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Evolutionary and ecological insights into marine SAR11 bacteria require whole genome data. Here, the authors expand the number of complete SAR11 isolate genomes by 81 new strains from the tropical Pacific Ocean, combining their sequence analysis with metagenomics to further resolve SAR11 evolution.

Here the authors spatially map human pediatric low-grade gliomas using imaging mass cytometry, focusing on immunosuppressive myeloid cell populations and their functionality in tumor–immune interactions and tumor progression.

The authors show PTEN mutations, which can cause both congenital hydrocephalus and autism spectrum disorder, disrupt CSF homeostasis and brain connectivity in mice. Reducing mTORC1 activation ameliorates ventricular enlargement and neuronal deficits.

Evan Eichler and colleagues use single-molecule molecular-inversion probes to sequence the coding and splicing regions of 208 candidate genes in more than 11,730 individuals with neurodevelopmental disorders. They report 91 genes with an excess of de novo or private disruptive mutations, identify 25 genes showing a bias for autism versus intellectual disability, and highlight a network associated with high-functioning autism.

Jayavelu, Samaha et al., apply machine learning models on hospital admission data, including antibody titers and viral load, to identify patients at high risk for Long COVID. Low antibody levels, high viral loads, chronic diseases, and female sex are key predictors, supporting early, targeted interventions.

Evan Eichler and colleagues identify a recurrent microdeletion on 16p12.1 associated with developmental, cognitive and neuropsychiatric phenotypes. They also show that more severe phenotypes are frequently correlated with the presence of a second large genomic rearrangement, supporting a complex model of pathogenesis that may underlie the variable expressivity typical of many microdeletion syndromes.

Analysis of antibody responses to COVID-19 vaccines encoding variant-specific spike, with or without ancestral spike, suggests no loss of neutralization of the ancestral virus with variant-only vaccines, which may simplify future vaccine updates.

Multisystem inflammatory syndrome in children (MIS-C) onsets in COVID-19 patients with manifestations similar to Kawasaki disease (KD). Here the author probe the peripheral blood transcriptome of MIS-C patients to find signatures related to natural killer (NK) cell activation and CD8+ T cell exhaustion that are shared with KD patients.

The Somatic Mosaicism across Human Tissues Network aims to create a reference catalogue of somatic mosaicism across different tissues and cells within individuals.

Solid organ transplant recipients are at increased risk of infectious disease and have unique molecular pathophysiology. Here the authors use host-microbe profiling to assess SARS-CoV-2 infection and immunity in solid organ transplant recipients, showing enhanced viral abundance, impaired clearance, and increased expression of innate immunity genes.

Histone H3-mutant gliomas are deadly brain tumours and the tumour microenvironment is not fully understood. Here the authors profile the immune microenvironment from human samples and mouse models and implicate myeloid cells in immune suppression and show inhibition of myeloid cells and checkpoint blockade demonstrates therapeutic benefits in mice.

The role of IgG glycosylation in the immune response has been studied, but less is known about IgM glycosylation. Here the authors characterize glycosylation of SARS-CoV-2 spike specific IgM and show that it correlates with COVID-19 severity and affects complement deposition.

Evan Eichler and colleagues analyze the relative impact of de novo and rare, inherited variants on autism risk. They show a statistically independent role for rare, inherited mutations and implicate several new candidate genes likely contributing to autism risk.

Evan Eichler and colleagues present a detailed characterization of the chromosome 15q13.3 microdeletion region. They identify complex structural polymorphisms and find that the rearrangement breakpoints cluster in palindromic GOLGA8 core duplicons, providing evidence that this repeat and its palindromic architecture underlie the evolutionary and disease-related instability of this region.

An integrated analysis of de novo and inherited coding variants in 42,607 individuals with autism spectrum disorder identifies 60 risk genes of which five have not previously been associated with neurodevelopmental disorders.

A graphene–hBN heterostructure integrated onto a photonic crystal cavity shows enhanced bolometric response owing to improved light absorption and ultrafast thermal relaxation time.

Conditional genetic ferret models enable ionocyte lineage tracing, ionocyte ablation and ionocyte-specific deletion of CFTR to elucidate the roles of pulmonary ionocyte biology and function during human health and disease.

For many neurodevelopmental disorder (NDD) risk genes, the significance for mutational burden is unestablished. Here, the authors sequence 125 candidate NDD genes in over 16,000 NDD cases; case-control mutational burden analysis identifies 48 genes with a significant burden of severe ultra-rare mutations.

Post-acute sequelae of SARS-CoV-2 (PASC) is still not well understood. Here the authors provide patient reported outcomes from 590 hospitalized COVID-19 patients and show association of PASC with higher respiratory SARS-CoV-2 load and circulating antibody titers, and in some an elevation in circulating fibroblast growth factor 21.

Whole-exome sequencing in a large autism study identifies over 100 autosomal genes that are likely to affect risk for the disorder; these genes, which show unusual evolutionary constraint against mutations, carry de novo loss-of-function mutations in over 5% of autistic subjects and many function in synaptic, transcriptional and chromatin-remodelling pathways.

An ultimately thin microwave bolometric sensor based on a superconductor–graphene–superconductor Josephson junction with monolayer graphene has a sensitivity approaching the fundamental limit imposed by intrinsic thermal fluctuations.

