Elucidating subcellular architecture and dynamics at isotropic 100-nm resolution with 4Pi-SIM.

Three-dimensional structured illumination microscopy (3D-SIM) provides excellent optical sectioning and doubles the resolution in all dimensions compared with wide-field microscopy. However, its much lower axial resolution results in blurred fine details in that direction and overall image distortion. Here we present 4Pi-SIM, a substantial revamp of IS that synergizes 3D-SIM with interferometric microscopy to achieve isotropic optical resolution through interference in both the illumination and detection wavefronts.

Uncovering Molecular and Genetic Drivers of Dental Caries Via scRNA-seq and Mendelian Randomisation.

Background: Dental caries remains a prevalent oral health problem globally, influenced by environmental, genetic, and microbial factors. Traditional studies have emphasised microbial colonisation and dietary sugars, neglecting the intricate molecular and genetic interactions. This study aimed to integrate single-cell RNA sequencing (scRNA-seq) with Mendelian randomisation (MR) to elucidate the molecular and genetic factors contributing to the susceptibility and progression of dental caries.

Stabilization of Uranium in Acid Ore Wastewater through Hydrothermal Mineralization-Induced Crystallization.

Uranium [U(VI)] mining activity resulted in the discharge of uranium containing acid wastewater. It is necessary for immobilizing the uranium from wastewater to avoid its environmental pollution. In this work, a novel hydrothermal mineralization strategy is proposed for uranium stabilization.

Identification of status quo and association rules for chronic comorbidity among Chinese middle-aged and older adults rural residents.

Background: Chronic comorbidity has become a major challenge in chronic disease prevention and control. This issue is particularly pronounced in rural areas of developing countries, where the prevalence of chronic disease comorbidity is high, especially among middle-aged and older adults populations. However, the health status of middle-aged and older adults individuals in rural areas of China has received inadequate attention.

Bip-Yorkie interaction determines oncogenic and tumor-suppressive roles of Ire1/Xbp1s activation.

Unfolded protein response (UPR) is the mechanism by which cells control endoplasmic reticulum (ER) protein homeostasis. ER proteostasis is essential to adapt to cell proliferation and regeneration in development and tumorigenesis, but mechanisms linking UPR, growth control, and cancer progression remain unclear. Here, we report that the Ire1/Xbp1s pathway has surprisingly oncogenic and tumor-suppressive roles in a context-dependent manner.

Aptamer-Functionalized Fractal Nanoplasmonics-Assisted Laser Desorption/Ionization Mass Spectrometry for Metabolite Detection.

Accurate profiling of metabolites in biofluids provides a feasible approach to disease diagnosis and therapeutic evaluation in clinics. However, current material-based analytical platforms for in vitro metabolite detection often requires tedious sample pretreatment. To address this issue, herein, we report an aptamer-functionalized fractal gold nanoflower (Apt-AuNF)-based sensing platform for metabolite analysis.

Phosphate enhanced uranium stable immobilization on biochar supported nano zero valent iron.

Uranium (U) immobilization from wastewater by zero valent iron (ZVI) was widely concerned through reduction and surface adsorption. Releasing of U due to re-oxidation of U(IV) into U(VI) limited the application of ZVI in U decontamination. In this work, a kind of biochar supported nano zero valent iron (Fe/BC(900)) was obtained by carbothermal reduction of starch mixed with ferric nitrate at 900 °C.

Assembly Pathway Selection with DNA Reaction Circuits for Programming Multiple Cell-Cell Interactions.

The manipulation of cell-cell interactions promotes the study of multicellular behavior, but it remains a great challenge for programming multicellular assembly in complex reaction pathways with multiple cell types. Here we report a DNA reaction circuit-based approach to cell-surface engineering for the programmable regulation of multiple cell-cell interactions. The DNA circuits are designed on the basis of a stem-loop-integrated DNA hairpin motif, which has the capability of programming diverse molecular self-assembly and disassembly pathways by sequential allosteric activation.

Effects of Cd and Pb on diversity of microbial community and enzyme activity in soil.

Pollution due to heavy metals is a serious global environmental problem, particularly in China. It is thus important to study the effects of heavy metal pollution, especially in mining areas. Cadmium(Cd) and lead(Pb) severely damage the microbial life in soil.

Effects of Different Energy Substrates and Nickel and Cadmium Ions on the Growth of Acidithiobacillus ferrooxidans and Its Application for Disposal of Ni-Cd Batteries.

In the present work, the effects of different energy substrates and nickel ions (Ni) and cadmium ions (Cd) on the growth of Acidithiobacillus ferrooxidans (A. ferrooxidans) were investigated. Ferrous sulphate (FeSO) was the optimum energy substrate for A.