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An ideal method to construct azetidines would be through a [2 + 2] photocycloaddition that joins an olefin and an imine, shown only rarely in the literature, partially due to competitive photochemical processes of the imine. Here, the authors report copper-catalyzed photocycloadditions of imines and alkenes to produce a variety of substituted azetidines, via activation of the olefin.

The role of cohesion is vital to our understanding of how sedimentary bedforms evolve. Here, the authors show that microorganisms within the sediment affect cohesion and demonstrate that ripples can take up to one hundred times as long to develop when extracellular polymeric substances are present.

The advantage of living in cities compared with rural areas with respect to height and BMI in children and adolescents has generally become smaller globally from 1990 to 2020, except in sub-Saharan Africa.

Experimentally verifying that quantum states are indeed entangled is not always straightforward. With the recently proposed device-independent entanglement witnesses, genuine multiparticle entanglement of six ions has now been demonstrated.

This Review focuses on the clinical effects and translational potential of digital twin applications in uro-oncology, highlights challenges and discusses future directions for implementing digital twins to achieve personalized uro-oncological diagnostics and treatment.

Heo, Xu et al. used comprehensive plasma proteomics to identify 416 plasma proteins (294 new) associated with Alzheimer’s disease and applied machine learning to select 7 proteins that were highly predictive of Alzheimer’s disease across multiple cohorts.

The LHCb experiment at CERN has observed significant asymmetries between the decay rates of the beauty baryon and its CP-conjugated antibaryon, thus demonstrating CP violation in baryon decays.

Molecular phylogenetics, ancestral sequence reconstruction and biophysical protein characterization are used to investigate the interaction between the orange carotenoid protein and its unrelated regulator, the fluorescence recovery protein (FRP). This interaction evolved when a precursor of FRP was horizontally acquired by cyanobacteria.

Available enzymatic CO2 reduction strategies are not suitable for aerobic microorganisms and many industrial settings. Here, the authors design a new metabolic pathway that can operate under fully aerobic conditions, ambient CO2 levels, and seamlessly integrate with well-established C1-assimilation pathways.

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.

In Saccharomyces cerevisiae, the left arm of chromosome XII only requires 12 genes to maintain cell viability, whereas 25 genes are needed for robust fitness. Here the authors demonstrate that the entire arm can be replaced by a neochromosome with completely artificial sequences.

Many enzymes form homo-oligomers, but it is often not clear why. This study follows the evolution self-assembly in citrate synthases across their phylogeny and finds it to be variable and not obviously related to enzyme function.

Enzyme promiscuity seeds evolutionary innovation, but how flexible a single enzyme can be (re-)used during evolution remains unclear. Here, the authors show that various evolutionary trajectories applied to succinate semialdehyde dehydrogenase can compensate for the loss of two different functions in E. coli.

The discovery of a distant blazar J0410−0139 at z = 7 suggests that many similar sources existed in the early Universe, supporting the hypothesis that the rapid growth of black holes is driven by jet-enhanced or obscured accretion.

Kramers–Weyl fermions are identified in chiral crystals, and their phenomenology is drawn out.

Few synthetic CO₂-fixation pathways have been tested in vivo. Now, the new-to-nature THETA cycle is designed, realized in vitro and modular implemented in vivo. This cycle involves 17 enzymes, including the two most active carboxylases known so far, to produce the central building block acetyl-CoA using CO₂.

Citrate synthase from the cyanobacterium Synechococcus elongatus is shown to self-assemble into Sierpiński triangles, a finding that opens up the possibility that other naturally occurring molecular-scale fractals exist.

Nitrogen isotope evidence of Mid-Devonian photosymbiotic associations in certain types of corals suggests that autotrophic and heterotrophic corals co-existed on extinct reefs, as today, but in warmer oceans, indicating the current warming rate, not temperature, is causing coral bleaching.

Here, the authors characterize the antibody response from vaccinated (Pfizer BNT-162b2), infected and uninfected individuals against emerging variants of concern of SARS-CoV-2, finding reduced neutralization of a South African isolate. High IgG titers in the saliva of vaccinees suggest that transmission may be reduced.

Synthetic Chromosome Rearrangement and Modification by LoxP-mediated Evolution (SCRaMbLE) is a promising tool to study genomic rearrangements. Here the authors present an engineered yeast strain with 83 sparsely distributed loxPsym sites across the genome can genrerate large-scale genomic rearrangements, which benefits cell fitness under stress and boosts the SCRaMbLE system when combined with synthetic chromosomes.

3D higher-order topological insulators (HOTIs) exhibit 1D hinge states depending on extrinsic sample details, while intrinsic features of HOTIs remain unknown. Here, K.S. Lin et al. introduce the framework of spin-resolved topology to show that helical HOTIs can realize a doubled axion insulator phase with nontrivial partial axion angles.

