A Streptococcus pneumoniae endolysin mutant protein ΔA146Ply elicits rapid broad-spectrum mucosal protection in mice via upregulation of GPX4 through TLR4/IRG1/NRF2 to alleviate macrophage ferroptosis.

Innovative solutions for rapid protection against broad-spectrum infections are very important in dealing with complex infection environments. We utilized a functionally inactive mutated endolysin protein of Streptococcus pneumoniae (ΔA146Ply) to immunize mice against pneumonic infections by multidrug-resistant bacteria, Candida albicans and influenza virus type A. ΔA146Ply protection relied on both immunized tissue-resident and monocyte-derived alveolar macrophages and inhibited infection induced ferroptosis that upregulated expression of GPX4 (glutathione peroxidase) in alveolar macrophages.

Streptococcus pneumoniae endopeptidase O induces trained immunity and confers protection against various pathogenic infections.

Antibiotic resistance and the surge of infectious diseases during the pandemic present significant threats to human health. Trained immunity emerges as a promising and innovative approach to address these infections. Synthetic or natural fungal, parasitic and viral components have been reported to induce trained immunity.

Fabrication of visible-light response cadmium sulfide modified superhydrophobic surface for water resource remediation.

Widespread concern has been attached to the frequent occurrence of pollution by oil slicks and water-soluble pollutants in recent years. The semiconductor photocatalysis is applied to sewage treatment owing to the advantages of energy-conserving and environmental protection. However, its application is limited by the defects of not solving oil slicks and the hard recyclability.

Structural basis of the novel S. pneumoniae virulence factor, GHIP, a glycosyl hydrolase 25 participating in host-cell invasion.

Pathogenic bacteria produce a wide variety of virulence factors that are considered to be potential antibiotic targets. In this study, we report the crystal structure of a novel S. pneumoniae virulence factor, GHIP, which is a streptococcus-specific glycosyl hydrolase.

A simple electrochemical aptasensor for ultrasensitive protein detection using cyclic target-induced primer extension.

A simple electrochemical aptasensor was developed for ultrasensitive protein detection by combining a novel strategy of cyclic target-induced primer extension (CTIPE) with an aptamer-hairpin probe and enzyme-amplified electrochemical readout. In the presence of protein target, the immobilized aptamer-hairpin probe recognized the protein to trigger primer extension reaction by target-induced conformational transition, which released the protein from replicated DNA duplex. The released target could cyclically bind with other aptamer-hairpin probes and trigger new primer extension, leading to formation of numerous biotin-tagged DNA duplex, which significantly amplified the protein recognition event and facilitated the subsequent enzymatic signal enhancement, leading to an ultrasensitive electrochemical aptasensor.

Shape controlled synthesis and photoluminescence properties of Eu3+-doped REVO4 nanophosphors.

Eu3+-doped REVO4 nanphosphors were controllably synthesized by an EDTA-mediated hydrothermal method at 180 degrees C using RE(NO3)3 and Na3VO4 as precursors. The obtained products were characterized by X-ray powder diffraction (XRD), scanning electron microscopy (SEM), Fourier transform infrared spectrometry (FTIR), X-ray photoelectron spectra (XPS), and photoluminescence spectroscopy (PL). The XRD results showed that the products were pure tetragonal structure and no other impurity phase appeared.