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Yoshioka et al. show that bacteria wrap their flagella to squeeze through near cell-width confinements, which allows symbiotic microbes to navigate constricted gut regions within insect hosts.

Muscularis macrophages, housekeepers of enteric nervous system integrity and intestinal homeostasis, modulate α-synuclein pathology and neurodegeneration in models of Parkinson’s disease, and understanding the accompanying mechanisms could pave the way for early-stage biomarkers.

The authors present a genetically encoded tool based on a bifunctional enzyme that can regenerate NAD⁺ while executing an engineered glycerol shunt. The tool successfully restored redox imbalance and modulated lipid metabolism in vitro and in a mouse hepatic steatosis model.

Reliably probing rejuvenation and memory effects in spin glasses by means of simulations is difficult. Now, a state-of-the-art numerical study shows that at least three different length scales play a crucial role in aging dynamics of spin glasses.

Mucosal administration of a multivalent, adjuvanted vaccine against Clostridioides difficile promoted bacterial clearance and protected against morbidity, mortality, tissue damage and recurrence in mice.

Drug-controlled DROP-CARs enable reversible extracellular control of CAR T cell function via human-derived protein switches that modulate cell–cell interactions and support dual-antigen targeting as well as logic-gated signaling.

Recent numerical simulations indicate that well-defined topological defects arise in the dynamics of glasses. Here, the authors report the presence of topological defects in the vibrational eigenspace of an experimental two-dimensional colloidal glass.

Oxytocin promotes social behaviors, but its cortical targets remain unclear. Here, authors show that oxytocin activates local interneurons in the rat prefrontal cortex, enhancing sociability through top-down control of the basolateral amygdala.

This study introduces glassy adhesion dynamics within a motor–clutch framework, revealing the mechanism by which cellular and extracellular timescales interplay and govern anomalous cancer cell migration.

A unified description of the dynamics of structurally disordered materials is challenging. Simulations of model systems now show that percolation theory provides a framework unifying the two most prominent relaxation processes in supercooled liquids and glasses.

The authors develop a filter for oil cleaning in turbulent flows, inspired by the skeletal structures and filter patterns of deep-sea glass sponges. This filter could capture over 97% of floating and underwater oil, even under complex hydrodynamic conditions.

Mechanosensitive PIEZO channels sense and open through membrane tension, but their dynamic gating mechanisms at the molecular level remain unclear. A hybrid all-atom and coarse-grained molecular dynamics simulation approach and electrophysiology reveal a clockwork mechanism for PIEZO2 involving two open states.

The authors developed self-incompatible diploid potatoes via haploid breeding. The resulting F₁ hybrids prevent fruit set, redirect photoassimilates to tubers, increase the harvest index and enable scalable hybrid seed production.

The bacterial flagellar MS ring is a core transmembrane complex within the flagellar basal body. Here, cryoEM analysis suggests that the MS ring is formed by 34 full-length FliF subunits, with 23- and 11-fold subsymmetries in the inner and middle M ring, respectively.

Polymer thin films that emit and absorb circularly polarised light are promising in achieving important technological advances, but the origin of the large chiroptical effects in such films has remained elusive. Here the authors demonstrate that in non-aligned polymer thin films, large chiroptical effects are caused by magneto-electric coupling, not structural chirality as previously assumed.

A RuO₂/glass metasurface with low temperature coefficient of resistance is proposed based on tunneling effect. The metasurfaces show ultra-robust broadband microwave absorption at extreme environments up to 1000 °C.

Using two newly developed immunoassays tested in three clinical cohorts, this study highlights CSF DOPA decarboxylase as a promising biomarker for differentiating dementia with Lewy bodies and Parkinson’s disease from Alzheimer’s disease and controls.

The long term durability of silicate glasses is of significant importance, not least due to applications in nuclear waste repositories. Here, the authors study glass corrosion and show that its rate drops as a passivating layer forms via a self-healing mechanism.

Integrated single-cell and spatial data analysis, combined with bidirectional CRISPR screens, identify the transcription factor GLIS3 as a key driver of chronic inflammation and fibrosis and a potential marker of disease severity in patients with ulcerative colitis.

Glass-to-glass transitions can help understanding the glass nature, but it remains difficult to tune metallic glasses into significantly different glass states. Here the authors demonstrate the high-entropy effects in glass-to-glass transitions of high-entropy metallic glasses.

The ZFTA–RELA fusion, an oncogene for ependymomas, promotes the production of itaconate, and its dependence on this metabolite represents a new therapeutic target for this cancer.

How leptin signalling produces anti‑obesity effects is incompletely understood. Here, the authors demonstrate that FAK and PYK2 are required for STAT3 activation, normal leptin responses, and HDAC6 inhibitor‑mediated weight loss, with their loss causing hyperphagic obesity.

This study shows that adherent cells maintain membrane tension gradients even without moving. Using a fluorescent probe, the authors reveal that actin and adhesion forces shape these gradients, providing a new view of cell mechanics.

Antigen presentation in skull bone marrow by hematopoietic stem and progenitor cells induces myelopoiesis and generates CD4⁺ regulatory T cells in a mouse model of ependymoma, promoting immune tolerance. Treatment with anti-GM-CSF antibody has antitumor effects that are augmented by immunotherapy.

