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Traditional nanopore sensors use barrel-shaped protein channels. Here, the authors report on a study into the use of globular protein, ferritin, as a nanopore sensor, demonstrating membrane insertion and sensor application, showing the potential of non-barrel-shaped proteins for nanopore sensing.

Zhang, Huang, Wang, Long et al. report that NAT10 enhances serine uptake and biosynthesis in an ac4C-dependent mechanism, thereby promoting stemness and progression in acute myeloid leukaemia.

Rice indica varieties have higher nitrogen use efficiency (NUE) than that of japonica varieties. Here, the authors show that natural variation of OsWRKY23 and its interaction with DULL NITROGEN RESPONSE1 (DNR1)-mediated auxin accumulation play a role in NUE divergence between the two rice subspecies.

NiPS3 is a van der Waals antiferromagnet with a rich optical response including an exciton of very narrow linewidth, the origin of which is still a topic of active discussion. Herein, Song, Lv and coauthors study the response of the Zhang-Rice exciton to applied magnetic fields.

The Einstein Probe has discovered a fast X-ray transient, EP240414a, associated with a broad-lined type Ic supernova. Its unusually soft spectrum and weak jet add to the diversity of stellar deaths and suggest a previously unknown Wolf–Rayet star explosion mechanism.

While they resemble antiferromagnets in terms of vanishing magnetization, altermagnets also have a nonrelativistic spin-splitting bandstructure arising from the combination of crystal symmetry and magnetic ordering. Here, Zhang et al demonstrate the effective manipulation of spin-splitting torque based on the control of Néel vector in altermagnets.

Xiang et al. use patient samples and mouse models of osteoarthritis to examine the link with muscle atrophy. They identify that, in osteoarthritis, senescent macrophages promote ferroptosis in skeletal muscle cells, and they show the therapeutic value of targeting this pathological mechanism.

DNA Damage Regulated Autophagy Modulator 1 (DRAM1) plays pivotal roles in autophagy regulation. Here, the authors show that DRAM1 stabilizes lysosomal VAMP8, thereby promoting autolysosome maturation. Furthermore, they establish that DRAM1–VAMP8 axis enhances autophagic flux and facilitates hepatocellular carcinoma extravasation, as validated in both zebrafish xenograft and mouse metastatic models.

Preliminary results from an investigator-initiated clinical trial showed that an AAV-OTOF gene therapy was safe and led to hearing improvements in ten patients with congenital deafness with 6–12 months of follow-up, including in a teenager and a young adult, expanding the age range from previous trials.

Zhao et al. uncover the protein composition and atomic structure of ciliary radial spoke 3, revealing it as a metabolic hub that regulates ciliary motility, providing insights into ciliary diseases

Accessing strong correlation effects in Kagome materials remains challenging. Here, the authors realize a Kagome Kondo lattice in CsCr₆Sb₆ exhibiting flat, isolated Kagome bands at the Fermi level.

Accurate tree cover mapping is vital for fighting climate change and land degradation. This high-resolution study reveals that 17% of pan-tropical tree cover was previously undetected, with over half of recent losses linked to human activities.

Concise and enantioenriched synthesis of chiral carbocyclic and heterocyclic spirane scaffolds is a significant objective in both academic and industrial fields. Here, the authors report the kinetic resolution of racemic spirocyclic 1,3-diketones and their analogues via catalytic asymmetric hydrogenation with the SPA-PNN ligands.

2D Ta-based transition metal dichalcogenides have been predicted to host highly confined plasmons, but their observation has been lacking. Here, the authors report momentum-resolved electron energy loss spectroscopy measurements of 2H-TaS₂ monolayers and bilayers, showing plasmon resonances with lateral confinement up to 300 and group velocity down to ~10⁻⁴c at large wave vectors.

While Bell inequalities have been violated several times—mostly in photonic systems—their violations within particle physics experiments are less explored. Here, the BESIII Collaboration showcases Bell-violating nonlocal correlations between entangled hyperon pairs.

Monomethylation of histone H4 lysine 20 (H4K20me1) contributes to DNA replication but the mechanism is not well understood. Here, the authors identify a conserved tandem Tudor ___domain of BAHCC1 as a H4K20me1-specific reader, which promotes the recruitment of MCM complex to chromatin for efficient DNA replication.

Su et al. report that the super-enhancer K5aSE orchestrates Klf5andadditional targets via 3D chromatin interactions in ES cells, with CTCF-mediated chromatin domains maintaining this regulatory network essential for ES cell identity.

Spin-waves have a variety of advantages for information processing, and here, Chen, Xu and coauthors demonstrate the deterministic switching of antiferromagnetic spin textures using non-linear spin-waves. The switching process is progressive, mirroring weighted sum operations in neuromorphic computing.

The authors demonstrate ultra-broadband microscale optical dispersion in LiNbO₃ crystals, enabling precise and robust on-demand dispersion engineering in free space, with strong potential for applications in informatics and spectroscopy.

Proteome profiling of plasma samples in human pan-cancer cohorts reveals patterns of biomarkers for diagnosis.

Rehmannia chingii is a traditional Chinese medicinal plant that can produce iridoid glycoside. Here, the authors report its genome assembly and the elucidation of the iridoid biosynthetic pathway.

Zhang et al. present a differentiable-physics simulation approach that enables autonomous aerial robot swarms to navigate complex environments. High-speed navigation and robust performance in both multi-agent and single-agent scenarios are demonstrated with low-cost hardware platforms.

