Affiliation:
1. U.S. Army Biological Laboratories, Fort Detrick, Frederick, Maryland
Abstract
Baugh
, C. L. (Fort Detrick, Frederick, Md.),
J. W. Lanham, and M. J. Surgalla
. Effects of bicarbonate on growth of
Pasteurella pestis
. II. Carbon dioxide fixation into oxalacetate by cell-free extracts. J. Bacteriol.
88:
553–558. 1964.—Enzyme preparations from
Pasteurella pestis
will carboxylate phosphoenolpyruvate to form oxalacetate by two distinct reactions. The reactions are similar to those catalyzed by the enzymes, phosphoenolpyruvic carboxylase and phosphoenolpyruvate carboxykinase. No significant differences in enzyme characteristics or enzyme content were found when virulent cells were compared with avirulent under the conditions of our experiments. The carboxykinase of
P. pestis
differs from that of animal origin, because it is dependent upon adenine derivatives rather than inosine or guanosine nucleotides. The latter two nucleotides can act indirectly by way of adenosine nucleotides, because nucleoside diphosphokinase and myokinase are present in the extract.
Publisher
American Society for Microbiology
Subject
Molecular Biology,Microbiology
Reference19 articles.
1. The enzymatic synthesis of oxalacetate from phosphorylenolpyruvate and carbon dioxide;BANDURSKI R. S.;J. Biol. Chem.,1953
2. Nucleotide-dependent carbon dioxide fixation in Rhodospirillum rubrum;BATES D. S.;Iowa State J. Sci.,1960
3. Heterotrophic fixation of carbon dioxide by extracts of Nocardia corallina;BAUGH C. L.;Arch. Biochem. Biophys.,1959
4. Mechanisms of carbon dioxide fixation by cell-free extracts of heterotrophic and photosynthetic bacteria;BAUGH C. L.;Iowa State J. Sci.,1959
5. Adenosine polyphosphate requirement of baker's yeast phosphopyruvate carboxylase;CANNATA J.;Biochim. Biophys. Acta,1959
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