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The contribution of astrocytic Ca²⁺ signaling to the modulation of sensory transmission in different brain states remains largely unknown. Here, the authors show two types of Ca²⁺ signals in the mouse barrel cortex with distinct function in sensory transmission during sleep and arousal states.

Safely opening university campuses has been a major challenge during the COVID-19 pandemic. Here, the authors describe a program of public health measures employed at a university in the United States which, combined with other non-pharmaceutical interventions, allowed the university to stay open in fall 2020 with limited evidence of transmission.

Strontium isotope analysis can be applied to animal and plant tissues to help determine their provenance. Here, the authors generate a strontium isoscape of sub-Saharan Africa using data from 2266 environmental samples and demonstrate its efficacy by tracing the African roots of individuals from historic slavery contexts.

A cross-ancestry meta-analysis of genome-wide association studies identifies association signals for stroke and its subtypes at 89 (61 new) independent loci, reveals putative causal genes, highlighting F11, KLKB1, PROC, GP1BA, LAMC2 and VCAM1 as potential drug targets, and provides cross-ancestry integrative risk prediction.

Examining drivers of the latitudinal biodiversity gradient in a global database of local tree species richness, the authors show that co-limitation by multiple environmental and anthropogenic factors causes steeper increases in richness with latitude in tropical versus temperate and boreal zones.

Analysis of copy number alterations in 1,451 patient-derived xenografts (PDXs) and matched patient tumor samples shows strong conservation from patient tumors through late-passage PDXs and a lack of systematic copy number evolution driven by the mouse host.

Cancer metastasis is the leading cause of death in patients, here, the authors show disrupting tumor vasculature could recruit and activate anti-PD-L1 engineered platelet at metastatic tumor sites to block the PD-1/PD-L1 crosstalk and enhance the anticancer immunotherapy.

Single-atom metal catalysts offer maximized material efficiency, but there is large room to improve the intrinsic activity per metal atom for many reactions. Here, the authors demonstrate that the solution for CO oxidation is to tackle the issue of lacking neighboring Pt atoms in the single-atom Pt1/CeO2 system.

A sequencing chemistry that separates nucleotide identification from nucleotide incorporation achieves high accuracy.

Disruption of mucin-domain glycoprotein expression and function in the endothelial glycocalyx are associated with ageing and Alzheimer’s disease, leading to dysregulated blood–brain barrier function.

Peesh et al. show that ischemic stroke reduces microbiota-derived and increases host-derived aryl (AHR) hydrocarbon ligands. Post-stroke treatment with indole-based AHR ligands improved microglia-mediated antigen processing and co-stimulatory immune functions.

Clonal hematopoiesis, which increases with age and is implicated in a variety of age-related diseases, is shown here to be associated with a greater risk of acute kidney injury and worse outcome following injury, as demonstrated using multiple patient cohorts, Mendelian randomization analysis and mechanistic studies in mouse disease models.

A systemically administered peptide (CARSKNKDC) that homes to injured tissues, has inherent ability to promote wound healing. Here, the authors show that this peptide binds to syndecan-4 and activates ARF6 to trigger re-epithelialisation and the naturally occurring wound repair pathway.

The mechanism by which bimetallic catalysts can outperform their monometallic counterparts is often unexplained. Now nitrate hydrogenation on bimetallic catalysts is shown to proceed via the electrochemical coupling of hydrogen oxidation and nitrate reduction half-reactions, each of which occurs on one metal component.

Tobacco use is one of the major risk factors for Head and neck squamous cell carcinoma (HNSCC). Here, the authors report an immune-competent syngeneic mouse model that mimics human tobacco-related HNSCC, and develops tumors in the tongue, and report a high response rate to anti-CTLA-4 therapy.

An integrated transcriptome, genome, methylome and proteome analysis of over 200 lung adenocarcinomas reveals high rates of somatic mutations, 18 statistically significantly mutated genes including RIT1 and MGA, splicing changes, and alterations in MAPK and PI(3)K pathway activity.

Bitopic functionalized ligands based on fentanyl can target the sodium ion-binding site of the mu-opioid receptor and selectively modulate downstream signalling pathways, potentially leading to safer analgesics.

A multi-ancestry transcriptome-wide association study using an optimal linear combination of association statistics provides insights into tobacco use biology and suggests opportunities for drug repurposing.

Four crystal structures of the human serotonin receptor 5-HT_2BR in complex with chemically and pharmacologically diverse drugs elucidate the structural bases for receptor activation, agonist-mediated biased signaling and β-arrestin2 translocation.

Stratified medicine promises to tailor treatment for individual patients, however it remains a major challenge to leverage genetic risk data to aid patient stratification. Here the authors introduce an approach to stratify individuals based on the aggregated impact of their genetic risk factor profiles on tissue-specific gene expression levels, and highlight its ability to identify biologically meaningful and clinically actionable patient subgroups, supporting the notion of different patient ‘biotypes’ characterized by partially distinct disease mechanisms.

Ni–Fe based compound are known as active electrocatalysts for oxygen evolution reaction, but not a good choice for the other half-reaction of water-splitting. Here the authors report a unique interface between Ni and γ-Fe₂O₃ that efficiently catalyzes the cathodic hydrogen evolution reaction.

A large-scale meta-analysis across eight biobank datasets identifies common genetic variants associated with mosaic loss of the X chromosome in female participants.

