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Analysis of ancient DNA, stable isotope data and archaeological evidence from the Fujia archaeological site in eastern China suggests it was populated by a matrilineal Neolithic community between 2750 and 2500 bc.

Targeted IKZF2 degradation represents a potential therapeutic strategy for cancer immunotherapy. Here, the authors described the discovery of PVTX-405 as a potent, highly selective, and orally efficacious IKZF2 molecular glue degrader and their preclinical data support the clinical development of PVTX-405.

While the conversion of CO₂ to high-value products provides a promising means to remove and utilize atmospheric carbon, few materials can do so without wasteful, sacrificial reagents. Here, authors prepare single-atom Co on Bi₃O₄Br nanosheets as CO₂ reduction catalysts using water and light.

Through producing acetyl-CoA from acetate, ACSS2 epigenetically controls gene expression. However, whether and how ACSS2 regulates senescence remains unclear. Here, the authors link ACSS2-generated local acetyl-CoA to purine metabolism through PAICS acetylation that contributes to CCF-SASP.

Risk prediction for prognosis in colorectal cancer is an important tool. Here, the authors utilise GWAS from 5 cohorts of colorectal cancer patients, and show a healthy lifestyle is associated with a 7.6% improvement in overall survival among patients with high pathologic and genetic risk.

Sand and dust storms pose considerable health risks worldwide. Here, the authors conduct a nationwide multicenter time-series study to examine sand and dust storm-associated mortality risks.

Genome-wide association studies have been performed to identify genetic variants that are associated with susceptibility to colorectal cancer. Here, the authors expand on these studies and identify a variant that regulates the expression of ETV6 and find that over-expression of ETV6 blocks cell proliferation in vitro.

Proton-coupled electron transfer (PCET) has been observed in chemical, energy, and biological transformation processes. Here we demonstrate that the rate of PCET and oxygen evolution reaction can be dramatically enhanced by tuning crystal orientation and the correlated proton diffusion.

The effects of Schwann cells on the neuro-stroma niche in pancreatic ductal adenocarcinoma (PDAC) remain to be explored. Here, single-cell RNA-sequencing and spatial transcriptome analysis of PDAC tissues reveal that Schwann cells induce malignant subtypes of tumour cells and cancer associated fibroblasts.

The design of efficient and stable oxygen evolution catalysts has implications for water splitting and metal-air battery technology. Here, the authors fabricate double perovskite nanofibers and demonstrate the favourable effects of co-doping and nanostructuring on oxygen evolution performance.

Germline variants that predispose to lung cancer have been mostly studied in Western populations, but data from Chinese patients is lacking. Here the authors analyze lung cancer germline variants in 1794 Chinese patients, finding exclusive variants or with different frequency compared to TCGA data.

Most genetic studies have been done on European cohorts, which affects the efficacy of polygenic risk scores in non-European populations. Here, the authors demonstrate that a colorectal cancer PRS including Asian and European ancestries has improved performance over the European-centric PRS across racial and ethnic groups.

Anodes composed of nickel/yttria-stabilized zirconia in solid oxide fuel cells are known to suffer from coking, which reduces their performance. Here, Yang and colleagues report a new barium oxide/nickel anode, which efficiently oxidizes fuel with minimum carbon buildup.

One limiting factor to the high-performing reversible protonic ceramic electrochemical cells is the poor stability and electrocatalytic activity of air electrodes. Here the authors report a water-promoted surface restructuring process to enhance the performance of Ba_0.9Co_0.7Fe_0.2Nb_0.1O_3-δ air electrode.

Hongbing Shen, Dongxin Lin, Yongyong Shi and colleagues identify two new susceptibility loci for non-cardia gastric cancer. They also confirm three previously reported risk loci for this gastric cancer subtype.

Three kinds of Ni₃S₂ nanostructures, namely Ni₃S₂ nanorods, Ni₃S₂ nanosheet@nanorods and Ni₃S₂ multi-connected nanorods were prepared using a one-step hydrothermal process via controlling the temperature. Owing to the good mechanical adhesion and electrical connection with the substrate, high contact area with the electrolyte and alleviated structural pulverization during the ion insertion/desertion process, Ni₃S₂ nanosheet-onto-Ni₃S₂ nanorods exhibited excellent rate capability and cycling stability. Asymmetric supercapacitor consisting of Ni₃S₂ nanosheet @nanorods electrode and activated carbon (AC) electrode displayed a volumetric energy density of 1.96 mWh cm⁻³, which can be used to bridge the performance gap between thin-film Li batteries and commercial AC//AC supercapacitors.

Su et al. report that while METTL16 acts as an m⁶A writer in the nucleus, it exerts an m⁶A-independent function in the cytosol, where it facilitates translation through direct interactions with ribosomal RNAs and eukaryotic initiation factors 3a and -b.

Solid oxide fuel cells are most commercially viable when run at low temperatures, but this makes it challenging to achieve high performance with hydrocarbon fuels. Here the authors report a fuel cell running at 500 °C on nearly dry methane that incorporates a Ni–Ru–CeO₂-based reforming catalyst, achieving high power densities and coking resistance.

Human serum albumin (HSA) can be used as a drug delivery material for cancer therapy. Here, the authors report an HSA-based photothermal platform that improves drug loading and photothermal therapeutic performance in breast cancer mouse models.

Caloric restriction is a common approach to weight reduction, however, weight regain is common. Here the authors report that caloric restriction reduces the abundance of Parabacteroides distasonis in the gut and alters serum bile acid (BA) profile, which contribute to weight regain in mice.

Circular RNAs are known to regulate cancer. Here, the authors show that the circular RNA circTP63 promotes lung squamous cell carcinoma by competing with endogenous RNA to upregulate FOXM1.

Pu-erh tea displays cholesterol-lowering properties. Here, Huang et al. show that this is mostly due to the action of a pigment in Pu-erh tea that induces changes in certain gut microbiota and bile acid levels, thus modulating the gut-liver metabolic axis.

Water may serve as a renewable hydrogen fuel source to replace fossil fuels, although such electrolysis requires highly active catalysts. Here, authors explore Ruddlesden−Popper oxides as hydrogen evolution electrocatalysts that feature an unusual synergistic effect to promote high activity.

Yinghao Sun and colleagues report a genome-wide association study for prostate cancer in Han Chinese men. They identify two new risk-associated loci at chromosomes 9q31 and 19q13.