Search Results (6,279)

Macrobrachium nipponense is an important commercial freshwater prawn species in China. Since larger individuals command higher market value, there is a pressing need to identify growth-related genes and single-nucleotide polymorphisms (SNPs) to facilitate genetic improvement in this species. Previous studies have suggested a potentially regulatory role of an actin-like protein (ACTL) in the growth of M. nipponense. Therefore, the present study aimed to functionally characterize the role of ACTL in growth and identify growth-associated SNPs within this gene. The open reading frame of Mn-ACTL is 1131 bp, encoding a protein with 377 amino acids. Blastx and phylogenetic analyses indicated that Mn-ACTL shares a close evolutionary relationship with orthologs from Macrobrachium rosenbergii and Palaemon carinicauda. The highest expression level of Mn-ACTL in muscle tissue detected by qPCR suggested its potential involvement in growth regulation. RNA interference experiments showed that prawns injected with dsGFP exhibited larger body sizes than those injected with dsACTL, indicating that knockdown of Mn-ACTL expression inhibits growth performance in M. nipponense. Furthermore, muscle tissue from the dsACTL-injected group displayed looser myofibril packing, visibly eroded areas, and increased sarcomere spacing. Collectively, these results demonstrated that ACTL positively regulates growth in M. nipponense. Additionally, the T allele at locus S28_17149891 and the G allele at locus S28_17145758 were significantly associated with growth traits (p < 0.05). In conclusion, this study confirmed the positive regulatory role of ACTL in growth and identified growth-associated SNPs in M. nipponense, providing valuable insights for breeding new varieties with enhanced growth performance in this species. Full article

Extracellular vesicles (EVs) from human body fluids are valuable tools for biomarker discovery and for exploring the mechanisms underlying various pathologies, including infectious diseases. The translation of EV research into clinical practice is however hindered by the variability in EV pre-clinical investigations. Therefore, standardisation of analytical procedures and reporting policies is essential. Human serum is a key biological matrix for biomarker discovery and is commonly stored within biobanks. Here, we investigated different strategies for EV enrichment from small volumes of biobanked serum and evaluated their impact on EVs’ downstream analyses. EVs were obtained from 250 μL of biobanked serum using ultracentrifugation (UC), size-exclusion chromatography-based methods (ExoSpin-ES, qEV1-35 nm, and qEV1-70 nm), or ExoRNeasy (ER). The resulting EVs were subsequently characterised for morphology, concentration, surface phenotype, and multi-omics profiles. All methods successfully enriched small EVs expressing tetraspanins on their surface, although at different concentrations. The most efficient method for proteomics analyses was qEV1-70 nm, followed by ES, which was more susceptible to contamination by serum proteins. EV-miRNA cargo was effectively profiled in UC-, ES-, and ER-EVs, with the latter providing the broadest miRNA coverage. Our results support the feasibility of using biobanked serum for EV-based research and further highlight the importance of selecting appropriate EV enrichment methods, since they influence both miRNA and protein cargo characterisation. Full article

The effects of pelleting a total mixed ration (TMR) for dairy sheep were investigated in an experiment involving 24 lactating Assaf ewes, which were assigned to two groups and fed the same TMR ad libitum, offered either in pelleted (PTMR group, n = 12) or in unpelleted form (CTMR group, n = 12). The experiment lasted 28 days, during which feed intake, eating behavior (including meal frequency and size, meal duration, eating rate, between-meal interval), and milk yield were recorded daily. Body weight (BW) was recorded on days 1 and 28 and milk samples were collected on days 1, 8, 15, 22 and 28 for milk composition analysis. Blood acid-base status was determined at the beginning and at the end of the trial. Ewes fed the CTMR diet exhibited (p < 0.05) a higher meal frequency and longer meal duration, along with a smaller meal size and slower eating rate. However, feed intake in this group was less than that in ewes fed PTMR only during the final two weeks of the experimental period. Total eating time was also longer (p < 0.001) in the CTMR group, whereas the average time between meals was shorter (p < 0.002). No differences (p > 0.05) were observed between dietary treatments in blood acid-base status, milk yield or milk composition. However, a diet x day interaction (p < 0.05) was detected for milk yield, as during the last 2 weeks of the experimental period the ewes fed the PTMR yielded more milk than those fed the CTMR. Feed conversion ratio did not differ between groups (p > 0.05), but body weight loss was greater in ewes fed the CTMR diet (−3.00 vs. −0.58 kg; p < 0.05). A trend toward improved feed efficiency was observed in the PTMR group when calculated based on milk yield corrected for that theoretically derived from the mobilization of body reserves (1.98 vs. 1.41 g DMI/kg milk; p = 0.077), with estimated contributions from body reserves of 485 g/day in the CTMR group and 70 g/day in the PTMR group. In conclusion, the use of pelleted total mixed rations in high-yielding dairy ewes enhances feed intake, feed efficiency, milk yield, and energy balance without adversely affecting milk composition or animal health in the short term. Full article

