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Molecular Basis for Detection and Cytotoxicity Caused by

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Presentation on theme: "Molecular Basis for Detection and Cytotoxicity Caused by"— Presentation transcript:

1 Molecular Basis for Detection and Cytotoxicity Caused by
Cyanobacterial Producing Microcystin in Harmful Algal Blooms Steve Mauro, Ph.D. Gannon University

2 Cyanobacteria are common in freshwater environments
These are bacteria capable of undergoing photosynthesis They produce approximately 25% of the worlds oxygen - In Presque Isle beach water, cyanobacteria compromise approximately 27% of bacterial content Actinobacteria

3 Certain cyanobacterial strains can produce toxins
- These cyanobacterial types become more prevalent as the summer progresses - Many aggregate together in a bloom Temperature, nutrient content, and buoyancy are some factors involved in propagating harmful algal blooms INSERT PICTURE OF BLOOM HERE!!! Toxin producing cyanobacterial genera include: - Microcystis Plankothrix Anabaena Nodularia

4 active in environmental samples
Toxin expression The toxin is produced due to the expression from a mcy gene cluster There are many variants of this toxin that alter specific toxic impact Gene regulatory mechanisms are not clear but expression appears to be constitutively active in environmental samples

5 Toxin Etiology The microcystin toxin is transported into cells and acts by hyperphosphorylating proteins Can lead to: - Nausea/vomiting Intrahepatic bleeding Cancer Skin irritation Acute respiratory pneumonia Gastroenteritis

6 Microcystin concentration Cyanobacteria concentration
WHO guidelines for concentration of microcystin exposure Water type Risk level Microcystin concentration Cyanobacteria concentration Drinking water High 1 ppb Not detected Recreational water Low 1-4 ppb < 5,000 cells/mL Moderate 4-20 ppb 5,000-20,000 cells/mL >20 ppb 100,000 cells/mL Concentrations found thus far in Presque Isle water samples using ELISA assay Avg. concentration microcystin (ppb)

7 a bloom at what would be considered acceptable levels of exposure
Conclusions/future perspectives Cyanobacteria is a common component of the Presque Isle ecosystem Microcystin is consistently present in Presque Isle bathing waters in the absence of a bloom at what would be considered acceptable levels of exposure Blooms have been detected in the Bay at levels that pose slight to moderate risk to humans Ongoing research and monitoring efforts are needed to better understand the spatial and temporal factors that drive mcy gene expression and harmful algal bloom formation Funding Sources Regional Science Consortium

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