AIM: To observe the treatment effectiveness of menopathy of excessive-cold syndrome by Modified Wenjing Decoction, and to explore the relationship among excessive-cold syndrome of menopathy and 5-HT,?-EP, and reproduetive hormones. METHODS: Sixty patients with menopathy of excess-cold syndrome were successively treated with Modified Wenjing Decoction for three menstrual cycles. The efficacy and the changes of serum 5-HT, Bendorphine(?-EP) and reproductive hormones before and after treatment were observed. RESULTS: 22 patients(36.7%) were short-term therapeutic effect, 28 patients(45.7%) were effective and 10 patients(17.6%) were ineffective. After treatment, the levels of serum FSH、LH、E_2、?-EP were increased significantly (P

Objective To study the relationship between the asthenia TCM syndromes in embryonic development stops and the level of zinc, iron, copper, magnesium, phosphorus, calcium in serum, and provide thoughts for assisting reproduction and preventing miscarriage. Methods Totally 100 patients of embryonic development stops were selected randomly (6-10 weeks gestation) to be the investigated group, with other 100 cases of live fetus as the control group. The contents of trace elements in serum were detected with atomic absorption spectrometry. Results The levels of trace elements in embryonic development stops patients were generally lower than the control group. The serum iron in patients with spleen deficiency syndrome, and serum zinc and iron in patients with kidney deficiency syndrome were significant lower (P<0.05). Conclusion The contents of trace elements in serum have relationships with asthenia TCM syndromes in embryonic development stops. It should be paid attention to supplementing trace elements during the gestation period. For patients with deficiency of kidney and spleen, the supplement of zinc and iron should be given greater prominence.

Objective To investigate the revascular and transplanted effects of islet grafts after co-transplantation with vascular endothelial cells ( ECs) in diabetic rats. Methods The rat ECs and islet cells were isolated and purified, then subcutaneously co-transplanted to the inbred SD male rats with diabetes mellitus, the group of islets transplanted alone, group of phosphate buffered solution, and group of normal rats served as control. Islet grafts revascularization degree, islet cells activity and apoptosis were observed by immunohistochemical double staining of CD31, insulin and factor associated suicide (Fas) antibody. The results of intraperitoneal glucose tolerance test (IPGTT) and intraperitoneal insulin tolerance test (IPITT), the blood glucose and insulin levels of the rats and the survival time of the islet grafts were compared. Results The blood glucose concentrations of IPGTT and IPITT, the blood glucose and insulin levels of rats analyzed by multivariate analysis in the ECs and islets transplantation group were better than those in the islets transplantation alone group (P<0.05). The islet grafts mean survival time of the ECs and islets transplantation group was longer than that of the islets transplantation alone group (P<0.05). On the 7th day after transplantation, mean microvascular density of islet grafts per square millimeter in the ECs and islets transplantation group was 26.4 ± 6.1, significantly greater than that in the islets transplantation alone group 18.3 ± 5.7 (P<0.05). In the ECs and islets transplantation group, insulin staining intensity was higher than that in the islets transplantation alone group (P<0.05), while factor associated suicide(Fas) staining intensity was lower than that in the islets transplantation alone group ( P<0. 05 ). Conclusion Co-transplantation with ECs could promote the revascularization of islet grafts and improve the effect of islet transplantation.

Objective To explore the function and survival of islet grafts during co-transplantation with adipose mesenchymal stem cells (AMSCs) in diabetic mice .Methods After human AMSCs and islet cells were isolated ,purified and then subcutaneously co-transplanted into nude mice with diabetes mellitus . Four groups of AMSCs + islet co-transplantation , islet transplantation alone ,phosphate buffered solution (PBS) and normal control mice were designated . Islet cell activity and apoptosis/revascularization degree of islet grafts were observed by immunohistochemical double staining of insulin ,factor associated suicide (Fas) and CD31 antibody . The blood glucose and serum insulin levels of mice and the survival time of islet grafts were compared . Results The blood glucose and serum insulin levels of diabetic mice analyzed by multivariate analysis in AMSCs + islet co-transplantation group were better than those in islet transplantation alone group (P< 0 .05 ) . The mean survival time (MST ) of islet grafts was longer in AMSCs + islet co-transplantation group than that in islet transplantation alone group [(81 .33 ± 7 .58) vs .(58 .17 ± 6 .91) days] (P<0 .05) .At Day 7 post-transplantation ,insulin staining intensity of islet grafts was higher in AMSCs + islet co-transplantation group than that in islet transplantation alone group while Fas staining intensity of islet grafts was lower .And mean microvascular density (MVD) of islet grafts per square millimeter was higher in AMSCs + islet co-transplantation group than that in islet transplantation alone group [(21 .8 ± 5 .6 ) vs . (14 .6 ± 4 .1 )] ( P< 0 .05 ) .Conclusions Co-transplantation with AMSCs may improve the function of islet grafts ,prolong its survival and promote its revascularization .

Yeast are comprised of diverse single-cell fungal species including budding yeast Saccharomyces cerevisiae and various nonconventional yeasts. Budding yeast is well known as an important industrial microorganism, which has been widely applied in various fields, such as biopharmaceutical and health industry, food, light industry and biofuels production. In the recent years, various yeast strains from different ecological environments have been isolated and characterized. Novel species have been continuously identified, and strains with diverse physiological characteristics such as stress resistance and production of bioactive compounds were selected, which proved abundant biodiversity of natural yeast resources. Genome mining of yeast strains, as well as multi-omics analyses (transcriptome, proteome and metabolome, etc.) can reveal diverse genetic diversity for strain engineering. The genetic resources including genes encoding various enzymes and regulatory proteins, promoters, and other elements, can be employed for development of robust strains. In addition to exploration of yeast natural diversity, phenotypes that are more suitable for industrial applications can be obtained by generation of a variety of genetic diversity through mutagenesis, laboratory adaptation, metabolic engineering, and synthetic biology design. The optimized genetic elements can be used to efficiently improve strain performance. Exploration of yeast biodiversity and genetic diversity can be employed to build efficient cell factories and produce biological enzymes, vaccines, various natural products as well as other valuable products. In this review, progress on yeast diversity is summarized, and the future prospects on efficient development and utilization of yeast biodiversity are proposed. The methods and schemes described in this review also provide a reference for exploration of diversity of other industrial microorganisms and development of efficient strains.
Biodiversity ; Biofuels ; Industrial Microbiology ; Metabolic Engineering ; Saccharomyces cerevisiae/genetics* ; Synthetic Biology