John R. Ell scite author profile

John R. Ell

2Publications

52Citation Statements Received

77Citation Statements Given

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University of California, Davis

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Surface Properties of Toxoplasma gondii Oocysts and Surrogate Microspheres

Shapiro

Largier

Mazet

et al. 2009

Appl Environ Microbiol

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The physical properties that govern the waterborne transmission of Toxoplasma gondii oocysts from land to sea were evaluated and compared to the properties of carboxylated microspheres, which could serve as surrogates for T. gondii oocysts in transport and water treatment studies. The electrophoretic mobilities of T. gondii oocysts, lightly carboxylated Dragon Green microspheres, and heavily carboxylated Glacial Blue microspheres were determined in ultrapure water, artificial freshwater with and without dissolved organic carbon, artificial estuarine water, and artificial seawater. The surface wettabilities of oocysts and microspheres were determined using a water contact angle approach. Toxoplasma gondii oocysts and microspheres were negatively charged in freshwater solutions, but their charges were neutralized in estuarine water and seawater. Oocysts, Glacial Blue microspheres, and unwashed Dragon Green microspheres had low contact angles, indicating that they were hydrophilic; however, once washed, Dragon Green microspheres became markedly hydrophobic. The hydrophilic nature and negative charge of T. gondii oocysts in freshwater could facilitate widespread contamination of waterways. The loss of charge observed in saline waters may lead to flocculation and subsequent accumulation of T. gondii oocysts in locations where freshwater and marine water mix, indicating a high risk of exposure for humans and wildlife in estuarine habitats with this zoonotic pathogen. While microspheres did not have surface properties identical to those of T. gondii, similar properties shared between each microsphere type and oocysts suggest that their joint application in transport and fate studies could provide a range of transport potentials in which oocysts are likely to behave.

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C₆₀Cl₆, C₆₀Br₈ and C₆₀(NO₂)₆ as Selective Tools in Organic Synthesis

Franco

Ell

Hilton

et al. 2009

Fullerenes, Nanotubes and Carbon Nanostructures

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Reactions of C 60 Cl 6 , C 60 Br 8 and C 60 (NO 2 ) 6 with arene substrates under mild conditions afford primarily monochlorinated, monobrominated or mononitrated organic products in high yield, often with greater selectivity and reactivity than with traditional halogenation or nitration methods. The reactions have the advantages of high stereoselectivity and facile removal and recovery of [60]fullerene. No metal catalysts, gases or harsh acids are required. These results demonstrate the versatility of the functionalized fullerenes as new synthetic tools for organic synthesis.

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John R. Ell

Surface Properties of Toxoplasma gondii Oocysts and Surrogate Microspheres

C₆₀Cl₆, C₆₀Br₈ and C₆₀(NO₂)₆ as Selective Tools in Organic Synthesis

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John R. Ell

Surface Properties of Toxoplasma gondii Oocysts and Surrogate Microspheres

C60Cl6, C60Br8 and C60(NO2)6 as Selective Tools in Organic Synthesis

Contact Info

Product

Resources

About

C₆₀Cl₆, C₆₀Br₈ and C₆₀(NO₂)₆ as Selective Tools in Organic Synthesis