In a comprehensive analysis that offers a global view of carbon emission trends, researchers are exploring the factors driving CO2 emission peaks in countries worldwide. The study, titled "Carbon Emission Peaks in Countries Worldwide and Their National Drivers," is led by Prof. Chao He from the Collaborative Innovation Center for Emissions Trading System Co-Constructed by the Province and Ministry in Wuhan, China, and the National Science Library (Wuhan) at the Chinese Academy of Sciences. This research provides critical insights into the national drivers behind carbon emission peaks, offering a detailed understanding of global emission trends.

Liver failure due to viral infection affects the wellbeing of many neonates, but the underlying mechanisms remain enigmatic. In this study, we analyzed a neonatal liver failure model by utilizing intraperitoneal injection of rhesus rotavirus (RRV) into newborn BALB/c mice. Through single-cell RNA sequencing, we revealed an altered developmental trajectory of neutrophils in infected mice, accompanied by significant upregulation of phosphodiesterase (Pde4b). We showed that dipyridamole-mediated inhibition of phosphodiesterases (PDEs) restored the differentiation trajectory of neutrophils by suppressing their activation, promoting apoptosis, and facilitating clearance. In addition, dipyridamole also suppressed the activation of autoreactive B cells and cytotoxic lymphocytes, which collectively ameliorated liver pathology and improved neonatal survival following RRV infection. In summary, we demonstrate that inhibition of PDE signaling alleviates liver failure in murine models of neonatal rotavirus infection, thereby revealing a candidate strategy to treat rotavirus-associated diseases in neonates.

Soil salinization is a growing global problem that threatens crop productivity. 

A research paper by scientists at Capital Medical University validates the necessity of integrating cognitive–motor strategies for the motor rehabilitation of PD and identifies novel neural markers for assessing treatment efficacy.

The new research paper, published on Jun. 19, 2025 in the journal Cyborg and Bionic Systems, presented neuroplasticity driven by attentional network activation and the dynamic reallocation of attentional resources are the core mechanisms by which short-term MIRT facilitates compensatory motor function and the necessity of developing intervention strategies that integrate cognitive–motor dual regulation.