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Therapeutic resistance to immune checkpoint inhibitor treatment is incompletely understood in adolescent and young-adult (AYA) patients with melanoma. Here, the authors demonstrate that AYA patients exhibit a unique stroma-infiltrating T cell immunogenomic profile compared with adults, which impacts on their responsiveness to immunotherapy.
This study introduces a Eu(II) single molecule magnet that exhibits slow magnetic relaxation at low temperatures. These results highlight the importance of the lanthanide ion’s crystal field in unlocking the magnet-like properties of Eu(II).
Catch bonds are unique protein-protein interactions where the bond lifetime increases under external pulling forces. Here, the authors engineer an artificial catch bond based on a non-catch bonding human gut bacterial adhesion protein complex.
Here the authors find that erythroblasts of myelodysplastic syndromes with SF3B1 mutation leading to inefficient erythropoiesis show DNA replication stress with accelerated forks and reduced R-loops. Restoring R-loops by a histone deacetylase inhibitor rescues erythroid differentiation.
Understanding the sensing mechanism of metal oxide semiconductors is imperative for developing high-performance sensors. Here, the participation of lattice oxygen, caused by additional Ge, boosts the hydrogen sensing ability of SnO2.
Shi et al. report the synthesis of multicolour thermally activated delayed fluorescent carbon dots with 3D onion-like configuration to stabilise the triplet state and reduce the singlet-triplet energy gap. LEDs with EQE of 6.0–9.9% are achieved, a step further for efficient and stable displays.
Hard carbons are considered the most suitable negative electrode materials for Na-ion batteries. Here, authors use electron paramagnetic resonance spectroscopy to determine the spin nature of mechanochemically-modified hard carbons to predict their charge storage mechanism for sodium-ion batteries.
Ligand discovery against membrane proteins has been a major challenge, mainly due to the peculiar nature of their natural habitat. Here, the authors designed a new chemical proteomic probe that targets the lysines exposed on the cell surface and developed a chemical proteomic strategy for global analysis of surface functionality in living cells.
Setting goals that are context-specific, relevant, and collectively shared is critical in adaptation. As necessary elements in target setting, imaginaries for adaptation and the language connected to them remain vague. Visuals produced through art-science collaborations can be great allies to (de)construct imaginaries and deglobalise discourses of adaptation.
The authors find a magnetization switching mechanism and the long-range intralayer Dzyaloshinskii-Moriya interaction effect, which enables asymmetric magnetization switching and complete Boolean logic operations.
Optical control is an alternative pathway to boost nonlinear transport in noncentrosymmetric systems. Here, the authors observe a light-induced giant enhancement of nonreciprocal transport coefficient as high as 105 A−1 T−1 at KTaO3-based Rashba interfaces.
It has been challenging to realize efficient and stable blue phosphorescent organic light-emitting diodes. Here, authors explore the effect of substitution position in platinum(II) dopants with suppressed metal-metal-to-ligand charge transfer features, resulting in prolonged lifetime in the devices.
Technical limitations of simultaneously multi-omics profiling lead to highly noisy multi-modal data and substantial costs. Here, authors proposed a versatile framework and data augmentation schemes, capable of single-cell cross-modality translation and multiple extensive applications.
Enhancing the kinetics and selectivity of CO2/CO electroreduction towards valuable multi-carbon products poses a scientific challenge and is imperative for practical applicability. Here the authors report that modifying copper catalysts with surface thiol ligands significantly improves acetate selectivity.
Asc1/CD98hc is a key regulator of small neutral amino acid transport in the brain and adipose tissue. Here, authors report the structure of semi-occluded hAsc1/CD98hc and provide a model for Asc1 exchange and facilitated diffusion modes of transport.
Identifying core mechanisms of immune cells is critical for understanding the evolution of animal immune function. Here, Vandepas et al. report that ctenophore immune-like cells release extracellular DNA traps when exposed to microbes.
Recent improvements in the indirect-drive inertial confinement fusion experiments include the achievement of burning plasma state. Here the authors report the scaling of neutron yield in a burning plasma of Deuterium-Tritium fusion reaction by including the mode-2 asymmetry.
Authors perform an in vivo mass spectrometry-based interactome analysis of HOIL-1-interacting protein, a key component of linear ubiquitination assembly complex.
All-solid-state batteries with silicon anodes have high capacities but low initial coulombic efficiencies (ICEs) because of first cycle irreversible capacity loss. Here, the authors report a prelithiation strategy to improve ICEs and reversibility.
Bacteriophage can be used to target bacterial infection and used as a therapeutic approach for antibiotic resistant bacteria. Here the authors show that the use of bacteriophage to target antibiotic resistant bacteria in a mouse model of infection can induce phage specific immune responses and may impair their therapeutic efficacy.