Effective recognition of potential threats is crucial for survival in aquatic habitats, especially for amphibian larvae. As a critically endangered species, understanding how the Chinhai spiny newt (Echinotriton chinhaiensis) larvae recognize novel predators provides key scientific support for developing targeted conservation strategies. Using the American bullfrog (Lithobates catesbeiana) as a representative predator, we examined larval responses by presenting isolated visual or chemical cues, as well as visual cues from predators of differing body sizes. We measured larval avoidance and activity. Results showed that with only visual cues, larvae quickly avoided the bullfrog and significantly reduced their activity compared to controls. With only chemical cues, activity decreased significantly, but avoidance behavior did not. When both large and small bullfrogs were present, larvae avoided the larger individual significantly more. These findings demonstrate that E. chinhaiensis larvae can use visual or chemical cues to detect novel potential predators and assess risk based on size to guide their avoidance behavior. This study provides key empirical data for understanding anti-predator responses in endangered caudate amphibians and informs conservation strategies against potential threats. Full article

Plastic pollution is a major global challenge, especially nanoplastics (NPs) emerging as harmful pollutants due to their small size, reactivity, and persistence in ecosystems. Among them, cigarette butts composed of cellulose acetate (CA) are one of the most widespread and hazardous sources of terrestrial NPs. In this study, the immunotoxic, biochemical, and histopathological effects of cellulose acetate nanoplastics (CA-NPs) derived from smoked cigarette butts (SCB-NPs), unsmoked cigarette butts (USCB-NPs), and commercial cellulose acetate (CCA-NPs) were evaluated on the earthworm Allolobophora caliginosa. Adult worms were exposed for 30 days to 100 mg/kg CA-NPs in artificial soil under controlled laboratory conditions. Results revealed that SCB-NPs induced the most pronounced alterations, including increased lysozyme and metallothionein levels, reduced phagocytic and peroxidase activities, and depletion of protein and carbohydrate reserves. Histological examination showed vacuoles in epithelial layer vacuolization, space between muscle fiber disruption, and degeneration in gut and body wall, especially under SCB-NP exposure. USCB-NPs and CCA-NPs caused milder but still significant effects. Taken together, these findings highlight that the high toxicity of SCB-NPs is due to the presence of combustion-derived toxicants (nicotine, polycyclic aromatic hydrocarbons, and heavy metals), which exacerbate oxidative stress, immune suppression, and tissue damage in soil invertebrates. This study underscores the ecological risk of cigarette butt-derived NPs and calls for urgent policy measures to mitigate their terrestrial impacts. Full article

Cumulus cells (CCs) are a distinct population of granulosa cells (GCs) that surround the developing and ovulated mammalian oocyte. The features of their structural organization and the expression pattern of key genes significantly affect oocyte viability. Changes in the functional activity of the nucleus are often expressed in changes in the structure of nuclear bodies (NBs), including Cajal bodies (CBs). The diagnostic protein of CBs is coilin, which maintains their structural integrity. Using fluorescent and electron microscopy, we examined maternal aging-associated changes in coilin pattern in mouse CCs. We found that older mice had a decrease in the number of coilin-positive bodies, while external transcriptome data analysis revealed no significant changes in Coil and Smn1 gene expression. We hypothesized that the age-related dynamics of coilin-containing bodies are determined not by changes in the expression level of key components of these bodies, but by age-related changes in CC metabolism. Considering that CCs are a by-product of IVF protocols, making them available for analysis in sufficient quantities, age-related changes in the number and size of coilin-positive NBs in CCs may serve as a promising biomarker for assessing ovarian functional aging. Full article

