Phosphotransacetylase from Clostridium acidiurici

The phosphotransacetylase from Clostridium acidiurici has two properties not observed for this enzyme in other bacteria: (i) it requires a divalent metal for activity, and (ii) it is not subject to uncoupling by arsenate. The enzyme has been obtained in highly purified form, with a specific activity 500-fold higher than crude extracts. Ferrous or manganous ions are required for maximal activity, with Mn(2+) being 50 to 75% as effective as Fe(2+). The acetyl group can be transferred from acetyl phosphate to coenzyme A in 20 mm arsenate without a net decrease in high-energy acyl linkages. Likewise, H(32)PO(4) (2-) will exchange with acetyl-PO(4) (2-) in the presence of arsenate without loss of acetyl phosphate. This suggests that the active site on the enzyme is capable of discriminating between phosphate and arsenate while permitting the reversible transfer of acyl groups between CoA and phosphate.     

Formate dehydrogenase from Clostridium acidiurici

Partial purification of formate dehydrogenase from Clostridium acidiurici has been accomplished, and some properties of the enzyme have been determined. The molecular weight of the protein is at least 200,000 daltons. The enzyme showed marked instability to freezing and thawing and was inhibited strongly by oxygen and by light. Such inhibition was not reversed by incubation in the presence of thiol compounds. Cyanide inhibited the enzyme 90% at 0.1 mm concentrations, but ethylenediaminetetraacetate produced only slight inhibition at concentrations as high as 50 mm. The purified enzyme showed no ferredoxin activity in the Clostridium pasteurianum clastic system during pyruvate oxidation. Crude preparations of the enzyme could be coupled through ferredoxin to the reduction of nicotinamide adenine dinucleotide during formate oxidation, but the purified enzyme could not catalyze the reduction of pyridine nucleotides by formate in the presence of ferredoxin. Formate oxidation with the purified enzyme was readily coupled to benzyl viologen reduction, in which case ferredoxin was not required. An exchange between formate and bicarbonate was catalyzed by both crude and purified preparations of the enzyme, but the net synthesis of formate from CO(2) was not accomplished.     

Levels of enzymes involved in the synthesis of acetate from CO2 in Clostridium thermoautotrophicum

The acetogenic bacterium Clostridium thermoautotrophicum, grown on methanol, glucose, or CO2-H2, contained high levels of corrinoids, formate dehydrogenase, tetrahydrofolate enzymes, carbon monoxide dehydrogenase, and hydrogenase. Cell-free extracts catalyzed pyruvate-dependent formation of acetate from methyltetrahydrofolate. These results suggest that C. thermoautotrophicum synthesizes acetate from CO2 via a formate-tetrahydrofolate-corrinoid pathway.     

Selenium requirement for active xanthine dehydrogenase from Clostridium acidiurici and Clostridium cylindrosporum

The xanthine dehydrogenase of Clostridium acidiurici and C. cylindrosporum was assayed with methyl viologen as acceptor. In C. acidiurici the basal activity level was about 0.3 mol/min x mg of protein. Cells grown on uric acid in the presence of 10^-7 M selenite showed a 14-fold increase in xanthine dehydrogenase activity, which decreased with higher selenite concentrations (10^-5 M). The supplementation with 10^-7 M molybdate or tungstate was without effect. High concentrations of tungstate decreased the xanthine dehydrogenase if selenite was also present. In comparison, high concentrations of molybdate affected only a small decrease in activity level at the optimal concentration for selenite and relieved to some degree the inhibitory effect of 10^-5 M selenite. With hypoxanthine and xanthine as substrates for growth again only the addition of selenite was necessary to show a similar increase in xanthine dehydrogenase activity. C. acidiurici could be grown in a mineral medium. Both xanthine dehydrogenase and formate dehydrogenase exhibited the highest level of activity if selenite and tungstate were present in that medium.In C. cylindrosporum the basal activity level of xanthine dehydrogenase was about 0.95 mol/min x mg of protein. The addition of 10^-7 M selenite to the growth medium increased the activity level about 3-fold, but the highest level (3.7 U/mg) was reached if 10^-7 M molybdate was also added. The presence of tungstate resulted in a decreased enzyme activity.     

Amino acid compostion of walls from single and filamentous cells of Clostridium acidiurici

Gaffar, Abdul (Brigham Young University, Provo, Utah), David R. Terry, and Richard D. Sagers. Amino acid composition of walls from single and filamentous cells of Clostridium acidiurici. J. Bacteriol. 91:1618-1624. 1966.-The walls from single and filamentous cells of Clostridium acidiurici were shown to contain 11 amino acids: aspartic acid, serine, glutamic acid, proline, d-alanine, glycine, valine, methionine, valine, leucine, phenylalanine, and lysine. In the walls from cells grown at 37 C, d-alanine was the amino acid present in largest quantity, but in the walls from cells grown at 44 C there was a 50% reduction in the d-alanine content while the levels of the other amino acids were unchanged. Filamentous cells grown at 44 C, then brought to 37 C and transferred to fresh medium, fragmented into short cells within 30 min. Alanine racemase activity was the same in extracts from cells grown at both 37 and 44 C, suggesting that this enzyme was not the major controlling factor in the low content of d-alanine in filaments grown at 44 C. Spent medium from cultures grown at 44 C contained a significant amount of d-alanine, whereas there was no evidence of this amino acid in the spent medium from cultures grown at 37 C.     

Mechanism of ethyl acetate synthesis by Kluyveromyces fragilis

Abstract The enzymes implicated in ethyl acetate synthesis and the catabolism of ethanol by Kluyveromyces fragilis were investigated under varying growth conditions. The culture was grown continuously to D = 0.25 h⁻¹ on diluted whey permeate. The results showed that ethyl acetate synthesis by Kluyveromyces fragilis is catalysed by both an esterase and an alcohol acetyltransferase. The esterase is a constitutive enzyme, while alcohol acetyltransferase is inducible. The catabolism of ethanol by Kluyveromyces fragilis resulted in production of ethyl acetate, acetate and acetaldehyde. The glyoxylic shunt is totally inactive in these conditions. The production of acetaldehyde is only governed by an alcohol dehydrogenase.     

Accumulation and incorporation of 185W-tungsten into proteins of Clostridium acidiurici and Clostridium cylindrosporum

Uptake of tungstate by growing cells was unaffected by the presence of molybdate in Clostridium cylindrosporum, whereas in C. acidiurici the accumulation was decreased by molybdate at 10^-6 mol/l tungstate and higher concentrations. The labelling pattern of soluble proteins by ¹⁸⁵W-tungsten indicated after gel chromatography the presence of three different tungstoproteins in both bacteria. Formate dehydrogenase activity always eluted at a maximum of tungsten labelling. The incorporation of tungsten into formate dehydrogenase containing fractions and a possible tungsten-binding-storage protein was independent of the presence of excess molydate pointing to a genuine role for tungstate in these bacteria.