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The communication of colour information stands as one of the most immediate and widespread methods of interaction among biological entities. Xu et al. report an electrochromic neuromorphic transistor employing color updates to represent synaptic weight for real-time visualised in-sensor computing.
Cells carrying EZH2 mutations found in lymphoma show a specific transcriptional response to PRC2 inhibition. A longitudinal study reveals unexpected genetic heterogeneity in follicular lymphomas, with implications for therapeutic strategies.
This large-scale cross-ancestry genome-wide association study reveals the genetic architecture of serum urate across ancestries and identifies urate-associated diseases and potential targets of urate-lowering drugs.
Birdsong contains strings of syllables and is essential for their communication. Using a new song decoder to annotates song in a quasi-real-time manner, and rewarding specific syllable sequences, this study shows Bengalese finches can flexibly modify the content of their song in a goal-directed way.
Uncontrolled secretion of ECM proteins, such as collagen, can lead to excessive scarring. Here the authors describe membrane permeable peptides that target the interface of TANGO1 and cTAGE5, inhibit secretion of ECM components and could be of therapeutic benefit during wound healing and fibrotic processes.
F-actin architecture modulates transmission and generation of stresses in cells, yet its impact on myosin ATP hydrolysis remains unknown. The authors perform experiments measuring myosin ATP hydrolysis rates, showing that F-actin architecture can control myosin energy consumption.
Here the authors report that a thermophilic archaeal TnpB enables efficient gene editing in the natural host: they see that the TnpB has different TAM requirements for eliciting cell death and for facilitating gene editing. They show that TnpB can be harnessed for flexible single-nucleotide editing with templated repair.
Cas9 nucleases hold clinical significance for genome editing therapies. Here the authors characterize CoCas9, a compact, efficient and precise Cas9 from the human microbiome, and show that delivery via AAV vectors enables efficient editing in the mouse retina, expanding the genome editing toolbox.
Normal mode analysis is a crucial step in structural biology, but is based on an expensive diagonalisation of the system’s Hessian. Here the authors present INCHING, a GPU-based approach to accelerate this task up to >250 times over current methods for macromolecular assemblies.
The non-canonical C-term-phosphorylation of eIF2α mediated by SPA protein kinases plays a significant positive role in eIF2 ternary complex formation and light-induced translation during photomorphogenesis.
It remains challenging to characterise somatic copy number alterations (SCNAs) in tumors and the surrounding tissues with spatial and single-cell resolution. Here, the authors develop the scCUTseq approach to characterise SCNAs from single cells in multi-region prostate cancer samples and identify pseudo-diploid cells and subclones.
How distinct circuits get coordinated to allow individuals to express appropriate level of anxiety is unclear. Here, authors show there are two functionally opposing BLA-BNST pathways interacting via the local inhibitory networks to enable anxiety expression with environmental needs.
Detailed data on SARS-CoV-2 dynamics in Africa remain limited. Here, the authors use longitudinal serology and SARS-CoV-2 sequencing data from Ethiopia between August 2020 and July 2022 to characterise circulating variants, identify infection pathways, and explore cross-immunity properties.
Poly-β-(1–6)-N-acetylglucosamine (PNAG) is an important vaccine target, but the impact of the number and position of free amine vs N-acetylation on its antigenicity is not well understood. Here, the authors report a divergent strategy to synthesize a comprehensive library of PNAG pentasaccharides, enabling the identification of enhanced epitopes for vaccines against Staphylococcus aureus including drug resistant strains.
Schools, flocks and related forms of collective behavior and collective locomotion involve complicated fluid dynamical interactions. Here, using a “mock flock" of robotic flappers, authors report that the interaction between leaders and followers is similar to one-way springs, leading to lattice-like self-organization but also a new type of traveling-wave disturbance.
Tailored light-matter interaction can be achieved with surface phonon polaritons (SPhPs). Here, Conrads et al. employ the plasmonic phase-change material In3SbTe2 on the polar crystal SiC for direct programming of confined SPhP resonators and study their resonance modes via near-field microscopy.
Microbial denitrification in rice paddy fields reduces N use efficiency. Here, the authors use field samples from major rice producing areas in China and identify microbial taxa involved in the metabolic couplings between aerobic CH4 oxidation and denitrification in rice paddy fields.
The full potential of photoelectric devices can possibly be maximized through pyroelectricity for power generation beyond thermodynamic limit. Here, authors report photovoltaic heterostructure device with pyroelectric absorber, achieving 2.5 times more output power due to long-range electric field.
The contribution of visual experience to the formation of cognitive maps in humans is not well understood. Here, the authors show using fMRI and an imagined navigation paradigm, that sighted people display hexagonal grid-like neural coding, while blind people show neural representations consistent with a square grid.
Host factors required for parechovirus entry are not well understood. Here, the authors identify MYADM as an essential host entry factor that directly binds human parechovirus 1 and that is required for PeV-A infection in cell lines and human gastrointestinal epithelial organoids.