Stratification has a considerable influence on lake ecology, but there is little understanding of past or future changes in its seasonality. Here, the authors use modelling and empirical data to determine that between 1901–2099, climate change causes stratification to start earlier and end later.

Contrary to the view that urbanization is a major driver of the global rise in obesity, the global increase in body-mass index is shown to be mostly due to increases in the body-mass indexes of rural populations.

Potential gains in future salmon habitat associated with glacier loss have yet to be quantified. This study projects future gains in Pacific salmon freshwater habitat within western North America by linking a model of glacier mass change for 315 glaciers, forced by five different Global Climate Models, with a simple model of salmon stream habitat potential.

Chronic inflammation, marked by C-reactive protein, has been associated with changes in methylation, but the causal relationship is unclear. Here, the authors perform a Epigenome-wide association meta-analysis for C-reactive protein levels and find that these methylation changes are likely the consequence of inflammation and could contribute to disease.

An Indonesia-wide analysis identifies locations for potential mangrove restoration, ranked by scenarios of success likelihood according to biogeomorphology, current and past land use and land tenure, and estimates the restoration costs.

Quantifying the impact of multiple stressors on different life-history stages of sockeye salmon, the authors show that climate warming impacts the timing of migration from natal freshwater habitats, with knock-on effects for adult maturation in the ocean.

Kerr frequency combs are well suited for high-capacity data transmission with phase-sensitive modulation formats. This work demonstrates error-free transmission with data rates of up to 1.44 Tbit s⁻¹, spectral efficiencies of up to 6 bit s⁻¹ Hz⁻¹ and transmission distances of up to 300 km.

The value of having a diversity of species within an ecosystem is well appreciated: species-rich communities are thought to produce more stable ecosystem services. But population diversity within a species is important too. Here, the effects of diversity in population and life history in a heavily exploited Alaskan salmon species are quantified. The results show that population diversity increases the resilience of this ecosystem, and hence the value of salmon fisheries.

The response to infectious and inflammatory challenges differs among people but the reasons for this are poorly understood. Here the authors explore the impact of variables such as age, sex, and the capacity for controlling inflammation and maintaining immunocompetence, linking this capacity to favourable health outcomes and lifespan.

The fastest growing bacterium known is Vibrio natriegens. We have fused the two chromosomes of V. natriegens to create a single chromosome strain. Our results show that the bipartite genome is not a prerequisite for its rapid growth

Economies dependent on natural resources could gain resilience to abrupt ecosystem and market shifts through proactive risk-buffering approaches. Using data from Alaskan fisheries, Clineet al. show that communities relying on diverse fisheries were more resilient to major ocean and market regime shifts in 1989.

Population dynamics depends on the interaction of dispersal and local adaptation, yet empirical evidence showing the role of these processes is scarce. Here, Peterson et al.show that in a wild population of salmon, gene flow is limited by selection against immigrants rather than by barriers to dispersal.

Impressive progress has been achieved in isolating quantum systems from the environment and coherently controlling their dynamics. However, engineering the dynamics of many particles by a controlled coupling to an environment (in an 'open' quantum system) remains largely unexplored. Here, an approach is demonstrated based on ion-trap technology for simulating an open quantum system with up to five qubits. By adding controlled dissipation to coherent operations, the work offers novel prospects for open-system quantum simulation and computation.

Carbonyl–olefin metathesis reactions are a valuable tool in synthetic chemistry, but there are still some limitations in scope. Now, a catalyst system allows the activation of previously unreactive substrates for such a reaction by aluminium(iii)–ion pairs acting as Lewis acidic superelectrophiles.

Here, the authors describe the emergence and spread of a new potential SARS-CoV-2 variant of interest, B.1.620. They show that this lineage, first identified in Lithuania, has established local transmission in Europe on multiple occasions and likely emerged in Central Africa.

1,4-Dicarbonyls are challenging targets owing to the natural-polarity mismatch of potential reaction partners. This Review discusses methods for 1,4-dicarbonyl synthesis based on the coupling of two carbonyl-containing fragments as well as methods that involve non-carbonyl precursors. A spotlight on 1,4-dicarbonyls in total synthesis underlines the diversity of approaches for this motif.

Simultaneous activation of Wnt and Shh pathways in murine neural precursor cells results in the formation of embryonal tumors with multilayered rosettes (ETMR) that recapitulate the histological and molecular features of human tumors. This novel mouse model represents a platform for evaluating therapeutic approaches for this rare malignant pediatric brain tumor, and provides novel insights into the cell of origin and molecular mechanisms driving the disease.

This study uses spatially explicit simulations of a simple coral reef ecosystem to show that evolutionary responses to shifting environmental conditions fundamentally change effective conservation management strategies.