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In 2023, a highly pathogenic H5N1 virus caused an outbreak in mink. In the ferret model of influenza, the virus exhibits limited airborne transmissibility and high virulence. These findings indicate heightened pandemic potential of these viruses.
Here the authors present two cryo-EM structures of the Synechocystis sp. PCC 6714 (Syn) type I-B Cascade, revealing the molecular mechanisms that underlie RNA-directed Cascade assembly, target DNA recognition and local conformational changes of the effector complex upon R-loop formation.
Here the authors determined several cryo-EM structures of the human Elongator complex, which modifies anticodons of tRNAs. The structural work is complemented by functional analyses to understand this clinically relevant cellular machine at the molecular level.
Efficient organic light-emitting diodes require a multilayer architecture to confine charge recombination to the emissive layer. Here, authors demonstrate efficient single-layer devices for emitters with imbalanced charge transport without the need of additional charge transport or blocking layers.
Many natural products exist as families of structurally similar molecules, and therefore developing skeletal modifications of common intermediates offers flexible and powerful approaches for target synthesis. Here, the authors report a single-atom insertion into the framework of the benzenoid subfamily, providing access to the troponoid congeners.
Cell-mediated cytotoxicity observed in untreated SMA patients’ CSF and brain parenchyma. Spatial transcriptomic and multiplex immunohistochemistry linked cytotoxicity near affected motoneurons. Nusinersen treatment showed no impact on this profile.
Endurance athletes and sedentary type 2 diabetes patients swapped their lifestyle for 8 weeks. Athletes store and utilise saturated fat intensely for performant physical activity, and type 2 diabetes patients reversed their dysmetabolic lipid state after endurance training.
It has been predicted that mobilization of resistance genes from plasmid to chromosome is selected by an antibiotic pressure. Here, authors discover an antiplasmid system promoting the chromosomal integration of the carbapenemase gene blaOXA-48.
Different environmental stressors induce different subtypes of stress granules (SGs), and each of them presumably have distinct functions. Here the authors provide a framework for understanding the compositional and functional heterogeneity of SGs, and see that TRIM25 mainly associates with anti-viral SGs.
The direct alkenylation with simple alkenes stands out as the most ideal yet challenging strategy for obtaining high-valued desaturated alkanes. Herein, the authors present a direct asymmetric dehydrogenative α-C(sp3)-H alkenylation of carbonyls based on synergistic photoredox-cobalt-chiral primary amine catalysis under visible light.
While gene expression analysis is commonly performed, 3′UTR length analysis is limited due to technical challenges. Here the authors provide an open-access analysis pipeline for scRNA-seq data to simultaneously quantify gene expression and 3′UTR length.
Benchmarking GRN inference methods remains a challenge. Here, authors present GRouNdGAN, a causal generative model that imposes a user-defined GRN in its architecture to simulate realistic single-cell data, bridging the gap between synthetic and biological data benchmarks of GRN inference methods.
Antiferromagnetic spintronics offer high speed operations, and reduced issues with stray fields compared to ferromagnetic systems, however, antiferromagnets are typically more challenging to manipulate electrically. Here, Yang, Kim, and coauthors demonstrate electrical control of magnon dispersion and frequency in an α-Fe2O3/Pt heterostructure.
Direct recycling of critical battery materials bring promise but a challenge for the mixed cathode chemistries. Here, the authors report a sustainable upcycling approach, transforming degraded LiFePO4 and Mn-rich cathodes into a high-voltage polyanionic material with an increased energy density and economic value.
Cellular senescence and the process of transcription are intimately linked, yet the mechanisms involved remain unclear. Here the authors show that a defect in TFIIS leads to telomere dysfunction, genome instability and the release of vesicles that induce senescence to neighboring cells.
Vesicle transport ensures cargo delivery to cellular targets. Here, Soltani et al. show that Drosophila Evi5, a multiple sclerosis risk gene in humans, controls vesicular transport of iron-bound transferrins and physically interacts with ferritin.
Extending magnetic nanostructures into three dimensions offers a vast increase in potential functionalities, but this typically comes at the expense of ease of fabrication and measurement. Here, Dion et al. demonstrate an approach to creating three dimensional magnetic nanostructures while retaining easy fabrication and readout of established two dimensional approaches.
A global digital atlas of persistent fronts in Large Marine Ecosystems reveals a rapid increase in subtropical and polar regions, and stable conditions or a slight decrease in tropical regions, a pattern not captured by climate projections and ocean models.
Here, Dzanibe et al show that in utero HIV/ARV exposure sequentially disrupts infant immunologic trajectories, beginning with NK cells that predict vaccine antibody responses and followed by delayed T cell memory maturation linked to skewed TCR clonality.
Dynamins are required at nascent endosomes to promote membrane fission. Here, the authors use super-resolution microscopy to show that dynamin-1 recruitment relies on pre-existing nanoclusters and trapping of molecules laterally diffusing on the plasma membrane.