R
Raymond P. Cox
Researcher at University of Southern Denmark
Publications - 92
Citations - 3266
Raymond P. Cox is an academic researcher from University of Southern Denmark. The author has contributed to research in topics: Chlorosome & Chlorobium tepidum. The author has an hindex of 32, co-authored 92 publications receiving 3070 citations. Previous affiliations of Raymond P. Cox include University of Cambridge & Odense University.
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Microbial production of skatole in the hind gut of pigs given different diets and its relation to skatole deposition in backfat
TL;DR: In this paper, the authors investigated the effect of diet on skatole production and its deposition in backfat in 35 uncastrated crossbred male pigs and found that the use of casein or brewers yeast slurry as a protein source increased microbial activity in the intestine.
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3-Methylindole (skatole) and indole production by mixed populations of pig fecal bacteria.
TL;DR: Pig fecal slurries converted added L-tryptophan either to indole without detectable intermediates or to 3-methylindole (skatole) via indole-3-acetate, which had similar Km values for tryptophan and similar maximum rates.
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Mass Spectrometric Studies of the Effect of pH on the Accumulation of Intermediates in Denitrification by Paracoccus denitrificans
TL;DR: The use of nitrate and nitrite labeled with N was shown to simplify the interpretation of the results when these gases were measured, and the effect of pH on the production of denitrification intermediates from nitrate or nitrite under anoxic conditions was studied.
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Fractionation of multiple sulfur isotopes during phototrophic oxidation of sulfide and elemental sulfur by a green sulfur bacterium
TL;DR: In this article, the authors present multiple sulfur isotope measurements of sulfur compounds associated with the oxidation of H2S and S0 by the anoxygenic phototrophic S-oxidizing bacterium Chlorobium tepidum.
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Temperature and its control of isotope fractionation by a sulfate-reducing bacterium
TL;DR: In this paper, a synthesis of previous results, which was dubbed the "standard model", provides a prediction as to how isotope fractionation during sulfate reduction should respond to physiological variables such as specific rate of sulfate reductions and environmental variables suchas substrate availability and temperature.