Search Results (5,692)

Fe–Ce-MOFs with a rice-grain-like morphology were successfully obtained via hydrothermal synthesis, where ferric chloride (FeCl₃) and cerium nitrate [Ce(NO₃)₃] served as the metal precursors and terephthalic acid (PTA) acted as the organic coordinating ligand. The effects of the Fe:Ce molar ratio, (Fe/Ce):PTA ratio, reaction duration, and synthesis temperature on adsorption performance of the Fe–Ce-MOFs were systematically studied. A comprehensive evaluation was conducted on the removal of fluoride and phosphate ions from aqueous solution. Under optimized conditions, the maximum adsorption capacities of Fe–Ce-MOFs for fluoride and phosphate reached 183.82 mg g⁻¹ and 110.74 mg g⁻¹, respectively. Adsorption data correlated strongly with the Langmuir isotherm, were best represented by the pseudo-second-order kinetic model, and were identified as a spontaneous and endothermic reaction. After three regeneration cycles, the adsorbent still maintained high removal efficiencies for fluoride (85.17%) and phosphate (47.34%) removal. In practical wastewater treatment, removal efficiencies of 92.04% for fluoride and 93.87% for phosphate were achieved. Mechanistic studies revealed that fluoride removal was dominated by electrostatic attraction and hydroxyl–fluoride ion exchange, whereas phosphate removal was attributed to the generation of inner-sphere complexes involving PO₄³⁻ and Fe/Ce active sites. This study not only elucidates the synergistic mechanism of fluoride and phosphate elimination by Fe–Ce-MOFs but also provides theoretical guidance and application prospects for the development of highly efficient and stable bimetallic MOF-based adsorbents for environmental remediation. Full article

This article examines the murals of Dabaoji Palace in Lijiang during the Ming Dynasty, analyzing their tripartite religious spatial configuration to elucidate how the Mu chieftains visualized and asserted their political and cultural agency as local elites operating at the empire’s south-western frontier within the framework of imperial authority. Through an interdisciplinary methodology that combines textual research, spatial analysis, and iconographic interpretation, the study identifies and theorizes a threefold religious spatial model in Dabaoji Palace: a Daoist facade symbolizing allegiance to the Ming court, a Han Buddhist-dominated central hybrid space asserting political authority and local agency in cultural mediation, and a secluded Tibetan esoteric sanctum providing sacral legitimacy for frontier governance. This tripartite spatial configuration is interpreted as a strategic localization of religious space that embodies the Mu chieftains’ response to Ming frontier administration. By highlighting the Sino-Tibetan artistic synthesis in the murals, the paper argues that the Mu chieftains, as Naxi elites in a borderland context, crafted a visual narrative of frontier rule that both reinforced their ties to the Ming court and forged a distinctive local identity. In doing so, their initiatives contributed to the cultural integration of multi-ethnic communities in northwest Yunnan and laid the foundation for the formation of a shared national identity. Full article

Unmanned aerial vehicles play a significant role in the automated inspection of future smart cities, which can ensure the safety of urban residents’ lives and property and the normal operation of the city. However, there may be situations where small targets in drone images are difficult to detect and the detection is unclear when the targets are similar to the environment. In response to the above problems, this paper proposes a real-time target detection method for unmanned aerial vehicle images based on Transformer. Aiming at the problem of small targets lacking visual features, a feature fusion module was designed, which realizes the interaction and fusion of features at different levels and improves the feature expression ability of small targets. Aiming at the problem of discontinuous features when the target is similar to the environment, a multi-head attention algorithm based on Transformer is designed. By extracting the context information of the target, the recognition ability of targets similar to the environment is improved. On the target image dataset collected by unmanned aerial vehicles in smart cities, the detection accuracy of the method described in this paper has reached 85.9%. Full article

