. dahliae. We found that suppressing GhB561-11 inhibited the AsA regeneration, elevated the basal level of H 2 O 2 , and enhanced the plant defense against V. dahliae. Further investigation revealed that GhB561-11 interacted with the lipid droplet-associated protein GhLDAP3 to collectively regulate the AsA regeneration. Simultaneously silencing GhB561-11 and GhLDAP3 significantly elevated the H 2 O 2 contents and dramatically improved the Verticillium wilt resistance in cotton. The study broadens our insights into the functional roles of CytB561 in regulating AsA regeneration and H 2 O 2 homeostasis. It also provides a strategy by downregulating GhB561-11 to enhance Verticillium wilt resistance in cotton breeding programs., (© 2024 Society for Experimental Biology and John Wiley & Sons Ltd.)

Published

2025

42. Identification of the MAP4K gene family reveals GhMAP4K13 regulates drought and salt stress tolerance in cotton.

Author

Zeng Q, Peng F, Wang J, Wang S, Lu X, Bakhsh A, Li Y, Qaraevna BZ, Ye W, and Yin Z

Subjects

Plants, Genetically Modified, Multigene Family, Stress, Physiological genetics, Phylogeny, Arabidopsis genetics, Arabidopsis physiology, Plant Growth Regulators metabolism, MAP Kinase Kinase Kinases genetics, MAP Kinase Kinase Kinases metabolism, Gossypium genetics, Gossypium physiology, Droughts, Plant Proteins genetics, Plant Proteins metabolism, Gene Expression Regulation, Plant, Salt Tolerance genetics

Abstract

Mitogen-activated protein kinase kinase kinase kinases (MAP4Ks) are a class of highly conserved serine/threonine-protein kinases in eukaryotes. They participate in the typical MAPK cascade system and various signal transduction pathways regulating biological processes in plants, during stressful conditions. To date, genome-wide identification of MAP4Ks in cotton has not been reported. In this study, 77 MAP4K genes were identified in four Gossypium species. Protein characteristics, gene structures, conserved motifs and gene expression analysis were carried out. Genome-wide or fragment duplication has played an important role in the expansion of the GhMAP4K. Promoter cis-acting elements and expression patterns indicated that GhMAP4Ks are related to plant hormones (ABA, MeJA, GA, IAA, SA) and various stresses (drought, hypothermia and wound). Overexpressing GhMAP4K13 in Arabidopsis showed higher stem length in response to drought and salt stress. The wilting degree in virus-induced GhMAP4K13 gene silenced plants was substantially greater than wild type plants under drought and salt stress. Transcriptomic analysis showed that most differentially expressed genes were involved in the MAPK signaling pathway, carbon metabolism and porphyrin metabolism. Additionally, transgenic Arabidopsis and VIGS cotton showed that GhMAP4K13 was positively responsive to drought and salt stresses. This study will play an important role in understanding the function of the MAP4K gene family in response to abiotic stress in cotton., (© 2024 Scandinavian Plant Physiology Society.)

Published

2025

43. Pepper RING-Type E3 Ligase CaFIRF1 Negatively Regulates the Protein Stability of Pepper Stress-Associated Protein, CaSAP14, in the Dehydration Stress Response.

Author

Bae Y, Lim CW, and Lee SC

Subjects

Protein Stability, Proteasome Endopeptidase Complex metabolism, Arabidopsis physiology, Arabidopsis genetics, Arabidopsis metabolism, Ubiquitination, Gene Silencing, Proteolysis, Transcription Factors metabolism, Transcription Factors genetics, Capsicum physiology, Capsicum genetics, Capsicum metabolism, Plant Proteins metabolism, Plant Proteins genetics, Ubiquitin-Protein Ligases metabolism, Ubiquitin-Protein Ligases genetics, Dehydration, Gene Expression Regulation, Plant, Plants, Genetically Modified, Stress, Physiological

Abstract

As part of the cellular stress response in plants, the ubiquitin-proteasome system (UPS) plays a crucial role in regulating the protein stability of stress-related transcription factors. Previous study has indicated that CaSAP14 is functionally involved in enhancing pepper plant tolerance to dehydration stress by modulating the expression of downstream genes. However, the comprehensive regulatory mechanism underlying CaSAP14 remains incompletely understood. Here, we identified a RING-type E3 ligase, CaFIRF1, which interacts with and ubiquitinates CaSAP14. Pepper plants with silenced CaFIRF1 exhibited a dehydration-tolerant phenotype when subjected to dehydration stress, while overexpression of CaFIRF1 in pepper and Arabidopsis resulted in reduced dehydration tolerance. Co-silencing of CaFIRF1 and CaSAP14 in pepper increased sensitivity to dehydration, suggesting that CaFIRF1 acts upstream of CaSAP14. A cell-free degradation analysis demonstrated that silencing of CaFIRF1 led to decreased CaSAP14 protein degradation, implicating CaFIRF1 in the regulation of CaSAP14 protein via the 26S proteasomal degradation pathway. Our findings suggest a mechanism by which CaFIRF1 mediates the ubiquitin-dependent proteasomal degradation of CaSAP14, thereby influencing the response of pepper plants to dehydration stress., (© 2024 John Wiley & Sons Ltd.)

Published

2025

44. Efectos del discurso legal-institucional para el acceso al mercado laboral del migrante en condición irregular en Colombia

Author

Buitrago Escobar, Adriana María, Bravo González, Stefanny, and Quintero Calvache, Juan Carlos

Published

2025

45. Nanoparticle innovations: impact of biogenic CaP nanoparticles in mitigating the adverse effects of excessive nitrate application

Author

El-Esawy, Mai A., Elkhateeb, Eman A., Hassan, Amira M., and Elsherif, Doaa E.

Published

2025

46. Exogenous trehalose alleviates the inhibitory effects of salt and drought stresses in okra plants

Author

Wang, Fei, Jiang, Zihang, Wang, Haiyang, Liang, Fan, Wang, Yusheng, Zhang, Jinrui, Liu, Zeliang, Luo, Lei, Chen, Xinhong, and Wang, Feibing

Published

2025

47. Phytohormonal signaling in plant resilience: advances and strategies for enhancing abiotic stress tolerance

Author

Das, Shubranil, Shil, Susmita, Rime, Jome, Alice, Athikho Kayia, Yumkhaibam, Tabalique, Mounika, Vadde, Singh, Aditya Pratap, Kundu, Manoj, Lalhmangaihzuali, HP, Hazarika, Tridip Kumar, Singh, Amit Kumar, and Singh, Siddhartha

Published

2025

48. The Role of Hydrogen Peroxide in Fruit Ripening Regulation

Author

Yang, Lu, Zuo, Ding-Ding, and Guo, Da-Long

Published

2025

49. Improved organic electrochemical transistor stability using solvent degassing and chemical doping

Author

Le, Vianna N., Baustert, Kyle N., Brown, Megan R., Bombile, Joel H., Flagg, Lucas Q., Thorley, Karl, Kousseff, Christina J., Solomeshch, Olga, McCulloch, Iain, Tessler, Nir, Risko, Chad, Graham, Kenneth R., and Paterson, Alexandra F.

Published

2025

50. Taxonomy of Mediated Sociality: A Phenomenological Approach

Author

Takakusa, Ken

Published

2025