Analytical method transfer (AMT) and dissolution testing are important topics required in industry that should be taught in analytical chemistry courses. Undergraduate students in senior level analytical chemistry laboratory courses at Kennesaw State University (KSU) and St. John Fisher College (SJFC) participated in development, validation, and transfer of two dissolution testing methods for pharmaceuticals. These experiments were transferred between the two schools and underwent method equivalency testing by a different set of undergraduate students to validate the AMT. Student learning outcomes addressed at both SJFC and KSU include (1) significant learning gains across all 3 years of the study; (2) confidence in method development, writing standard operating procedures, and laboratory transfer of validated methods; (3) increased understanding of AMT and dissolution testing; (4) ability to operate dissolution testers, UV−vis, and flame atomic absorption spectrophotometers; and (5) improved knowledge and understanding of figures of merit and statistical analysis.
It is imperative in today's world that harmful airborne or solution-based microbes can be detected quickly and efficiently. Bacillus globigii (Bg) spores are used as a simulant for Bacillus anthracis (Ba) due to their similar shape, size, and cellular makeup. The utility of CE to separate and detect low levels of Bg spore concentrations will be evaluated. To differentiate spores from background particulates, several dyes, including fluorescamine, C-10, NN-127, Red-1c, and indocyanine green (ICG), were utilized as noncovalent labels for proteins on the Bg spore surface, as well as for HSA and homoserine standards. On-column labeling, with dye present in the running buffer, was utilized to obtain greater sensitivity and better separation. CE with LIF detection enables interactions between the dye and spore surface proteins to be observed, with enhanced fluorescence occurring upon binding of the dye to surface protein. Resulting electropherograms showed unique fingerprints for each dye with Bg spores. Migration times were under 10 min for all dye-spore complexes, with net mobilities ranging from 3.5x10(-4) to 6.9x10(-4) cm(2) V(-1) s(-1), and calibration curves yielded correlation coefficients of 0.98 or better for four of the dyes studied.
Microbial ectoenzyme activities in aquatic environments are important determinants of polymer hydrolysis and indicators of the state of microbial carbon, nitrogen, and phosphorus nutrition. Marine ectoenzymes are found on the cell surface or in the periplasmic space of gram-negative heterotrophic bacteria. Phosphatases, which remove phosphate groups from substrates, are one example of an ectoenzyme. Enzyme assays based on-capillary electrophoresis (CE) take advantage of CE's high-efficiency separation, extremely low sample volume requirements, and its ability to electrophoretically mix and separate zones of enzymes, substrates, and products all in one experimental run. CE has better resolving power and, when utilized with laser-induced fluorescence (LIF) detection, it is more sensitive than chromatography. CE-LIF is a promising tool for determining different phosphatases within a single microbial strain as well as the functional diversity between strains. In this study, four bacterial strains were studied (Shewanella sp., TW7, BB2AT2, and Vibrio alginolyticus) with each yielding at least one phosphatase that was kinetically characterized. K(m) values were calculated and found to be in the range of 0.0725-3.35 microM, whereas V(max) values ranged from 1.02 x 10(-3) to 1.05 x 10(-2) microM/min. The large range of values demonstrates differences among the phosphatases, suggesting different roles for each phosphatase not only between the species but also within a single bacterial species. This can have the important implications for organic matter processing in the sea.
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