In August 2000, the Ohio Department of Health requested assistance to investigate a cryptosporidiosis outbreak with more than 700 clinical case-patients. An epidemiologic and environmental investigation was conducted. Stool specimens, pool water, and sand filter samples were analyzed. A community-based case-control study showed that the main risk factor was swimming in pool A (odds ratio [OR] = 42, 95% confidence interval [CI] = 12.3-144.9). This was supported by results of polymerase chain reaction (PCR) analysis, which showed the presence of both the human and bovine genotypes of Cryptosporidium parvum in case-patients and samples from the filter of pool A. A pool-based case-control study indicated that the highest risk was related to exposure to pool water via the mouth (OR = 5.1, 95% CI = 2.1-12.5) or to pool sprinklers (OR = 2.5, 95% CI = 1.3-4.7). Fecal accidents at the pool were documented. Records indicated that the pool met local health regulations. The outbreak, caused by co-infection with two C. parvum genotypes (human and bovine), underscores the need for concerted action to improve public health policies for recreational water facilities and enhanced education regarding the potential for disease transmission through pools.
Cyanobacteria have a tremendous activity to adapt to environmental changes of their growth conditions. In this study, Synechocystis sp. PCC 6803 was used as a model organism to focus on the alternatives of cyanobacterial energy metabolism. Glucose oxidation in Synechocystis sp. PCC6803 was studied by inactivation of slr1843, encoding glucose-6-phosphate dehydrogenase (G6PDH), the first enzyme of the oxidative pentose phosphate pathway (OPPP). The resulting zwf strain was not capable of glucose supported heterotrophic growth. Growth under autotrophy and under mixotrophy was similar to that of the wild-type strain, even though oxygen evolution and uptake rates of the mutant were decreased in the presence of glucose. The organic acids citrate and succinate supported photoheterotrophic growth of both WT and zwf. Proteome analysis of soluble and membrane fractions allowed identification of four growth condition-dependent proteins, pentose-5-phosphate 3-epimerase (slr1622), inorganic pyrophosphatase (sll0807), hypothetical protein (slr2032) and ammonium/methylammonium permease (sll0108) revealing details of maintenance of the cellular carbon/nitrogen/phosphate balance under different modes of growth.
He received his BS degree in chemistry from Radford University in 1984 and his PhD in chemical engineering from Virginia Tech in 1999. Dr York has taught courses in engineering problem solving and design, chemical engineering and chemistry. Dr York has also designed and implemented a number of design-build projects and engineering laboratory experiences for first-year engineering students at VA Tech. Dr York is a member of ASEE and the American Chemical Society.
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