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The interfacing of Cu with nitrogen-doped nanodiamond enables the electrocatalytic production of C₂ oxygenates from CO₂ with promising stability.

Manual segmentation of biological images is a time-consuming task. Here the authors present Biomedisa, an open-source online platform for segmentation of large volumetric images starting from sparsely presegmented slices.

New antimalarials are urgently needed. Here, the authors identify Open Source Malaria compound, OSMS-106, as a reaction hijacking inhibitor of the malaria parasite protein synthesis machinery, with potential use for treatment and prophylaxis.

The production of hydrogen peroxide by electrochemical oxygen reduction is an attractive alternative to the industrial process, but catalysts should be optimized. Here, the authors enhance hydrogen peroxide production in acidic media with epoxy groups near cobalt centers on carbon nanotubes.

Luca Lotta, Robert Scott, Stephen O’Rahilly, Claudia Langenberg, David Savage, Nicholas Wareham, Inês Barroso and colleagues identify 53 genomic regions associated with insulin resistance phenotypes. Their findings suggest that limited storage capacity of peripheral adipose tissue is an important etiological component in insulin-resistant cardiometabolic disease and highlight genes and mechanisms underpinning this link.

Archival images of the progenitor system of supernova SN 2011fe are so sensitive that the presence of luminous red giants or most helium stars is directly ruled out.

Post-infectious myalgic encephalomyelitis/chronic fatigue syndrome (PI-ME/CFS) is a disabling disorder, yet the clinical phenotype is poorly defined and the pathophysiology unknown. Here, the authors conduct deep phenotyping of a cohort of PI-ME/CFS patients.

Anti-human leukocyte antigen (HLA) antibodies are important mediators of alloresponses, but structural insights on antibody:HLA interaction are still lacking. Here the authors provide a 2.4 Å structure of antibody:HLA complex, and also analyse HLA features important for other HLA-interacting molecules, to enhance our understanding of alloimmunity.

Unlike ferrocene and its cationic counterpart ferrocenium, the ferrocene monoanion is an unusual species that has been observed through low-temperature electrochemical studies. Now, a family of isostructural 3d metallocenates has been isolated that consists of a manganocene, a cobaltocene and a high-spin ferrocene anion stabilized by cyclopentadienyl ligands bearing bulky aliphatic groups.

Polymers are known to spontaneously produce micro- and nanoplastics but the mechanisms by which environmentally-triggered Å-level random bond breaking events lead to the formation of these relatively large fragments are unclear. Here, the authors show that chain scission accumulates in the amorphous phase of a semicrystalline morphology which leads to mechanical failure and the concurrent release of nanoplastics even under quiescent conditions.

Cryo-electron microscopy structures of the thyrotropin receptor reveal the basis for the activation of the receptor by autoantibodies in patients with Graves’ disease.

The levels of a factor secreted by bone marrow stromal cells, KIAA1199, associate with osteoporotic fracture risk. Here, the authors show that KIAA1199 deficiency can lead to enhanced bone formation, accelerated bone healing, and protects from ovariectomy-induced bone loss.

BamA carries out the essential process of folding outer membrane β-barrels in Gram-negative bacteria and is a potential antibiotic target. Here, the authors discover macrocyclic peptide inhibitors that trap BamA in distinct structural conformations.

Traditional approaches used in the pharmaceutical industry are not precise or versatile enough for customized medicine formulation and manufacture. Here the authors produce a method to form coatings, with accurate dosages, as well as a means of closely controlling dissolution kinetics.

Using metal oxides for both the hole- and electron-transport layers in perovskite solar cells significantly improves their stability compared with devices containing organic transport layers.

Distinguishing band and Mott insulators experimentally represents a longstanding challenge. Here, the authors demonstrate a momentum-resolved signature of a dimerized Mott-insulator in the out-of-plane spectral function of Nb₃Br₈.

A short segment of α-synuclein called NACore (residues 68–78) is responsible for the formation of amyloid aggregates responsible for cytotoxicity in Parkinson disease; here the nanocrystal structure of this invisible-to-optical-microscopy segment is determined using micro-electron diffraction, offering insight into its function and simultaneously demonstrating the first use of micro-electron diffraction to solve a previously unknown protein structure.

Structural analysis reveals the iron scavenging mechanism used by Neisseria species, involving TbpA and TbpB proteins, and sheds light on how human transferrin is specifically targeted.

Mechanistic understanding of interactions between polymer semiconductor channel and electrolyte in organic electrochemical transistors remains limited. Here, X-ray scattering and spectroscopy reveal the origin of bistability and non-volatile behavior between semiconducting PEDOT:PSS and an ionic liquid.

Insulin injections are not ideal and have an increased risk of hypoglycaemia. A preferable oral formulation based on silver sulfide quantum dots coated with a chitosan/glucose polymer is discussed, which has controlled insulin release and reduced risk of hypoglycaemia, and demonstrates applications in rodent and non-human primate models.

Although the light-promoted Sabatier reaction has great potential for CO₂ remediation strategies, its mechanism is not fully understood. Now, a steady-state isotopic kinetic analysis coupled with infrared spectroscopy reveals important aspects of this hydrogenation process over a NiO_x/La₂O₃@TiO₂ composite catalyst.

Cambrian great appendage arthropods had heads that bore a claw-like appendage pair; neuroanatomical and phylogenetic analysis of a well-preserved Alalcomenaeus fossil reveals the relationship of great appendage arthropods to Chelicerata.