Extending the endurance of mushroom-type phase change memory remains challenging. Here, the authors design a nano-confined cell with an embedded heater, achieving a 1000 × improvement and attributing failure to carbon-induced collapse of the switching volume.

This study uses deep learning and gaze-tracking to track pathologists' work and learn how they review tissue images. This “learned expertise” was applied to guide artificial intelligence models, such as weakly supervised learning and reinforcement learning, to achieve accurate diagnosis of Whole Slide Images.

Here the authors use genetic mutations to alter TCR signal strength and clonal selection of exhausted CD8⁺ T cells. They implicate CARD11 signaling as a sensor of this TCR signal strength and as a regulator of antitumor function in exhausted T cells that might be targeted to enhance cancer immunotherapies.

Marine mercury, from atmospheric Hg0 /HgII deposition, threatens ecosystems. Isotope studies proposed 1:1 HgII/Hg0 ratios but ignored spatial variability. Here, a 3D isotope model reveals HgII deposition exceed Hg0 by >2:1, revising mercury budgets.

Traditional tactile systems suffer from the physical separation between sensing and processing units, causing latency and power issues. Here, Chen et al. report a capacitive in-sensor tactile computing system, using sensor networks to execute in-situ multiplication and accumulation operations.

The authors use human SEEG recordings during a virtual escape task to identify roles for cognitive and reactive fear circuits in threat evaluation and escape decisions, respectively. They further uncover Theta-band flow from the amygdala to the vmPFC during rapid attacks.

This study establishes a dynamic regulatory network for barley grain development integrating genetic, metabolic, and gene expression information, revealing the regulatory role of key transcription factors in barley grain flavonoid metabolism and grain color formation.

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.

When used in Chinese (versus English), generative artificial intelligence exhibits a more interdependent (versus independent) social orientation and a more holistic (versus analytic) cognitive style embedded in large-scale textual training.

Ma et al. report a regulatory mechanism by which lysine acetylation of the m⁶A reader protein OsECT3 modulates its m⁶A-binding activity under cold stress. The reduced acetylation level stabilizes cold-responsive mRNAs to enhance cold tolerance in rice.

Meng et al. demonstrate that RIOK1 phase separation leads to PTEN mRNA sequestration and pentose pathway activation resolving cellular stress in hepatocellular carcinoma. Targeting RIOK1 enhances response to tyrosine kinase inhibitors.

Complex traits present challenges for gene mapping and molecular characterization. Here, the authors develop a 16-generation intercross line of chickens to explore the genetic architecture of complex traits in chicken.

Chronic visceral pain is frequently accompanied by changes in food preference and the underlying neural circuitry mechanisms remain unclear. Here, the authors elucidate a circuit from cholecystokinin neurons in the paraventricular hypothalamus (PVH^CCK) projecting to glutamatergic neurons in the anterior cingulate cortex (ACC^Glu) to regulate food preference accompany with chronic visceral pain.

Optically active defects in wide band gap materials are promising building block for room temperature quantum information processing. Here, the authors connect the experimental variance in the optical spectra, optical lifetimes and spectral stability of quantum emitters to the distance-dependent donor-acceptor pairs in the two-dimensional hexagonal boron nitride.

High-energy aqueous metal batteries are promising candidates for the next-generation energy storage systems yet face detrimental parasitic reactions. Here, authors develop a durable cadmium-metal battery employing a fast-kinetics dual-structure-breaking electrolyte.

Analysis of ancient DNA, stable isotope data and archaeological evidence from the Fujia archaeological site in eastern China suggests it was populated by a matrilineal Neolithic community between 2750 and 2500 bc.

Controlling droplet motion after impact on solid surfaces is crucial for applications like self-cleaning and microfluidics, yet the fundamental limit of the droplet rebound angle remains unknown. This study reveals a droplet behavior where it rapidly rolls with a rebound angle near zero, defining the lower limit, enabled by asymmetric adhesion on nanostructured surfaces, resulting in greatly enhanced cleaning efficiency and precise droplet transport.

Sodium-air batteries are appealing energy storage systems due to high theoretical energy density and high sodium abundance. But they are plagued with low efficiency and large overpotential. Here, authors report long-term reversibility over 1000 cycles with 99% efficiency using a cascade electrocatalysis strategy based on Na[Li_1/3Ru_2/3]O₂ electrodes.

Controlling molecular transport across immiscible liquid interfaces is vital for applications in biotechnology, manufacturing, and space research. Here, the authors show that unsteady temperature fields drive directional water transport across oil-water interfaces via Marangoni natural convection, enabling tunable, surfactant-free nanoemulsion formation.

The synthesis of atom-thin amorphous films remains challenging as their thermodynamically favourable grains are neither two dimensional nor layered. Here a droplet-driven nanoribbon-to-film growth strategy is reported to achieve amorphous metal chalcogenides at the single-layer limit.

To push the boundary of sol-gel chemistry towards high quality organic membrane construction is challenging. Here, the authors show a controlled nanocrystal suturing strategy in sol-gel solutions to afford highly crystalline and free-standing covalent organic framework membranes.

Analysis of whole-genome sequencing data from hematopoietic stem and progenitor cells taken from patients with myeloma shows how treatment shapes clonal architecture and sheds light on the evolution of treatment-related myeloid neoplasms.