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Frequencies for motor kinematics are encoded by the cerebellum through population tuning of firing probabilities, which leads to cerebellar oscillations and corresponding motions.

Cross-phase manipulation holds potential for applications in synthetic biology and drug delivery. Here, authors present an acoustofluidic platform that enables rapid embedding of microparticles from an oil phase into aqueous droplets, offering an effective tool for studying cellular multiphase interactions and related phenomena.

This study shows GS2 controls seed size by activating SUG1 expression, which encodes a transcriptional regulator that interacts with multiple TFs to control seed growth via GA and BR pathways. SUG1⁹³¹¹ allele offers the potential to improve rice yield.

Van der Waals magnetic materials are characterized by strong magnetic interactions within each van der Waals layer, while the interaction between the layers is typically weaker. Here, Liu, Su, Gu and coauthors find a magnetic phase transition in the van der Waals magnet, NiI₂, under hydrostatic pressure, which they associate with the interlayer magnetic interaction.

Spin-1/2 Heisenberg chains are fabricated through on-surface synthesis and reduction. As the chain length increases, the spin excitation gaps decrease, suggesting a gapless state in the thermodynamic limit. Spinon dispersion observed in the spin chains highlights the potential of this approach for realizing custom quantum spin systems.

A dynamic Cu–Pt dual-atom catalyst supported on 1Tʹ-MoS₂ can be electrically switched between single- and dual-atom configurations, enabling on-demand control for alkyne semi-hydrogenation.

Hong-Xuan Lin, Ji-Ping Gao, Jun-Xiang Shan and colleagues show that natural variation in a proteasome α2 subunit gene contributes to thermotolerance in African rice. Their follow-up studies suggest that the variant allele protects cells from heat stress by enhancing the elimination of cytotoxic denatured proteins and maintaining heat-response processes.

Neovascular eye diseases cause blindness, but underlying drivers are unclear. Here, the authors show that PRL3 promotes pathological angiogenesis, and that targeting PRL3 with an antibody therapy could offer a new treatment for ocular neovascularization.

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.

While SNAP25 is critical for neural electrical communication, its cardiac role is unknown. Here the authors show that it governs atrial electrical stability by directing Kv1.5 channel trafficking, with therapeutic implications for atrial fibrillation.

Piracetam improves wide-bandgap perovskite crystallinity and uniformity, enabling monolithic all-perovskite tandem solar cells with efficiencies of 28.71% (0.07 cm²) and 28.20% (1.02 cm²), ensuring minimal efficiency loss during scale-up.

The correlated errors in superconducting qubits have been linked to high-energy particle impacts from cosmic rays, but a direct observation has been lacking. Here, the authors measure the quasiparticle bursts and correlated errors and separate the contributions of cosmic-ray muons and γ-rays in a 63-qubit processor.

Riboswitches bind intracellular metabolites and control bacterial gene expression. Here, by using X-ray crystallography, molecular dynamics simulations, and single-molecule fluorescence resonance energy transfer, the authors show how a local Mn2+ ion-binding signal is transduced across the yybP-ykoY riboswitch from Xanthomonas oryzae.

Deformation twinning, a key deformation mechanism that is rarely explored in superhard materials, is shown to be activated in cubic boron nitride and other cubic covalent materials under a loading-specific twinning criterion.

A study of human and mouse models of pancreatic cancer finds that inhibiting the lipid kinase PIKfyve interferes with the cancer’s lipid homeostasis, making it a potential target for drug development.

Patient-derived xenografts provide a resource for basic and translational cancer research. Here, the authors generate multiple pediatric high-grade glioma xenografts, use omics technologies to show that they are representative of primary tumours and use them to assess therapeutic response.

Existing isokinetic training devices are often heavy, bulky, and energy-consuming, which limits the rehabilitation opportunities only at designated hospitals. Here, the authors show a highly integrated and power-free knee rehabilitation robot that can provide home-based isokinetic training

Whole-genome sequencing data for 2,778 cancer samples from 2,658 unique donors across 38 cancer types is used to reconstruct the evolutionary history of cancer, revealing that driver mutations can precede diagnosis by several years to decades.

The authors present SVclone, a computational method for inferring the cancer cell fraction of structural variants from whole-genome sequencing data.

Kim and colleagues perform a phase 2 clinical trial (ELM-2) of odronextamab monotherapy in patients with relapsed/refractory diffuse large B cell lymphoma and report on the primary analyses of the efficacy and safety profile.

Neurogenic bladder often occurs after pelvic ganglia injury. Here, the authors designed a fiber-enhanced tissue bandage for injured pelvic ganglia that facilitates the delivery of growth factors essential for ganglia healing.

SF₆/N₂ separation is crucial for sustainable development. Here, the authors prepared low-cost and robust MOF composite pellets and established a vacuum temperature swing adsorption process with both high recovery and high purity of SF₆.

Superconducting qubits have been used to realize a quantum many-body state that is capable of universal topological quantum computation.

Uncontrolled dendrite growth and severe side reactions at high capacities and rates impede its practical application for zinc metal anodes. Here, the authors propose a composite zinc anode with 3D hierarchical graphene matrix as a multifunctional host to regulate zinc deposition for aqueous zinc batteries.