This study provides the first comparative analysis of the physicochemical and functional properties of oil body suspensions derived from different parts—entire fruit (EOB), peel (POB), and seed (SOB)—of Idesia polycarpa Maxim (IPM) during in vitro simulated gastrointestinal digestion. Results demonstrated that the properties of the different suspensions exhibited significant difference during digestion stages. The average particle size of all suspensions decreased, with the most significant reduction observed in POB (91.50%), which was attributable to its lower interfacial protein content and inferior stability. The absolute ζ-potential decreased in the model of gastric digestion (MGD) due to interface disruption but increased in the model of intestinal digestion (MID) following the adsorption of bile salts. Throughout the simulated digestion process, the protein hydrolysis degree, free fatty acid (FFA) release rate, reducing power, and inhibition rates against α-amylase and α-glucosidase all increased, concurrently with a decrease in DPPH radical scavenging activity. Notably, the POB suspension exhibited the highest extent of lipid digestion, with the highest cumulative FFA release rate (27.83%). In contrast, the SOB suspension showed the most significant enhancement in total reducing power (increased by 199.32% after intestinal digestion) and the highest α-glucosidase inhibitory activity. These findings clarify that the part source is a critical factor influencing the digestive properties and functional activities of IPM oil bodies, providing a theoretical foundation for the targeted application in functional foods. Full article

Spodoptera frugiperda (fall armyworm, FAW) has rapidly spread across Asia and Africa in recent years, with its seasonal long-distance migration ability serving as the biological basis driving its region-wide outbreaks. Although the migratory biology of FAW has been extensively studied, it remains unclear whether there is stable differentiation between migratory and non-migratory individuals. In this study, we revealed the significant differences in morphological parameters between migratory populations and laboratory-reared populations. The migratory populations exhibited a greater body length and width and forewing size, as well as a lower body weight, compared to the laboratory colony. After three generations of indoor rearing, the migrants’ morphology and flight capacity converged to the laboratory phenotype, indicating the existence of a migratory ecotype in FAW. Through further investigation, a method for identifying the migratory ecotype of FAW was proposed based on the corrected wing loading (WL) and forewing aspect ratio (FA), which was successfully applied to distinguish individuals of the migratory ecotype in field populations. Our results confirm that FAWs exhibit stable differentiation into a migratory ecotype, and using WL and FA provides a robust, field-deployable tool for regional FAW monitoring, early warning systems, and targeted FAW control. Full article

This study investigated the impact of post-activation performance enhancement (PAPE) on the parameters of the 3 min all-out test (3MT) in non-motorized tethered running, applying the concept of complex networks for integrative analysis. Ten recreational runners underwent anthropometric assessments, a one-repetition maximum test (1RM), a running ramp test, and 3MT trials under both PAPE and CONTROL conditions across five separate sessions. The conditioning activity consisted of two sets of six back squats at 60% 1RM. For each scenario, complex network graphs were constructed and analyzed using Degree, Eigenvector, PageRank, and Betweenness centrality metrics. In the PAPE condition, anthropometric parameters and parameters related to aerobic efficiency exhibited greater centrality, ranking among the top five nodes. Paired Student’s t-tests (p ≤ 0.05) revealed significant differences between conditions for end power (EP-W) (CONTROL: 407.83 ± 119.30 vs. PAPE: 539.33 ± 177.10 (effect size d = −0.84)) and end power relativized by body mass (rEP-W·kg⁻¹) (CONTROL: 5.38 ± 1.70 vs. PAPE: 6.91 ± 2.00 (effect size d = −0.76)), as well as for the absolute and relative values of peak output power, mean output power, peak force, and mean force. These findings suggest that PAPE alters the configuration of complex networks, increasing network density, and may enhance neuromuscular function and running economy. Moreover, PAPE appears to modulate both aerobic and anaerobic contributions to performance. These results highlight the importance of network-based approaches for advancing exercise science and providing individualized strategies for training and performance optimization. Full article