CaMK4, a calcium/calmodulin-dependent protein kinase, is an important mediator of cellular signal transduction, yet its role in the regulation of skeletal muscle satellite cells (MuSCs) in goats has remained unclear. In this study, CaMK4 overexpression and knockdown models were established, and integrated transcriptomic and proteomic analyses were performed to systematically elucidate its regulatory network. CaMK4 overexpression altered key pathways associated with cell proliferation and muscle development, including cAMP, PI3K-Akt, and actin cytoskeleton regulation, while proteomic data highlighted calcium signaling and JAK-STAT pathways. Conversely, CaMK4 knockdown enhanced MuSC proliferation by upregulating cell cycle-related genes and proteins. Integrated analyses further identified that Galectin-9 (LGALS9), Collagen triple helix repeat containing-1 (CTHRC1), Hyaluronan Synthase 1 (HAS1), and L-Threonine Dehydrogenase (TDH) may serve as potential key nodes regulating cell cycle, apoptosis, and metabolic control. This suggests a regulatory role for CaMK4. Collectively, these findings provide a mechanistic framework for understanding CaMK4 function in ruminant muscle development and may offer insights for improving goat muscle growth, meat quality traits, and production efficiency. Full article

Heading is a crucial navigation parameter for high-precision flight guidance. Since the heading changes rapidly while unmanned aerial vehicles (UAVs) track great ellipse routes in polar regions, it is necessary to implement special guidance algorithms. This article presents a high-precision polar flight guidance algorithm for fixed-wing UAVs along great ellipse routes based on heading prediction. Specifically, a globally applicable definition of polar grid frame was proposed. On this basis, a novel flight guidance algorithm based on heading prediction was developed. Therein, the calculation method for grid azimuth on great ellipse routes based on the WGS-84 ellipse model was derived in detail, realizing accurate heading estimation and prediction. Subsequently, the predicted grid heading was utilized to tackle the difficulty of heading changes, enabling the UAV to predict and adjust its heading in advance. Moreover, an adaptive predicted lead-time adjustment strategy based on fuzzy decision-making was introduced to improve the prediction accuracy under challenging situations, and an enhanced particle swarm optimization algorithm was employed to determine the hyperparameters in fuzzy rules. To verify the effectiveness of the proposed algorithm, extensive simulations were operated using the Monte Carlo method, and the proposed algorithm demonstrated 3–4 times higher guidance accuracy compared to conventional algorithms. Full article

Background. The dense hyaluronan (HA)-rich stroma in solid tumors can prevent effective tumor growth inhibition by hindering drug delivery and immune cell infiltration. However, the degradation of HA alone by systemic delivery of hyaluronidase has not shown significant improvement of tumor growth inhibition. Objectives/Methods. In this study, we targeted hyaluronan degradation by using antibody–enzyme (AbEn) molecules by fusing antibodies to a recombinant human hyaluronidase (HYAL). Results. The AbEn molecules were stable, retained both antigen-binding and enzymatic activities, and demonstrated a prolonged serum half-life of 132 h in rodent models. In the HA-rich colorectal cancer model, the cancer-associated fibroblast (CAF)-directed AbEn, TAVO423 (FAP × LRRC15 × HYAL trispecific antibody) achieved greater intratumoral HA depletion resulting in superior tumor growth inhibition compared to untargeted HYAL. Furthermore, the combination of TAVO423 in combination with other solid tumor cell targeting modalities such as 5-fluorouracil (5-FU), anti-PD-L1 monoclonal antibody, a PD-L1 × CD3 bispecific T-cell engager (TCE), and a CD318-targeting antibody–drug conjugate (ADC) all demonstrated enhanced tumor growth inhibition (TGI) values of 49–67% as compared to the respective monotherapy TGI values of 1–28%. In addition, TAVO423 improved the antitumor response of a 5T4 × CD3 TCE with an increase in TGI from 73% to 92% in an in vivo HA-rich pancreatic cancer model. The CAF-targeted HA degradation mediated by TAVO423 also reversed immune exclusion by increasing the density of CD8⁺ tumor-infiltrating lymphocytes (TILs) by 6–9-fold and synergized with PD-1 blockade to enhance TGI from 33% to 51% in an in vivo immunocompetent EMT-6 breast cancer model. Conclusions. These findings demonstrated the broad potential of the modular AbEn platform for targeted HA degradation to overcome barrier entry in stromal HA-rich solid tumors. Full article

