Government carbon reduction policies and the shift to green lifestyles: The role of innovation, incentive, driving and economic effect.

This paper evaluates the impact of government efforts on the promotion of green lifestyles in realizing carbon emission reduction, a critical issue for achieving sustainable development. From the perspective of government policy, it examines the theoretical mechanisms through which government's attention to carbon reduction influences and catalyzes shifts in residents' adoption of green lifestyles. Employing an individual fixed-effects model, it conducts an empirical analysis to evaluate the influence of government's carbon reduction attention on the transformation of residents' environmental behaviors.

Radiosynthesis and evaluation of novel F labeled PET ligands for imaging monoacylglycerol lipase.

Monoacylglycerol lipase (MAGL) is a 33 kDa cytosolic serine hydrolase that is widely distributed in the central nervous system and peripheral tissues. MAGL hydrolyzes monoacylglycerols into fatty acids and glycerol, playing a crucial role in endocannabinoid degradation. Inhibition of MAGL in the brain elevates levels of 2-arachidonoylglycerol and leads to decreased pro-inflammatory prostaglandin and thromboxane production.

Photocatalytic selective oxidation of glycerol to formic acid and formaldehyde over surface cobalt-doped titanium dioxide.

Glycerol is one of the most important biomass platform compounds that is a by-product of biodiesel production, and the selective cleavage of the CC bond of glycerol to produce liquid hydrogen carriers (i.e., formic acid and formaldehyde) offers a viable strategy to alleviate the currently faced energy shortages.

Trimeric tetrapeptide repeat protein TPR16 positively regulates salt stress in apple.

Plants are vulnerable to various abiotic stresses in the natural growing environment, among which salt stress can seriously affect plant growth, development and yield. Protein families containing trimeric tetrapeptide repeat sequences have a crucial function in plant resilience to non-living factors and participate in multiple aspects of plant growth and development. For this investigation, we acquired the apple MdTPR16 gene.

Insights into the differences of caspase and apoptosis levels in pork longissimus thoracis muscles with different tenderness: A perspective on S-nitrosylation modification.

This study investigated the differences of caspase and apoptosis levels in pork with different tenderness from the perspective of S-nitrosylation and further explored their role during pork tenderization. Ten longissimus thoracis muscles selected from 36 individual carcasses based on shear force were divided into high (HT) and low (LT) tenderness groups (n = 5), respectively. Results demonstrated that total nitric oxide synthase activity and protein S-nitrosylation levels of LT group were higher than HT group, while myocyte apoptosis levels were lower in LT group (p < 0.

The preventive effect of psychological and psychosocial interventions on postpartum depression: An overview of systematic reviews.

Background: Postpartum depression is a prevalent issue that significantly impacts the mental health of women, placing a substantial burden on individuals, families, and society. With the increasing evidence of postpartum depression prevention, conducting comprehensive assessments becomes essential to facilitate future clinical practices.

Methods: The systematic review and meta-analysis examined psychological and psychosocial interventions to prevent postpartum depression in perinatal women (antenatal and postnatal up to 12 months).

Regulation of 5-fluorouracil-induced intestinal damage by the interleukin-23/interleukin-22 axis in chemotherapy.

5-Fluorouracil (5-FU) is a primary chemotherapeutic agent for gastrointestinal cancers, known to improve survival but also cause significant intestinal damage, affecting patient quality of life. This study investigated the IL-23-IL-22 axis's role in moderating 5-FU-induced intestinal damage. We analyzed paracancerous tissue damage in colon cancer patients with different Tumor Regression Grade (TRG) and found a direct correlation between TRG and tissue damage severity, indicating that higher chemotherapy effectiveness is linked to increased tissue damage.

Liquid-nano-liquid interface-oriented anisotropic encapsulation.

Emulsion interface engineering has been widely employed for the synthesis of nanomaterials with various morphologies. However, the instability of the liquid-liquid interface and uncertain interfacial interactions impose significant limitations on controllable fabrications. Here, we developed a liquid-nano-liquid interface-oriented anisotropic encapsulation strategy for fabricating asymmetric nanohybrids.

