Project description:Management of solid wastes with high nicotine content, such as those accumulated during tobacco manufacturing, poses a major challenge, which can be addressed by using bacteria such as Pseudomonas and Arthrobacter. In this study, a new species of Pseudomonas geniculata, namely strain N1, which is capable of efficiently degrading nicotine, was isolated and identified. The optimal growth conditions for strain N1 are a temperature of 30°C, and a pH 6.5, at a rotation rate of 120 rpm min(-1) with 1 g l(-1) nicotine as the sole source of carbon and nitrogen. Myosmine, cotinine, 6-hydroxynicotine, 6-hydroxy-N-methylmyosmine, and 6-hydroxy-pseudooxynicotine were detected as the five intermediates through gas chromatography-mass and liquid chromatography-mass analyses. The identified metabolites were different from those generated by Pseudomonas putida strains. The analysis also highlighted the bacterial metabolic diversity in relation to nicotine degradation by different Pseudomonas strains.

Project description:IntroductionOwing to the poor prognosis of Ewing's sarcoma, reliable prognostic biomarkers are highly warranted for clinical diagnosis of the disease.Materials and methodsA combination of the weighted correlation network analysis and differentially expression analysis was used for initial screening; glycolysis-related genes were extracted and subjected to univariate Cox, LASSO regression, and multivariate Cox analyses to construct prognostic models. The immune cell composition of each sample was analysed using CIBERSORT software. Immunohistochemical analysis was performed for assessing the differential expression of modelled genes in Ewing's sarcoma and paraneoplastic tissues.ResultsA logistic regression model constructed for the prognosis of Ewing's sarcoma exhibited that the patient survival rate in the high-risk group is much lower than in the low-risk group. CIBERSORT analysis exhibited a strong correlation of Ewing's sarcoma with naïve B cells, CD8+ T cells, activated NK cells, and M0 macrophages (P < 0.05). Immunohistochemical analysis confirmed the study findings.ConclusionsGLCE and TPI1 can be used as prognostic biomarkers to predict the prognosis of Ewing's sarcoma, and a close association of Ewing's sarcoma with naïve B cells, CD8+ T cells, activated NK cells, and M0 macrophages provides a novel approach to the disease immunotherapy.

Project description:GDP-mannose 3,5-epimerase (GM35E) catalyzes the conversion of GDP-mannose towards GDP-l-galactose and GDP-l-gulose. Although this reaction represents one of the few enzymatic routes towards the production of l-sugars and derivatives, it has not yet been exploited for that purpose. One of the reasons is that so far only GM35Es from plants have been characterized, yielding biocatalysts that are relatively unstable and difficult to express heterologously. Through the mining of sequence databases, we succeeded in identifying a promising bacterial homologue. The gene from the thermophilic organism Methylacidiphilum fumariolicum was codon optimized for expression in Escherichia coli, resulting in the production of 40 mg/L of recombinant protein. The enzyme was found to act as a self-sufficient GM35E, performing three chemical reactions in the same active site. Furthermore, the biocatalyst was highly stable at temperatures up to 55 °C, making it well suited for the synthesis of new carbohydrate products with application in the pharma industry.

Project description:A series of polyhydroxyl sulfides and triazoles was prepared by reacting allyl and propargyl d-mannose derivatives with selected thiols and azides in thiol-ene and Huisgen click reactions. Conformational analysis by NMR spectroscopy proved that the intrinsic rigidity and linear conformation of the mannose derived polyol backbone is retained in the final click products in solution. Single crystal X-ray structure determination of one of the compounds prepared further verified that the linear conformation of the polyol segment is also retained in the solid state. In addition, an improved method for direct Barbier-type propargylation of unprotected d-mannose is reported. The new reaction protocol, involving tin-mediated propargylation in an acetonitrile-water mixture, provides access to multigram quantities of the desired, valuable alkyne polyol without relying on protecting group manipulations or chromatographic purification.

Project description:The BaM6PI gene encoding a mannose-6-phosphate isomerase (M6PI, EC 5.3.1.8) was cloned from Bacillus amyloliquefaciens DSM7 and overexpressed in Escherichia coli. The enzyme activity of BaM6PI was optimal at pH and temperature of 7.5 and 70°C, respectively, with a kcat/Km of 13,900 s-1 mM-1 for mannose-6-phosphate (M6P). The purified BaM6PI demonstrated the highest catalytic efficiency of all characterized M6PIs. Although M6PIs have been characterized from several other sources, BaM6PI is distinguished from other M6PIs by its wide pH range and high catalytic efficiency for M6P. The binding orientation of the substrate M6P in the active site of BaM6PI shed light on the molecular basis of its unusually high activity. BaM6PI showed 97% substrate conversion from M6P to fructose-6-phosphate demonstrating the potential for using BaM6PI in industrial applications.

