Carpenter's principles of human physiology . ir-cumstances, instead of producing sarkosin and urea, it may decompose into oxalicacid and a substance termed methyl-guanidin (uramin) which stands in close con-nection with guanin, xanthin, hypoxanthin, and uric acid ; all of which relationsare full of interest, in reference to the successive stages or planes of disintegra-tion suffered by the albuminous compounds in their passage through the body.,since nearly all of them are found in one or other of the several fluids or tissues. Kreatinin, C4H7N30, is usually associated with kreatin, and conseq
Carpenter's principles of human physiology . ir-cumstances, instead of producing sarkosin and urea, it may decompose into oxalicacid and a substance termed methyl-guanidin (uramin) which stands in close con-nection with guanin, xanthin, hypoxanthin, and uric acid ; all of which relationsare full of interest, in reference to the successive stages or planes of disintegra-tion suffered by the albuminous compounds in their passage through the body.,since nearly all of them are found in one or other of the several fluids or tissues. Kreatinin, C4H7N30, is usually associated with kreatin, and consequentlyoccurs in muscular and nervous tissue, and in the blood and urine, but is notfound in the glandular textures. Nawrocki,* however, believes his experi-ments prove satisfactorily that kreatinin is not a constituent of muscle, and thatno conversion of kreatin into kreatinin occurs during exercise. As just shown,it may be obtained from the action of acids on kreatin. It is a powerful base* Fresenius, Zeits. f. Analyt. Cheinie, Band iv. 78 CHEMICAL COMPOSITION OF THE BODY.
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Keywords: ., bookcentury1800, bookdecade1880, booksubjectphysiology, bookyear1