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Biological computing is a promising field with potential applications in biosafety, environmental monitoring, and personalized medicine. Here the authors create bio-computers using engineered E. coli colonies that respond to chemical gradients, producing different logic functions depending on how they are spatially arranged.
The scalable fabrication of wide-bandgap perovskites in air remains challenging due to moisture-induced degradation of perovskites. Here, authors utilize low polarity and moderately volatile n-butanol to enhance film uniformity, achieving efficiency of 29.4% for double-sided textured tandem cells.
Simulating responses of a full particle physics detector with high granularity is computationally very expensive. Here, the authors develop a deep generative model that is able to model a detector with millions of information channel with good performances, reducing both storage demand and CPU time.
The Legionella collagen-like protein (Lcl) is important for host adhesion in Legionella pneumophila. Here, the authors provide structural and biochemical data, which provides insights into a distinct “fuzzy” glycosaminoglycan binding mechanism.
This study reports the genomics- and metabolomics-guided discovery of aminovinyl-(methyl-)cysteine-containing peptides (ACyP). One of these peptides, massatide A, demonstrates excellent activity against drug-resistant gram-positive pathogens.
Here, the authors develop a microfabrication method to realize the optical observation of quantum coherence and interference of a single moiré exciton in twisted semiconducting heterobilayers of transition metal dichalcogenides, persisting beyond 10 ps.
Hydrogels capable of swift mechanical energy dissipation are desirable for various uses, but traditional energy absorption in hydrogels typically relies on viscoelastic mechanisms and often suffers from slow recovery. Here, the authors report a hydrogel design harnessing molecular friction to achieve efficient energy dissipation and rapid recovery.
Tobacco smoking is an important risk factor for lung cancer. Here the authors report that tobacco carcinogens promote metabolic syndrome and metabolic reprogramming of macrophages, associated with lung cancer progression in preclinical models.
The role of the FOXA1 to FOXA2 switch in the regulation of the response to androgen receptor signalling inhibition and lineage plasticity in prostate cancer remains unclear. Here, the authors highlight the function of FOXA2 in rewiring AP-1 to induce differential transcriptional reprogramming and lineage plasticity.
The realization of intrinsically stretchable organic photovoltaics with excellent mechanical robustness remains challenging. Here, the authors redistribute the strain in the active layer to PEDOT:PSS electrodes with simultaneously enhanced stretchability and interfacial adhesion in the device.
Superoxide dismutase 3 is elevated in patients and animals infected by protozoan parasites such as Plasmodium. Here, Li et al. show that SOD3 expression is associated with experimental cerebral malaria and inhibition of host immune responses.
Excitation energy transfer is important for many photoinduced biological processes in systems with multiple chromophores. Here, the authors elucidate this process for the coenzyme NADH using ultrafast spectroscopy and quantum dynamics.
Efficient base editors for direct thymine (T) editing are highly desirable. Here, authors develop two deaminase-free glycosylase-based base editors for direct T editing (gTBE) and C editing (gCBE) by rounds of structure-informed mutagenesis on human DNA glycosylase UNG and further engineering.
The bioavailability of NAD is vital for muscle health. Here, the authors unveil a pathway from glucose sensing to muscle NAD modulation via the TAS1R2 receptor, suggesting TAS1R2 as a therapeutic target for muscle health preservation.
Topological waves and their exotic properties are attracting intense research interest. Here, the authors report on the discovery of supertoroidal electromagnetic pulses with robust skyrmionic topology that persists upon propagation over arbitrarily long distances.
Creating highly active materials that effectively harness solar spectra is essential for photocatalysis, though challenging. Here the authors introduce a novel donor-acceptor covalent organic framework with a broad absorption range of 200 nm to 900 nm, achieving efficient artificial photocatalytic amine coupling.
Aligned collagen I is associated with the emergence of leader cells that are responsible for collective invasion. Here, the authors show that Collagen I and Yap signalling are in a feed-forward loop to drive the collective invasion of basal-like tumour cells.
Brain evolution at the cellular level is understudied. Here, the authors compare olfactory circuits from three Drosophila species, finding species-specific connectivity patterns associated with food odours and suggesting that more connectivity may be related to learning performance.
In this work, authors show that exacerbations of respiratory symptoms in persons with cystic fibrosis (CF) were associated with either CF pathogen-driven or anaerobe-based changes in airway bacterial community structure.
Omecamtiv mecarbil and Mavacamten are small molecules directly modulating the force produced by β-cardiac myosin. In this work, the authors describe how the modulators Omecamtiv mecarbil and Mavacamten can have opposite effects on cardiac myosin force production despite occupying the same pocket.