Project description:A bacterium, isolated from nodules of chickpea grown in alluvial soils of Haryana state of India, designated as IC-76 was characterized for in vitro plant growth-promoting (PGP) properties and further evaluated under greenhouse, on-station and on-farm field conditions for PGP activity in chickpea. The isolate IC-76 produced indole acetic acid, siderophore, hydrocyanic acid, cellulase, protease, and β-1,3-glucanase. When the bacterium was evaluated individually for their PGP potential in the greenhouse on chickpea and in combination with five Streptomyces sp. (strains CAI-24, CAI-121, CAI-127, KAI-32, and KAI-90; demonstrated earlier as biocontrol potential against Fusarium wilt disease in chickpea), the traits, including nodule number and weight, shoot, and root weight, pod number and weight, seed number and weight, available phosphorus and  % organic carbon were found significantly, enhanced over un-inoculated control. In the on-station and on-farm field conditions, IC-76 significantly enhanced nodule number and weight, shoot, and root weight, stover and grain yield and total dry matter. In the rhizosphere (0-15 cm soil), the bacterium also significantly enhanced the total nitrogen, available phosphorus and  % organic carbon. The sequence of 16S rDNA gene of the IC-76 was matched with Pseudomonas geniculata in BLAST analysis. This study demonstrates that IC-76 has the potential for PGP in chickpea.

Project description:GDP-mannose 3,5-epimerase (GM35E, GME) belongs to the short-chain dehydrogenase/reductase (SDR) protein superfamily and catalyses the conversion of GDP-d-mannose towards GDP-l-galactose. Although the overall reaction seems relatively simple (a double epimerization), the enzyme needs to orchestrate a complex set of chemical reactions, with no less than 6 catalysis steps (oxidation, 2x deprotonation, 2x protonation and reduction), to perform the double epimerization of GDP-mannose to GDP-l-galactose. The enzyme is involved in the biosynthesis of vitamin C in plants and lipopolysaccharide synthesis in bacteria. In this review, we provide a clear overview of these interesting epimerases, including the latest findings such as the recently characterized bacterial and thermostable GM35E representative and its mechanism revision but also focus on their industrial potential in rare sugar synthesis and glycorandomization.

Project description:The growing burden of liver fibrosis and lack of effective antifibrotic therapies highlight the need for identification of pathways and complementary model systems of hepatic fibrosis. A rare, monogenic disorder in which children with mutations in mannose phosphate isomerase (MPI) develop liver fibrosis led us to explore the function of MPI and mannose metabolism in liver development and adult liver diseases. Herein, analyses of transcriptomic data from three human liver cohorts demonstrate that MPI gene expression is down-regulated proportionate to fibrosis in chronic liver diseases, including nonalcoholic fatty liver disease and hepatitis B virus. Depletion of MPI in zebrafish liver in vivo and in human hepatic stellate cell (HSC) lines in culture activates fibrotic responses, indicating that loss of MPI promotes HSC activation. We further demonstrate that mannose supplementation can attenuate HSC activation, leading to reduced fibrogenic activation in zebrafish, culture-activated HSCs, and in ethanol-activated HSCs. Conclusion: These data indicate the prospect that modulation of mannose metabolism pathways could reduce HSC activation and improve hepatic fibrosis.

Project description:The uncharacterized gene previously proposed as a mannose-6-phosphate isomerase from Bacillus subtilis was cloned and expressed in Escherichia coli. The maximal activity of the recombinant enzyme was observed at pH 7.5 and 40 degrees C in the presence of 0.5 mM Co(2+). The isomerization activity was specific for aldose substrates possessing hydroxyl groups oriented in the same direction at the C-2 and C-3 positions, such as the d and l forms of ribose, lyxose, talose, mannose, and allose. The enzyme exhibited the highest activity for l-ribulose among all pentoses and hexoses. Thus, L-ribose, as a potential starting material for many L-nucleoside-based pharmaceutical compounds, was produced at 213 g/liter from 300-g/liter L-ribulose by mannose-6-phosphate isomerase at 40 degrees C for 3 h, with a conversion yield of 71% and a volumetric productivity of 71 g liter(-1) h(-1).

