[Identification and expression pattern analysis of a secretory phospholipase A2 gene in Bombyx mori].

Phospholipase A2 (PLA2) is widely distributed in animals, plants, and microorganisms, and it plays an important role in many physiological activities. In a previous study, we have identified a secretory PLA2 in Bombyx mori (BmsPLA2-1-1). In this study, we further identified four new sPLA2 genes (BmsPLA2-1-2, BmsPLA2-2, BmsPLA2-3, and BmsPLA2-4) in B. mori genome. All four genes exhibits the characteristic features of sPLA2, including the sPLA2 domain, metal binding sites, and highly conserved catalytic domain. This study completed the cloning, in vitro expression, and expression pattern analysis of the BmsPLA2-4 gene in B. mori. The full length of BmsPLA2-4 is 585 bp, and the recombinant protein obtained through prokaryotic expression has an estimated size of 25 kDa. qRT-PCR analysis revealed that the expression level of BmsPLA2-4 reached its peak on the first day of the fifth instar larval stage. Tissue expression profiling analysis showed that BmsPLA2-4 had the highest expression level in the midgut, followed by the epidermis and fat body. Western blotting analysis results were consistent with those of qRT-PCR. Furthermore, after infecting fifth instar 1-day-old larvae with Escherichia coli and Staphylococcus aureus, the expression level of the BmsPLA2-4 gene significantly increased in 24 h. The findings of this study provides a theoretical basis and valuable experimental data for future related research.

Vital role of CYP450 in the biodegradation of antidiabetic drugs in the aerobic activated sludge system and the mechanisms.

The extensive use of antidiabetic drugs (ADDs) and their detection in high concentrations in the environment have been extensively documented. However, the mechanism of ADDs dissipation in aquatic environments is still not well understood. This study thoroughly investigates the dissipation behavior of ADDs and the underlying mechanisms in the aerobic activated sludge system. The results indicate that the removal efficiencies of ADDs range from 3.98% to 100% within 48 h, largely due to the biodegradation process. Additionally, the gene expression of cytochrome P450 (CYP450) is shown to be significantly upregulated in most ADDs-polluted samples (P < 0.05), indicating the vital role of CYP450 enzymes in the biodegradation of ADDs. Enzyme inhibition experiments validated this hypothesis. Moreover, molecular docking and simulation results indicate that a strong correlation between the biodegradation of ADDs and the interactions between ADDs and CYP450 (Ebinding). The differences in dissipation behavior among the tested ADDs are possibly due to their electrophilic characteristics. Overall, this study makes the initial contribution to a more profound comprehension of the crucial function of CYP450 enzymes in the dissipation behavior of ADDs in a typical aquatic environment.

Rotary Friction Welding of Molybdenum without Upset Forging.

A large instantaneous axial forging load is required to be applied for the final stage of rotary friction welding (RFW), which is usually conducive to obtaining clean, compact, and high-quality joints. However, for slender fuel claddings made of molybdenum (Mo) with low stiffness, the instantaneous axial forging load cannot be applied at the final stage of welding. This study carried out RFW tests without upset forging on Mo in the atmospheric environment and investigated the effects of welding time on joint morphology, axial shortening, microstructures, microhardness, tensile strength, and tensile fracture morphology. It found that the excessive and abrupt burning and a lot of smoke were generated around the weld zone during welding and spiral flashes were observed after welding. Under welding pressure of 80 MPa and spindle speed of 2000 r/min, the minimum average grain size and maximum tensile strength can be obtained in 4 s when the welding time is between 2-5 s. Scanning electron microscope (SEM) results show that there were morphologies of a large number of intergranular fractures and a small number of transgranular fractures in the fracture. The above results demonstrated that it is feasible to use RFW without upset forging to seal the last weld spot on upper end plugs of fuel claddings made of Mo in high-pressure inert gas, which would not only obtain reliable welding quality but also seal high-pressure inert gas in cladding tubes. The research results have a practical guiding significance of manufacturing accident-tolerant Mo nuclear fuel cladding.