Spatiotemporal dissection of collective cell migration and tissue morphogenesis during development by optogenetics.

Collective cell migration and tissue morphogenesis play a variety of important roles in the development of many species. Tissue morphogenesis often generates mechanical forces that alter cell shapes and arrangements, resembling collective cell migration-like behaviors. Genetic methods have been widely used to study collective cell migration and its like behavior, advancing our understanding of these processes during development.

Biomimetic high-efficiency fog collector based on fractal spiral structure.

Fog collection provides a promising solution to the freshwater shortage. However, the efficiency of conventional fog collection apparatus is significantly reduced under the complex and variable natural conditions. Furthermore, fog collectors are usually plagued by intricate designs and inadequate durability, resulting in degradation of their structural and surface integrity over time.

Investigation of Buckling Behaviors in Carbon Nanorings Using the Chebyshev-Ritz Method.

Carbon nanorings (CNRs) serve as an ideal quantum system for novel electronic and magnetic properties. Although extensive theoretical studies utilizing molecular dynamics (MD) simulations have investigated the formation and structural characteristics of CNRs, systematically analyzing their properties across various toric sizes remains challenging due to the inherent complexity of this system. In this study, we introduce a novel finite element method, the Chebyshev-Ritz method, as an alternative approach to investigating the structural properties of CNRs.

Improved Antitumor Efficiency of -Tetradecyloxycarbonyl Gemcitabine-Loaded Liposomes for Pancreatic Cancer Chemotherapy.

Background: Gemcitabine (Gem) is one of the first-line chemotherapy drugs for pancreatic cancer treatment. However, its short half-life in plasma and adverse effects limited its broader application.

Methods: A novel Gem derivative ( -tetradecyloxycarbonyl gemcitabine, tcGem) was synthesized and encapsulated into liposomes (LipotcGem) to overcome the above shortcomings.

Loss of Trim31 Worsens Cardiac Remodeling in a Mouse Model of Heart Failure by Enhancing the Activation of the NLRP3 Inflammasome.

Tripartite motif-containing protein 31 (Trim31) is known to be involved in various pathological conditions, including heart diseases. Nonetheless, its specific involvement in heart failure (HF) has yet to be determined. In this study, we examined the function and mechanism of Trim31 in HF by using mice with cardiac-specific knockout (cKO) of Trim31.

hPSCs-derived brain organoids for disease modeling, toxicity testing and drug evaluation.

Due to the differences and variances in genetic background, in vitro and animal models cannot meet the modern medical exploration of real human brain structure and function. Recently, brain organoids generated by human pluripotent stem cells (hPSCs) can mimic the structure and physiological function of human brain, being widely used in medical research. Brain organoids generated from normal hPSCs or patient-derived induced pluripotent stem cells offer a more promising approach for the study of diverse human brain diseases.

Tile: Construction of a specific nanoprobe for scavenging ROS in hypobaric hypoxia induced brain injury of mice.

The prevention and treatment of hypobaric hypoxia brain injury (HHBI) remains an unprecedented challenge due to the complex oxidative stress response at the damage site. In this study, RuCO phthalocyanine compound (RuPc) and bovine serum albumin (BSA) were self-assembled to obtain RuPc-BSA nanoparticles for HHBI therapy. As a nanoprobe carrying and storing carbon monoxide (CO), RuPc-BSA delivers CO to pathologically damaged areas of the brain.

Dynamic Changes in Microbiome and Metabolome during Sun-Drying of Oysters (), a Traditional Procedure in South China.

Sun-drying constitutes a traditional method employed in the preparation of dried oysters within the coastal regions of South China. However, its ramifications on nutritional attributes and the genesis of flavor-contributory compounds in the resultant dried oysters remain significantly unexplored. This research endeavors to scrutinize the repercussions of the production process on the microbiota and metabolites within dried oysters.

Atorvastatin calcium alleviates UVB-induced HaCat cell senescence and skin photoaging.

Excessive exposure to ultraviolet radiation B (UVB) has been shown to contribute to the aging of human skin cells. Previous research has demonstrated that atorvastatin calcium (Ato) can mitigate the aging effects caused by chemotherapy drugs. However, it remains unclear whether Ato can alleviate skin aging induced by ultraviolet radiation.

IGF2BP1 accelerates the aerobic glycolysis to boost its immune escape in hepatocellular carcinoma microenvironment.

Introduction: Energy metabolism abnormity emerges as a crucial factor that facilitates tumorigenesis by accelerating aerobic glycolysis. However, the function of N-methyladenosine (mA) on hepatocellular carcinoma (HCC) aerobic glycolysis and immune escape is still unclear. Here, this investigation was intended to elucidate the regulation of mA 'reader' IGF2BP1 involved in HCC aerobic glycolysis and immune escape.

Physiological and molecular mechanisms of leaf response to high-temperature stress in high-temperature-resistant soybean varieties.

Background: With increasing global limate warm, high temperature (HT) is one of limiting factors for soybean yield and quality. Exploring HT resistance-related functional genes and their corresponding molecular mechanisms is of great value. In our previous report, compared with HD14 (HT sensitive), JD21 is an HT-resistant variety, and further analysis of the transcriptome and proteome has revealed the HT tolerance mechanism of JD21 anthers.

