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Although river protection is core to social and environmental well-being, the extent to which river conservation policies are effective is difficult to assess. This study reveals that, under all relevant protection mechanisms in the contiguous USA, only 12% of rivers are adequately protected.

This Commission aims to resolve the current dialysis policy challenges in Thailand and generate lessons for the global kidney community by drawing on empirical evidence, systems thinking and multidisciplinary expertise to generate policy goals and recommendations.

Current long acting HIV therapies face challenges like prolonged pharmacokinetic tails, which increase resistance risk. The authors develop dimeric bictegravir prodrug nanosuspensions that sustain therapeutic levels for six months with a short PK tail, supporting safer ultra-long-acting HIV treatment.

With whole-genome sequencing of longitudinal Staphylococcus aureus isolates collected from long-term urinary catheters, authors show that the same strain of multidrug resistant S. aureus persists asymptomatically long-term despite antibiotic exposures.

In maize, ZmDapF1 suppresses the activity of ZmMDH6 in chloroplasts, exacerbating oxidative damage under drought. Knocking out ZmDapF1 or using its favourable allele with lower gene expression enhances drought resilience without yield penalty.

Large-effect variants in autism remain elusive. Here, the authors use long-read sequencing to assemble phased genomes for 189 individuals, identifying pathogenic variants in TBL1XR1, MECP2, and SYNGAP1, plus nine candidate structural variants missed by short-read methods.

The factors contributing to the onset of Barrett’s esophagus, a precancerous stage of the highly lethal esophageal cancer, remain elusive. Here, the authors identify inherited mutations in the VSIG10L gene as a key etiologic determinant affecting esophageal biology and facilitating the development of Barrett’s esophagus.

Eutectic aqueous–organic electrolytes enable highly reversible zinc–manganese batteries without acid addition. By regulating the water-bonding network, beneficial manganese oxide phases are deposited and stripped while gas formation is suppressed, achieving ultraextended cycling.

Seed traits are critical for soybean yield and quality. Here, the authors report a NF-YA transcription factor gene SW14 regulates soybean seed traits without affecting other agronomic traits by inhibiting GmLEC1-mediated transcriptional activation.

Non-invasive strategies to detect and track activated myeloid cells will facilitate disease diagnosis and monitoring in patients affected by neuroinflammatory disorders. Here, the authors present 18F-FMD, a dendrimer-based PET tracer that detects and monitors activated myeloid cells at different stages (presymptomatic and symptomatic) of Experimental Autoimmune Encephalomyelitis (EAE) in mice and in response to disease-modifying therapies.

This study shows that contrail avoidance can recover 9% of the global temperature budget by 2050. For every year of delay, the recoverable warming will diminish by 0.6%. This makes inaction (not fuel penalties) the most significant climate risk associated with avoidance.

Dimorphic organisms switch between two distinct life forms, but how a single genome controls the genetic program for both states is unclear. The study identifies hundreds of convergently evolved gene families and two regulator genes, dkl and dfl, that coordinate expression to optimize the two morphologies of Mucorales fungi.

Mangrove ecosystems are facing severe climate threats. However, this study shows that strategically expanding protected areas to include the most climate-resilient sites can safeguard biodiversity and ecosystem services for the future, and this can be achieved with only a modest increase in protected area.

Multipole datasets and targeted sensitivity simulations reveal interannual variability in Middle Eastern dust accounts for ~36 % of the Indian Ocean Dipole variance during boreal autumn, surpassing the influence of El Niño-Southern Oscillation.

Chromatin states need to be maintained during DNA damage repair. Here, the authors expand the histone chaperone network involved in repair-coupled chromatin restoration and highlight a mechanistic coordination between old and new histone dynamics.

How white matter develops along the length of major tracts in humans remains unknown. Here, the authors identify fundamental patterns of human white matter development along distinct axes that reflect brain organization.

Contact matrices are used to describe social mixing patterns and inform mathematical models of disease transmission. Here, the authors evaluate the accuracy of synthetic contact matrices generated using mobility data compared to those derived empirically through surveys.

Most kiwifruit species are vulnerable to high levels of heat stress. Here, the authors report natural variation at the GATA transcription factor binding site of EGY3 gene mediates chloroplastic ROS homeostasis to confer kiwifruit thermotolerance.

Elite and viremic controllers of HIV can spontaneously regulate viral replication, but some lose this ability over time. In this longitudinal cohort study, 31% of viremic and 3% of elite HIV controllers lost viral control over 17 years. Specific T-cell– related proteins distinguish controller types and predict loss years in advance.

The contribution of ether lipid species in cancer cell fate has not been fully understood yet. Here the authors show that malignant cancer cells employ ether lipids to modulate membrane biophysical properties, enhancing iron endocytosis and ferroptosis susceptibility.

Viral ribonucleoprotein–viral protein networks form pre-replication centres that nucleate viral factories and drive respiratory syncytial virus replication.

This study reports that genomic signatures composed of the loss of pluripotency inhibitors, expansion of pluripotency activators and maintenance of an epigenetically permissive state contribute to the plantlet formation in Kalanchoe.

Wafer bonding has allowed the synthesis of twisted interfaces which support polar discontinuities in ferroelectric lithium niobate. Two-dimensional sheet conductivity arises but is suppressed when twist angles lead to interfacial lattice aperiodicity.