In the context of climate change and grassland degradation, the Inner Mongolia Autonomous Region, a key ecological barrier in Northern China, has faced recurrent outbreaks of the pest beetle Galeruca daurica. This study aims to project its potential geographic distribution under current and future climate scenarios to support risk assessment and management strategies. Using the Maximum Entropy (MaxEnt) model with 122 occurrence records and environmental variables (climatic, topographic, and edaphic), we simulated habitat suitability under present conditions and future scenarios (SSP1-2.6, SSP2-4.5, and SSP5-8.5 for the 2050s and 2070s). The model performed excellently (AUC > 0.9), with key predictors being precipitation of the wettest month (39.6%), annual precipitation (24.0%), and annual temperature range (8.2%). Currently, about 44.9% of the region is suitable habitat, mainly in central–western arid and semi-arid areas. Future projections indicate a contraction in suitability, which is most pronounced under SSP2-4.5 (declining to 23.56% by the 2070s), along with a northward shift in the distribution centroid. These findings suggest that climate change will likely reduce and shift the suitable range of G. daurica, providing a scientific basis for early warning and targeted control in vulnerable grassland ecosystems. Full article

Marine sediments enriched with rare earth elements (REEs) serve as a significant reservoir, particularly for heavy REEs. Conventional lab-based REE exploration restricts rapid and large-scale assessment, whereas hyperspectral imaging provides a promising approach for quantitative evaluation. This study evaluates the capacity of hyperspectral data for the quantitative determination of REEs in marine sediments. A total of 53 samples from various locations were analyzed to determine their chemical composition and spectral characteristics within the 380–1000 nm range under natural light. The influence of surface conditions on spectral integrity was evaluated, and multiple preprocessing and spectral feature extraction methods were applied to enhance data reliability. This study proposes a novel approach, termed Feature Importance within Pearson Correlation Coefficient-Based High-Correlation Spectral Range (PCCR-FI), designed for the identification of characteristic spectral bands associated with REEs. Machine learning models were subsequently constructed to estimate REE concentrations, and the following key findings were observed: (a) technical adjustments effectively addressed variations in sediment surface conditions, ensuring data reliability. (b) The PCCR-FI technique identified characteristic REEs spectral bands, enhancing processing efficiency and prediction accuracy. (c) The integration of the reciprocal logarithmic first derivative (TLOG-FD) technique with a multilayer perceptron (MLP) model, termed TLOG-FD-MLP, efficiently captured critical spectral features, resulting in improved prediction accuracy. For light REEs, the model achieved coefficient of determination (R²) values exceeding 0.60 and relative performance deviation (RPD) values exceeding 1.60, with some elements demonstrating R² values as high as 0.81 with RPD values surpassing 2.00. Furthermore, several heavy REEs exhibited moderate prediction performance, with R² values consistently exceeding 0.60. When considering the total REE content, an R² of 0.73 and an RPD of 1.97 were achieved. These findings demonstrate the use of hyperspectral imaging as a viable tool for quantitative evaluation of REE concentrations in marine sediments, providing valuable guidance for resource mapping and the exploration of seafloor polymetallic deposits. Full article

The Chinese hamster ovary K1 cell line (CHO-K1) constitutively produces retroviral-like particles (RVLPs) containing reverse transcriptase (RT) activity, which, thus far, have not been shown to be infectious. Since infectious retroviruses have been reported in other rodent species, this study was undertaken to investigate the presence of latent, infectious, endogenous retroviruses (ERVs) in CHO-K1 cells by using chemical induction assays and detection of activated virus using the highly sensitive, product-enhanced RT (PERT) assay, with subsequent infectivity analysis in cell lines of different species, including human. The results demonstrated activation of A-type and C-type retroviral particles based on transmission electron microscopy and increased production of cell-free RT-particles after treatment of the cells with 5-iodo-2′-deoxyuridine and 5-azacytidine, which was greater with dual treatment than with each inducer alone. Induction of A- and C-type particles was confirmed in dual-drug-treated CHO-K1 cells by long-read high-throughput sequence (HTS) analysis. Infectivity studies performed by inoculating human A549, HEK-293, and MRC-5 cells; African green monkey Vero cells; Mus dunni cells; and CHO-K1 cells with supernatant containing RT-particles from dual-treated CHO-K1 cells indicated the absence of a replicating retrovirus in supernatant from extended cell culture using the PERT assay. Furthermore, short-read HTS analysis did not show evidence of integration of retroviral sequences in inoculated A549 and 293 cells. The overall results showed no evidence for latent, infectious, endogenous RVLPs in CHO-K1 cells. Full article

