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Rjoob et al. develop CardioKG, a knowledge graph built on cardiac imaging traits to identify genetic associations and potential therapeutic strategies and drug repurposing opportunities for cardiovascular diseases.

Metagenomic taxonomic profiling usually relies either on reads or assembled contigs/MAGs. Here, authors present RAT, a tool that integrates taxonomic signals from reads, contigs, and MAGs into one profile with high precision and sensitivity. RAT provides a comprehensive view of the microbiome.

Iron–sulfur minerals play critical roles in regulating nitrogen cycling under anoxic conditions. This study shows that pyrrhotite with abundant iron vacancies promotes electron transfer and microbial nitrate reduction to dinitrogen.

The microbiota may mediate the differential responses to oral cholera vaccine (OCV). Here, the authors reveal that the presence of sphingolipid-producing bacteria is associated with the development of protective immune responses after OCV.

Chronic stress disrupts the brain vasculature and contributes to mood disorders, but mechanisms of resilience remain unclear. Here, the authors show that enriched environments increase astrocytic Fgf2 to prevent stress-induced vascular alterations and depressive behavior with relevance to human depression.

The length of time a qubit can store information is linked to its coherence time. Here, the authors demonstrate that industrially important crystals comprising more than one species can host qubits with unexpectedly long coherence times.

Coupling to a cavity enhances the readout fidelity of NV center-based quantum sensors, though thermal noise remains a challenge. Here the authors use spin refrigeration and a nonlinear model to demonstrate a highly sensitive quantum magnetometer with NV centers strongly coupled to a microwave resonator.

Photon collection from quantum emitters is difficult, and their scale requires the use of free-space optical measurement setups which prevent packaging of quantum devices. Here, the authors design and fabricate a metasurface that acts as an immersion lens to collect and collimate the emission of an individual emitter.

In this study, authors employ fragment-based lead discovery to identify WRN inhibitors. The fragment hits reveal an additional allosteric pocket and uncover a previously uncharacterized structural conformation of the WRN helicase domain with unique orientations of the ATPase domains

Merlino et al. demonstrate that the cytokine Interleukin-27 contributes to innate antiviral immunity in the placenta and is an important defense against congenital Zika virus infection.

Hydrogen and helium mixtures can be compressed to the extreme temperature and pressure conditions found in the interior of Jupiter and Saturn, and the immiscibility revealed supports models of Jupiter that invoke a layered interior.

An efficient quantum thermal simulation algorithm that exhibits detailed balance, respects locality, and serves as a self-contained model for thermalization in open quantum systems.

Through direct visualization of how the moiré potential enhances and modulates the topological flat band in rhombohedral graphene superlattice, this work provides key insights into the microscopic mechanism of the fractional quantum anomalous Hall effect

Representative microbial isolates and patient-specific biobanks are crucial for microbiome investigation and management. Here, authors develop laser-assisted microbial culturomics, combining high-throughput, precise bioprinting on diverse media with rapid, non-invasive analyses.

The spatial scale over which metal–insulator transitions happen is not known, despite the importance of this phenomenon in basic and applied research. The authors show that in chromium-doped V₂O₃, with decreasing temperature, microscopic metallic domains coexist with an insulating background.

Here, the authors present archaeology of the Namorotukunan site in Kenya’s Turkana Basin that demonstrates adaptive shifts in hominin tool-making behaviour spanning 300,000 years and increasing environmental variability. They contextualize these findings with paleoenvironmental proxies, dating, and geological descriptions.

URu₂Si₂ undergoes a prominent phase transition to an ordered state of unknown nature. Using high-resolution 3D ARPES, Bareille et al. image an abrupt symmetry reconstruction of its heavy-fermion electronic structure that could explain the origin of the ordered state and its missing entropy.

It is well established that a significant amount of heat produced in the Earth’s mantle is due to the decay of uranium, yet the incorporation of uranium in deep mantle phases remains poorly explored. Here, two chemically simple uranium carbonates (U₂[CO₃]₃ and U[CO₃]₂) were synthesized by a reaction of UO₂ with CO₂ at lower mantle conditions, revealing that uranium carbonates could be host phases of uranium in carbon-rich lithologies in the Earth’s mantle.

The variability in clinical outcomes of SARS-CoV-2 infection is partly due to deficiencies in production or response to type I interferons (IFN). Here, the authors describe a FIP200-dependent lysosomal degradation pathway, independent of canonical autophagy and type I IFN, that restricts SARS-CoV-2 replication, offering insights into critical COVID-19 pneumonia mechanisms.

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.

Spin ices are magnetic materials in which excitations equivalent to monopoles can occur. Using high-pressure techniques, Zhouet al. synthesize a new member of the spin ice family, Dy₂Ge₂O₇, in which monopoles exist at higher densities, and can stabilize as dimers.

