Search Results (8,098)

Conventional polycarboxylate superplasticizers (PCEs) suffer from uncontrollable adsorption, characterized by rapid initial uptake and limited subsequent release, which causes pronounced slump loss, particularly at elevated temperatures where hydration accelerates and dispersion efficiency declines. To overcome these limitations, we developed a series of chitosan-based upper critical solution temperature (UCST) responsive superplasticizers (Thermo-PCE_x, UCST = 40–42 °C) capable of temperature -adaptive dispersion during cement hydration. A vinyl-functionalized chitosan macromonomer (uCS-g-T₈) was synthesized by reacting cetyl polyoxyethylene glycidyl ether with chitosan, followed by methacrylate modification, and then copolymerized with acrylic acid and isopentenol polyoxyethylene ether to yield Thermo-PCE_x with tunable sugar-to-acid ratios. The polymers exhibited clear UCST-type phase-transition behavior in aqueous solution. When incorporated into cement paste, Thermo-PCE_x enabled continuous fluidity enhancement at 25 °C (<UCST), with increases of 43.6%, 52.9%, 62.3% and 63.6%, after 180 min for x = 0.5, 1, 1.5 and 2, respectively. Adjusting dosage and composition further regulated setting time, improved rheological stability, and enhanced mechanical strength. These findings demonstrate a viable pathway for designing bio-based, temperature-responsive superplasticizers with self-adaptive dispersibility for sustainable cement technologies. Full article

This research assesses a triphasic extraction technique for the sequential retrieval of C-phycocyanin (C-PC) and polyhydroxybutyrate (PHB) from a thermotolerant Potamosiphon sp. strain. A two-stage design-of-experiments methodology was employed (Minimum Run Resolution V factorial design involving six variables, followed by a central composite design (CCD)) to optimize the chosen region. In the factorial stage, PHB ranged from 109.396 to 168.995 mg/g, and the model was significant (F = 22.63, p < 0.0001). Freeze-milling and vortexing were identified as critical elements, underscoring the importance of the t-butanol × (NH₄)₂SO₄ interaction for phase selectivity. The CCD concentrating on freeze-milling and vortex cycles yielded a robust quadratic model (F = 78.18, p < 0.0001), forecasting a peak PHB yield of 191.82 mg/g at six freeze-milling cycles and three vortex cycles (desirability 0.921), while maintaining t-butanol at 19.9 mL, t-butanol concentration at 94.7% (v/v), (NH₄)₂SO₄ at 49.9% (w/v), and vortex duration at 1.2 min. Ten separate trials validated the model’s accuracy, yielding an observed PHB of 191.5 mg/g, which closely matched the model’s prediction. The platform facilitates an integrated downstream process in which C-PC is recovered under moderate conditions before triphasic partitioning. This enables the simultaneous valorization of pigment, lipophilic fraction, and biopolymer inside a unified cyanobacterial biorefinery process. Full article

Objective: This study aimed to systematically evaluate the effects of hypoxic exercise at different oxygen concentrations on body composition, glucose metabolism, and lipid metabolism in individuals with obesity, and to explore potential optimal oxygen concentration ranges to inform personalized hypoxic exercise prescriptions. Methods: We searched databases including the Cochrane Library, PubMed, Web of Science, Embase, and CNKI for randomized controlled trials and pre-post studies on hypoxic exercise interventions in obese populations published before 30 June 2025. A network meta-analysis was performed using Stata 18.0 software to assess the effects of various oxygen concentrations on BMI, FBG, FINS, HOMA-IR, TG, LDL-C, and HDL-C. Subgroup analyses were conducted to explore sources of heterogeneity. Results: Fourteen studies with a total sample size of 189 participants were included. The meta-analysis revealed that exercise in a moderate hypoxic environment (12–14% FiO₂) significantly reduced BMI, FBG, TG, and LDL-C. Notably, hypoxic exercise did not show a statistically significant effect on HDL-C. In contrast, a higher oxygen concentration (≥15% FiO₂) was more effective for improving FINS and HOMA-IR. Conclusion: Hypoxic exercise can significantly improve the body composition, glucose metabolism and lipid metabolism indicators of obese people. Tailored exercise in specific hypoxic environments provides preliminary evidence for a non-pharmacological intervention strategy in obesity management. Full article

