ABSTRACT
Ascaris suum L3 larvae isolated from rabbit lungs undergo the third ecdysis to L4 larvae after 3 days in culture under a gas phase of 85% N2/10% CO2/5% O2. The L3 larvae contain substantial malic enzyme activity and are capable of producing small amounts of the reduced organic acids characteristic of the fermentative pathways which operate in the adult. However, only a small portion of the total carbon utilized is accounted for by these reduced acids and their motility is cyanide-sensitive, suggesting that their energy-generating pathways are predominantly aerobic. In contrast, after ecdysis, the L4 larvae begin to utilize glucose at a greater rate and the proportion of total carbon utilized which is accounted for as propionate, 2-methylbutyrate and 2-methylvalerate also increases. In addition, motility becomes increasingly cyanide-insensitive, suggesting that these L4 larvae are able to utilize the anaerobic energy-generating pathways of the adult. Surprisingly, on day 10 in culture, these L4 larvae, although capable of producing reduced volatile acids, still retain substantial cyanide-sensitive cytochrome oxidase activity.
Subject(s)
Ascaris/metabolism , Fatty Acids, Volatile/biosynthesis , Aerobiosis , Anaerobiosis , Animals , Ascaris/enzymology , Ascaris/growth & development , Butyrates/biosynthesis , Cyanides/pharmacology , Electron Transport Complex IV/metabolism , Energy Metabolism , Glucose/metabolism , Larva/enzymology , Larva/metabolism , Malate Dehydrogenase/metabolism , Movement/drug effects , Oxidation-Reduction , Pentanoic Acids/biosynthesis , Propionates/biosynthesisABSTRACT
AThe presence of diaminopimelic acid (m-DAP) in strains of Bacteroides melaninogenicus, B. bivius and other species as well as in unidentified strains of Bacteroides was investigated by thin-layer chromatography. Strains of B. bivius and B. disiens all contained m-DAP as did the subspecies intermedius and melaninogenicus of B. melaninogenicus. Strains of B. asaccharolyticus and similar black pigment-producing butyrate-positive isolates showed heterogeneity. Asaccharolytic strains were DAP negative, whereas two strains fermenting glucose were positive. Some of the non-pigmented propionate-negative and butyrate-negative unidentified strains also contained DAP. The consistent finding of m-DAP in strains of B. bivius, B. disiens, and B. melaninogenicus indicates that DAP detection might be of value in the identification of these species.
Subject(s)
Amino Acids, Diamino/analysis , Bacteroides/analysis , Diaminopimelic Acid/analysis , Prevotella melaninogenica/analysis , Bacteroides/classification , Bacteroides/metabolism , Butyrates/biosynthesis , Prevotella melaninogenica/metabolism , Propionates/biosynthesis , Species SpecificityABSTRACT
A mixed culture chemostat system was used to distinguish between the effects of carbohydrate availability per se and the low pH generated from carbohydrate metabolism on the proportions of bacteria within microbial communities. Nine oral bacteria were grown at pH 7 and pulsed with glucose on ten consecutive days. In one chemostat, the pH was maintained automatically at 7 throughout the experimental period, while in the other, pH control was discontinued for six hours after each pulse. Glucose pulses at neutral pH had little effect on the composition of the microflora. Only the proportions of A. viscosus and V. dispar increased; L. casei and S. mutans remained at low levels (0.2% and 1.0%, respectively). Acetate and propionate were low. In contrast, when pH was allowed to fall after each glucose pulse, the composition of the microflora altered dramatically. The amounts of L. casei and S. mutans increased both as a proportion of the total count and in absolute numbers, as did V. dispar, whereas the amounts of the other Gram-negative organisms (B. intermedius, F. nucleatum, and N. subflava) and S. sanguis were considerably reduced. Lactate formed a major portion of the metabolic end-products. Successive glucose pulses resulted in both amplified changes in the microflora and a steadily greater rate and final extent of acid production. This is in agreement with the reported shifts in the oral microflora in vivo in response to frequent carbohydrate intake. Analysis of the data strongly suggests that the pH generated from carbohydrate metabolism, rather than carbohydrate availability per se, is responsible for the widely reported shifts in composition and metabolism of the oral microflora in vivo.
Subject(s)
Bacteria/growth & development , Glucose/metabolism , Mouth/microbiology , Acetates/biosynthesis , Bacteria/metabolism , Bacteriological Techniques , Cell Division/drug effects , Colony Count, Microbial , Glucose/pharmacology , Hydrogen-Ion Concentration , Lactates/biosynthesis , Propionates/biosynthesisABSTRACT
Organic acids in the contents of the cholesteatoma sac from 28 cases were studied by gas chromatographic technique. Five volatile fatty acids (acetate, propionate, isobutyrate, butyrate and isovalerate) and lactate were detected in large amounts, which may lower the pH of the cholesteatoma content. These acids were considered to be derived from products of anaerobic microorganisms. Therefore, the contents from 12 cases were cultured anaerobically in a glove box. Obligate microorganisms were identified in 92% of the cases and Peptococcus, Bacteroides, and Clostridium species were frequently isolated. In vitro, such obligate anaerobes produced various organic acids from the cholesteatoma content. Facultatives such as Staphylococcus aureus and Proteus mirabilis produced acetate in the content under aerobic and anaerobic conditions, whereas no organic acid was produced by Pseudomonas aeruginosa. Organic acids in the cholesteatoma content could be fermentative products made by the microorganisms, anaerobes and facultatives, which use the content as a substrate for acid production.
Subject(s)
Cholesteatoma/microbiology , Acetates/biosynthesis , Bacteroides/isolation & purification , Butyrates/biosynthesis , Cholesteatoma/analysis , Cholesteatoma/metabolism , