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This paper unveils the complexity of human immune cell splicing, highlighting cell-specific isoforms and establishing connections between alternative splicing and complex traits. These findings have implications for understanding diseases and the evolution of the genome.
Research on the Kit locus shows TAD boundary deletion may or may not trigger ectopic gene activation in different cell types, influenced by active enhancers’ position relative gene promoters.
Luminescent materials with narrowband emissions are vital for optoelectronic applications. Here, the authors achieve room temperature phosphorescence with a FWHM of 30 nm through the multiple resonance effect and showcase its practical application in X-ray imaging.
The specificity of protein deubiquitination relies on deubiquitinase-substrate interactions (DSIs). Here, authors leverage evolutionary information from the proteome to predict DSIs, even with an inadequate training dataset.
Here, using a dynamic modelling approach, the authors find that the spread of dengue through Mexico and Brazil is shaped by specific interactions between human mobility, climate, and the environment. Their models can also be applied to predict future spread in these geographic areas.
A single exometabolite produced by an opportunistic bacterial pathogen of the root microbiome enhances host susceptibility to salt stress and promotes plant disease in complex soil systems.
Harnessing the potential of considerable food security efforts requires the ability to translate them into commercial applications. In this Perspective, the author explores the alternative protein source start-up landscape.
Birds vary in body mass by many orders of magnitude, but how this effects the evolution of their skeletal proportions is unclear. This study shows that small body size is associated with decreased evolutionary integration between wing bone sizes, facilitating increased evolutionary lability.
The electrical properties of nanostructured networks are often dominated by junctions between the particles. Here, Gabett et al. develop transport models and utilise impedance spectroscopy to quantify the factors limiting conduction in these systems.
Recent studies show that targeting CXCL12 can improve the effect of radiotherapy (RT) in preclinical models of glioblastoma (GBM). Here, the authors report the safety and preliminary efficacy of a phase I/II clinical trial investigating an L-RNA aptamer-based CXCL12 inhibitor (NOX-A12) in combination with RT in patients with newly-diagnosed GBM.
Here, in a follow-up of a clinical study, the authors show that protein pacing and intermittent fasting improves gut symptomatology and microbial diversity, as well as reduces visceral fat compared to a heart-healthy, calorie-restricted diet matched for overall energy intake and expenditure in free-living humans.
Lee et al. developed ultrathin metallic (metal filling ratios of > 70 %) metamaterials that exhibit perfect transmission at a specific radar frequency. These characteristics enable microwave transparent, low-sheet-resistance radar heaters for safe autonomous driving in extreme weather.
Detection and identification of microplastics (MPs) in environmental samples is hampered by the need for isolation and pretreatment methods. Here, the authors combine porous Ag substrates with self-attention neural networks to directly identify six types of MPs in environmental samples.
Gene therapy is a rapidly growing field, but is hindered by efficacy and safety concerns, including those related to delivery methods. Here, inspired by the use of foam in the delivery of pharmaceuticals, Dr. Stephan and colleagues formulated foam as a safe and effective delivery platform for gene therapy.
Attributing spatially heterogeneous heat stress trends to water vapor pressure changes driven by climate change-induced rapid warming in high-latitudes of East Asia, the authors predict widespread and uniform future heat stress in eastern China.
Large-scale 2D hexagonal boron nitride (hBN) grown via chemical vapour deposition (CVD) has strategic importance for various applications of 2D materials. Here, the authors analyse the structural and electrical properties of commercially available CVD hBN from 9 popular suppliers and compare the results with mechanically exfoliated hBN and in-house CVD hBN.
Biological cofactors such as dihydronicotinamides are exploited by extant enzymes as hydride transfer agents and electron carriers but are generally inefficient to facilitate any reactions on their own. Here, the authors report short peptide-based amyloid nanotubes featuring exposed arrays of cationic and hydrophobic residues that can bind small hydride transfer agents (NaBH4) to facilitate efficient reduction of ester substrates in water.
Memory CD8+ T cells persist poorly in MHCII-deficient mice. Here the authors show that this CD8+ T cell attrition is not caused by a lack of CD4+ T cell help, as previously proposed, but by chronic IFN-γ signals derived from endogenous colonic CD8+ T cells.
Transition-metal catalyzed cross-electrophile coupling (XEC) is a powerful tool for the construction of molecules but XEC between carbon electrophile and chlorosilanes to access organosilicon compounds remains underdeveloped. Here the authors disclose a highly efficient cobalt-catalyzed cross-electrophile alkynylation of a broad range of unactivated chlorosilanes with alkynyl sulfides as a stable and practical alkynyl electrophiles.
Researchers have developed a noninvasive retina prosthesis based on ultrasound for treating blindness. This device uses ultrasound waves to stimulate the retina, creating artificial vision confirmed through behavior tests, offering a safer alternative to invasive treatments.