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Using terahertz spectroscopy and ultrafast electron diffraction, the paper shows how the DC conductivity of warm dense matter depends on material phase. This provides insight to how electron scattering processes impact conductivity in this regime.

This overview of the ENCODE project outlines the data accumulated so far, revealing that 80% of the human genome now has at least one biochemical function assigned to it; the newly identified functional elements should aid the interpretation of results of genome-wide association studies, as many correspond to sites of association with human disease.

A gas of magnons, quantised magnetic excitations, can be driven into a Bose-Einstein condensation (BEC) state even at room temperature. Here, Divinskiy et al show that it is possible to achieve stationary equilibrium room-temperature magnon BEC via a spin-current.’

Borgs are large extrachromosomal elements of anaerobic methane-oxidizing archaea. Here, via in silico protein structure prediction of ~10,000 Borg proteins, the authors reveal that Borgs share numerous features with giant eukaryotic viruses, suggesting that Borgs have a viral-like lifestyle and evolutionary convergence of large extrachromosomal elements across the Domains of Life.

Gliomas are tumors often associated with epigenetics-related gene deregulation. Here the authors reveal an atlas of active enhancers and promoters in benign and malignant gliomas by performing whole-genome mapping of chromatin accessibility, histone modifications, DNA methylation patterns and transcriptome analysis simultaneously in multiple tumor samples.

Acinic cell carcinoma (AciCC) is a rare salivary gland carcinoma that is poorly understood. Here the authors perform genomic, transcriptomic and epigenomic profiling of AciCC and find highly recurrent and specific rearrangements [t(4;9)(q13;q31)], which lead to enhancer hijacking that activates oncogenic transcription factor NR4A3.

The gut microbiota can influence the severity of pneumonia through the production of metabolites. In this translational study, the authors investigate the effects of tryptophan metabolites, specifically indole-3-acetic acid (IAA), on pneumonia.

This study reveals that anti-NS1 IgA antibodies in plasma, induced by prior Zika virus infection, activate neutrophils, underlying severe dengue disease upon a subsequent DENV2 infection, uncovering a pathogenic mechanism relevant for vaccines and therapeutics.

How chemotherapeutic nucleoside 6-thio-2’-deoxyguanosine (6-thiodG) targets telomerase to inhibit telomere maintenance in cancer cells and tumors was unclear. Here, the authors show that telomere length and telomerase status determine 6-thio-dG sensitivity and uncover the molecular mechanism by which 6-thio-dG selectively inhibits telomerase synthesis of telomeric DNA.

The epigenetic mechanisms underlying phenotypic diversity across different metastatic sites in castration-resistant prostate cancer (CRPC) remain to be characterised. Here, multi-omic profiling across metastatic lesions identifies regulatory networks driving tumour lineage programs and potential therapeutic targets.

Chromatin structure is thought to regulate transcription factor access by modulating DNA accessibility. Here, the authors show that in living human cells, euchromatin and heterochromatin are fully accessible, while centromeric chromatin remains partially inaccessible.

DynamicAtlas integrates fixed and live imaging data to generate a morphodynamic atlas of Drosophila development.

Ten new RNA polymerase II kinases were identified, of these Hrr25 was engineered to enable covalent and noncovalent chemical inhibition in vivo, revealing that this kinase regulates polymerase function at noncoding snoRNA genes.

Understanding the heterogeneity of HIV infection, such as in persons with non-suppressible HIV-1 viremia despite adherence to antiretroviral treatment, is crucial to better tailor therapeutic interventions to abrogate HIV-1 persistence.

Squeezed light field microscopy (SLIM) combines ideas from tomography and compressed sensing with light field microscopy to enable volumetric imaging at kilohertz rates, as demonstrated in blood flow imaging in zebrafish and voltage imaging in leeches and mice.

Genome-wide analyses in over one million self-reported cases and controls identify genetic variants associated with stuttering and find genetic correlations with autism, depression and impaired musical rhythm, supporting a potential neurological basis for stuttering.

This study presents an extensive molecular characterization of the reprograming process by analysis of transcriptomic, epigenomic and proteomic data sets describing the routes to pluripotency; it finds distinct routes towards two stable pluripotent states characterized by distinct epigenetic events.

The archaeological site Shinfa-Metema 1 in the lowlands of northwest Ethiopia provides early evidence of intensive riverine-based foraging aided by the likely adoption of the bow and arrow.

This work investigates changes in regularity of crop failure, heatwave and wildfire exposure for different future climate scenarios. Major shifts in dominant periods are observed when moving from pre-industrial to current climate conditions.

A region on chromosome 19p13 is associated with the risk of developing ovarian and breast cancer. Here, the authors genotyped SNPs in this region in thousands of breast and ovarian cancer patients and identified SNPs associated with three genes, which were analysed with functional studies.

Chromatin neighbourhoods, formed by CTCF, have been proposed to isolate enhancers and their target genes from other regulatory elements. Here, the authors provide evidence that while CTCF binding does regulates mammary-specific super-enhancers, CTCF sites are relatively porous borders.

Known to augment host innate immunity, Zhou and Ahearn et al. shows that a SARS-CoV2 NSP15 mutant also increases viral recombination and reduces sub-genomic message. Results articulate a novel role for NSP15 in viral transcription and recombination.

