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Chronic care manages long-term, progressive conditions, while acute care handles short-term ones. Here, authors show chronic conditions account for most of the global health burden, with 68% of DALYs and 93% of YLDs attributed to chronic care needs.

[6,6]-Phenyl-C₆₁-butyric acid methyl ester (PCBM), a star molecule in the fullerene field, has found wide applications in materials science. Here, the authors demonstrate the synthesis of buckyballs with fused-ring systems via electrosynthesis through radical α-C−H functionalization of the side-chain ester for both PCBM and its analogue.

Characterizing the genetic architecture underlying egg production is important for chicken breeding. Here, the authors integrate RNA and whole-genome sequencing data to better understand the genetic regulation of egg production in chickens.

There is great interest in methods for catalytic enantioselective construction of axially chiral compounds found in natural products. Here, the authors develop a cycloaddition strategy for atroposelective construction of indole-based biaryls via chiral phosphoric acid-catalysed cycloaddition.

Polar skyrmions are nanoscale topological structures of electric polarizations. Their collective modes, dubbed as “skyrons”, are discovered by the terahertz-field-excitation, femtosecond x-ray diffraction measurements and advanced modeling.

This study reveals how Tau pathology in spinal neurons contributes to early tactile deficits in Alzheimer’s disease, linking sensory dysfunction to cognitive decline. It highlights potential peripheral biomarkers and new therapeutic targets beyond the brain.

Fang et al. demonstrate that OsHSFA4d enhances thermotolerance by activating HSP101 and promoting CslF6 expression, which suppresses disease resistance. It is phosphorylated by OsCDPK24/28, increasing its DNA binding ability under heat stress. This trade-off mechanism of abiotic/biotic stress may broadly exist in plant kingdom.

An analysis of data from the Sherlock-Lung study provides insight into the mutational processes that contribute to lung cancer in never smokers, and looks at the possible role of factors such as air pollution and passive smoking.

NMR and in vitro reconstitution indicate that GPCRs signal through SH3-containing proteins downstream of β-arrestin 1 proline regions and that arrestin allosterically activates downstream kinases by disrupting their autoinhibitory conformation.

The growing consumption of electronics is leading to the rapid accumulation of electronic waste, which has been a global concern for years. This work presents a closed-loop bio-recyclable cellulose-based dielectric film that can improve the circularity of electronics and could reduce electronic waste.

Data heterogeneity presents a challenge in distributed artificial intelligence (AI) for medical imaging across diverse clinical settings. Here, the authors develop HeteroSync Learning, a privacy-preserving distributed learning framework that mitigates data heterogeneity and outperforms classical, state-of-the-art, and foundation models.

It is unclear how often genetic mosaicism of chromosome X arises. Here, the authors examine women with cancer and cancer-free controls and show that X chromosome mosaicism occurs more frequently than on autosomes, especially on the inactive X chromosome, but is not linked to non-haematologic cancer risk

Qing Wang and colleagues report a genome-wide association study for coronary artery disease (CAD) in a Chinese Han population. They identify a locus on chromosome 6p24.1 newly associated with CAD.

Sequencing of haploid sugarcane, Saccharum spontaneum, allows assembly of a prototypical version of the sugarcane chromosome set. This new reference genome will serve as a resource to accelerate sugarcane improvement.

Catalysts enhance electrode reactions in static batteries but are inadequate for aqueous flow batteries. Here, authors develop carbon quantum dot catalytic electrolytes that function both in electrolyte and at-interface to improve reaction kinetics and low-temperature adaptability in Zn-Br systems.

The interfaces between ferromagnets and superconductors receive many attentions due to emergent relativistic spin-orbit coupling. Here, the authors provide possible evidence for spin triplet Andreev reflection at the interface between a van der Waals ferromagnet Fe_0.29TaS₂ and a s-wave superconductor NbN.

The simultaneous enhancement of strength and resilience of polymer materials is challenging. Here, the authors synthesized 2D polyamide films with reduced size of rigid structural units and multiples supramolecular interactions to achieve materials with remarkable strength and resilience.

Magnetoelectric composites of magnetic and ferroelectric components are promising for their use in applications such as information storage. Here, the authors find that magnetic quasiparticles embedded in a ferroelectric film matrix show promising properties compared to the usual thin-film architectures.

Despite the structural significance of boroxines in different classes of materials, their applicability in aqueous media is limited by their hydrolytic instability. Here, the authors discovered a water-stable boroxine structure with excellent pH stability and water-compatible dynamic covalent bonds.

Ancient DNA, stable isotopes and other archaeological methods establish that humans were living at extremely high elevation on the Tibetan Plateau 4,400 years ago, maintaining sedentary lifestyles that combined fishing, hunting and crop exchange.

Berry curvature, which features in the imaginary part of the quantum geometry, is now well known for driving non-linear responses in Weyl semimetals. Here, Yu et al. show how the real component of the quantum geometry, the quantum metric, leads to a room temperature third order non-linear hall effect in Fe₅GeTe₂.

The formation mechanisms for periodic heterostructures are still poorly understood. Here, the authors propose a versatile approach to synthesize one-dimensional segmented heterostructures and reveal a stress-induced ordering mechanism through phase-field simulations.

Li et al. report free-standing layered polymer–perovskite composite membranes that reconcile mechanical flexibility with electronic properties. They endure 30,000 bends at a 1.5 mm radius, enabling wearable radiation monitoring in complex conditions.

A direct correlation between the monolayer Pt nanocluster size and the number of interfacial perimeters on Pt/α-MoC_1-x catalysts was established by combining sacrificial CO adsorption per Pt atom, DFT calculations, and CO chemisorption measurements.

