Phormidium 94a, a cyanobacteria that produces extracellular polymeric substances (EPS), was isolated from arid soils of Mexico. Microscopic localization, using histochemical techniques like the Toluidine blue technique, was done in order to demonstrate the presence of EPS. Acetone was added to precipitate the EPS. In this study we characterized the EPS by GC, HPLC, and IR techniques. The highest fraction of EPS had a molecular weight of 2000 kDa. The sugar composition was galactose, mannose, galacturonic acid, arabinose, and ribose in the three main fractions, and the sugar ratio found was different in each fraction. The low EPS concentrations had a Newtonian behavior, when the concentrations were increased, the behavior changed to pseudoplastic. The EPS rheulogical behavior is similar to low viscosity arabic gum. Also, it was found that an increase in viscosity occurred at longer hydration time. More rheological and toxicological studies are required in order to analyze its possible application in food industries.
Our objective was to study if the phycobiliproteins of the cyanobacterium Pseudanabanea tenuis rich in phycoerythrin protect renal cells against mercury-caused oxidative stress and cellular damage in the kidney. We used 40 male mice that were assigned into five groups: a control group that received phosphate buffer (PB) and saline and four treatment groups which received either PB+HgCl 2 , PB+phycobiliproteins, or HgCl 2 +phycobiliproteins. The kidneys of the mice were used to determine lipid peroxidation and quantification of reactive oxygen species, oxidized glutathione, and peroxidase activities (catalase and glutathione peroxidase) and were also examined histologically. Our results demonstrated that HgCl 2 causes oxidative stress and cellular damage and that all doses of phycobiliproteins prevented the increase of oxidative markers and partially protected against HgCl 2 -caused cell damage. This is the first report which applied phycobiliproteins of P. tenuis rich in cphycoerythrin, like antioxidants against mercury chloridecaused oxidative stress and renal damage.
Microcystis is a bloom-forming, common cyanobacterium in urban lakes of Mexico City. To assess the presence of potentially cyanotoxin-producing Microcystis, molecular techniques were applied and acute toxicity bioassays were performed with Daphnia magna neonates exposed to cyanobacterial crude extracts. Toxigenic potential of isolated strains was inferred by amplifying the mcyA-Cd genes and their identity as Microcystis was confirmed through the 16S rDNA and phycocyanin operon amplification. Microcystins synthesized under culture conditions were quantified through ELISA. The acute toxicity bioassays revealed that mortality was independent from the cyanotoxin concentration in some strains; this suggests the presence of other metabolites (different from microcystins) that also exerted an important biological effect. Isolated strains had the mcyA-Cd gene and most of them produced variable amounts of microcystins in the culture conditions used, confirming their toxigenic potential. Results warn about possible toxic effect risks for aquatic biota, neighboring areas, visitors and users of these sites, due to the constant presence of these blooms in the studied water bodies.
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