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Crohn’s disease is associated with disturbances in the B-cell compartment and secreted antibodies. Here, the authors reveal impaired colonic dimeric IgA responses in patients with Crohn’s disease and verify this phenotype in murine models, demonstrating that mitochondrial dysfunction drives defective mucosal humoral immunity.

Urinary albumin-to-creatinine ratio (UCAR) is associated with various clinical outcomes such as kidney disease and cardiovascular disease. Here, the authors report genome-wide meta-analysis in over 500,000 individuals and find 68 UACR loci, followed by statistical fine-mapping, gene prioritization and experimental validation in flies.

Conducting atom-optical experiments in space is interesting for fundamental physics and challenging due to different environment compared to ground. Here the authors report matter-wave interferometry in space using atomic BECs in a sounding rocket.

Using carbon nanotubes in electronic or photovoltaic devices generates active metastable states. These elusive species are hard to characterize because of the polydisperse and aggregate nature of nanotube bundles. A complete characterization of the radical–ion pair state has now been achieved using a range of techniques.

A quantum gas trapped in an optical lattice of triangular symmetry can now be driven from a paramagnetic to an antiferromagnetic state by a tunable artificial magnetic field.

Multiple freezing–melting pathways of ice VI are found at room temperature, occurring via the ice XXI and ice VII phases. Supercompressed water structurally evolves from high-density water to very-high-density water.

Sala et al. report the first structural snapshot of the Nipah virus RNA-dependent RNA polymerase in the actively elongating state, uncovering key mechanisms of RNA synthesis by non-segmented negative strand RNA viruses.

The authors used an autonomous biophysical observatory to estimate the light intensity triggering seasonal zooplankton vertical migration under Arctic sea ice. Considering this trigger, they project future reductions in time spent in the under-ice habitat, with implications for Arctic ecosystems.

The transcriptional regulation of oligodendrocytes has an essential role in myelin formation and maintenance. Here, the authors identify the transcription factor Tfii-i as a regulator of myelin genes expression in the nervous system and show that its loss enhances myelin thickness and nerve conduction.

Mitochondrial ribosome biogenesis requires the assistance of multiple assembly factors. Here, the authors provide insights into the essential role of the GTPase MTG3 during small subunit biogenesis and a potential coupling to translation initiation.

Bhatta et al. use biochemistry and cryogenic electron microscopy to elucidate the mechanism of human tRNA 3′ processing. Their results show how mitochondria-specific subunits of RNase Z compensate for the structural degeneracy of organellar tRNAs.

North Africans are underrepresented in current genome-wide data sets. Here, the authors provide an Egyptian genome reference, consisting of de novo assembly of the genome of an Egyptian individual and genome-wide genetic variation from a representative cohort of 110 Egyptian individuals.

Gauge theories host important phenomena such as confinement that are difficult to study theoretically. Advances in quantum computers have now made it possible to perform digital quantum simulations of confinement dynamics in a gauge theory.

Remdesivir is a nucleoside analog that inhibits the SARS-CoV-2 RNA dependent RNA polymerase (RdRp) and is used as a drug to treat COVID19 patients. Here, the authors provide insights into the mechanism of remdesivir-induced RdRp stalling by determining the cryo-EM structures of SARS-CoV-2 RdRp with bound RNA molecules that contain remdesivir at defined positions and observe that addition of the fourth nucleotide following remdesivir incorporation into the RNA product is impaired by a barrier to further RNA translocation.

Maturation of the ribosomal peptidyl transferase center (PTC) is mediated by universally conserved GTPases. Here, cryo-EM structures of mitochondrial ribosomal large subunit assembly intermediates and of mature ribosomes offer insight into the roles of several assembly factors, including GTPBP6’s role in both ribosome biogenesis and recycling.

A cryo-electron microscopy structure of the RNA-dependent RNA polymerase of SARS-CoV-2 sheds light on coronavirus replication and enables the analysis of the inhibitory mechanisms of candidate antiviral drugs.

Kai and colleagues found that at least 63% of imported plastic waste needed to be recycled for economic viability in 22 top importing countries during 2013–2022, exceeding the average domestic recycling rate of 23%.

Paul Pharoah and colleagues report the results of a large genome-wide association study of ovarian cancer. They identify new susceptibility loci for different epithelial ovarian cancer histotypes and use integrated analyses of genes and regulatory features at each locus to predict candidate susceptibility genes, including OBFC1.

Topological terms arise naturally in gauge theories but have been difficult to implement in quantum simulators. Now, a tunable topological θ-angle is demonstrated with a cold-atom platform.

Here, the authors profile the gut microbiota and metabolites of Indian agrarians to understand the impact of fermented foods consumption, and identify seasonal variation in the gut microbiota structure and predict the drivers of this instability.

Subducting slabs can stagnate in the lower mantle. High-pressure laboratory experiments show that the viscosity of a dominant mantle phase increases dramatically at shallow lower-mantle depths, which could cause the slabs to halt their descent.

The cryo-EM structure of human mitochondrial RNase P bound to precursor tRNA reveals the molecular basis for the first step of RNA processing in human mitochondria.

Contractile rings are formed from cytoskeletal filaments, specific crosslinkers and motor proteins during cell division. Here, authors form micron-scale contractile DNA rings from DNA nanotubes and synthetic crosslinkers, with both simulations and experiments showing ring contraction without motor proteins, offering a potential first step towards synthetic cell division machinery.