Current CO₂ utilization relies on high-purity CO₂, requiring energy-intensive capture and purification. This study developed a solar-powered heterojunction catalytic system that directly converts atmospheric CO₂ with ammonia into urea.

Edge AI systems require high-frequency, temperature-stable entropy sources, which traditional sources fail to provide. Here, the authors experimentally demonstrate a 3D 16-layer Fe-diode array that achieves high efficiency, low energy consumption, and high recognition accuracy.

A high-κ dielectric ceramic, magnesium niobate, can be epitaxially grown on a mica substrate and then transferred to form the gate dielectric in molybdenum disulfide transistors, providing van der Waals interfaces and high robustness to temperature and voltage.

Iron carbide catalysts—especially the Fe₇C₃; phase—show great promise for efficient CO₂ hydrogenation to olefins. Here, the authors report the first stable, nearly pure Fe₇C₃ catalyst for CO₂-to-olefins conversion, overturning conventional models that posit the necessity of Fe₅C₂–Fe₃O₄ coexistence.

Glycosylated asparagine residues that mediate the function of the B7H3 protein are unclear. Here the authors identify the important N-glycosylation sites for B7H3 cell surface localization and T cell inhibition, followed by the development of N91/309 and N104/322 preferentially targeting monoclonal antibody manifesting enhanced antitumor immunity.

Isoprene emissions are commonly estimated using satellite measurements and model simulations. Here, using eddy covariance, the authors report higher emission rates over the Amazon forest than those estimated with these techniques and a relationship between terrain elevation and isoprene emissions.

The mechanisms resulting in muscle satellite cell dysfunction in diabetes are not well understood. Here, the authors show that AS160 functions in the nucleus to regulate satellite cell proliferation and that its impaired nuclear entry is linked to diabetic myopathy.

Insects colonized with Metarhizium fungi emit longifolene to lure new hosts for infection to disperse spores. A fungal strain was engineered to emit longifolene to attract and eliminate mosquitoes.

A biodegradable MgSO₄-reinforced poly (l-lactide-co-ε-caprolactone) cerebral stent was prepared by 3D-printing technique, providing efficient neuroprotection effects on ischemic brain tissues through sequential release of Mg ions.

The characterization of the surface structure and binding sites of materials is crucial for designing advanced materials for adsorption processes. Here, the authors use ¹⁷O solid-state nuclear magnetic resonance spectroscopy to identify specific CO₂ adsorption sites on MgO nanosheets.

Insulinomas develop from pancreatic β-cells and secrete insulin, but the underlying genetic defects are largely unknown. In this study, Cao et al. identify recurrent T372R mutations in the transcription factor YY1, and validate this hotspot mutation in 30% of insulinomas.

Cross-linkable co-SAMs improve hole-selective SAM stability, preventing defects and thermal degredation in perovskite solar cells, enabling 26.92% efficiency with high heat durability, and guiding the design of more efficient and durable solar cells.

Here, the authors demonstrate the use of chaos to obtain 2-octave comb generation. The deformation lifts the circular symmetry and creates chaotic tunneling channels that enable broadband collection of intracavity emission with a single waveguide, introducing a new degree of freedom to microcomb studies.

Piezoelectric actuators play a critical role in precision positioning devices; however, materials with high actuation strain and mechanical energy density are rare. Here a composite of poly(vinylidene fluoride) and TiO₂ demonstrates superior performance in these metrics, with the ferroelectric transition driven by Joule heating.

Genetic muscle diseases are difficult to treat due to challenges in delivering gene editors to muscles throughout the body. Here, authors engineer muscle-specific virus-like particles that fuse with skeletal muscle cells to deliver CRISPR tools and restore dystrophin in a DMD model.

Spatiotemporal beams differ from standard spatial structured light. The authors introduce 2D spacetime duality to uncover the conventional–spatiotemporal beam connection, enabling the development of high-fidelity spatiotemporal beams.

roX (RNA on the X) are crucial for male development in Drosophila. Here, the authors propose a role for roX RNAs in regulating gene expression at specific autosomal loci, working in coordination with Polycomb repressive complexes (PRCs).

It has long been believed that topological phases are solely determined by their lattice structures. Here, the authors report the observation of cavity-tunable topological phases of polaritons by modifying the surrounding photonic environment without altering the lattice structure.

Targeted multielement substitution of a lead-free relaxor ferroelectric perovskite distorts the lattice structure and induces strong polar disorder, leading to high-polar-entropy ferroelectric oxides with a high electrocaloric effect and long lifetime.

Asparagales is the largest monocot order. Here, the authors produce the phylogeny of Asparagales with transcriptomic data from 455 species and investigate the evolution of genes involved with allium flavor biosynthesis.

The elastocaloric effect was originally found in natural rubber, but the development of polymer based elastocaloric cooling still remains underdeveloped. Herein, the authors demonstrate that polymer elastomers with uniform molecular chain-lengths exhibit enormous elastocaloric effects through reversible conformational changes.

Frequency combs based on terahertz quantum cascade lasers, which combine the high power of lasers with the broadband capabilities of pulsed sources, are demonstrated. The frequency combs generate 5 mW of terahertz power covering a frequency range of almost 500 GHz and produce more than 70 lines at 3.5 THz.

The controlled synthesis of monodisperse nanospheres faces a number of difficulties, such as extensive crosslinking during hydrothermal processes. Here, the authors show a route for the controlled synthesis of mesoporous polymer nanospheres, which can be further converted into carbon nanospheres through carbonization.