Conducting a simulated turtlegrass herbivory experiment across 650 experimental plots and 13 seagrass meadows, the authors show that the negative effects of herbivory increase with latitude, driven by low levels of light insolation at high latitudes.

Mutations in the insulin receptor cause severe insulin resistance, but their functional impact is often unclear. Here, the authors map ~14,000 receptor variants, linking molecular defects to disease and highlighting variants responsive to therapeutic activation.

Artificial intelligence is driving rapid growth in electricity demand, straining grid reliability and infrastructure. This study demonstrates a software-based method that allows data centres to adjust workloads in response to real-time grid signals, reducing power use and supporting grid stability without hardware modifications.

An analysis of cell-type diversity in brain samples from a variety of mammalian species, both during development and in adult animals, reveals that the TAC3 initial class of striatal interneurons is conserved across placental mammals and is homologous to Th striatal interneurons in rodents.

Deshpande et al show that MRN nuclease-dependent processing of DNA ends in human cells occurs at sites bound by DNA-PK. Chromatin immunoprecipitation analysis of DNA-PK, MRN, and CtIP supports a sequential model of pathway choice.

Genomes are partitioned into topologically associating domains (TADs). Here the authors present single-nucleus Hi-C maps in Drosophila at 10 kb resolution, demonstrating the presence of chromatin compartments in individual nuclei, and partitioning of the genome into non-hierarchical TADs at the scale of 100 kb, which resembles population TAD profiles.

The Yamaji effect is a modulation of the electronic transport as the angle of an applied magnetic field is changed. This has been observed in a model cuprate and sheds light on the geometry of the Fermi surface and the nature of the pseudogap.

Polyneuropathy causes are difficult to pinpoint. Here, authors used single-nucleus and spatial transcriptomics of 37 human peripheral nerves to identify focal perineurial hyperplasia and endoneurial lipid-associated macrophages in polyneuropathies.

Annotating functional elements of the genome helps the interpretation of genetic variation. Here, the authors compile functional genomics data for the pig genome over 14 tissues with 15 different chromatin states, integrate the data with WGS and GWAS data, and compare conservation of regulatory elements across mouse and human tissues.

The dopamine motivating animals to perform a current behavior also desensitizes local D₂ dopamine receptors. Dopamine signaling is less effective in subsequent rounds, resulting in repetition-induced devaluation of behavior.

Rudensky and colleagues demonstrate a context-dependent differential requirement for Foxp3 for T_reg cell transcriptional and functional programs.

This study reveals that transcription factors DAF-16/FOXO and HLH-30/TFEB promote healthy aging in C. elegans, in part, by activating lipid metabolism genes that remodel lysosomes into tubular networks.

Using a combination of antibody- and LC–MS/MS-based methods, Zhang et al. reveal lysine l-lactylation as the key lactylation isomer in cellular histones, responding dynamically to glycolysis and positively correlating with lactyl-CoA levels, providing insights into the Warburg effect.

Coufal and colleagues generated microglia from human iPS cells to examine mechanistic roles of the transcription factor MEF2C and how these roles might relate to the autism phenotype seen following the loss of MEF2C in human microglia.

In this Review, the authors synthesize current understanding of sperm DNA fragmentation and its effects on mammalian reproduction. Reproductive consequences for fertilization, embryo development, and pregnancy outcomes and strategies aimed at reducing or preventing DNA fragmentation are examined.

Over one hundred loci have been identified to be associated with the familial risk of prostate cancer but the functional effects are poorly understood. Here the authors use single-nucleotide variant and epigentic data to show an underlying genetic architecture marked by histone modification.

The surface of complex oxides can show properties very different to the bulk. Here, the authors observe unexpected surface Jahn–Teller ordering on the surface of La_5/8Ca_3/8MnO₃thin films that can be traced to the pattern of oxygen adatoms.

iExoKras^G12D are engineered exosomes for the delivery of siRNA targeting KRAS^G12D. Here the authors describe the results of a phase I trial of iExoKrasG12D in patients with metastatic pancreatic cancer, reporting safety and clinical activity, as well as immunological correlates informing on tumor immune microenvironment reprograming and future combination with immune checkpoint inhibitors.’

Sengupta et al. show that the mesenchymal cell state in neuroblastoma is associated with heightened immunogenicity and anti-tumor immune responses compared with the adrenergic state, which is linked to sensitivity to immunotherapy in preclinical models.

Electron hopping in geometrically frustrated lattices can result in a rich variety of unusual behaviours. Now, the orbital arrangement in a van der Waals metal with a non-frustrated, primitive lattice is found to show similar effects.

α/β-hydrolase domain-containing protein 11 (ABHD11) is a mitochondrial hydrolase, and its expression in CD4 + T-cells has been linked to remission status in rheumatoid arthritis. Here the authors report that pharmacological inhibition of ABHD11 modulates T-cell effector function via increased 24,25-epoxycholesterol biosynthesis and subsequent liver X receptor activation.

Proximity labeling allows proteomic mapping of subcellular structures. Here, Sroka et al. develop in situ APEX activation (iAPEX) to overcome limitations of labeling specificity and H2O2 toxicity, applying their approach to reveal cilia proteomes and expand proteomic access across organelles, cell types and organisms.