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Hysteresis in the transfer characteristics of 2D transistors is considered an important metric to evaluate their performance, but its characterization process is often inconsistent among different studies. Here, the authors propose a standardized scheme to measure and analyze hysteresis in different 2D devices, facilitating systematic comparisons and performance projections.

Therapeutic gene editing in vivo is an ongoing challenge. Here, authors demonstrate Cas9 nickase guided DNA ligation as a nonviral method for installing permanent genomic corrections with favorable on target edit profiles in model animal cell types and adult mice.

Nanofibrils constructed from oat protein and carrying iron nanoparticles can increase absorption compared with ferrous sulfate in human studies, offering a promising fortification strategy for treating iron deficiency and improving human nutrition.

Allogenic mesenchymal stem cells are engineered with three mRNAs to bind to multiple myeloma B cells while activating T cells for cancer therapy.

Organ banking via vitrification could transform transplantation but has never been achieved at human organ scales. Here, the authors demonstrated successful vitrification in ≤ 3L CPA volumes and ~<1L porcine liver with successfully rewarming ≤ 2L CPA volumes using nanowarming.

A complementary metal–oxide–semiconductor (CMOS) imager that has a 512-pixel silicon image sensor post-processed into a 4.1-mm-long, 120-μm-wide shank with a collinear fibre for illumination can be used to record transient fluorescent signals in deep brain regions at 400 frames per second.

Scale-invariant magnetic anisotropy in RuCl₃ has been revealed through measurements of its magnetotropic coefficient, providing evidence for a high degree of exchange frustration that favours the formation of a spin liquid state.

Early high-resolution images of two 2021 novae reveal eruptions unfolding in multiple stages with colliding outflows that produce shocks and gamma rays, reshaping our understanding of stellar explosions.

Data collected from zoos and aquariums worldwide show that hormonal contraception or permanent surgical sterilization in mammals increase life expectancy, with different mechanisms in males and females.

An 11-qubit atom processor comprising two precision-placed nuclear spin registers of phosphorus in silicon is shown to achieve state-of-the-art Bell-state fidelities of up to 99.5%.

Solid tumors often resist immunotherapy due to an immunosuppressive tumor microenvironment. Here, the authors develop CancerPAM, a multiomics CRISPR pipeline that enables tumor-specific cytokine expression to boost immune infiltration and CAR T cell efficacy in neuroblastoma.

JWST observations of the ultra hot Jupiter WASP 121 b reveal helium escaping for most of its orbit, forming two giant tails moving in opposite directions. The results show how stellar radiation modifies planetary atmospheres.

Mutations in GJB2 cause DFNB1, the most common hereditary deafness. ATAC-seq identification of gene regulatory elements enables targeted GJB2 delivery to cochlear cells, preventing hearing loss in mouse models.

Two-dimensional polyaramid polymers are synthesized to form nanofilms that exhibit the lowest gas permeability of any polymer by orders of magnitude, despite lacking crystallinity, enabling molecular-scale nanomechanical resonators and barrier materials.

Challenges in mapping modern molecular and anatomical datasets into a common atlas are not fully addressed. Here authors present approaches to aligning multimodal neuroimaging data and quantifying geometric variability. Authors also make sure open-source code, dataset standards, and a web interface are available, enabling large scale integration of datasets essential to modern neuroscience.

In a hybrid superconductor–ferromagnet device, the dynamic stray fields of current-driven vortices unidirectionally excite coherent short-wavelength magnons.

Double Asteroid Redirection Test (DART) mission impacted Dimorphos to test asteroid deflection. Here, the authors show that post-impact spectra largely match pre-impact properties, with only subtle variations probably linked to mutual events and to the evolution of the ejecta dust.

Nature Biotechnology’s annual survey highlights academic startups that are, among other things, designing circular RNA therapeutics, tackling cancer with arenaviruses, creating psychedelics without the trip, editing genes and cells in vivo, harnessing the power of autoantibodies and editing the epigenome.

Processing of coherent motion has been extensively studied in the primate visual system, but has not been well characterized in mice. Here, the authors use widefield calcium imaging to reveal that coherent motion responses are organized anisotropically both across and within visual areas in mice.

The small spin-orbit interaction makes transduction between the magnetic and optical information challenging in organic materials. Here, the authors show that the room temperature electroluminescence of an organic material can be controlled by the fringe fields of a nearby magnet.

The authors present DNA-Diffusion, a generative AI framework that designs synthetic regulatory elements with tunable cell-type specificity. Experimental validation demonstrates their ability to reactivate AXIN2 expression, a leukemia-protective gene, in its native genomic context.

This Tutorial integrates state-of-the-art tools into a streamlined workflow to create high-quality annotations for animal genomes, assigning gene symbols and annotating repeat regions for both protein-coding and non-coding RNA genes, before assessing annotation quality.

The complement cascade is increasingly recognized in the brain. Here, with MERFISH, the authors showed developmentally regulated brain endogenous expression of complement genes and a potential role of the alternative pathway in brain development.

This study demonstrates a sub-THz free-space link, achieving 120 Gbit/s across 5 m enabled by compact plasmonic components with >300 GHz bandwidth, paving the way for next-generation scalable wireless networks at high carrier frequencies.