Temporal multi-omic analysis of tissues from rats undergoing up to eight weeks of endurance exercise training reveals widespread shared, tissue-specific and sex-specific changes, including immune, metabolic, stress response and mitochondrial pathways.

It is known that exercise influences many human traits, but not which tissues and genes are most important. This study connects transcriptome data collected across 15 tissues during exercise training in rats as part of the Molecular Transducers of Physical Activity Consortium with human data to identify traits with similar tissue specific gene expression signatures to exercise.

An ultraviolet- and carbon-rich environment is needed to explain the bright emission coming from complex organic molecules observed near the midplane of protoplanetary disks. This implies that the gaseous reservoir from which actively forming planets accrete is carbon and organic rich.

Analysis of ~10,000 cases of developmental delay and autism identifies 253 candidate neurodevelopmental disease genes. Network analysis highlights cell-specific enrichments of disease-related genes in the D1⁺ and D2⁺ spiny neurons of the striatum.

The Cancer Genome Atlas Research Network reports an integrative analysis of more than 400 samples of clear cell renal cell carcinoma based on genomic, DNA methylation, RNA and proteomic characterisation; frequent mutations were identified in the PI(3)K/AKT pathway, suggesting this pathway might be a potential therapeutic target, among the findings is also a demonstration of metabolic remodelling which correlates with tumour stage and severity.

Segmental duplications in the genome are regions with the potential for the evolution of phenotypic novelties, but their cataloguing has been technically difficult. Here, the evolution and function of human duplications is characterized.

Analysis of chromatin state at a single-cell level in samples of developing human forebrain demonstrate both cell-type-specific and region-specific changes during neurogenesis.

Whole-genome sequencing analysis of individuals with primary immunodeficiency identifies new candidate disease-associated genes and shows how the interplay between genetic variants can explain the variable penetrance and complexity of the disease.

In this Review, the authors present a roadmap towards achieving consensus on development, analysis and interpretation of single-cell transcriptomics data in adipose tissue, including discussion of roadblocks, best practices and ideal cell-type markers for annotation of adipose tissue cell types in mice and humans.

Analysis of whole-genome sequence data from 3,474 families finds an excess of private, likely gene-disrupting variants in individuals with autism. These variants are under purifying selection and suggest candidate genes not previously associated with autism.

Laser microdissection and microarrays are used to assess 900 precise subdivisions of the brains from three healthy men with 60,000 gene expression probes; the resulting atlas allows comparisons between humans and other animals, and will facilitate studies of human neurological and psychiatric diseases.

Neurodevelopmental disorders (NDDs) are a heterogeneous group of diseases for which the genetic basis is still unknown in more than half of the cases. Here, the authors report a NDD associated with disruptive variants in the TANC2 gene and show that rols, the TANC2 homolog in flies, is required for synapse growth and function.

Autism spectrum disorders (ASD) are characterized by social impairments, communication deficits and repetitive stereotyped behaviours. Here, the authors show that de novo missense mutations, but not inherited missense mutations, in TBR1disrupt the protein function and contribute to ASD aetiology.

Genome-wide and multitrait analyses identify novel loci associated with hypertrophic cardiomyopathy and relevant left ventricular traits. Gene-level burden analyses show that rare truncating SVIL variants are associated with high risk of hypertrophic cardiomyopathy.

Family-based exome sequencing in a large autism study has identified 27 high-confidence gene targets and accurately estimates the contribution of both de novo gene-disrupting and missense mutations to the incidence of simplex autism, with target genes in affected females overlapping those in males of lower but not higher IQ; targets also overlap known targets for intellectual disability and schizophrenia, and are enriched for chromatin modifiers, FMRP-associated genes and embryonically expressed genes.

This study characterizes the properties of disease-causing mutations that produce sporadic amino acid replacements in proteins of people with autism and developmental delay. The mutations tend to cluster and reoccur at specific regions important to protein function, highlighting for future follow-up ∼200 candidate genes, many involved in neuronal signaling.

Lars Bullinger, Jinghui Zhang, Jeffery Klco, James Downing and colleagues report a detailed genomic analysis of pediatric and adult core-binding factor acute myeloid leukemias (CBF-AMLs). They identify recurrent mutations in CCND2, MGA, DHX15 and ZBTB7A and highlight dramatic differences in the landscape of cooperating mutations between different CBF-AML subtypes.

The current ‘second space age’ has enabled multiple studies on the effects of spaceflight on human physiology and health, which are contributing to the development of measures that will be needed to maintain astronaut health in future space missions.

This review provides an overview of analysis and experimental design of single-cell omics in the brain, emphasizing epigenomics and spatial omics. The authors discuss how the computational and experimental designs are interlinked, with both being guided by the biological questions.

Exome sequencing on a large cohort of parent–child trios with sporadic autism spectrum disorders shows that de novo point mutations are mainly paternal in origin and positively correlate with paternal age, and identifies a highly interconnected network formed from the products of the most severe mutations.

Recent immunotherapy approaches have focused on antibodies that block immune checkpoints, and these approaches have produced significant clinical responses in melanoma, lung cancer and kidney cancer. The authors of this Review briefly review the basic immunology underlying an antitumour immune response, and discuss the most relevant clinical trial results in these three tumour types.