Project description:YEAST STRAIN: A genetically modified Saccharomyces cerevisiae yeast strain with PMI40 knockout (MATa URA3 TRP1 LEU2 his3- 1 MAL2-8C SUC2 PMI40::HIS3). The parent strain was CEN.PK113-7A (MATa URA3 TRP1 LEU2 his3- 1 MAL2-8C SUC2) obtained from Euroscarf (9). CULTIVATION MEDIUM: The mineral medium used for the bioreactor cultivations was based on the composition described by Verduyn and co-workers (11). The medium consisted of 5 g/l (NH4)2SO4 (Sigma-Aldrich, USA), 3 g/l KH2PO4 (Fluka, Swizerland) and 0.5 g/l MgSO4 × 7 H2O (Sigma-Aldrich, USA), as well as 1 ml/l trace element and 1 ml/l vitamin solution. The composition of the trace element solution was 15 g/l EDTA, 4.5 g/l ZnSO4 × 7 H2O, 0.84 g/l MnCl2 × H2O, 0.3 g/l CuSO4 × 5 H2O, 3 g/l FeSO4 × 7 H2O (Riedel-de-Haën AG, Germany), 0.1 g/l KI, 0.3 g/l CoCl3 × 6 H2O, 1 g/l H3BO3, 4.5 g/l CaCl2 × 2 H2O (Merck, Germany), and 0.4 g/l Na2MoO4 × 2 H2O (BDH Laboratory Supplies, UK). The composition of the vitamin solution was 0.05 g/l D-Biotin, 1 g/l Ca-pantothenate, 1 g/l Nicotinic acid, 25 g/l myo-inositol, 1 g/l Thiamine-HCl, 1 g/l Pyridoxine HCl, and 0.2 g/l p-aminobenzoic acid (Sigma-Aldrich, USA). The media in each cultivation contained initially 15 g/L D-glucose and a varying amount of D-mannose (0.75 g/L, 1.0 g/L, 1.5 g/L, 3.0 g/L, or 5.0 g/L). CULTIVATIONS AND SAMPLING: Bioreactor cultivations were performed in 3.2 l Braun Biostat CT2-DCU 3 instruments (B. Braun Biotech International GmbH, Germany). The cultivation temperature was +30 °C, agitation speed 1000 rpm, initial cultivation volume 2.0 l, airflow 1.0 l/min, and pH 5.0. In each cultivation, samples for the measurement of gene expression levels were taken 6 hours after inoculation. MEASUREMENT OF GENE EXPRESSION LEVELS: 0.9 mg CDW of cells were quenched in cold (-40 °C) methanol (45%) and centrifuged (1 min, +4 °C, 16100 G). The pellets were suspended in 400 µl of breaking buffer (20 mM Tris-HCl pH 7.4, 100 mM KCl, 2 mM MgCl2, 2mM DTT), 400 µl 1:1 phenol-chloroform, and 5 µl 20% SDS. Equal volume of glass beads (diameter 0.40-0.60 mm, B.Braun Biotech International, Germany) were added and samples were shaken in a bead beater (Mini-BeadBeater-8, BioSpec Products, USA) three times 1 minute at +4 °C. The mixtures were centrifuged (15 min, +4 °C, 16100 G in 5415 R, Eppendorf AG, Germany) and supernatants were recovered. The total RNA was purified from the supernatants using the QIAGEN RNeasy Mini kit (Qiagen, USA) according to manufacturers instructions. After this step the double-stranded cDNA was synthesized from 15 µg of total RNA with SuperScript Double-Stranded cDNA synthesis kit (Invitrogen, USA) using a T7-oligo(dT) primer. Biotin-labeled cRNA was then synthesized employing an Enzo High Yield RNA Transcript Labeling Kit (Enzo Life Science, USA). The biotin-labeled cRNA was heat-fragmented and biotinylated cRNAs were hybridized to Affymetrix YG-S98 microarrays in Affymetrix Hybridization Oven 640. Washing and staining of arrays were performed using the GeneChip Fluidics Station 450 and scanning with the Affymetrix GeneChip Scanner 3000. Acquisition and quantification of array images were performed using the Affymetrix GeneChip Operating System 1.0. The signals were scaled into target intensity of 100. All samples were assayed in triplicates. Keywords: dose response