Integrative analyses of transcriptome and whole-genome sequencing data for 1,188 tumours across 27 types of cancer are used to provide a comprehensive catalogue of RNA-level alterations in cancer.

Arene-fused siloles have attracted interest due to their promising applications in electronic and optoelectronic devices. Here, the authors report Ir(III)-catalyzed cycloaromatization of ortho-alkynylaryl vinylsilanes with arylsulfonyl azides via α-silyl radical Smiles rearrangement for accessing naphthyl-fused benzosiloles under visible-light photoredox conditions.

An analysis of 140 floras from China reveals that high species diversity exists in granite and mixed landforms, while low species diversity is found in karst, Danxia, and desert landforms. Based on these findings, the authors provide new clues for understanding the assembly and differentiation of mountain floras, highlighting the role of bedrock and landform processes.

There’s an emerging body of evidence to show how biological sex impacts cancer incidence, treatment and underlying biology. Here, using a large pan-cancer dataset, the authors further highlight how sex differences shape the cancer genome.

Realization of the bicyclic aromaticity has attracted much attention because of the potential to modulate the fundamental properties of 3D aromatic organic molecules that are not topologically planar. Now, the synthesis and characterization of dual-aromatic molecules, and their electronically mixed [4n+1]/[4n+1] triplet bi-radical species displaying Baird-type aromaticity, has been realized.

Underwater adhesive proteins greatly inspired the development of underwater glue but except for specific proteins it is believed that abundant common proteins cannot be converted into underwater glue. Here, the authors demonstrate, using bovine serum albumin as model protein, that unfolded common proteins exhibit high affinity to surfaces and strong internal cohesion via amyloid-like aggregation in water.

Some cancer patients first present with metastases where the ___location of the primary is unidentified; these are difficult to treat. In this study, using machine learning, the authors develop a method to determine the tissue of origin of a cancer based on whole sequencing data.

Cancers evolve as they progress under differing selective pressures. Here, as part of the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium, the authors present the method TrackSig the estimates evolutionary trajectories of somatic mutational processes from single bulk tumour data.

Genome-wide association studies (GWAS) have improved our understanding of the genetic basis of lung adenocarcinoma but known susceptibility variants explain only a small fraction of the familial risk. Here, the authors perform a two-stage GWAS and report 12 novel genetic loci associated with lung adenocarcinoma in East Asians.

Gastrointestinal stromal tumours (GISTs) are clinically heterogeneous, with varying degrees of aggressiveness. Here, the authors describe the genomic and transcriptomic landscape of 117 GISTs from 105 patients; they find four molecular subtypes as well as recurrent inactivating YLPM1 mutations in high-risk/metastatic GIST.

The flagship paper of the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes Consortium describes the generation of the integrative analyses of 2,658 cancer whole genomes and their matching normal tissues across 38 tumour types, the structures for international data sharing and standardized analyses, and the main scientific findings from across the consortium studies.

Viral pathogen load in cancer genomes is estimated through analysis of sequencing data from 2,656 tumors across 35 cancer types using multiple pathogen-detection pipelines, identifying viruses in 382 genomic and 68 transcriptome datasets.

In this study the authors consider the structural variants (SVs) present within cancer cases of the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium. They report hundreds of genes, including known cancer-associated genes for which the nearby presence of a SV breakpoint is associated with altered expression.

Preparing biological material for electron microscopy (EM) involves harsh processing steps that can poorly preserve cellular ultrastructure. Here the authors apply a single layer of graphene onto wet cells to enable direct EM using low voltage, and correlate actin filaments and mitochondria using super-resolution microscopy.

Entanglement was observed in top–antitop quark events by the ATLAS experiment produced at the Large Hadron Collider at CERN using a proton–proton collision dataset with a centre-of-mass energy of √s  = 13 TeV and an integrated luminosity of 140 fb⁻¹.

With the generation of large pan-cancer whole-exome and whole-genome sequencing projects, a question remains about how comparable these datasets are. Here, using The Cancer Genome Atlas samples analysed as part of the Pan-Cancer Analysis of Whole Genomes project, the authors explore the concordance of mutations called by whole exome sequencing and whole genome sequencing techniques.

Precise and spatio-temporal control of crystallization kinetics is important but challenging. Here, the authors propose an optical strategy called optofluidic crystallithography to steer the growth of single-crystalline halide perovskites.

A new AI generative model leverages the use of synthetic images to effectively augment existing datasets, boosting performance across multiple medical applications

Understanding deregulation of biological pathways in cancer can provide insight into disease etiology and potential therapies. Here, as part of the PanCancer Analysis of Whole Genomes (PCAWG) consortium, the authors present pathway and network analysis of 2583 whole cancer genomes from 27 tumour types.

Analyses of 2,658 whole genomes across 38 types of cancer identify the contribution of non-coding point mutations and structural variants to driving cancer.

In somatic cells the mechanisms maintaining the chromosome ends are normally inactivated; however, cancer cells can re-activate these pathways to support continuous growth. Here, the authors characterize the telomeric landscapes across tumour types and identify genomic alterations associated with different telomere maintenance mechanisms.