A reliable unmanned aerial vehicle multi-ship tracking method.

As the global economy expands, waterway transportation has become increasingly crucial to the logistics sector. This growth presents both significant challenges and opportunities for enhancing the accuracy of ship detection and tracking through the application of artificial intelligence. This article introduces a multi-object tracking system designed for unmanned aerial vehicles (UAVs), utilizing the YOLOv7 and Deep SORT algorithms for detection and tracking, respectively.

Red peel regulator1 links Ethylene response factor 25 and β-citraurin biosynthetic genes to regulate ethylene-induced peel reddening in citrus.

The reddish apocarotenoid β-citraurin, produced by CAROTENOID CLEAVAGE DIOXYGENASE 4b (CsCCD4b), is responsible for peel reddening in citrus (Citrus spp.). Ethylene induces the characteristic red color of citrus peel, but the underlying molecular mechanism remains largely unclear.

Toward Large-Scale Photonic Chips Using Low-Anisotropy Thin-Film Lithium-Tantalate.

Photonic manipulation of large-capacity data with the advantages of high speed and low power consumption is a promising solution for explosive growth demands in the era of post-Moore. A well-developed lithium-niobate-on-insulator (LNOI) platform has been widely explored for high-performance electro-optic (EO) modulators to bridge electrical and optical signals. However, the photonic waveguides on the x-cut LNOI platform suffer serious polarization-mode conversion/coupling issues because of strong birefringence, making it hard to realize large-scale integration.

High Mobility Emissive Organic Semiconductors for Optoelectronic Devices.

High mobility emissive organic semiconductors (HMEOSCs) are a kind of unique semiconducting material that simultaneously integrates high charge carrier mobility and strong emission features, which are not only crucial for overcoming the performance bottlenecks of current organic optoelectronic devices but also important for constructing high-density integrated devices/circuits for potential smart display technologies and electrically pumped organic lasers. However, the development of HMEOSCs is facing great challenges due to the mutually exclusive requirements of molecular structures and packing modes between high charge carrier mobility and strong solid-state emission. Encouragingly, considerable advances on HMEOSCs have been made with continuous efforts, and the successful integration of these two properties within individual organic semiconductors currently presents a promising research direction in organic electronics.

MicroRNA analysis reveals two modules that antagonistically regulate xylem tracheary element development in Arabidopsis.

Tracheary elements (TEs) are vital in the transport of various substances and contribute to plant growth. The differentiation of TEs is complex and regulated by a variety of microRNAs (miRNAs). However, the dynamic changes in miRNAs during each stage of TE differentiation remain unclear, and the miRNA regulatory network is not yet complete.

Therapeutic Potential of Carbon Dots Derived from Phytochemicals as Nanozymes Exhibiting Superoxide Dismutase Activity for Anemia.

Anemia is a potentially life-threatening blood disorder caused by an insufficient erythroblast volume in the circulatory system. Self-renewal failure of erythroblast progenitors is one of the key pathological factors leading to erythroblast deficiency. However, there are currently no effective drugs that selectively target this process.

Advances and applications in single-cell and spatial genomics.

The applications of single-cell and spatial technologies in recent times have revolutionized the present understanding of cellular states and the cellular heterogeneity inherent in complex biological systems. These advancements offer unprecedented resolution in the examination of the functional genomics of individual cells and their spatial context within tissues. In this review, we have comprehensively discussed the historical development and recent progress in the field of single-cell and spatial genomics.

Ultra-Sensitive Gaseous Styrene and Isoprene Detection with a Ratiometric Fluorescence Probe of Eu(III)-Incorporated UiO-67.

The development of probes for the efficient detection of volatile organic compounds is crucial for both human health protection and environmental monitoring. In this study, we successfully synthesized a ratiometric fluorescent sensing material [Eu-UiO-67 (1:1)], featuring dual-emission fluorescence peaks via a one-pot method. This material demonstrated exceptional ratiometric fluorescence recognition properties for liquid styrene and isoprene, achieving low limit of detections (LODs) of 6.