Viscous Dirac fluid flow in room-temperature graphene is imaged using quantum diamond magnetometry, revealing a parabolic Poiseuille profile for electron flow in a high-mobility graphene channel near the charge-neutrality point.

This study maps out the diversity and evolution of the bacterial order Caulobacterales, including the model organism C. crescentus, which reveals widespread phototrophy and illuminates the evolution of bacterial cell shapes and lifecycle complexity.

Here, the authors built a non-redundant catalogue of nearly 1 billion putative small proteins from the global microbiome as a publicly-available resource, and highlight how some highly prevalent and evolutionarily conserved sequences lack functional annotation.

Synovial sarcoma (SyS) is a cancer driven by a fusion oncoprotein, SS18::SSX, but the mechanism underlying the oncoprotein-mediated tumorigenesis remains unclear. Here, the authors employ transgenic mouse models and multi-omics to show how SS18:SSX modifies the activity and recruitment of BAF-family chromatin remodeling complexes to drive SyS tumorigenesis.

A range of drugs is available for symptomatic angina, but the optimal choice or combination of therapies is often uncertain, and contemporary guidelines do not necessarily provide definite recommendations. In this Consensus Statement, Ferrari and colleagues propose an individualized approach to angina treatment, which takes into consideration the patient, their comorbidities, and the underlying mechanism of disease.

In this study, the authors develop a flavivirus vaccine strategy by introducing mutations into envelope glycoproteins resulting in structural changes that conceal the ADE-prone fusion loop epitope. They show that the Zika virus-specific construct protects mice against viral challenge and prevents ADE by Dengue virus.

Wastewater-based surveillance tends to focus on specific pathogens. Here, the authors mapped the wastewater virome from 62 cities worldwide to identify over 2,500 viruses, revealing city-specific virome fingerprints and showing that wastewater metagenomics enables early detection of emerging viruses.

Shock-wave driven reactions of organic molecules may have played a key role in prebiotic chemistry, but their mechanisms are difficult to investigate. The authors, using time-resolved x-ray diffraction and small-angle x-ray scattering experiments, observe the transformation of liquid benzene during a shock, identifying carbon and hydrocarbon solid products.

Molecules with ‘hyperpolarised’ nuclear spins can be used to improve MRI performance but require an efficient polarisation method. Broadway et al. demonstrate a quantum control protocol using a nitrogen vacancy centre inside a diamond to hyperpolarise protons within molecules deposited on the surface.

A diamond chip with nitrogen–vacancy centres is used for magnetic imaging of living magnetotactic bacteria with sub-cellular spatial resolution.

The synthesis of two-dimensional diamond is the ultimate goal of diamond thin-film technology. Here, the authors perform Raman spectroscopy of bilayer graphene under pressure, and obtain spectroscopic evidence of formation of diamondene, an atomically thin form of diamond.

Nuclear magnetic resonance imaging at the atomic scale has been limited to detection and localisation of single nuclear spins. Here, the authors extend imaging to large nuclear spin clusters in 3D by combining weak quantum measurements, phase encoding and simulated annealing.

Understanding the factors that determine the properties of permanent magnets, which play a central role in many industrial applications, can help in improving their performance. Here, the authors study how changes in the iron content affect the microstructure of samarium cobalt magnets.

Silicon carbide is a polymorphic material with over 250 known crystal structures. Here the authors show that such polymorphism can be used as a degree of freedom for engineering optically addressable and coherently interacting spin states, including many with room-temperature quantum coherence.

Feed‐forward loops (FFLs) can filter out noise, but whether their overrepresentation in GRNs reflects adaptive evolution for this function is debated. Here, the authors develop a null model of regulatory evolution and find that FFLs evolve readily under selection for the noise filtering function.

Bennu comprises components of intra- and extra-Solar System origins. The parent bodies of Bennu, Ryugu and CI chondrites likely formed from a shared but heterogeneous reservoir in the outer parts of the solar protoplanetary disk.

A previously uncharacterized microbial enzyme is responsible for the production of molecular hydrogen in the gut, which drives the growth of other bacteria and has implications for human health.

Nucleoside triphosphates (NTPs) are important building blocks that underpin emerging enzymatic approaches to RNA therapeutics manufacturing. Here, authors develop a biocatalytic strategy to convert nucleosides into NTPs containing clinically relevant modifications, using simple phosphate donors.

Superconductivity in hydrides has been primarily explored by electrical transport measurements. Here, the authors perform SQUID magnetometry under extreme high-pressure and report characteristic superconducting parameters for Im-3m-H₃S and Fm-3m- LaH₁₀—the representative members of two families of high-temperature superconducting hydrides.

A combination of genome-wide functional screening, imaging and chromatin profiling identifies a new class of highly prevalent genomic elements that help retain extrachromosomal DNA copies in dividing cells and persist across generations.