AIM: To study the effects of paroxetine on the psychological stress induced by c-fos gene expression in the rat hypothalamus paraventricular nucleus(PVN) and to explore the molecular mechanism of effects of paroxetine on the stress related anxiety disorders. METHODS: The rat psychological stress model was made by restraint stress. The cortisol was analyzed by radioimmnoassay, and expression of c-fos positive cells was detected by S-P immunohistochemical assay in the rat PVN. RESULTS: The level of cortisol and the expression of c-fos positive cells increased more significantly in the other groups than that in the control group, but decreased in the paroxetine group. The paroxetine reduced the level of cortisol and inhibited the expression of c-fos positive cells in the PVN after psychological stress. CONCLUSION: The paroxetine can regulate the nerve centre by alleviating the expression of the c-fos in the hypothalamus paraventricular nucleus(PVN)and the activation of HPA pathway.

AIM: To investigate the molecular mechanisms of antianxiety drugs on the rats with restraint stress. METHODS: The rat stress model was made by restraint stress. The behaviors of rats were tested in open field conditions, and the expression of c fos positive cells was detected by S P immunohistochemical assay in hypothalamus. RESULTS: The crossing scores, the rearing scores and the expression of c fos positive cells increased more significantly in the other groups than that in the control group, but decreased in the paroxetine group. The paroxetine inhibited the behaviors and the expression of c fos positive cells in the hypothalamic paraventricular nucleus (PVN) of rats after immobilization stress. CONCLUSION: The effects of paroxetine on the anxiety disorders in rats may be related to the downregulation of the expression of the c fos in the hypothalamic paraventricular nucleus (PVN).

We first cloned the dsz operon of Pseudomonas delafieldii R-8 into the expressing plasmid (pPR9TT) to construct the recombinant plasmid pPR-dsz, and then reintroduced it into strain R-8 to obtain a muti-copy dsz operon engineering strain R-8-1. Compared with the wild-type, strain R-8-1 showed a higher desulfurization activity for dibenzothiophene (DBT). Initial rates of DBT removal by strain R-8-1 were 6.25 micromol/g dry cell/h, about 2-fold higher than that for wild-type strain. The recombinant cells were also applied in the desulfurization of diesel. It resulted in a 68% reduction of total sulfur from 310.8 mg/L to 100.1 mg/L, whereas only 53% of sulfur was removed by strain R-8. The stability of pPR-dsz in strain R-8-1 was studied. The results revealed the first obtain a muti-copy dsz operon engineering strain are helpful for further development in biodesulfurization.
Bacterial Proteins ; genetics ; metabolism ; Biodegradation, Environmental ; Genetic Engineering ; Genetic Enhancement ; methods ; Operon ; Oxygenases ; genetics ; Protein Engineering ; methods ; Pseudomonas ; genetics ; metabolism ; Sulfur ; metabolism ; Thiophenes ; metabolism

Eucommia ulmoides， a plant belonging to Eucommiaceae， has a history of medical use for over two thousand years in China. The dried bark and leaves of this plant are usually used as medicinal materials. Due to the high safety in clinical application， E. ulmoides leaves were officially recognized for both medicinal and edible use by the food safety evaluation in 2019， providing a valuable resource for the development of food and health products. According to the traditional Chinese medicine theory， E. ulmoides has the effects of nourishing the liver and kidneys， strengthening sinews and bones， and calming fetus. Modern research has shown that different parts such as the bark， leaves， flowers， and seeds of E. ulmoides contain similar chemical components， including phenylpropanoids， terpenoids， flavonoids， phenolic acids， steroids， and polysaccharides. E. ulmoides exhibits diverse pharmacological activities such as lowering blood pressure and blood lipid and glucose levels， preventing osteoporosis and possesses anti-tumor， anti-bacterial， antiviral， anti-inflammatory， antioxidant， and hepatoprotective effects. Therefore， it holds great potential for the development of products with both medicinal and edible values. This review systematically summarizes the chemical constituents， pharmacological activities， and representative medicinal and edible products of different parts of E. ulmoides. It is expected to provide theoretical references for the clinical application of E. ulmoides and its active components and the development and utilization of the products with both medicinal and edible values. This review contributes to a deeper understanding of the medicinal properties of E. ulmoides and provides guidance for further exploration of its applications in the healthcare field. As a plant with both medicinal and edible values， E. ulmoides is expected to attract more attention in future research and contribute to human health.