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John F. Robyt

Bio: John F. Robyt is an academic researcher. The author has contributed to research in topics: Science education & Experiential learning. The author has an hindex of 3, co-authored 4 publications receiving 340 citations.

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TL;DR: A discussion of the various representations for oligosaccharide and polysaccharide structures containing hexopyranose units is given in this paper, where the authors also discuss the role of polyprotein structures.
Abstract: A discussion of the various representations for oligosaccharide and polysaccharide structures containing hexopyranose units.

4 citations

Journal ArticleDOI
TL;DR: A laboratory exercise in the determination of carbohydrate structures that introduces students to important aspects of science, such as designing experiments, making observations, and testing hypotheses is presented in this paper, where students are asked to make observations, design experiments, and test hypotheses.
Abstract: A laboratory exercise in the determination of carbohydrate structures that introduces students to important aspects of science, such as designing experiments, making observations, and testing hypotheses.

3 citations


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Journal ArticleDOI
TL;DR: A procedure developed for the rapid analysis of titanium dioxide (TiO2) concentrations in feed and fecal samples is suggested to be a rapid and accurate alternative to dry-ash procedures for the determination of TiO2.
Abstract: A procedure was developed for the rapid analysis of titanium dioxide (TiO2) concentrations in feed and fecal samples. Samples were digested in concentrated H2SO4 for 2 h, followed by addition of 30% H2O2, and absorbance was measured at 410 nm. Standards were prepared by spiking blanks with increasing amounts of TiO2, resulting in a linear standard curve. Complete analysis using this procedure can typically be accomplished within 4.5 h. This procedure was compared to a previously published dry-ash procedure for the analysis of TiO2 in bovine fecal samples. Three sources of OM devoid of TiO2 (a forage sample, a bovine fecal sample without Cr2O3, and a bovine fecal sample containing Cr2O3) were spiked with graded amounts (0, 2, 4, 6, 8, or 10 mg) of TiO2. With our procedure, TiO2 recoveries averaged 96.7, 97.5, and 98.5%, for the three OM sources, respectively, vs. 74.3, 83.8, and 53.1% for the same samples analyzed using the dry-ash method. These results suggest that our procedure is a rapid and accurate alternative to dry-ash procedures for the determination of TiO2.

647 citations

Journal ArticleDOI
TL;DR: The unique property of solvent-thermostable-alkalophilic, nature proves the potential candidature of this isolate for current mainstream biomass conversion into fuel and other industrial process.
Abstract: The rising concerns about the scarcity of fossil fuels, the emission of green house gasses and air pollution by incomplete combustion of fossil fuel have also resulted in an increasing focus on the use of cellulases to perform enzymatic hydrolysis of the lignocellulosic materials for the generation of bioethanol. The aim of this study was to isolate a potential thermo-solvent tolerant cellulase producing bacterium from natural resources, and then applied for purification and characterization. The purified enzyme was to be accessible for the bioethanol production as well as industrial exploitation (discuss in our next study). It is the first instance when thermo-solvent tolerant cellulase producing bacterium was isolated from soil sample. The culture was identified as Bacillus vallismortis RG-07 by 16S rDNA sequence analysis. Bacillus vallismortis RG-07 reported maximum cellulase production from sugarcane baggase (4105 U ml−1) used as agro-waste carbon source. The cellulase enzyme produced by the Bacillus sp. was purified by (NH4)2SO4 precipitation, ion exchange and gel filtration chromatography, with overall recovery of 28.8%. The molecular weight of purified cellulase was 80 kDa as revealed by SDS-PAGE and activity gel analysis. The optimum temperature and pH for enzyme activity was determined as 65°C and 7.0 and it retained 95 and 75% of activity even at 95°C, and 9.0 respectively. The enzyme activity was enhanced in the presence of organic solvents (30%) n-dodecane, iso-octane, n-decane, xylene, toluene, n-haxane, n-butanol, and cyclohexane, after prolonged incubation (7 days). The enzyme activity was also stimulated by Ca2+, mercaptoethanol, Tween-60, and Sodium hypochloride whereas strongly inhibited by Hg. Kinetic analysis of purified enzyme showed the Km and Vmax to be 1.923 mg ml−1 and 769.230 μg ml−1 min−1, respectively. The unique property of solvent-thermostable-alkalophilic, nature proves the potential candidature of this isolate for current mainstream biomass conversion into fuel and other industrial process.