The convergence of Vehicular Ad Hoc Networks (VANETs) and the Internet of Things (IoT) is giving rise to the Internet of Vehicles (IoV), a key enabler of next-generation intelligent transportation systems. This survey provides a comprehensive analysis of the architectural, communication, and computing foundations that support VANET–IoT integration. We examine the roles of cloud, edge, and in-vehicle computing, and compare major V2X and IoT communication technologies, including DSRC, C-V2X, MQTT, and CoAP. The survey highlights how sensing, communication, and distributed intelligence interact to support applications such as collision avoidance, cooperative perception, and smart traffic management. We identify four central challenges—security, scalability, interoperability, and energy constraints—and discuss how these issues shape system design across the network stack. In addition, we review emerging directions including 6G-enabled joint communication and sensing, reconfigurable surfaces, digital twins, and quantum-assisted optimization. The survey concludes by outlining open research questions and providing guidance for the development of reliable, efficient, and secure VANET–IoT systems capable of supporting future transportation networks. Full article

Background: Endocrine disturbances are increasingly recognized as components of long COVID, yet long-term data remain limited. This study evaluated the prevalence of dysglycemia and thyroid autoimmunity four years after SARS-CoV-2 infection in adults without previously known endocrine disease. Methods: We conducted a retrospective longitudinal 4-year evaluation of adults hospitalized for COVID-19 between 2020 and 2021. Of 1009 eligible patients without prior diabetes or thyroid disease, 96 completed a standardized 4-year post-infection evaluation. Acute-phase data included COVID-19 severity, admission glucose, inflammatory markers, imaging findings, and treatments. The 4-year evaluation comprised fasting plasma glucose, thyroid function tests, anti-thyroid antibodies (anti-TPO, anti-Tg), and thyroid ultrasonography. Baseline HbA1c, thyroid autoantibodies, and thyroid imaging were not available. Results: At four years post-infection, 27.1% of patients exhibited dysglycemia compatible with type 2 diabetes mellitus, 41.6% showed thyroid autoimmunity, and 15.6% presented with both conditions. Overall, 47.9% developed at least one endocrine alteration. Admission hyperglycemia strongly predicted long-term dysglycemia (OR 6.67; 95% CI: 1.45–30.58), and diabetes prevalence increased with acute disease severity. Thyroid autoimmunity was frequent but not associated with initial COVID-19 severity. Conclusions: Four years after SARS-CoV-2 infection, a substantial proportion of patients exhibited persistent metabolic and autoimmune alterations, supporting a long COVID immunometabolic phenotype. In the absence of baseline endocrine data, the reported findings reflect long-term endocrine alterations identified at the 4-year evaluation, with a potential role of SARS-CoV-2 infection. These findings highlight the importance of baseline metabolic and thyroid assessment—including HbA1c and thyroid autoantibodies—in hospitalized COVID-19 patients and underscore the need for structured long-term endocrine monitoring. Full article

