A. A. Bushway scite author profile

A high-performance liquid chromatographic (HPLC) method has been developed to (etermine fructose, glucose, and sucrose content of potatoes. Tl~e HPLC system consisted of a pBondapak/ carbohydrate columr , a solvent system of acetonitrile-water (75: 25), a flowrate of 1.1: ml/min, and a refractive index detector. Analysis, including samf le preparation, was complete in 30 min. With the exception of big! concentrations of sucrose (8 mg/g or above), the method recoverer! 93% or more.of all sugars. The coefficients of variation for the prcpcedure ranged from 1.39-13.31s. TLC indicated that there wer,: no interfering compounds eluting with any of the three sugars.

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Application of ozone sprays as a strategy to improve the microbial safety and quality of salmon fillets

Crowe

Skonberg

Bushway

et al. 2012

Food Control

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A semiconducting metal-oxide array for monitoring fish freshness

Hammond

Marquis

Michaels

et al. 2002

Sensors and Actuators B: Chemical

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Determination of total glycoalkaloids in potato tubers using a modified titration method

Bushway

Wilson

Bushway

1980

American Potato Journal

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Microbial Degradation of Phosmet on Blueberry Fruit and in Aqueous Systems by Indigenous Bacterial Flora on Lowbush Blueberries (Vaccinium angustifolium)

Crowe¹,

Bushway²,

Bushway³

et al. 2007

Journal of Food Science

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Phosmet-adapted bacteria isolated from lowbush blueberries (Vaccinium angustifolium) were evaluated for their ability to degrade phosmet on blueberry fruit and in minimal salt solutions. Microbial metabolism of phosmet by isolates of Enterobacter agglomerans and Pseudomonas fluorescens resulted in significant reductions (P < 0.05; 33.8%) in phosmet residues on blueberry fruit. Degradation was accompanied by microbial proliferation of phosmet-adapted bacteria. Preferential utilization of phosmet as a carbon source was investigated in minimal salt solutions inoculated with either E. agglomerans or P. fluorescens and supplemented with phosmet or phosmet and glucose. Microbial degradation concurrent with the proliferation of P. fluorescens was similar in both liquid systems, indicative of preferential utilization of phosmet as an energy substrate. E. agglomerans exhibited the ability to degrade phosmet as a carbon source, yet in the presence of added glucose, phosmet degradation occurred within the 1st 24 h only followed by total population mortality resulting in no appreciable degradation. Characteristic utilization of glucose by this isolate suggests a possible switch in carbon substrate utilization away from phosmet, which resulted in toxicity from the remaining phosmet. Overall, microbial metabolism of phosmet as an energy source resulted in significant degradation of residues on blueberries and in minimal salt solutions. Thus, the role of adapted strains of E. agglomerans and P. fluorescens in degrading phosmet on blueberries represents an extensive plant-microorganism relationship, which is essential to determination of phosmet persistence under pre- and postharvest conditions.

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A. A. Bushway

HPLC Determination of Fructose, Glucose, and Sucrose in Potatoes

Application of ozone sprays as a strategy to improve the microbial safety and quality of salmon fillets

A semiconducting metal-oxide array for monitoring fish freshness

Determination of total glycoalkaloids in potato tubers using a modified titration method

Microbial Degradation of Phosmet on Blueberry Fruit and in Aqueous Systems by Indigenous Bacterial Flora on Lowbush Blueberries (Vaccinium angustifolium)

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