The cellular origin of soft-tissue cancers, such as synovial sarcoma (SyS), is unknown. Here, expression of the oncoprotein, SS18::SSX, in fibroblasts was sufficient to produce human-like SyS tumours, thereby identifying a cell of origin for SyS.

Elevated concentrations of arsenic are common in shallow groundwater in many parts of South and Southeast Asia. Field experiments and model simulations suggest that adsorption of arsenic to sediments could help to limit contamination of deep groundwater.

Locksley and colleagues describe a nutrient-sensing circuit in the small intestine. Upon feeding, TSLP production from fibroblasts is increased in a GLP-2-dependent manner, resulting in increased ILC2 activation and tuft cell hyperplasia, thus linking food intake with ILC2 activation.

This Review outlines the fundamental role of chimeric antigen receptor (CAR) T cell therapy for children, adolescents and young adults (CAYAs) with relapsed and/or refractory B cell acute lymphoblastic leukaemia, emphasizing the crucial need to further exploit CAR T cells and other immunotherapies to improve survival with broadened access across disease states. Opportunities and challenges for expanding CAR T cell therapy to other haematological and non-haematological malignancies in CAYAs are also discussed.

Nature Biotechnology’s annual survey highlights academic start ups that are, among other things, correcting misfolded or disordered proteins, creating second-generation GPCR agonists, building a new gene delivery platform and mining cancer genomes for novel targets.

Discoveries in Jurassic rocks reveal that birds were adept fliers earlier than scientists realized.

The BioDIGS project is a nationwide initiative involving students, researchers and educators across more than 40 research and teaching institutions. Participants lead sample collection, computational analysis and results interpretation to understand the relationships between the soil microbiome, environment and health.

A pangenome of the Cannabis genus including 193 genomes demonstrates high variability in most of the genome but low diversity in cannabinoid synthesis genes and provides a resource for future genetic studies and crop optimization.

Reconfigurable arrays of up to 448 neutral atoms are used to implement and combine the key elements of a universal, fault-tolerant quantum processing architecture and experimentally explore their underlying working mechanisms.

Despite exhibiting ferroelectric features, SrTiO₃ fails to display long-range polar order at low temperatures due to quantum fluctuations. An ultrafast X-ray diffraction experiment now probes polar dynamics of this material at the nanometre scale.

The early postnatal roles of dendrite-targeting interneurons in primary visual cortex (V1) remain elusive. Here, the authors find that somatostatin interneurons in mouse V1 exhibit a uniquely delayed developmental trajectory for innervation and sensory responses, highlighting a window for the emergence of a key mechanism for normalization in cortical circuits.

Topological phases in quantum many-body systems emerge from long-range entanglement rather than symmetry breaking, giving rise to properties such as topology-dependent degeneracy, protected edge modes and anyonic excitations. This Review discusses recent advances on how to realize and study such interacting topological states on digital quantum computers.

Intracellular redox state orchestrates a self-reinforcing circuit connecting hypoxia inducible factor 1α-dependent signalling with post-translational regulation of the metabolic enzyme isocitrate dehydrogenase 1 to govern intestinal stem cell fate.

Amorphous phases in alkali-activated slag cement are explored using spatially resolved synchrotron X-ray techniques. Local atomic structures of individual phases show the impact of magnesium content on resistance to CO₂-induced degradation.

Water-vapor interfaces have been studied with many techniques, yet open questions persist about their electronic and molecular structure. Here, the authors demonstrate the application of soft x-ray second harmonic generation to study the water surface by leveraging attosecond pulses at the LCLS and a flat liquid sheet microjet, providing insights on the H-bond structure.

The authors show that the CD4 mimetic CJF-III-288 stabilizes HIV-1 Env in an asymmetric “open” State-3 conformation, guiding anti-CoRBS antibodies to boost ADCC against infected cells and delay viral rebound in vivo, underscoring therapeutic promise.

Engineered Escherichia coli strains expressing a colibactin antitoxin, ClbS, on the surface prevent the genotoxic effects of colibactin released by genotoxin-producing bacteria in the mouse gut.

Hi-C methods for studying 3D genome structure typically require millions of cells and struggle with repetitive regions. Here, authors develop CiFi, combining 3C with PacBio HiFi sequencing, enabling chromatin analysis from as few as 60,000 cells and chromosome-scale assembly from small samples.

Insects are declining in many regions. Here the authors show that arthropod biomass losses in Jena Experiment and Biodiversity Exploratories time series are driven more by species loss than by species identity and abundance declines, and are mitigated by high plant diversity and low land-use intensity.

Indium selenides, InSe and In₂Se₃, exhibit high electron mobility, high thermal velocity, thickness-tunable bandgaps and unique phase-dependent ferroelectric properties. Addressing their challenges of scalable synthesis, phase control and oxidation could be the basis for next-generation, low-power computing.

The authors propose a universal descriptor for thermal conductivity based solely on the atomic number in the primitive cell and sound velocity, enabling rapid and scalable materials screening.

The way in which the brain processes language from a collection of sounds to meaningful concepts remains poorly understood. Here, the authors show that the brain’s temporal responses to speech closely follow the layer-by-layer progression of LLMs, revealing shared computational principles.