The microevolutionary pathways and molecular mechanisms by which the important pathogen Vibrio parahaemolyticus acquires resistance in the aquatic environment under continuous selective pressure from quinolone antibiotic residues are still unknown. Here, the study successfully simulated the long-term pressure of antibiotic residues in aquaculture by susceptible V. parahaemolyticus (VPD14) which was isolated from seafood, to a 30-day in vitro induction with sublethal concentrations of levofloxacin, which yielded the mutants (VPD14M). A phenotypic analysis revealed that VPD14M exhibited resistance to ampicillin, levofloxacin and ciprofloxacin, compared to VPD14. These changes were accompanied by adaptations, including a decreased growth rate and an enhanced biofilm formation capacity. Whole-Genome Sequencing identified that the acquired resistance was primarily attributable to key point mutations in three Quinolone Resistance-Determining Regions (QRDRs). Specifically, a G → T substitution at nucleotide position 248 in the gyrA gene, leading to a serine-to-isoleucine substitution at the 83rd amino acid position (Ser83Ile) of the DNA gyrase subunit A; a C → T substitution at position 254 in the parC gene, resulting in a serine-to-phenylalanine substitution at position 85 (Ser85Phe) of the topoisomerase IV subunit A; and a C → T substitution at position 2242 in the gyrB gene, causing a proline-to-serine substitution at position 748 (Pro748Ser) of the DNA gyrase subunit B. Collectively, the study demonstrated that sublethal antibiotic levels rapidly drive quinolone resistance in V. parahaemolyticus, and the specific mutations identified offer critical support for resistance monitoring and seafood safety alerts. Full article

The development of effective vaccines is a critical step in effective disease management in aquaculture. This study introduces a novel Multiepitope Chimeric Vaccine (MCV) designed to enhance immunity in lumpfish against Vibrio anguillarum, Aeromonas salmonicida, Yersinia ruckeri, Moritella viscosa and Piscirickettsia salmonis. Epitopes from major toxins and virulence factors were selected to construct the MCV in silico. Structural validation showed 96.7% of residues in favored regions, confirming stability. Codon optimization yielded a G+C content of 54.61% and a Codon Adaptation Index (CAI) of 1, indicating strong expression potential in Escherichia coli. Immune simulations predicted robust B- and T-cell responses, suggesting induction of both humoral and cell-mediated immunity. Experimental vaccination of lumpfish (n = 35/group) with E. coli-expressed MCV led to significantly elevated IgM levels at four- and six-weeks post-vaccination (p ≤ 0.05, p ≤ 0.01, respectively). Upon pathogen challenge, vaccinated groups showed delayed mortality against V. anguillarum, A. salmonicida, and P. salmonis, though survival differences were not statistically significant across treatments. These results highlight the immunogenicity potential of the MCV and its capacity to elicit targeted immune responses. However, further optimization is necessary to improve protective efficacy and survival outcomes. This study lays a foundation for the application of multiepitope vaccines in lumpfish aquaculture and supports ongoing efforts toward sustainable disease control strategies. Full article

Two marine bacteria, designated strains 4Alg 33^Tand 3Alg 14/1, were isolated from brown (Saccharina japonica) and green (Ulva fenestrata) macroalgae, respectively. These isolates were aerobic Gram-negative rods exhibiting a gliding motility. The 16S rRNA gene phylogenetic analysis clearly showed their belonging to the genus Formosa, the family Flavobacteriaceae, and the phylum Bacteroidota. The closest relatives of the new strains were Formosa undariae KCTC 32328^T (99.05%), Formosa arctica IMCC 9485^T (99.05%) and Formosa agariphila KMM 3901^T (98.96%). The ANI and dDDH values between the two new strains were 97.9% and 85.3%, respectively. The AAI values between 4Alg 33^T and Formosa type strains ranged from 80.1% (Formosa haliotis MA1^T) to 91.4% (F. undariae KCTC 32328^T). The cellular fatty acid and polar lipid profiles of the new isolates were generally similar to those of the type strains of Formosa species. The genomes of 4Alg 33^T and 3Alg 14/1 are represented by a circular chromosome of 4,157,724 bp and 4,316,096 bp in size with 3536 and 3879 protein-coding genes, respectively. They shared a DNA G+C content of 34.3 mol% and comprised four rrn operons. The pangenome of the genus Formosa belongs to the open type and is characterized by an abundance of CAZymes. The proportion of CAZyme genes in novel genomes was more than 5%, with a prevalence of glycoside hydrolase genes, suggesting great potential for utilizing marine-derived polysaccharides. Based on the results of polyphasic characterization, the two algal isolates represent a distinct species lineage within the genus Formosa, for which we propose the name Formosa bonchosmolovskayae sp. nov. with the type strain 4Alg 33^T (= KMM 3963^T = KCTC 72008^T). In addition, we have proposed to transfer Formosa maritima Cao et al. 2020 and Bizionia arctica Li et al. 2015 to the genus Xanthomarina Vaidya et al. 2015 as Xanthomarina maritima comb. nov. and Xanthomarina arctica comb. nov. based on a combination of the genomic and phenotypic characteristics. Full article