VARP is bound to endosomes and functions as a protein:protein interaction platform. Here, the authors present the NMR structure of the complex between the retromer subunit VPS29 and a VARP Zn-fingernail microdomain that is structurally distinct from Zn-fingers and further show that mutations, which abolish VPS29:VARP binding, inhibit trafficking from endosomes to the cell surface.

‘Molecular anvil’ molecules consisting of a compressible mechanophore and incompressible ligands react under hydrostatic pressure to produce elemental metal via an unexplored mechanism.

The development of complex molecular machinery requires a detailed appreciation of the factors that control energy pathways through the nanoscale scaffold. Here, the authors demonstrate that hetero-rotaxanes can be employed to create assemblies of different redox and photo-active components that enable selective tuning of energy transfer pathways.

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.

Biochemical pathways for aromatic amino acid synthesis are ancient and highly conserved. Directed evolution of the β-subunit of tryptophan synthase (TrpB)—a proficient biocatalyst that converts indole to l-tryptophan—enabled this enzyme to make l-tyrosines from phenols, a pathway not (yet) known in nature.

Phosphate is critical for all life on Earth but its origins have remained enigmatic. Experiments indicate that phosphate may have been abundant in ancient Fe-rich seawater, providing a crucial ingredient for the origins of life on Earth.

The authors examine life-history differences between terrestrial versus aquatic vertebrates and their mode of reproduction. They find that land vertebrate life histories are more constrained than aquatic ones. In particular, the results suggest a wider diversity of reproductive strategies in aquatic habitats than in terrestrial ones.

The modification of peptides and proteins for application in drug discovery and chemical biology is currently a rapidly growing field of research. Here, the authors report a photocatalytic diselenide contraction method for the dimerization and site-specific functionalisation of peptides and protein.

Low-power and compact active pixel sensor (APS) matrices are desired for resource-limited edge devices. Here, the authors report a small-footprint APS matrix based on monolayer MoS₂ phototransistors arrays exhibiting spectral uniformity, reconfigurable photoresponsivity and de-noising capabilities at low energy consumption.

Laramide flat-slab subduction releases fluids into the overlying crust that mediate water-fluxed melting of precursor arc lower crust, ultimately forming porphyry copper deposits, according to a geochronology and thermobarometry study.

We report a simple method to fabricate chiroptical flexible layers via supramolecular helical ordering of conjugated polymer chains, providing direct, scalable realization of on-chip detection of the spin degree of freedom of photons.

Azetidines are four-membered saturated N-heterocycles that are of interest in drug discovery and medicinal chemistry. Here the authors report how sulfamoyl fluoride substituents tune the reactivity of acyclic imine-derived triplet intermediates for the synthesis of azetidines via a [2 + 2] photocycloaddition reaction with alkenes.

Californium is difficult to prepare in its divalent state. Now, crystals of a Cf(II) crown–ether complex have been synthesized by reduction of a Cf(III) precursor with an Al/Hg amalgam. They exhibit 5f→6d transitions in the visible region and near-infrared emission that are highly sensitive to changes in the coordination environment.

Our understanding of the genetic contribution to human adiposity is incomplete, as few studies measure adiposity directly. Here, the authors impute whole-body imaging adiposity phenotypes in large biobanks, enhancing their power to discover genes driving human adiposity, and further investigate one such gene using a mouse model.

Excitons are bound electron-hole pairs that mediate light absorption and emission in organic devices. Here, the authors use spatial, spectral and time-resolved imaging to visualize exciton transport in tetracene crystals and thin films, showing the role of disorder on the diffusion of excitons.

Plasmonics offers sub-diffraction limit optical devices, but multiple functionalities are difficult to build in the solid state. By combining it with fluidics, Zhao et al. present a tunable and reconfigurable plasmonic lens using laser-controllable bubble formation in a microfluidic environment.

Thermophilic archaea have a minimal double-strand DNA break repair apparatus consisting of the HerA ATPase, NurA nuclease and Mre11–Rad50 complex. Here the authors solve the structure of a hexameric HerA ring from Sulfolobus solfataricus, and provide insight into a novel mechanism of DNA repair.

Modelling magnetic data for lanthanide clusters is challenging due to spin–orbit coupling and crystal field effects. Here, the authors use multi-frequency electron paramagnetic resonance spectroscopy to measure directly the interaction between two dysprosium(III) ions in a dimeric system.

Replacing platinum in polymer-electrolyte-membrane fuel cells with iron-based catalysts could provide low-cost power generators, but often leads to low power densities. Here, a new iron-based cathode catalyst is developed with enhanced power density, volumetric activity and mass-transport properties.

Innovative substrate engineering is necessary to improve the quality of CVD-synthesized graphene. Here the authors demonstrate in situfabrication of an eutectic Pt-Si alloy that forms a wetting liquid surface on polycrystalline Pt foils, allowing millimetre-sized graphene crystals to grow in minutes.

The performance of supported metal nanoparticle catalysts can be tailored by metal-support interactions, but their use in catalyst design is still challenging. Here, the authors develop two-dimensional transition metal carbides as platforms for designing intermetallic compound catalysts that are efficient for light alkane dehydrogenations.

Au/C single-site catalysts have been validated commercially for acetylene hydrochlorination, but they have previously been prepared using highly oxidizing acidic solvents or additional ligands. It has now been shown that they can be made by impregnation of a metal salt from an acetone solution—generating catalysts with comparable activity to those synthesized by the other methods.

Electrons in uranium-based materials are often on the border between localised and itinerant behaviour, which can lead to unusual magnetic behaviour. Here the authors combine experiment and theory to show that USb₂ may be an unusually high temperature example of a singlet-ground-state magnet.