Successive rounds of selection of an RNA library in a mouse cancer model resulted in the identification of an aptamer that specifically bound a cancer-associated protein, providing an in vivo approach for identifying RNA motifs that can reveal and potentially inhibit tumor-specific targets.

Latrophilin-3 organizes synapses through a convergent dual-pathway mechanism in which Gα_s signalling is activated and phase-separated postsynaptic protein scaffolds are recruited.

Patient-derived xenograft models (PDX) have been extensively used to study the molecular and clinical features of cancers. Here the authors present a cohort of 536 PDX models from 25 cancers, as well as their genomic and evolutionary profiles and their suitability for clinical trials.

There is an unmet need to improve the response to immune checkpoint blockade in patients with head and neck squamous cell carcinoma (HNSCC). Here the authors show that aberrant HER3 activation sustains the proliferation of PIK3CA wild type HNSCC cells and that HER3 inhibition increases response to PD-1 blockade in HNSCC preclinical models.

An X-ray structure of the D2 dopamine receptor bound to the atypical antipsychotic drug risperidone reveals an extended binding pocket and indicates structural features that could be used to design drugs that specifically target the D2 receptor.

The solid–electrolyte-interphase layer is extremely important for reversible electrochemical cycling of Li-ion batteries. Now it has been observed that lithium ethylene mono-carbonate, instead of the previously reported lithium ethylene di-carbonate, is the major initial organic species in this layer and it has a high Li-ion conductivity.

High-quality diploid assemblies of potato genomes from 24 wild and 20 cultivated potatoes provide insights into the complex evolution and diversity of potatoes, and could have applications in the breeding of hybrid potatoes.

This description of the Sphagnum (peat moss) genome includes a newly discovered sex chromosome. Interactions among sex, autosomes and environment show direct effects on Sphagnum growth which influences global carbon sequestration.

Inelastic light scattering spectroscopy is a powerful tool in materials science to probe elementary excitations. In a quantum-mechanical picture, these excitations are generated by the incident photons via intermediate electronic transitions. It is now shown that it is possible to manipulate these intermediate 'quantum pathways' using electrostatically doped graphene. A surprising effect is revealed where blocking one pathway results in an increased intensity, unveiling a mechanism of destructive quantum interference between different Raman pathways. The study refines understanding of Raman scattering in graphene and indicates the possibility of controlling quantum pathways to produce unusual inelastic light scattering phenomena.

An extensive map of human DNase I hypersensitive sites, markers of regulatory DNA, in 125 diverse cell and tissue types is described; integration of this information with other ENCODE-generated data sets identifies new relationships between chromatin accessibility, transcription, DNA methylation and regulatory factor occupancy patterns.

This study uses gene expression predictors for the dorsolateral prefrontal cortex and other brain regions to perform a transcriptomic imputation analysis of schizophrenia, identifying 413 genic associations across 13 brain regions and 36 significantly enriched pathways.

The goal of the 1000 Genomes Project is to provide in-depth information on variation in human genome sequences. In the pilot phase reported here, different strategies for genome-wide sequencing, using high-throughput sequencing platforms, were developed and compared. The resulting data set includes more than 95% of the currently accessible variants found in any individual, and can be used to inform association and functional studies.

This report from the 1000 Genomes Project describes the genomes of 1,092 individuals from 14 human populations, providing a resource for common and low-frequency variant analysis in individuals from diverse populations; hundreds of rare non-coding variants at conserved sites, such as motif-disrupting changes in transcription-factor-binding sites, can be found in each individual.

Genome-wide association analyses of 41,917 bipolar disorder cases and 371,549 controls of European ancestry provide new insights into the etiology of this disorder and identify novel therapeutic leads and potential opportunities for drug repurposing.

Schief and colleagues show that germline-targeting epitope scaffolds can elicit responses from rare broadly neutralizing antibody precursor B cells with predefined binding specificities and genetic features.

CERES is a new computational method to estimate gene-dependency levels from CRISPR–Cas9 essentiality screens while accounting for copy number effects and variable sgRNA activity. Applying CERES to new genome-scale CRISPR–Cas9 essentiality screen data from 342 cancer cell lines and other published data sets shows that CERES decreases false-positive results and provides consistent estimates of sgRNA activity.

The cellular organelles peroxisomes contribute to the sensitivity of cells to ferroptosis by synthesizing polyunsaturated ether phospholipids, and changes in the abundances of these lipids are associated with altered sensitivity to ferroptosis during cell-state transitions.

Addictive substances may impair cognitive flexibility. Here the authors show that in rodents, increased activity of striatal direct-pathway medium spiny neurons (dMSNs) in response to cocaine inhibits cholinergic interneurons (CINs), reducing cognitive flexibility.

Single-walled carbon nanotubes can restore phagocytotic properties of macrophages in artherosclerotic plaques to promote plaque clearance and combat artherosclerosis.

m⁶A-SAC-seq uses chemical labeling to quantify m⁶A at single-base resolution in the mammalian transcriptome.

Recent studies revealed that G protein-coupled receptors rapidly interconvert between multiple states. Here, authors use the kappa opioid receptor (KOR) and show how two state-dependent nanobodies provide real-time reporting of ligand stabilized states with KOR and other GPCRs.

The use of natural killer (NK) cells in immunotherapy as an alternative to allogeneic T cells is gaining ground. Here, two genome-scale high-throughput platforms are used to identify genes that modulate the sensitivity of multiple solid tumor cell lines to NK-mediated killing.