This study quantifies Brazil’s soil carbon debt (1.40 Pg C) and demonstrates that improved agricultural practices enhance carbon recovery. The findings reveal Brazil’s significant capacity to mitigate emissions and influence global carbon markets.

Pangenomic and epidemiological analyses reveal a genetic shift in U.S. Salmonella Hadar populations during 2019–20, driven by expansion of a lineage carrying a prophage-like element that likely arose in commercial poultry and spread to backyard flocks.

In this work, the authors present their Chloroalkane Azide Membrane Permeability (CHAMP) assay that measures cytosolic accumulation of small molecules in Escherichia coli, enabling rapid profiling of compounds, with the goal to simplify and accelerate antimicrobial drug discovery.

Pluripotent stem cells are found throughout the planarian body but regenerate organs in distinct regions. This study shows that the receptor RoboA and the secreted protein Anosmin1a act as signals that restrict stem cell plasticity and differentiation.

Japonica subspecies has a lower nitrogen use efficiency (NUE) than that of indica rice. Here, the authors show that natural variations in the NIN-like protein 4 (OsNLP4) encoding gene are responsible for the divergence and introgression of the indica OsNLP4 allele into elite japonica cultivar can increase NUE and grain yield.

Denz et al. show that loss of the antiviral protein IFITM3 allows human SARS-CoV-2 variants to adapt more rapidly in mice while preserving distinct, variant-specific patterns of infection and disease.

This study applies machine learning to fMRI data to map developmental variations in functional connectivity, uncovering heterogeneity across individuals and cortical regions that predicts neurocognitive maturation in youth.

Aerial surveys over the Permian Basin found 500+ major methane leaks, many recurring. A few sites leaked continuously and offer quick mitigation wins. These super-emitters may produce ~50% of regional emissions, underscoring the need for frequent monitoring.

The long-term natural history of long-COVID is not well understood. In this population-based cohort study from Scotland, the authors describe symptom prevalence and health-related quality of life up to 18 months after a positive SARS-CoV-2 test and compare with matched test-negative controls.

Here, the authors combine bioinformatic, mass spectrometric, and sequencing-based mapping tools to identify previously undescribed phosphorothioate epigenetic systems widespread in the human gut microbiome.

A soft, biodegradable, wireless sensing device can monitor pressure, temperature and strain over long distances (up to 16 cm), maintaining accuracy across varying positions and angles.

In a long-term follow-up of the FAME 2 trial, fractional flow reserve-guided percutaneous coronary intervention plus medical therapy in patients with stable coronary artery disease reduced cardiovascular events compared to medical therapy alone, primarily due to a decrease in urgent revascularization events.

The changing cellular, transcriptional, and genomic landscape of human lung aging can be characterized using single-cell RNA sequencing. Here, the authors show that lung aging is cell-type dyssynchronous, with alveolar epithelial and endothelial cells exhibiting the greatest changes in gene expression, transcriptional entropy, and a high level of somatic mutations.

Organic additives frequently shape crystallisation in natural and industrial settings, yet their precise influence on nucleation remains poorly understood. Here, Baken et al. investigate how additives affect the crystallization of the industrially relevant minerals portlandite and gypsum. Using controlled titration coupled with in situ synchrotron monitoring, the team demonstrates that both minerals form via intermediate steps: portlandite gradually becomes more ordered as it develops, while gypsum switches abruptly from a disordered to an ordered state. The study reveals that additives influence these pathways prior to nucleation by altering the nature of prenucleation clusters. How strongly an additive interacts with these clusters depends on its chemical state, which is controlled by the pH conditions specific to each mineral. These findings offer a starting point for creating an industrial “toolbox” to help select more effective additives, and they advance our understanding of biomineralisation processes.

Plasmodium vivax is responsible for most malaria cases outside Africa and drug resistance is a concern. The authors use genomic approaches to identify a deletion near the MDR1 gene that affects its expression and is associated with lower mefloquine susceptibility.

Diatoms are critical for carbon fixation and have strong biotechnology potential. Here, the authors optimized DNA and protein delivery methods for the model diatom Phaeodactylum tricornutum, also showing that DNA pieces can be stitched together directly in algal cells.

Via an integrative modelling approach that combines population and clinical trial data, the authors find that polygenic risk score-based screening would reduce premature mortality across seven commonly screened conditions.

In this work, the authors reveal that three non-ribosomal peptides targeting a common protein quality system differentially alter the Mycobacterium tuberculosis proteome, providing new insight into the molecular mechanisms behind their antimycobacterial activity.

To maintain genome stability, the specialised reverse transcriptase telomerase processively adds telomeric DNA repeats to chromosome ends. Here the authors reported structures of human telomerase at three stages of telomeric repeat synthesis, providing key insights into its mechanism.

A streamlined blood test using mass spectrometry improves measurement of amyloid-β for early Alzheimer’s disease diagnosis, requiring less sample volume and reagents while maintaining high accuracy, sensitivity and strong agreement with brain imaging.

Non-equilibrium two-dimensional melting is less understood than its equilibrium counterpart. Now it is shown that topologically driven melting in a two-dimensional crystal of charged colloids is the same irrespective of the mechanisms that generate the defects

Radiation reaction (RR) on particles in strong fields is the subject of intense experimental research, but previous efforts lacked statistical significance due to the extreme regimes required. Here, the authors report a 5σ observation of RR and obtain strong, quantitative evidence favouring quantum models over classical, using an all-optical setup where electrons are accelerated by a laser in a gas jet before colliding with a second, intense pulse.