D J Jamieson scite author profile

D J Jamieson

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Characterization and physiological roles of membrane-bound hydrogenase isoenzymes from Salmonella typhimurium

Sawers¹,

Jamieson²,

Higgins³

et al. 1986

J Bacteriol

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We found that Salmonella typhimurium strain LT2 (Z) possessed two immunologically distinct, membranebound hydrogenase isoenzymes, which were similar in electrophoretic mobilities and apoprotein contents to hydrogenase isoenzymes 1 and 2 of Escherichia coli. The S. typhimurium enzymes cross-reacted with antibodies raised to the respective hydrogenase isoenzymes of E. coli. As for E. coli, an additional membrane-bound hydrogenase activity (termed hydrogenase 3), which did not cross-react with antibodies raised against either hydrogenase 1 or 2, was also present in detergent-dispersed membrane preparations. The physiological role of each of the three isoenzymes in E. coli has remained unclear owing to the lack of mutants specifically defective for individual isoenzymes. However, analysis of two additional wild-type isolates of S. typhimunium revealed specific defects in their hydrogenase isoenzyme contents. S. typhimurium LT2 (A) lacked isoenzyme 2 but possessed normal levels of hydrogenases 1 and 3. S. typhimurium LT7 lacked both isoenzymes 1 and 2 but retained normal hydrogenase 3 activity. Characterization of hydrogen metabolism by these hydrogenasedefective isolates allowed us to identify the physiological role of each of the three isoenzymes. Hydrogenase 3 activity correlated closely with formate hydrogenlyase-dependent hydrogen evolution, whereas isoenzyme 2 catalyzed hydrogen uptake (oxidation) during anaerobic, respiration-dependent growth. Isoenzyme 1 also functioned as an uptake hydrogenase but only during fermentative growth. We postulate that this enzyme functions in a hydrogen-recycling reaction which operates during fermentative growth.

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Effects of anaerobic regulatory mutations and catabolite repression on regulation of hydrogen metabolism and hydrogenase isoenzyme composition in Salmonella typhimurium

Jamieson¹,

Sawers²,

Rugman³

et al. 1986

J Bacteriol

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Hydrogen metabolism in Salmonella typhimurium is differentially regulated by mutations in the two anaerobic regulatory pathways, defined by the fnr (oxrA) and oxrC genes, and is controlled by catabolite repression. The synthesis of the individual hydrogenase isoenzymes is also specifically influenced by fnr and oxrC mutations and by catabolite repression in a manner entirely consistent with the proposed role for each isoenzyme in hydrogen metabolism. Synthesis of hydrogenase isoenzyme 2 was found to befnr dependent and oxrC independent, consistent with a role in respiration-linked hydrogen uptake which was shown to be similarly regulated. Also in keeping with such a respiratory role was the finding that both hydrogen uptake and the expression of isoenzyme 2 are under catabolite repression. In contrast, formate hydrogenlyase-dependent hydrogen evolution, characteristic of fermentative growth, was reduced in oxrC strains but not infnr strains.Hydrogenase 3 activity was similarly regulated, consistent with a role in hydrogen evolution. Unlike the expression of hydrogenases 2 and 3, hydrogenase 1 expression was both fnr and oxrC dependent. Hydrogen uptake during fermentative growth was also both fnr and oxrC dependent. This provided good evidence for a distinction between hydrogen uptake during fermentation-and respiration-dependent growth and for a hydrogen-recycling process. The pattern of anaerobic control of hydrogenase activities illustrated the functional diversity of the isoenzymes and, in addition, the physiological distinction between the two anaerobic regulatory pathways, anaerobic respiratory genes being fnr dependent and enzymes required during fermentative growth being oxrC dependent.

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The Effect of X-Irradiation on the Balance between the Alkaline Ribonuclease and the Alkaline Ribonuclease Inhibitor of Mammalian Tissues

Kraft¹,

Shortman²,

Jamieson³

1969

Radiation Research

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D J Jamieson

Characterization and physiological roles of membrane-bound hydrogenase isoenzymes from Salmonella typhimurium

Effects of anaerobic regulatory mutations and catabolite repression on regulation of hydrogen metabolism and hydrogenase isoenzyme composition in Salmonella typhimurium

The Effect of X-Irradiation on the Balance between the Alkaline Ribonuclease and the Alkaline Ribonuclease Inhibitor of Mammalian Tissues

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