3D-printed glass holds great potential. However, it is challenging to control both the dimension and the resolution of the printed material. Here, authors present a one-photon 3D printing approach to produce high-performance fused silica glass with sub-micron resolution and millimetric dimensions.

Exposure to inflammation drives hematopoietic stem cells (HSC) aging, limiting their self-renewal capacity and differentiation. Here, the authors explore the mechanistic link between inflammation and HSC aging. Using mouse models, they identify the innate immune RNA sensor MDA5 as a key mediator of HSC aging and show that MDA5 loss ameliorates the aging phenotype by improving proteostasis in aged HSCs.

This study demonstrates that suppressing interfacial molecular aggregation enables highly efficient and scalable perovskite solar cells. The approach delivers over 26% power conversion efficiency, supports large-area modules, and improves operational stability.

Single-particle tracking experiments in intact cells reveal dynamic co- and post-translational interactions of the TRiC–PFD chaperonin complex with client proteins during in vivo protein folding.

The relative contribution of lipid catabolism on fasting-induced longevity was unknown. Authors showed lifespan extension from fasting depend on silencing lipid catabolism upon nutrient replenishment through phosphorylation of NHR-49 by KIN-19.

Physical properties of glasses are closely related to their amorphous structures, which can form complex networks depending on the chemical constituents. Here, Onoderaet al. unlock this relationship in a zinc phosphate glass at an atomistic level, which may shed light on new material designs.

Geochemical data from zircons show that subduction-like processes were operating contemporaneously with stagnant-lid-like processes at different locations as early as 4.4 billion years ago on the Hadean Earth.

Silica glass is a high-performance material used in most branches of society from glassware and windows to optical lenses and fibers. Here, we develop a sintering-free method for 3D printing silica glass with sub-micrometer resolution and successfully demonstrate an optical microtoroid resonator.

Mouse models demonstrate that vagal sensory neurons transmit signals from lung adenocarcinoma to the brain, increasing sympathetic efferent activity in the tumour microenvironment and thereby creating a immunologically permissive environment for tumour growth.

Metals often suffer from reduced strength and ductility after hydrogenation. Here, the authors show hydrogenation can lead to enhancement in strength and ductility accompanied by a large change in magnetic entropy, overcoming the bottlenecks of using amorphous alloys for magnetic refrigerants.

Many biological systems appear to organize their dynamics close to a critical point. Now it is shown that the protein array mediating Escherichia coli chemosensing is near-critical, enabling large signal amplification without compromising response speeds.

Bacteria use diverse defence systems against phages, including a 164-residue prophage-encoded protein, Rip1, which senses conserved phage assembly rings to form membrane pores that block virion maturation and trigger premature host cell death.

Coexistence of a spin-glass phase with antiferromagnetism in an intercalated crystal produces a large exchange bias effect. This is due to the interplay of disorder and frustration.

Photothermal reactions between liquid gallium and water or seawater enable hydrogen production under light exposure. The authors show that the metal can be regenerated electrochemically, supporting a reusable and sustainable cycle for hydrogen.

This article presents a unique nanocomposite plasmonic-excitonic glass with extraordinary amplified optical properties: ultra-narrow photoluminescence (FWHM = 13 nm) and ultrashort photoluminescence lifetime (90 ps) at room temperature

MK-7762 is a new oxazolidinone antitubercular agent that is structurally similar to linezolid, and demonstrated in vivo efficacy, lesion penetration and limited toxicity compared to linezolid, indicating it could be used in broad tuberculosis regimens.

Electrified CO₂ capture from air could lead to net-negative emissions, yet current methods face high energy costs and sensitivity to oxygen. Here the authors introduce an electrochemical approach using MnO₂ as a stable, redox-active sorbent, achieving CO₂ capture with promising energy consumption and minimal oxygen sensitivity.

Kornfeld-Sylla et al reveal how alpha brainwaves are altered in children and adults with Fragile X Syndrome (FXS) and find parallel changes in alpha-like rhythms in juvenile and adult FXS model mice, showing their use for testing potential therapies.

Reliability remains challenging for organic light-emitting diodes used in solid-state lighting. Here, the authors reduce the current density needed for a given brightness by fabricating devices on a high aspect ratio substrate with sub-mm texture, resulting in a 2.7x increase in operating lifetime.

The transition from a glassy to a liquid phase is normally assumed to take place cooperatively across the whole material. But now, experiments show that, under certain conditions, isolated regions of liquid can form in the glassy matrix first.

Detecting trace amounts of harmful bacteria and nanoscale biomarkers is crucial for early diagnosis and disease prevention, yet conventional methods are often slow and lack sensitivity. The authors introduce a rapid, highly sensitive detection method using a metallic thin-film-coated optical fibre module, significantly enhancing target assembly efficiency and offering promising applications in bioanalytical detection, drug delivery and material assembly technologies.

A recently developed class of magneto-sensitive fluorescent proteins are engineered to alter the properties of their response to magnetic fields and radio frequencies, enabling multimodal sensing of biological systems.