The dry reforming of methane (DRM) is a kind of technology used for achieving resource utilization. In this paper, different Ni/SBA-15 catalysts were prepared by adjusting the pH of the impregnation solution and applying it during the DRM reaction. The relationship between the structure and catalytic performance of the catalyst was analyzed by characterization methods such as BET, XRD, H₂-TPR, H₂-TPD, XPS, TG, and Raman. The research results indicated that the dispersion of the catalyst’s active components could be regulated by changing the pH value of the impregnation solution. Among them, the Ni/SBA-15-2 catalyst exhibits good metal dispersion, and significantly enhances the activity of the catalyst. In addition, it also has strong CO₂ adsorption capacity, which improves the stability of the catalyst. At 700 °C, the conversions of CH₄ and CO₂ of the catalyst are 51% and 60%, respectively. Full article

Hepatitis B virus (HBV) remains a major global health threat because covalently closed circular DNA (cccDNA) persists in hepatocytes and limits the efficacy of current antiviral therapies. Effective HBV research and drug screening require culture models that recapitulate the complete viral life cycle and allow for quantitative monitoring of replication. In this study, an 11-amino acid luminescent reporter, HiBiT, was inserted at multiple sites within the preS1 region of a genotype D HBV genome, and the C terminus of preS1 was identified as optimal for maintaining robust replication. We then established HepG2-B4 cells stably replicating HiBiT-HBV with HiBiT at the preS1 C terminus. Extracellular HiBiT activity and supernatant levels of HBV-DNA, HBsAg, and HBcAg increased continuously until day 42 and were reduced by nucleos(t)ide analog treatment, and cccDNA was confirmed by Southern blot analysis. Supernatants from HepG2-B4 cells infected naïve HepG2-NTCP cells and primary human hepatocytes, as shown by extracellular HiBiT activity. Transcriptome analysis revealed distinct gene expression changes in HepG2-B4 cells compared with parental HepG2 cells. These findings indicate that the HepG2-B4 system provides a rapid, quantitative, and scalable platform for HBV replication and infection studies and is suitable for mechanistic investigations and high-throughput antiviral screening. Full article

Objectives: The study explores the comparative effects of atorvastatin (ATV), policosanol (PCO), and their combination (ATV+PCO) on metabolic stress and associated organ damage in hyperlipidemic–hyperglycemic zebrafish. Methodology: Hyperlipidemic–hyperglycemic zebrafish (n = 112) were segregated into four groups (n = 28/group) and fed either with a high-cholesterol (HC, 4% w/w) and a high-galactose (HG, 30% w/w) diet, HCHG diet with policosanol (PCO, 0.1% w/w), atorvastatin (ATV, 0.1% w/w), or ATV+PCO (0.1% w/w each). After 12 weeks of supplementation, survivability and embryo production were assessed, along with biochemical and histological examinations of various organs across the groups. Results: Following a 12-week dietary regime, compromised zebrafish survival probability (0.75) was observed in the ATV group, compared to the PCO group (0.89), which increased to 0.82 with combined intake of ATV+PCO. A significantly greater effect of ATV than PCO was observed in reducing the HCHG elevated TC, TG, and LDL-C levels. However, compared to the ATV, a significantly higher HDL-C/TC (%) ratio was spotted in the PCO. Unlike individual supplementation (ATV or PCO), a combined intake (ATV+PCO) proved highly effective in counteracting dyslipidemia, especially by augmenting the HDL-C/TC (%) ratio. Interestingly, no protective effect of ATV was observed against elevated blood glucose levels, oxidative stress, or diminished antioxidant markers. Whereas ATV, in combination with PCO, significantly reduced blood glucose and MDA levels and elevated sulfhydryl content and antioxidant variables (ferric iron reduction ability and paraoxonase activity). ATV+PCO supplementation effectively mitigated HCHG-induced fatty liver, inflammation, ROS generation in the kidney, and brain senescence. Likewise, ATV+PCO improved reproductive health, elevating spermatozoa counts and embryo production ability of zebrafish. Notably, ATV+PCO supplementation significantly inhibited the HCHG-induced eye damage and demyelination in the retina, while ATV alone failed to establish any such changes. Conclusions: The study indicates the combinational therapy of ATV+PCO may offer a possible treatment to counter the metabolic stress and associated events in hyperlipidemic–hyperglycemic zebrafish. Full article