Ubiquitination of P53 Regulated by Ubiquitin-Specific Protease 14 Delays the Invasion of Hepatitis B Virus and the Development of Hepatitis.

This study aims to explore the mechanism underlying the role of ubiquitin-specific protease 14 (USP14) in regulating P53 expression and influencing the development of hepatitis B. The animal and cell models of hepatitis B were constructed. The mRNA and protein expression of USP14, mouse double minute 2 (MDM2), and P53 were detected by western blot and qPCR.

Blood expression of NADK2 as a diagnostic biomarker for sciatica.

Sciatica is characterized by radiating pain along the sciatic nerve, with a lifetime prevalence of up to 43%. This study explored blood biomarkers for sciatica using transcriptomic microarray data (GSE124272 and GSE150408). Differential gene expression analysis identified NADK2 as a potential diagnostic biomarker.

An integrated physiological indicator and transcriptomic analysis reveals the response of soybean buds to high-temperature stress.

Background: Under global warming, high temperature (HT) has become a major meteorological factor affecting soybean production. To explore the candidate genes and regulatory mechanism of the soybean bud response to HT stress, previously identified as HT-tolerant ('Handou14'; HD14) and HT-sensitive ('Jiadou36'; JD36) were treated for 5 days in an artificial climate incubator either with HT (43 °C (day)/ 33 °C (night), 16 h light/8 h darkness) or the non-stress growth condition (25 °C, 16 h light/8 h darkness) as the control at the bud stage were used as experimental materials in this study. After HT treatment, changes in physiological indicators including hypocotyl length, enzyme activity and hormone content were detected; at the same time, the cotyledons, hypocotyls, and main roots were collected for transcriptome sequencing analysis.

Single cell-spatial transcriptomics and bulk multi-omics analysis of heterogeneity and ecosystems in hepatocellular carcinoma.

This study profiled global single cell-spatial-bulk transcriptome landscapes of hepatocellular carcinoma (HCC) ecosystem from six HCC cases and a non-carcinoma liver control donor. We discovered that intratumoral heterogeneity mainly derived from HCC cells diversity and pervaded the genome-transcriptome-proteome-metabolome network. HCC cells are the core driving force of taming tumor-associated macrophages (TAMs) with pro-tumorigenic phenotypes for favor its dominant growth.

Tumor vascular occlusion by calcium-based thermosensitizer provokes continuous cavitation effect and thermal energy transition efficiency of radiofrequency ablation therapy.

Radiofrequency ablation (RFA) therapy for hepatocellular carcinoma (HCC) suffers from incomplete ablation with tumor remnants, recurrence, and metastasis. To capture these matters, a calcium-based thermosensitizer (CBT) was constructed, which can swell the thermal ablation treatment. DMXAA was encapsulated within CaCO nanoparticles and surface-modified using PEG.

Noninvasive Monitoring of Programmed Death-Ligand 2 Expression with Positron Emission Tomography using Ga-labeled Peptide Antagonist in Preclinical and Exploratory Human Studies.

While the expression of programmed death ligand-1 (PD-L1) is associated with response to immune therapy, PD-L1-negative patients may still benefit from immune treatment. Programmed death ligand-2 (PD-L2), another crucial immune checkpoint molecule interacting with PD-1, correlates with the efficacy of various tumor immune therapies. This study investigates the expression of PD-L2 in non-small cell lung cancer (NSCLC) patients following anti-PD-1 therapy and its predictive value for clinical survival outcomes.

How lactate affects immune strategies in lymphoma.

Tumor cells undergo metabolic reprogramming through shared pathways, resulting in a hypoxic, acidic, and highly permeable internal tumor microenvironment (TME). Lactate, once only regarded as a waste product of glycolysis, has an inseparable dual role with tumor immunity. It can not only provide a carbon source for immune cells to enhance immunity but also help the immune escape through a variety of ways.

Microbiological mechanism of hydrogen fertilizer effect in soil.

For a long time, intercropping and rotation of leguminous with non-leguminous crops is widely used to reduce the application of nitrogen fertilizer and increase yield in agroecosystems. At present, most researchers considered that this management measure is helpful for reducing fertilizer consumption and increasing its efficiency, as it can improve nutrient supply of legumestonon-legumes, the spatial nutrient utilization efficiency by enhancing soil spatial heterogeneity, and improve soil structure and disease resistance. However, current theories cannot fully explain the positive effect of crop rotation and inter-cropping systems involving legumes.

Soybean gene GmMLP34 regulates Arabidopsis negative response to high temperature stress.

The functions of major latex proteins (MLPs) in plant defense and stress responses have been widely documented; however, their roles in HT stress response in soybeans have not been elucidated. This study investigated the role of GmMLP34, a member of the major latex protein (MLP) family, in the response of soybeans to HT stress. Transcriptome analysis of HT-resistant (JD21) and HT-sensitive (HD14) soybean leaves under HT stress (43.