Amyotrophic Lateral Sclerosis and Parkinson's Disease: Brain Tissue Transcriptome Analysis Reveals Interactions.

This study utilises amyotrophic lateral sclerosis (ALS) and Parkinson's disease (PD) human brain samples from the GEO database and employs differential expression gene (DEG) analysis to identify genes that are pivotal in both neurodegenerative diseases. Through in depth GO and KEGG enrichment analyses, we elucidated the biological functions and potential pathways associated with these DEGs. Furthermore, by constructing protein‒protein interaction networks, we highlight the significance of shared DEGs in both cellular physiology and disease contexts.

Electromagnetic Wavefront Engineering by Switchable and Multifunctional Kirigami Metasurfaces.

Developing switchable and multifunctional metasurfaces is essential for high-integration photonics. However, most previous studies encountered challenges such as limited degrees of freedom, simple tuning of predefined functionality, and complicated control systems. Here, we develop a general strategy to construct switchable and multifunctional metasurfaces.

New Strategy for Microbial Corrosion Protection: Photocatalytic Antimicrobial Quantum Dots.

Microbial corrosion has significant implications for the economy, environment, and human safety worldwide. Photocatalytic antibacterial technology, owing to its advantages in environmental protection, broad-spectrum, and efficient sterilization, presents a compelling alternative to traditional antibacterial strategies for microbial corrosion protection. In recent years, photocatalytic quantum dot materials have garnered considerable attention in this field due to their unique quantum effects.

Nuclear N-WASP Induces Actin Polymerization in the Nucleus with Cortactin as an Essential Factor.

Nuclear actin polymerization was reported to control different nuclear processes, but its regulation is poorly understood. Here, we show that N-WASP can trigger the formation of nuclear N-WASP/F-actin nodules. While a cancer hotspot mutant of N-WASP lacking the VCA domain (V418fs) had a dominant negative function on nuclear F-actin, an even shorter truncation mutant found in melanoma (R128*) strongly promoted nuclear actin polymerization.

Protein Engineering of Substrate Specificity toward Nitrilases: Strategies and Challenges.

Nitrilase is extensively applied across diverse sectors owing to its unique catalytic properties. Nevertheless, in industrial production, nitrilases often face issues such as low catalytic efficiency, limited substrate range, suboptimal selectivity, and side reaction products, which have garnered heightened attention. With the widespread recognition that the structure of enzymes has a direct impact on their catalytic properties, an increasing number of researchers are beginning to optimize the functional characteristics of nitrilases by modifying their structures, in order to meet specific industrial or biotechnology application needs.

Visible-light-promoted azidation/arylation of unactivated alkenes with Togni-N electron donor-acceptor complexes.

A visible-light-promoted azidation/arylation of unactivated alkenes with Togni-N has been achieved, leading to a series of azidated pyrrolo[1,2-]indoles under photocatalyst-free conditions. Notably, an EDA complex derived from the electron-rich indole derivatives and Togni-N served as the key intermediate in this reaction.

Cr-MOF composited with facet-engineered bimetallic alloys for inducing photocatalytic conversion of CO to CH.

The design of efficient photocatalysts is crucial for photocatalytic CO reduction. This study developed photocatalysts based on MIL-101(Cr) composited with a facet-engineered Pt/Pd nanoalloy (PPNA). Photocatalytic performance evaluations show that MIL-101(Cr) loaded with PPNA exposing {111} facets, namely M-A(111), exhibits a CO to CH conversion rate of 9.

Speciation studies in the genomic era.

Since Darwin's era, speciation has been one of the most central issues in evolutionary biology studies. Understanding the processes of species origin is crucial in deepening our understanding of the formation of species biodiversity, which is essential for their protections. However, speciation research has been challenging due to the rather complex evolutionary histories of many extant species.