Biallelic variants in NDUFS6, encoding an accessory subunit of mitochondrial complex I, were initially associated with lethal neonatal mitochondrial encephalopathy and Leigh syndrome. Recent studies have demonstrated that NDUFS6 variants can also cause childhood- or adolescent-onset axonal neuropathy and Charcot–Marie–Tooth (CMT)-like phenotypes, indicating marked clinical heterogeneity. Here, we report a patient with a novel homozygous truncating NDUFS6 variant presenting with a neuropathy-predominant phenotype accompanied by epilepsy, in the absence of neonatal metabolic decompensation. The patient presented with childhood-onset progressive gait abnormality, pes cavus deformity, distal weakness requiring Achilles tendon-release surgery, pyramidal signs, urinary incontinence, and focal epileptiform EEG findings. Brain MRI showed bilateral lenticular nucleus abnormalities. Whole-exome sequencing identified a novel homozygous NDUFS6 nonsense variant (c.130C>T, p.Gln44*). While neuropathy has previously been reported primarily in association with the recurrent splice-site variant c.309+5G>A, our findings demonstrate that truncating NDUFS6 mutations can also underlie a neuropathy-predominant phenotype. Together with previously published cases, our findings support a phenotypic heterogeneity ranging from lethal encephalopathy to neuropathy and reinforce the role of NDUFS6 as a disease-causing gene for inherited peripheral neuropathy. These data support inclusion of NDUFS6 among established neuropathy and Charcot–Marie–Tooth genes. Full article

High-energy Ni-rich layered cathodes are critical for next-generation lithium-ion batteries yet remain limited by severe interfacial degradation and thermal vulnerability under high-voltage operation. In this work, a robust spinel-layered heterostructure is constructed by encapsulating LiNi₀.₈Co₀.₁Mn₀.₁O₂ (NCM811) with a LiNi₀.₅Mn₁.₅O₄ (LNMO) spinel shell via a scalable sol–gel route. Structural characterizations confirm that the coating maintains the secondary-particle architecture, while X-ray photoelectron spectroscopy reveals a chemically reconditioned interface, achieved by the scavenging residual lithium species and suppressing of rock-salt-like surface reconstruction. Consequently, the optimized 4 wt% LNMO@NCM811 electrode demonstrates significantly enhanced high-voltage (2.8–4.4 V) stability, maintaining 41.84% of its initial capacity after 200 cycles compared to only 15.75% for the pristine sample. Crucially, thermogravimetric-differential scanning calorimetry (TG-DSC) uncovers the kinetic origin of this safety improvement: the spinel shell alters the thermal decomposition pathway, delaying the 10% mass loss temperature (T_10%) from 515.2 °C to 716.6 °C and suppressing the total exothermic heat release from 208.3 J g⁻¹ to 81.5 J g⁻¹. Collectively, these results demonstrate that the co-free spinel encapsulation is a dual-functional strategy to simultaneously stabilize surficial chemistry and intrinsically enhance the thermal safety of Ni-rich cathodes for carbon-neutral energy storage applications. Full article