Myelinating cells differentially myelinate axons of different diameters, however whether they can also restrict radial axonal growth remained unclear. Here, the authors show that CMTM6 in Schwann cells restricts axon diameters, affecting sensory nerve conduction and behavioral performance.

Trans-ancestry meta-analysis of estimated glomerular filtration rate (eGFR) from 1,046,070 individuals identifies 264 associated loci, providing a resource of molecular targets for translational research of chronic kidney disease.

Glucagon is hormone that signals via a dedicated g-protein coupled receptor, but downstream signaling is poorly understood. Here, Wu et al. uncover liver glucagon signaling using phosphoproteomics and define a role for the vesicle trafficking protein SEC22B in distinct metabolic actions.

Hard X-ray free electron lasers allow new insights into dense matter dynamics. Here, the authors show that a single-beam, short-pulse laser can generate a converging cylindrical shock in a thin wire, providing a new method for high energy density research with improved repetition rates.

Entanglement in many-body systems is notoriously hard to quantify, but in certain situations relevant to atomic and condensed-matter experiments an entanglement witness, the quantum Fisher information, becomes measurable by means of the dynamic susceptibility.

Traditional TIRF illumination is hampered by lack of precise quantification of single-molecule intensities. Here the authors combine flat-field illumination by using a standard πShaper with multi-angular TIR illumination by incorporating a spatial light modulator compatible with fast super-resolution structured illumination microscopy.

Multiple myeloma (MM) is an incurable blood malignancy. Here, the authors report 35 MM risk loci and two causal mechanisms for genetic MM risk: longer telomeres and elevated plasma B-cell maturation antigen (BCMA) and interleukin−5 receptor alpha (IL5RA) levels.

Tau aggregates are associated with several neurodegenerative disorders. In this work, I. Saha and colleagues show that valosin-containing protein (VCP) recruited to Tau fibrils disaggregates them. However, this process comes at a cost: it generates seeding-active Tau species as byproduct.

Red mud is shown to yield green steel through fossil-free hydrogen-plasma-based reduction, a simple and fast method involving rapid liquid-state reduction, chemical partitioning, and density-driven and viscosity-driven separation.

The use of oncolytic viruses as a therapy for cancer is limited by mechanisms inhibiting viral replication in the tumor. Here, the authors show that a chemical derivative of itaconate, 4-octyl itaconate, increases oncolytic virus VSVΔ51 efficacy in various cancer models, through decreasing antiviral immunity.

Quantum simulation in a 71-site optical lattice certifies gauge invariance, showing how this essential property of lattice gauge theories can be maintained across a quantum phase transition.

Quantitative biochemical assays and high-resolution cryo-EM analysis reveal how the COVID-19 antiviral drug candidate molnupiravir causes lethal viral mutagenesis by the RNA-dependent RNA polymerase (RdRp) of SARS-CoV-2.

Analysis of a prospectively enrolled cohort of patients with SARS-CoV-2 infections in Bergen, Norway, reveals a high proportion of patients who experienced long COVID symptoms at 6 months, despite being relatively young and having only mild to moderate acute COVID-19 symptoms.

Ectonucleotidases associated to regulatory T cells are known modulators in the inflammatory environment. Here the authors describe CD8 T cell-derived extracellular vesicles bearing CD73 and suggest they function as an additional intrinsic modulator of immune responses.

Raman spectroscopy is a versatile tool to gain insight into the functionalization of graphene-based materials, yet unequivocal assignment of the vibrational modes associated with covalent binding has so far remained elusive. Here, the authors succeed in an experimental and theoretical identification of this molecular fingerprint.

The maintenance of bacterial and fungal activity is essential for ecosystem functioning, particularly in dry soils where the two phyla co-exist. Here, Worrich and colleagues show experimentally that mycelia traffic water and nutrients and thereby stimulate bacterial activity in stressful conditions.

Looser et al. reveal that oligodendrocytes detect and respond to axonal activity using K⁺ signaling to regulate vital metabolic support and maintain axon health.

Understanding the shock response of silicate glasses is essential for explaining phenomena like planetary interior formation, core-mantle boundary dynamics, and for designing high-performance materials. Here, the authors use time-resolved X-ray diffraction and laser-driven shock compression to reveal how network structure and composition govern phase transitions, densification, and melting for advancing geoscience and materials under extreme conditions.

A technique to detect the release of N-terminal fragments of Drosophila adhesion G-protein-coupled receptors (aGPCRs) provides insight into the dissociation of aGPCRs, and shows that receptor autoproteolysis enables non-cell-autonomous activity of aGPCRs in the brain.

EPO treatment improves cognition, but underlying mechanisms were unknown. Here the authors describe a regulatory loop in which brain networks challenged by cognitive tasks drift into functional hypoxia that drives—via neuronal EPO synthesis—neurodifferentiation and dendritic spine formation.

A Bose–Einstein condensate is created in space that has sufficient stability to enable its characteristic dynamics to be studied.

Classical Hodgkin lymphoma is a cancer that originates in lymph nodes. Little is known about its genetic susceptibility. Here, the authors combined existing and new genome-wide association studies to identify risk loci for classical Hodgkin lymphoma at 6q22.33, and nodular sclerosis Hodgkin lymphoma at 3q28, 6q23.3, 10p14, 13q34, 16p13.13.

The mechanism for chromothripsis, “shattered” chromosomes that can be observed in cancer cells, is unknown; here, using live-cell imaging and single-cell sequencing, chromothripsis is shown to occur after a chromosome is isolated into a micronucleus, an abnormal nuclear structure.