This study aims to predict Turkish consumer preferences for smart tablets on e-commerce platforms, focusing on consumer behavior in a developing country context. Key product attributes—such as processor speed, screen size, internal storage capacity, display resolution, RAM, processor core count, and battery capacity—were collected from major e-commerce websites in Turkey. Data analysis indicated that consumers predominantly prefer tablets with processor speeds between 1–3 GHz, internal storage capacities of 32–64 GB, 2–3 GB of RAM, screen sizes of 7–11 inches, and battery capacities between 5001–8000 mAh. To predict the most preferred tablet configurations, Artificial Neural Networks (ANNs), Deep Neural Networks (DNNs), and Random Forest (RF) models were developed and evaluated. Among these, the ANN model achieved the highest prediction accuracy, particularly regarding RAM preferences. The findings contribute to the growing body of research on consumer behavior modeling in emerging markets and may assist manufacturers and marketers in shaping strategic decisions related to product development and online retail strategies. Full article

The northern part of the Naomugeng Sag in the Erlian Basin shows favorable sandstone-type uranium mineralization in the lower member of the Saihan Formation. The sandstone thickness ranges from 39.67 to 140.36 m, with an average sand content ratio of 76.33%, indicating broad prospecting potential. This study focuses on samples from uranium ore holes and uranium-mineralized holes in the area, conducting grain-size analysis of uranium-bearing sandstones, heavy mineral assemblage analysis, and detrital zircon U-Pb dating to systematically investigate provenance characteristics. The results indicate that the uranium-bearing sandstones in the lower member of the Saihan Formation were primarily transported by rolling and suspension, characteristic of braided river channel deposits. The heavy mineral assemblage is dominated by zircon + limonite + garnet + ilmenite, suggesting that the sedimentary provenance is mainly composed of intermediate-acid magmatic rocks with minor metamorphic components. Detrital zircon U-Pb ages are mainly concentrated in the ranges of 294–217 Ma (Early Permian to Late Triassic), 146–112 Ma (Middle Jurassic to Early Cretaceous), 434–304 Ma (Late Carboniferous to Early Permian), and 495–445 Ma (Middle–Late Ordovician to Early Silurian). Combined with comparisons of the ages of surrounding rock masses, the provenance of the uranium-bearing sandstones is mainly derived from intermediate-acid granites of the Early Permian–Late Triassic and Middle Jurassic–Early Cretaceous periods in the southern part of the Sonid Uplift, with minor contributions from metamorphic and volcanic rock fragments. The average zircon uranium content is 520.53 ppm, with a Th/U ratio of 0.73, indicating that the provenance not only supplied detrital materials but also provided uranium-rich rock bodies that contributed essential metallogenic materials for uranium mineralization. This study offers critical insights for regional prospecting and exploration deployment. Full article

Background/Objectives: Blood renin and electrolyte levels are associated with blood pressure and hypertension. While sex-specific effects of such factors have been investigated, exact comparisons of the factors between the sexes have been scarce. Methods: Using cohort data from the Korean Genome and Environmental Study (KoGES), the study population that did not receive any interventions for blood pressure was determined. Blood levels of renin and electrolytes, including sodium, potassium, chloride, and calcium, were used to test their relationship with hypertension and blood pressure. Confounding variables, including age, body mass index (BMI), waist-to-hip ratio, family history of hypertension, alcohol consumption, smoking, blood urea nitrogen, creatinine, protein, and albumin levels, were used for adjustment in the multiple regression analysis. Results: In the single-variable analysis, sodium levels were significantly higher in the female population, and showed strong associations in the multiple regression analysis. Blood potassium levels showed no significant sex-specific differences. Among these factors, renin showed the greatest significance in both the total population and sex-specific groups. Moreover, in the development of hypertension, the effect size of renin was significantly different between sexes. Additionally, BMI tended to show stronger associations in females. Conclusions: This study identified sex-specific differential effects of renin and other electrolytes that are important in the pathophysiology of blood pressure. These findings provide clues for the more precise management of hypertension. Full article