Mitochondria are the energy factories of a cell and mitochondrial morphology, quantity, membrane potential, and DNA copy number can change depending on metabolic requirements and/or genetic defects. Different mutations in mitochondrial DNA might affect mitochondrial morphology and membrane potential differently. In this study we investigated mitochondrial morphology and membrane potential in vitro in mesoangioblast-derived human myotubes harboring a pathogenic mtDNA mutation and analyzed mitochondrial behavior following fusion with healthy mesoangioblasts. Myotubes were differentiated in vitro from mesoangioblasts obtained from two mitochondrial myopathy patients, M02 (96% m.3271T>C) and M11 (73% m.3291T>C), and from a functionally healthy male control, M06 (3% m.3243A>G). On day 5 of differentiation, healthy male mesoangioblasts (mM06) were added to mutant myotube cultures to allow cell fusion. On day 11, mitochondrial morphology and membrane potential were assessed by three-dimensional live-cell imaging using spinning disk confocal microscopy with tetramethylrhodamine methyl ester (TMRM). Following live imaging, cells were fixed and subjected to Y-chromosome fluorescence in situ hybridization (FISH), enabling identification and retrospective analysis of hybrid (i.e., fused with male control mesoangioblasts) and non-hybrid (i.e., not fused with these control mesoangioblasts) myotubes within the same imaging fields. Quantitative image analysis at the level of individual myotubes revealed that, when normalized to sarcoplasmic volume, mitochondrial volume, object number, and membrane potential did not differ between mutant and control myotubes despite heteroplasmy levels exceeding 70%. Fusion of healthy mM06 mesoangioblasts did not impair myotube formation and resulted in redistribution of mitochondrial content without an increase in mitochondrial object number, consistent with integration of donor mitochondria into the existing mitochondrial network. Across conditions, mitochondrial parameters were strongly influenced by myotube size, underscoring the importance of accounting for biological variation when quantifying mitochondrial features. Together, these findings demonstrate that high mtDNA mutation loads do not necessarily alter mitochondrial morphology or membrane potential under standard in vitro differentiation conditions and provide mechanistic insight into mitochondrial behavior following mesoangioblast fusion in human myotubes. Fusion of healthy mesoangioblasts supports integration of donor mitochondria into the existing network without compromising myogenesis, consistent with mitochondrial mixing rather than replacement. Full article

We investigated whether antipsychotic treatment response was influenced by the C677T and A1298C polymorphisms of methylenetetrahydrofolate reductase (MTHFR), and A66G of methyltetrahydrofolate–homocysteine methyltransferase reductase (MTRR)—genes central to folate and homocysteine metabolism and methylation, pathways often altered in schizophrenia patients. To our knowledge, no study has examined associations of C677T and A1298C with changes in schizophrenia symptom severity after antipsychotic treatment, while studies on metabolic outcomes remain sparse and inconsistent. The MTRR A66G has been assessed only once for metabolic parameters—not symptom severity—and sex-stratified analyses are lacking for all polymorphisms. A total of 186 antipsychotic-naïve first-episode or nonadherent chronic psychosis patients and 242 controls were genotyped using PCR-RFLP. Clinical assessments—including Positive and Negative Syndrome Scale (PANSS) scores, PANSS factor scores, and metabolic parameters (fasting plasma lipids and glucose levels, and body mass index)—were conducted at baseline and after 8 weeks. Genotype and allele frequencies did not differ between patients and controls. Significant associations emerged only for symptom changes, specifically within PANSS factor domains, in a sex-dependent manner. Female MTHFR 1298-A allele carriers (AA and AC) showed greater improvement in PANSS negative factor scores, whereas male MTRR 66-G allele carriers (GG and AG) showed reduced improvement in PANSS cognitive factor scores. Effect sizes were strong to very strong, with relatively modest contributions. MTHFR A1298C and MTRR A66G have sex-dependent impacts on symptomatic improvement—but not metabolic outcomes—after antipsychotic treatment. Accordingly, folate–homocysteine genetic markers and sex-specific factors can guide the development of personalized antipsychotic treatment approaches. Full article