Background: Stakeholders’ perception plays a crucial role in shaping pharmaceutical strategies. Stakeholders are groups interested in pharmaceutical companies’ success and outcomes. Stakeholders’ perceptions are multifaceted and impact pharmaceutical strategies, from shaping research to enhancing market access, pricing, and corporate reputation. Understanding and actively managing stakeholders’ perceptions is vital for pharmaceutical companies to succeed in an increasingly complex and competitive industry. Methods: In this case study, knowledge contributions from stakeholders offered insights and strategies for application in the pharmaceutical sector. Results: Qualitative, exploratory research was conducted, which included the participation of sixteen stakeholders from different countries in Latin America, who responded to a semi-structured interview script, whose data were understood through lexical analysis in the Interface de R pour les Analyses Multimensionnelles de Texts et de Questionnaires (IRaMuTeQ). Conclusions: The results of this study underscore the importance of regulatory knowledge for professionals’ support and implementation of international strategies. Regulatory knowledge provides professionals with tools and insights to navigate complex regulatory environments, make informed decisions, and enhance organizational performance in global markets. Full article

Callose synthase (CALS) genes are known to play critical roles in microspore development and in plant responses to diverse biotic and abiotic stresses. While the role of CALS genes has been extensively characterized in several plant species, their homologs in Brassica oleracea (BoCALS) remain understudied. In this study, 15 BoCALS genes were identified in B. oleracea genome, distributed across eight chromosomes. All BoCALS proteins contain Glucan-synthase and Fks1 domains. Phylogenetic analysis grouped BoCALS and their homologs from Arabidopsis thaliana and Brassica rapa into three distinct Clusters (Ⅰ–Ⅲ), revealing conserved evolutionary relationships within the Brassicaceae family. Collinearity analysis showed that AtCALS genes of Arabidopsis have multiple orthologs in B. oleracea. Analysis of RNA-Seq data from public databases suggested that most of the BoCALS genes exhibit tissue-specific expression patterns, indicating their potential roles in organ differentiation and development. QRT-PCR analysis elucidated a different expression level of BoCALS genes in response to Hyaloperonospora parasitica infection. Notably, BoCALS6 expression was significantly higher in resistant varieties compared to susceptible varieties and further up-regulated following H. parasitica infection, indicating its potential role in downy mildew resistance. This study presents the first comprehensive characterization of BoCALS gene family in B. oleracea and provides a foundation for further functional investigations into their roles in downy mildew resistance. Full article

The newly discovered multi-colored corundum (gem quality) alluvial deposit in Malipo, Yunnan Province, is one of the most famous sapphire deposits in China. However, the coloration mechanism and genesis of red-blue colored corundum (RBCC) remain enigmatic. In this study, conventional gemological techniques such as ultraviolet–visible (UV-vis) spectroscopy and laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) were employed on an RBCC suite, with a view to unravel its coloration mechanism and compositional characteristics. The results show that the element pairs of Cr³⁺, Fe²⁺-Ti⁴⁺, and Fe³⁺-Fe³⁺ in principle contribute to the red coloration, while the blue color in corundum is predominantly caused by the Fe²⁺-Ti⁴⁺ pair, and subordinately by Cr³⁺ and Fe³⁺. Cr is likely the cause of the purple color. The Cr content in the red zone is significantly higher than that in the blue zone, while the Ti and V contents in the red zone are notably lower than in the blue zone. High Cr/Ga and (V + Cr)/Ga values of the Malipo RBCC suggest a metamorphic origin. All color zones of RBCC demonstrate stability in Ga content and an extremely low content of Mg, with minor fluctuations in Fe content, indicating that the formation process of the Malipo RBCC was influenced by magma mixing. Full article