Background: Whole-body electromyostimulation (WB-EMS) is a training technology that enables the stimulation of all the main muscle groups with dedicated intensity, attracting many sportspeople and athletes of various disciplines. The aim of this systematic review and meta-analysis was to determine the effect of WB-EMS on maximum jump, sprint, and agility performance in exercising cohorts. Methods: Systematic literature research of five electronic databases up to March 2025, according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) scheme and including interventional trials with at least one WB-EMS and one active or inactive control group that focus on maximum jump, sprint, and agility performance in sportspeople and athletes. Applying a random-effect model that includes the inverse heterogeneity model (IVhet), effects sizes (SMD), and calculates 95% confidence intervals (95%-CIs). Subgroup analyses addressed superimposed WB-EMS application vs. underlying voluntary exercise. Results: Twelve studies with 145 participants in the WB-EMS and 148 participants in the control group were included. Most trials on jumping (10 of 12) and all trials on sprinting and agility performance applied superimposed WB-EMS protocols compared with underlying voluntary exercise. We observed no significant positive effects of WB-EMS on maximum jump (12 studies, SMD: 0.34, 95%-CI: −0.35 to 1.03), sprint (8 studies, SMD: 0.07, 95%-CI: −0.66 to 0.80), and agility performance (5 studies, SMD: −0.11, 95%-CI: −1.28 to 1.06). Heterogeneity between the trial results was considerable (I² > 80%) in all cases. Conclusions: Superimposed WB-EMS compared to the underlying predominately near-maximum to maximum intensity voluntary exercise provides only limited additional effects on jumping, sprinting, and ability performance. Full article

Background/Objectives: Intermittent fasting and ketogenic dietary approaches are increasingly investigated for their potential metabolic benefits in obesity. However, their long-term neuroendocrine effects—particularly those involving Orexin-A, a peptide implicated in energy regulation—remain poorly understood. The objective of this study was to compare the long-term metabolic, inflammatory, and orexinergic responses to different dietary strategies in adults with obesity. Methods: In this 12-month randomized, three-arm trial, 30 adults with obesity (BMI ≥ 30 kg/m²) were randomly assigned (1:1:1) to a hypocaloric ketogenic diet (KD), a 16:8 time-restricted eating regimen (TRF16:8), or a 5:2 intermittent fasting protocol (ADF5:2). Anthropometric parameters, body composition, fasting glucose, lipid profile, inflammatory cytokines (CRP, IL-6, TNF-α, IL-10), and plasma Orexin-A levels were assessed at baseline and every 3 months. Dietary adherence was monitored through structured logs and monthly assessments. Statistical analyses included repeated-measures models with sensitivity analyses adjusted for age and sex. Results: All participants completed the intervention. The ketogenic diet produced the largest sustained reductions in BMI, fat mass, fasting glucose, and total cholesterol over 12 months. TRF16:8 elicited more rapid early metabolic improvements and showed the most consistent longitudinal increase in Orexin-A levels. The ADF5:2 protocol resulted in moderate improvements across outcomes. In all groups, increases in Orexin-A were associated with markers of improved metabolic flexibility and reduced inflammation; however, mediation analyses were exploratory and non-causal. Between-group differences remained significant for fat mass, glucose, and Orexin-A trajectories after correction for multiple comparisons. Conclusions: The ketogenic diet was associated with the most pronounced long-term metabolic improvements, whereas 16:8 time-restricted eating yielded faster early responses and the most stable enhancement in Orexin-A levels. These findings indicate distinct metabolic and neuroendocrine adaptation profiles across dietary strategies. Given the small sample size, results should be interpreted cautiously, and larger trials are warranted to clarify the role of Orexin-A as a potential biomarker of dietary response in obesity. Full article

Background/Objectives: Stereotactic body radiation therapy (SBRT) is widely used for small lung tumors, but the physics of electron transport in low-density lungs remains incompletely understood. This study quantifies the effect of lung density on dosimetry for small lesions. Methods: To study the dosimetric parameters a pseudo patient option was chosen. A lung SBRT patient with a central lesion was modeled in the Eclipse treatment planning system using the AAA algorithm. Three target sizes (1.0, 1.5, and 2.0 cm) were planned with lung densities overridden from 0.1 to 1.0 g/cm³. Standard SBRT constraints were applied, and dosimetry indices (CI, HI, GI), maximum dose, and MU/Gy were recorded to see the pattern. Results: Dose–volume histograms (DVHs) showed marked dependence on both lesion size and lung density. Lower densities produced higher maximum doses (up to 135% at 0.1 g/cm³), steeper DVH tails, and significantly increased MU/Gy. Conformity was achievable in all cases, but at the cost of degraded homogeneity and gradient indices. At higher density (1.0 g/cm³), maximum dose values fell to 108–110% which is typical in non-lung cases. Conclusions: SBRT planning in low-density lungs requires substantially higher MU and results in greater dose spillage despite acceptable conformity. These findings highlight the importance of considering density effects when comparing clinical outcomes across institutions and selecting optimal plans, where minimizing MU/Gy may reduce unnecessary dose burden. Full article