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The study identifies novel genetic variants linked to core cerebrospinal fluid Alzheimer’s Disease biomarkers using a genome-wide analysis, showing how endophenotypes can identify genes and disease mechanisms not captured by case-control studies.

Multipartite entanglement is of both fundamental and practical interest, but is notoriously difficult to witness and characterise. Here, Zarkeshian et al. demonstrate multipartite entanglement in an atomic frequency comb storing a single photon in a Dicke state spread over a macroscopic ensemble.

This study analyzes allelic expression bias in post-mortem brains of healthy individuals and those diagnosed with schizophrenia or bipolar disorder. The study shows that the number of imprinted genes is consistent with low estimates, and that allelic bias is independent of psychiatric disease status.

Here, the authors investigate the mechanism by which human aspartate/asparagine-β-hydroxylase (AspH), a 2OG-dependent oxygenase with an atypical Fe(II) coordination environment, catalyses hydroxylation of aspartate and asparagine residues in epidermal growth factor-like domains.

Peroxidases have long been considered to use ferryl heme intermediates (Fe(IV) = O) to catalyze oxidative chemistries. Here, Williams et al. find that ferric-oxyl (Fe^III–O^•–) excited states exist along the catalytic reaction coordinate of a peroxidase.

A fully convolutional neural network is used to create time-resolved three-dimensional dense segmentations of heart images. This dense motion model forms the input to a supervised system called 4Dsurvival that can efficiently predict human survival.

Radiant energy budgets and internal heat play a key role in the evolution of planets. Here, the authors analyze data from the Cassini mission to show that Jupiter’s radiant energy and internal heat budgets are significantly larger than previous estimates.

Quantum interference of two photons can be extended to the mid-infrared region by using quantum frequency conversion.

Large-scale numerical examination of a disordered Bose–Hubbard model in two dimensions shows entanglement based signature of many-body localization, providing answers to the challenging questions posed by recent experiments.

Structure-forming systems, such as chemical reaction networks, are usually described with the grand-canonical ensemble, but this may be inaccurate for small-sized systems. Here, the authors propose a canonical ensemble approach for closed structure-forming systems, showing its application to physical problems including the self-assembly of soft matter.

At low temperatures and separated by sufficient distances, magnetic impurities embedded in non-magnetic metals lose their magnetic nature. But when two such atoms are brought close together, it reappears. By varying the distance between two cobalt atoms with a scanning tunnelling microscope, the quantum phase transition between these two states can be explored.

Identifying jets originating from heavy quarks plays a fundamental role in hadronic collider experiments. In this work, the ATLAS Collaboration describes and tests a transformer-based neural network architecture for jet flavour tagging based on low-level input and physics-inspired constraints.

The Kitaev model is intensively studied as an exactly-solvable starting point for theoretical studies of quantum spin liquid states. Hickey and Trebst show that magnetic fields can destabilize the well-known gapped Kitaev spin liquid and induce a new gapless spin liquid, with a distinct gauge structure and neutral Fermi surface.

Progressive diseases tend to be heterogeneous in their underlying aetiology mechanism, disease manifestation, and disease time course. Here, Young and colleagues devise a computational method to account for both phenotypic heterogeneity and temporal heterogeneity, and demonstrate it using two neurodegenerative disease cohorts.

Human brain morphodynamics are explored using organoids.

Mayaro virus (MAYV) is an emerging arbovirus, but cross-reactivity with other alphaviruses makes analysis of its epidemiology difficult. Here, the authors develop an analytical framework to assess MAYV epidemiology and find evidence for an important sylvatic cycle and seroprevalences of up to 18% in some areas of French Guiana.

Single-particle tracking PALM (sptPALM) provides quantitative information in vivo if the protein of interest remains in a single diffusional state during track acquisition. Here the authors develop a custom-built sptPALM microscope and a Monte-Carlo based diffusion distribution analysis to study dynamic DNA-dCas9 interactions in live bacteria.

The oxygen-evolving complex in Photosystem II (PSII) catalyzes the light-driven oxidation of water to oxygen and it is still under debate how the water reaches the active site. Here, the authors analyse time-resolved XFEL-based crystal structures of PSII that were determined at room temperature and report the structures of the waters in the putative channels surrounding the active site at various time-points during the reaction cycle and conclude that the O1 channel is the likely water intake pathway and the Cl1 channel the likely proton release pathway.

Resistance to first line treatment is a major hurdle in cancer treatment, that can be overcome with drug combinations. Here, the authors provide a large drug combination screen across cancer cell lines to benchmark crowdsourced methods and to computationally predict drug synergies.

Using serial femtosecond X-ray cystallography, we provide structural insights into the final reaction step of Kok’s photosynthetic water oxidation cycle, specifically the S₃→[S₄]→S₀ transition where O₂ is formed.

An activator of DNA polymerase γ restores function to disease-causing mutant variants and demonstrates a potential route to treatments for inherited mitochondrial disorders involving POLG mutations.