Accurate monitoring of orchard pests is vital for green and efficient apple production. Yet images captured by intelligent pest-monitoring lamps often contain small targets, weak boundaries, and crowded scenes, which hamper detection accuracy. We present MDAS-YOLO, a lightweight detection framework tailored for smart pest monitoring in apple orchards. At the input stage, we adopt the LIME++ enhancement to mitigate low illumination and non-uniform lighting, improving image quality at the source. On the model side, we integrate three structural innovations: (1) a C3k2-MESA-DSM module in the backbone to explicitly strengthen contours and fine textures via multi-scale edge enhancement and dual-domain feature selection; (2) an AP-BiFPN in the neck to achieve adaptive cross-scale fusion through learnable weighting and differentiated pooling; and (3) a SimAM block before the detection head to perform zero-parameter, pixel-level saliency re-calibration, suppressing background redundancy without extra computation. On a self-built apple-orchard pest dataset, MDAS-YOLO attains 95.68% mAP, outperforming YOLOv11n by 6.97 percentage points while maintaining a superior trade-off among accuracy, model size, and inference speed. Overall, the proposed synergistic pipeline—input enhancement, early edge fidelity, mid-level adaptive fusion, and end-stage lightweight re-calibration—effectively addresses small-scale, weak-boundary, and densely distributed pests, providing a promising and regionally validated approach for intelligent pest monitoring and sustainable orchard management, and offering methodological insights for future multi-regional pest monitoring research. Full article

As a contribution to our understanding of postglacial colonisation history of Anatolia, the Caucasus and the Middle East, we increased the existing phylogeographic coverage of the widespread Balkan short-tailed mouse Mus macedonicus. This added 92 new mitochondrial D-loop sequences (73 new haplotypes) from Anatolia and Thrace to generate a total dataset for the species of 221 sequences (174 haplotypes). We confirmed the previously described existence of a northern lineage (Anatolia, the southern Balkans, the Caucasus, Iran and Syria) and southern lineage (Israel and Lebanon) and generated Bayesian Skyline Plots to show demographic expansion after the Last Glacial Maximum (LGM) in the northern lineage but not the southern. We used haplotype networks to reveal haplotypes close to the ancestral condition of the northern lineage and to infer spread through its range, including colonisation of the southern Balkans. Our various phylogenetic reconstructions also show finer-scale geographic structuring. M. macedonicus likely occupied two separate glacial refugia in the vicinities of Israel and Lebanon (southern lineage) and Anatolia, Georgia and Iran (northern lineage) although further work is needed for precise localisation. M. macedonicus has become a well-worked model system for the phylogeography of a region deserving more attention. Full article

Broadcast-style downlinks (e.g., PONs and satellites) expose physical waveforms despite transport-layer cryptography, motivating physical-layer encryption (PLE). Digital chaotic encryption is appealing for its noise-like spectra, sensitivity, and DSP-friendly implementation, but in low-CSPR KK-SSB systems, common embeddings disrupt minimum-phase requirements and raise PAPR/SSBI near 1 dB CSPR, while finite-precision effects can leak correlation after KK reconstruction. We bridge this gap by integrating 3D Lorenz-based PLE into our low-CSPR KK-SSB receiver. A KK-compatible embedding applies a Lorenz-driven XOR mapping to I/Q bitstreams before PAM4-to-16QAM modulation, preserving the minimum phase and avoiding spectral zeros. Co-design of chaotic strength and subband usage with the KK SSBI-suppression method maintains SSBI mitigation with negligible PAPR growth. We further adopt digitization settings and fractional-digit-parity-based key derivation to suppress short periods and remove key-revealing synchronization cues. Experiments demonstrate a 10⁹¹ key space without degrading transmission quality, enabling secure, key-concealed operation on shared downlinks and offering a practical path for chaotic PLE in near-minimum-CSPR SSB systems. Full article