Bacteroides thetaiotaomicron, a gram-negative anaerobe found in human colons, could utilize chondroitin sulfate, a tissue mucopolysaccharide, as its sole source of carbohydrate. The enzymes responsible for the breakdown of chondroitin sulfate by B. thetaiotaomicron were similar to those produced by Proteus vulgaris and Flavobacterium heparinum and included a lyase (EC 4.2.2.4), which degraded chondroitin sulfate into sulfated disaccharides, sulfatases (EC 3.1.6.4), which removed the sulfate residues, and a glucuronidase, which broke the unsulfated disaccharides into monosaccharide components. Chondroitin sulfate lyase, the first enzyme in the breakdown sequence, was not extracellular. It appeared to be located in the periplasmic space since lyase activity was released by treatment with ethylenediaminetetraacetate and lysozyme. Moreover, sodium polyanethole sulfonate, a high-molecular-weight inhibitor of chondroitin lyase, did not inhibit breakdown of chondroitin sulfate by intact bacteria. The sulfatase and glucuronidase appeared to be intracellular. None of these enzymes was strongly bound to membranes, and none of the steps in the breakdown of chondroitin sulfate was sensitive to oxygen.
During growth of two strains of human colonic Bacteroides on xylan, several oligomers, the smallest of which was xylobiose, were released into the medium.
When Bacteroides thetaiotaomicron, an obligate anaerobe from the human colonic flora, was grown in continuous culture with the mucopolysaccharide chondroitin sulfate as the limiting source of carbohydrate, growth yields ranged from 48 g of cell dry weight per mol of equivalent monosaccharide at a growth rate of 3.5 h per generation to 32 g per mol at a growth rate of 24 h per generation. The theoretical maximum growth yield (61 g of cell dry weight per mol of equivalent monosaccharide) was comparable to that of 54 g per mol, which was obtained previously when glucuronic acid, a component of chondroitin sulfate, was the limiting carbohydrate (S. F. Kotarski and A. A. Salyers, J. Bacteriol. 146:853-860, 1981). However, the maintenance coefficient was three times higher when chondroitin sulfate was the substrate than when glucuronic acid was the substrate. The specific activity of chondroitin lyase (EC 4.2.2.4), an enzyme which cleaves chondroitin sulfate into disaccharides, declined by nearly 50%o as growth rates decreased from 3.5 to 24 h per generation. By contrast, the specific activities of several glycolytic enzymes and disaccharidases remained constant over this range of growth rates. Although chondroitin sulfate was growth limiting, some carbohydrate was detectable in the extracellular fluid at all growth rates. At rapid growth rates (1 to 2 h per generation), this residual carbohydrate included fragments of chondroitin sulfate having a wide range of molecular weights. At slower growth rates (2 to 24 h per generation), the residual carbohydrate consisted mainly of a small fragnent which migrated on paper chromatograms more slowly than the disaccharides produced by chondroitin lyase but faster than a tetrasaccharide. This small fragment may represent the reducing end of the chondroitin sulfate molecule. 1008 on July 16, 2020 by guest
Pyruvate kinase (EC 2.7.1.40) of Neurospora, a tetramer composed of apparently identical subunits, has been shown to be a dimer of dimers by interprotomeric cross-linking experiments in which bifunctional reagents were used. An analysis of the polyacrylamide gel profiles of the enzyme after cross-linking with glutaraldehyde, dimethyl suberimidate, and dimethyl adipimidate shows that the extent of intersubunit cross-linking is influenced markedly by the ligand bound to the enzyme. Bifunctional cross-linking reagents with a shorter distance between the two functional groups form cross-links effectively in the unliganded enzyme. In the FDP-pyruvate kinase complex, cross-linking was observed over longer distances compared with the unliganded enzyme. It is demonstrated that covalent cross-linkers cah be used as sensitive indicators of conformational changes induced in pyruvate kinase by substrates and allosteric ligands.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.