M. Röhr scite author profile

Summary. A comparison of citric acid fermentations in manganese-deficient and manganese-containing media showed that manganese strongly influences idiophase metabolism. In the presence of manganese, cell growth increases, sugar consumption is diminished and acidogenesis decreases drastically. An investigation of the key enzymes of glycolysis, the pentosephosphate pathway, TCAcycle, nitrogen metabolism, and gluconeogenesis indicated that manganese deficiency was accompanied by a repression of anabolic and TCA-cycle-enzymes with the exception of citrate synthase. The activity of this enzyme and the enzymes of glycolysis paralleled the sugar consumption rate. In the presence of manganese, no repression of enzyme synthesis was observed. Activities of 2-oxoglutarate dehydrogenase and isocitrate lyase could not be detected in either case. The results support the hypothesis that manganese deficiency mainly affects the operation of biosynthetic reactions in Aspergillus niger, thus leading to an overflow of citric acid as an end product of glycolysis.

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Evidence for a cytoplasmic pathway of oxalate biosynthesis in Aspergillus niger

Kubicek

Schreferl-Kunar

Wöhrer

et al. 1988

Appl Environ Microbiol

142

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Oxalate accumulation of up to 8 g/liter was induced in Aspergillus niger by shifting the pH from 6 to 8. This required the presence of P, and a nitrogen source and was inhibited by the protein synthesis inhibitor cycloheximide. Exogenously added 14Co2 was not incorporated into oxalate, but was incorporated into acetate and malate, thus indicating the biosynthesis of oxalate by hydrolytic cleavage of oxaloacetate. Inhibition of mitochondrial citrate metabolism by fluorocitrate did not significantly decrease the oxalate yield. The putative enzyme that was responsible for this was oxaloacetate hydrolase (EC 3.7.1.1), which was induced de novo during the pH shift. Subcellular fractionation of oxalic acid-forming mycelia of A. niger showed that this enzyme is located in the cytoplasm of A. niger. The results are consistent with a cytoplasmic pathway of oxalate formation which does not involve the tricarboxylic acid cycle.

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Regulation of citric acid production by oxygen: Effect of dissolved oxygen tension on adenylate levels and respiration in Aspergillus niger

Kubicek

Zehentgruber

El-Kalak

et al. 1980

European J. Appl. Microbiol. Biotechnol.

120

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Partial purification and regulatory properties of phosphofructokinase from Aspergillus niger

Habison¹,

Kubicek²,

Röhr³

1983

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Phosphofructokinase (EC 2.7.1.11) from a citric acid-producing strain of Aspergillus niger was partially purified by the application of affinity chromatography on Blue Dextran--Sepharose and the use of fructose 6-phosphate and glycerol as stabilizers in the working buffer. The resulting preparation was still impure, but free of enzyme activities interfering with kinetic investigations. Kinetic studies showed that the enzyme exhibits high co-operativity with fructose 6-phosphate, but shows Michaelis--Menten kinetics with ATP, which inhibits at concentrations higher than those for maximal activity. Citrate and phosphoenolpyruvate inhibit the enzyme; citrate increases the substrate (fructose 6-phosphate) concentration for half-maximal velocity, [S]0.5, and the Hill coefficient, h. The inhibition by citrate is counteracted by NH4+, AMP and phosphate. Among univalent cations tested only NH4+ activates by decreasing the [S]0.5 for fructose 6-phosphate and h, but has no effect on Vmax. AMP and ADP activate at low and inhibit at high concentrations of fructose 6-phosphate, thereby decreasing the [S]0.5 for fructose 6-phosphate. Phosphate has no effect in the absence of citrate. The results indicate that phosphofructokinase from A. niger is a distinct species of this enzyme, with some properties similar to those of the yeast enzyme and in some other properties resembling the mammalian enzyme. The results of determinations of activity at substrate and effector concentrations resembling the conditions that occur in vivo support the hypothesis that the apparent insensitivity of the enzyme to citrate during the accumulation of citric acid in the fungus is due to counteraction of citrate inhibition by NH4+.

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α-Aminoadipate pool concentration and penicillin biosynthesis in strains of Penicillium chrysogenum

Jaklitsch¹,

Hampel²,

Röhr³

et al. 1986

Can. J. Microbiol.

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Intracellular amino acid pools in four Penicillium chrysogenum strains, which differed in their ability to produce penicillin, were determined under conditions supporting growth without penicillin production and under conditions supporting penicillin production. A significant correlation between the rate of penicillin production and the intracellular concentration of alpha-aminoadipate was observed, which was not shown with any other amino acid in the pool. In replacement cultivation, penicillin production was stimulated by alpha-aminoadipate, but not by valine or cysteine. Exogenously added alpha-aminoadipate (2 or 3 mM) maximally stimulated penicillin synthesis in two strains of different productivity. Under these conditions intracellular concentrations of alpha-aminoadipate were comparable in the two strains in spite of the higher rate of penicillin production in the more productive strain. Results suggest that the lower penicillin titre of strain Q 176 is due to at least two factors: (i) the intracellular concentration of alpha-aminoadipate is insufficient to allow saturation of any enzyme which is rate limiting in the conversion of alpha-aminoadipate to penicillin and (ii) the level of an enzyme, which is rate limiting in the conversion of alpha-aminoadipate to penicillin, is lower in Q 176 (relative to strain D6/1014/A). Results suggest that the intracellular concentration of alpha-aminoadipate in strain D6/1014/A is sufficiently high to allow saturation of the rate-limiting penicillin biosynthetic enzyme in that strain. The basis of further correlation of intracellular alpha-aminoadipate concentration and penicillin titre among strains D6/1014/A, P2, and 389/3, the three highest penicillin producers studied here, remains to be established.(ABSTRACT TRUNCATED AT 250 WORDS)

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Influence of manganese on morphology and cell wall composition of Aspergillus niger during citric acid fermentation

Kisser¹,

Kubicek²,

Röhr³

1980

Arch. Microbiol.

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Morphology and cell wall composition of Aspergillus niger were studied under conditions of manganese sufficient or deficient cultivation in an otherwise citric acid producing medium. Omission of Mn2+ (less than 10(-7) M) from the nutrient medium of Aspergillus niger results in abnormal morphological development which is characterized by increased spore swelling, and squat, bulbeous hyphae. Fractionation and analysis of manganese deficient cell walls revealed increased chitin and reduced beta-glucan contents as well as reduction of galactose containing polymers, as compared to cell walls from manganese sufficient grown hyphae. Addition of copper induced the same effect as manganese deficiency, both on morphology and cell wall composition. Addition of cycloheximide also produced a very similar type of morphology with increased chitin and reduced beta-glucan contents of the cell wall but its effect on galactose was less pronounced.

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M. Röhr

The influence of type and concentration of the carbon source on production of citric acid by Aspergillus niger

Citric Acid Fermentation

Influence of manganese on enzyme synthesis and citric acid accumulation inAspergillus niger

Evidence for a cytoplasmic pathway of oxalate biosynthesis in Aspergillus niger

Regulation of citric acid production by oxygen: Effect of dissolved oxygen tension on adenylate levels and respiration in Aspergillus niger

Partial purification and regulatory properties of phosphofructokinase from Aspergillus niger

α-Aminoadipate pool concentration and penicillin biosynthesis in strains of Penicillium chrysogenum

Influence of manganese on morphology and cell wall composition of Aspergillus niger during citric acid fermentation

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