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Cell plasticity underlies development and regeneration. Here, the authors show that mouse lung alveolar type 2 cells undergo maturation postnatally and their plasticity is restricted by CEBPA and increases upon viral infection.
Mixed Sn-Pb perovskites have emerged as promising photovoltaic materials for both single- and multi-junction solar cells. Here, authors reveal the thermal degradation mechanism and incorporate carboranes for thermal regulation, resulting in stable all-perovskite tandems with efficiency of over 27%.
Biomacromolecule structures are vital for drug design. Here, the authors integrate one or two machine learning potentials in an ONIOM-based quantum refinement method, achieving reliable drug structures at an QM level in proteins with high efficiency.
Regeneration of cardiac endothelial cells is challenging as these cells must receive proper cues for tissue formation and integrate in the pre-existing vasculature. Here, Farber et. al identify Sox17-Erg as an efficient combination to reprogram cardiac fibroblasts into endothelial-like cells both in vivo and in vitro.
How heterogeneously distributed SNARE complexes synchronize fusion pore assemblies during vesicular secretion is unknown. Here, the authors demonstrate a role for SNARE chaperones in coordinating differential release of chemical messengers.
Carbon pricing policies are adopted in many countries around the world to mitigate climate change. This systematic review shows that significant emission reductions of between 5 and 21% are achieved by at least 17 out of 21 reviewed policy schemes.
Here, Murray-Nerger et al use a genome-wide CRISPR/Cas9 screen to show that the nuclear protein SFPQ suppresses lytic reactivation of Epstein-Barr virus by promoting the expression and accumulation of linker histone H1 on the viral genome.
K2P channels are important regulators of cellular electrical activity. Here the authors show how nanobody fragments can be used to detect and modulate TREK2 K2P channel activity to provide insight into the mechanism of gating.
Electrochemical uranium extraction from real nuclear wastewater is appealing but challenging. Herein, Lin et al develop a strategy of ion pair site for enhanced binding of dominant uranium fluoride species in real wastewater, achieving efficient recycling of uranium as powder product.
Performance of triboelectric nanogenerators is limited by electrostatic breakdown. Here, the spontaneously established reverse electric field is introduced to restrict the side-discharge problem caused by electrostatic breakdown, leading to a high Coulombic efficiency and enhanced output power.
Head-fixation system is widely used in neuroscience research but has limitations in application due to restraint. Here the authors developed a magnetic voluntary head-fixation system that allows stable rat hippocampal imaging during complex behaviors.
The dorsal raphe nucleus (DRN) is a major source of serotonergic projections to brain-wide targets. Here the authors use optogenetics and fMRI to investigate brain-wide responses to activation of the DRN serotonergic pathway.
Bone marrow stromal cells (BMSCs) are known to promote the development of drug resistance. Here, the authors investigate the chromatin remodeling and associated changes in gene expression in the multiple myeloma (MM) cells following their interactions with BMSCs, which are also observed in extramedullary disease (EMD).
Mice lacking A Disintegrin and Metalloproteinase 9 (ADAM9) do not mount Type 1 interferon responses against encephalomyocarditis infection. Here, Bazzone et al show that ADAM9 regulates innate immune responses via by MDA5.
Atmospheric methane-oxidizing bacteria constitute the sole biological sink for atmospheric methane. Here, Schmider et al. assess the ability and strategies of seven methanotrophic species to grow with air as sole energy, carbon, and nitrogen source, showing that these bacteria can grow on the trace concentrations of methane, carbon monoxide, and hydrogen present in air.
This study combines lattice light sheet microscopy and single molecule imaging to study protein dynamics and chromatin structure in live cells. The authors describe how nucleosomes and proteins move and are organised in relation to chromatin density.
Metals often suffer from reduced strength and ductility after hydrogenation. Here, the authors show hydrogenation can lead to enhancement in strength and ductility accompanied by a large change in magnetic entropy, overcoming the bottlenecks of using amorphous alloys for magnetic refrigerants.
Infarted myocardium hampers the synchronous electroactivity of the cardiac tissue. Here, the authors showcase a battery-free conductive cardiac patch made of reduced graphene and its therapeutic efficacy for cardiac repair.
Realising single molecule strong coupling with plasmons achieving both deterministic molecule positioning and dipole alignment with the mode field has proven challenging so far. Here, the authors fill this gap by placing a single molecular emitter in the gap centre of an Au nanodimer system.
Here, the authors show that GalNAc-T3 and T7 regulate furin cleavage of the SARS-CoV-2 spike protein via O-glycosylation. This influences viral assembly and infection, highlighting glycosylation as a host defense mechanism.