Separation and Purification of GST-glycerol-3-phosphate Dehydrogenase

In order to investigate the expression of glycerol-3 -phosphate dehydrogenase by GCY1 gene in recombinant Saccharomyces cerevisiae, induction culture of the S. cerevisiaestrain was performed with SD-URA 2% galactose, 3 × YP ＋ 6% glucose, SC-URA 2% galactose, and SC-URA 2% galactose ＋ 5% NaCI glyeerol-3-phosphate dehydregenase, the cultured S. cerevisiaewas comminuted followed by full-automatic high-speed purification, and SDS-PAGE gel electrophoresis was performed for molecular weight of the GST fusion protein. The results showed that after shaking culture of the S. cerevisiae containing GCY1 at 25 ℃, the OD values of its 3 × YP ＋ 6% glucose culture and SC-URA 2% galaetose ＋ 5% NaC1 culture were 8.75 and 7.35, respectively. It was shown by purification with a Profinia low-pressure liquid chromatograph that only the S. cerevisiae cultured in SC-URA 2% galactose ＋ 5% NaC1 medium expressed glycerel-3-phosphate de- hydrogenase, the molecular weight of which was detected as 65 ku by SDS-PAGE gel electrophoresis.

Effect of mango seed kernel extract on the adipogenesis in 3T3-L1 adipocytes and in rats fed a high fat diet

Mangoes (Mangifera indica L.) are one of the most important tropical foods. The seed is one of the main by-products of mango processing. Therefore, it is important to find an economically viable use for this waste (e.g., as a food additive or supplement with high nutraceutical value). We investigated the anti-obesity effects of mango seed kernel extract with hot water (MSKE-W) in 3T3-L1 adipocytes and in a high fat diet (HFD)-induced obesity rat model. MSKE-W caused a significant decrease in the activity of glycerol 2-phosphate dehydrogenase in 3T3-L1 adipocytes without eliciting cell cytotoxicity and inhibited cellular lipid accumulation through down-regulation of transcription factors such as PPARγ and C/EBPα. In the animal model, rats fed an HFD containing 1% MSKE-W gained less weight than rats fed an HFD alone. The visceral fat mass in rats fed an HFD containing 1% MSKE-W tended to be lower than that in rats fed an HFD alone. Furthermore, histological examination of rat livers from an HFD showed steatohepatitis. However, rats on an HFD containning 1% MSKE-W showed no histopathological changes in liver tissue. Our results indicate that MSKE-W influences anti-obesity effects, both in vitro and in vivo, and suggest that MSKE-W provides a novel preventive potential against obesity.

The role of AtGPDHc2 in regulating cellular redox homeostasis of Arabidopsis under salt stress

Plants glycerol-3-phosphate dehydrogenase(GPDH)catalyzes the formation of glycerol-3-phosphate,and plays an essential role in glycerolipid metabolism and stress responses.In the present study,the knock-out mutants of cytosolic GPDH(AtGPDHc2)and wild-type Arabidopsis plants were treated with 0,50,100,and 150 mmol L–1 NaCl to reveal the effects of AtGPDHc2 deficiency on salinity stress responses.The fluctuation in redox status,reactive oxygen species(ROS)and antioxidant enzymes as well as the transcripts of genes involved in the relevant processes were measured.In the presence of 100 and 150 mmol L–1 NaCl treatments,AtGPDHc2-deficient plants exhibited a pronounced reduction in germination rate,fresh weight,root length,and overall biomass.Furthermore,loss of AtGPDHc2 resulted in a significant perturbation in cellular redox state(NADH/NAD+and AsA/DHA)and consequent elevation of ROS and thiobarbituric acid-reactive substances(TBARS)content.The elevated ROS level triggered substantial increases in ROS-scavenging enzymes activities,and the up-regulated transcripts of the genes(CSD1,sAPX and PER33)encoding the antioxidant enzymes were also observed.In addition,the transcript levels of COX15,AOX1A and GLDH in gpdhc2 mutants decreased in comparison to wild-type plants,which demonstrated that the deficiency of AtGPDHc2 might also has impact on mitochondrial respiration under salt stress.Together,this work provides some new evidences on illustrating the roles of AtGPDHc2 playing in response to salinity stress by regulating cellular redox homeostasis,ROS metabolism and mitochondrial respiration.

The Effect of Ultra Low Concentrations of Some Biologically Active Substances on the Aerobic Respiration

For today it is known, that primary and secondary disorders of the aerobic respiration, which are based on mitochondrial deficiency, lead to a wide spectrum of clinical manifestations and diseases. Therefore, the question about effective correction of various types of energy exchange disorders remains topical. Thus, the aim of our work was the study effect of the complex of biologically active substances (BAS) in ultra low concentrations on the activity of key enzymes of aerobic energy metabolism succinate dehydrogenase (EC 1.3.99.1) (SQR) and mitochondrial glycerol-3-phosphate dehydrogenase (EC 1.1.99.5) (GPD2). The human lymphocytes assays were tested in vitro (22 donors). In negative control lymphocytes, cell culture normal saline solution was added. Normal saline solution with NaN3 was added in positive control lymphocytes cell culture. Experimental cell culture contained NaN3 and BAS. Our investigations had been revealed increase SQR activity in the experimental cell culture as compared with positive control culture throughout the time of experiment (measurements were carried out at 4, 24, 48, 72 h of incubation). The SQR activity of experimental cell culture and negative control lymphocytes cell culture was equal up to 24 h of experiment. It showed neutralization of NaN3 inhibitory effect (during 24 h) due to BAS influence. Activity of base glycerophosphate shunt ferment GPD2 of experimental lymphocyte cell culture was not different from GPD2 index in the negative control, but was lower than GPD2 activity in the positive control. It also indicated neutralization NaN3 inhibitory effect due to BAS influence. So we had found that extremely low concentrations of selected BAS with their complex impact on human lymphocytes in vitro could effectively neutralize the inhibitory effect of NaN3 on processes of aerobic energy metabolism link.