Natural Killer cell development is controlled by two related transcription factors, Eomes and T-bet. Authors show here that while the two factors share a large proportion of their target genes, they regulate distinct developmental processes by differing in their pattern of expression and in their associated co-factors.

Chikungunya virus (CHIKV) infects humans and causes chronic arthritic diseases, yet information on CHIKV immune epitopes is still lacking. Here the authors stimulate peripheral blood cells from CHIKV patients with a peptide pool covering the full CHIKV proteome to define CD4 + T cell epitopes as well as to map cross-reactivity with closely related alphaviruses.

Known genetic loci account for only a fraction of the genetic contribution to Alzheimer’s disease. Here, the authors have performed a large genome-wide meta-analysis comprising 409,435 individuals to discover 6 new loci and demonstrate the efficacy of an Alzheimer’s disease polygenic risk score.

Currently many of the time resolved serial femtosecond (SFX) crystallography experiments are done with light driven protein systems, whereas the reaction initiation for non-light triggered enzymes remains a major bottle neck. Here, the authors present an expanded Drop-on-Tape system, where picoliter-sized droplets of a substrate or inhibitor are turbulently mixed with nanoliter sized droplets of microcrystal slurries, and they use it for time-resolved SFX measurements of inhibitor binding to lysozyme and secondly, binding of a β-lactam antibiotic to a bacterial serine β-lactamase.

The A.27 SARS-CoV-2 lineage spread globally in 2021 but did not become dominant. Here, the authors show that A.27 shares some mutations in the spike gene that are present in variants of concern, but lacks the D614G mutation, indicating independent evolution of immune escape properties.

Ancient DNA analyses reveal that Viking Age migrations from Scandinavia resulted in differential influxes of ancestry to different parts of Europe, and the increased presence of non-local ancestry within Scandinavia.

Marine woodborers can digest woody biomass without the help of gut microbiota but the mechanism has remained unclear. Here, the authors provide evidence that the woodborer’s respiratory protein hemocyanin plays a central role in wood digestion and may offer a route toward biorefining of woody plant biomass.

Accurately characterizing the noise influencing quantum devices is instrumental to improve coherence properties and design more robust control protocols. Sung et al. demonstrate non-Gaussian noise spectroscopy with a superconducting qubit, enabling the detection and characterization of dephasing noise without assuming Gaussian statistics.

An outburst from young star V883 Ori has vaporized much of the ice inventory of its protoplanetary disk, uniquely revealing a rich organic chemistry involving several complex molecules.

The authors developed a new inverse design approach using automatic differentiation with molecular dynamics to program patchy particles to self-assemble into curved structures. By optimizing anisotropic interactions through spherical harmonics, they successfully formed clusters with the desired curvature, offering a promising way to control curvature-directed self-assembly.

The goal of the 1000 Genomes Project is to provide in-depth information on variation in human genome sequences. In the pilot phase reported here, different strategies for genome-wide sequencing, using high-throughput sequencing platforms, were developed and compared. The resulting data set includes more than 95% of the currently accessible variants found in any individual, and can be used to inform association and functional studies.

In the non-randomized phase 3b/4 DESTINY-Breast12 study, trastuzumab deruxtecan (T-DXd) treatment of patients with HER2⁺ advanced breast cancer and active or stable brain metastases showed consistent intracranial activity and systemic efficacy of T-DXd.

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.

Quantum electrodynamics predicts a rare process in which light is scattered by light. The ATLAS Collaboration reports signs of this elusive effect in the collisions of ultra-relativistic lead ions.

The ATLAS Collaboration reports the observation of the electroweak production of two jets and a Z-boson pair. This process is related to vector-boson scattering and allows the nature of electroweak symmetry breaking to be probed.

The authors report on the radiative decay of a low-energy isomer in thorium-229 (^229mTh), which has consequences for the design of a future nuclear clock and eases the search for direct laser excitation of the atomic nucleus.

The ATLAS Collaboration reports a measurement of the ratio of the decay rates of W bosons to τ leptons and muons, in agreement with universal lepton couplings as postulated in the standard model of particle physics.

The ATLAS experiment at the Large Hadron Collider reports a search for charged-lepton-flavour violation in decays of Z bosons into a τ lepton and an electron or muon of opposite charge.

The measurement of the total cross-section of proton–proton collisions is of fundamental importance for particle physics. Here, the first measurement of the inelastic cross-section is presented for proton–proton collisions at an energy of 7 teraelectronvolts using the ATLAS detector at the Large Hadron Collider.

Right ventricular failure is a complex problem with several possible aetiologies—including pulmonary hypertension, cardiomyopathy, myocardial infarction, congenital or valvular heart disease, and sepsis—and commonly has a very poor prognosis. Many of the signs and symptoms of this condition are nonspecific and can be acute or chronic. In this Review, Dr Marc Simon describes the various pathophysiological causes of right ventricular failure, and discusses available diagnostic and management strategies, with a focus on patients who have underlying pulmonary hypertension.