165 citations

Journal ArticleDOI
TL;DR: Results showed that locusts differentially utilized ingestedprotein and carbohydrate and consequently achieved similar growth on all four diets despite having ingested very different amounts of protein and carbohydrate.
Abstract: Summary Post-ingestive responses to four different diets containing protein and digestible carbohydrate in balanced (7% protein, 7% digestible carbohydrate or 21% protein, 21% digestible carbohydrate) or unbalanced proportions (7% protein, 21% digestible carbohydrate or 21% protein, 7% digestible carbohydrate) were assessed in fifth stadium Locusta migratoria Amounts eaten, defaecated and grown were measured across the fifth stadium Results showed that locusts differentially utilized ingested protein and carbohydrate and consequently achieved similar growth on all four diets despite having ingested very different amounts of protein and carbohydrate Nutrients in excess of requirements were voided from the animal mainly after digestion and absorption from the gut In the case of excess nitrogen, a major route for removal was through increased uric acid excretion, while for carbohydrate the major removal mechanism was apparently via respiration

153 citations

Journal ArticleDOI
TL;DR: The eukaryotic alga Ochromonas danica, a nutritionally versatile, mixotrophic chrysophyte, grew on phenol as the sole carbon source in axenic culture and removed the phenol carbon from the growth medium, leading to the first definitive identification of the meta-cleavage pathway for aromatic ring degradation in a eukariespine alga.
Abstract: The eukaryotic alga Ochromonas danica, a nutritionally versatile, mixotrophic chrysophyte, grew on phenol as the sole carbon source in axenic culture and removed the phenol carbon from the growth medium. Respirometric studies confirmed that the enzymes involved in phenol catabolism were inducible and that the alga oxidized phenol; the amount of oxygen consumed per mole of oxidized substrate was approximately 65% of the theoretical value. [U-14C]phenol was completely mineralized, with 65% of the 14C label appearing as 14CO2, approximately 15% remaining in the aqueous medium, and the rest accounted for in the biomass. Analysis of the biomass showed that 14C label had been incorporated into the protein, nucleic acid, and lipid fractions; phenol carbon is thus unequivocally assimilated by the alga. Phenol-grown cultures of O. danica converted phenols to the corresponding catechols, which were further metabolized by the meta-cleavage pathway. This surprising result was rigorously confirmed by taking the working stock culture through a variety of procedures to check that it was axenic and repeating the experiments with algal extracts. This is, as far as is known, the first definitive identification of the meta-cleavage pathway for aromatic ring degradation in a eukaryotic alga, though its incidence in other eukaryotes has been (infrequently) suggested.

151 citations

Journal ArticleDOI
TL;DR: Treatment with Cd2+ affects nitrogen assimilation and metabolism to a greater extent in soybean roots than in nodules, and changes in protease activity were found in the two tissues treated with 50μMCd2+.
Abstract: The nitrogen metabolism of soybean (Glycine max L.) nodules and roots was studied in plants subjected to two different concentrations (50 and 200 μM) of CdCl2. Nitrogenase activity was decreased in nodules treated with 200 μM Cd2+. In 50 μM Cd2+-treated plants, NH4+ content showed similar values to controls in nodules, but increased by 55% in roots. However, after treatment with 200 μM Cd2+, NH4+ levels increased in both tissues. Glutamate (Glu) and protein contents remained unaltered in nodules treated with 50 μM Cd2+, while at the higher Cd2+ concentration both were decreased. Nevertheless, polyamine content was increased at the two Cd2+ concentrations. In roots, Glu, polyamine and protein levels were significantly diminished at 50 and 200 μM CdCl2. For nitrogen-assimilation enzymes, glutamate dehydrogenase activity was moderately increased in nodules and roots following the lower Cd2+ treatment, though at the higher Cd2+ concentration root enzyme activity returned to control levels. An impressive increase in enzyme activity was found in nodules. In roots, the glutamine synthetase / glutamate synthase pathway was decreased at the two Cd2+ concentrations, though in nodules it was diminished only at 200 μM Cd2+. No changes in protease activity were found in the two tissues treated with 50μMCd2+. However, at 200 μM Cd2+, nodule and root protease activities decreased and increased, respectively. These results suggest that, in general, treatment with Cd2+ affects nitrogen assimilation and metabolism to a greater extent in soybean roots than in nodules.

145 citations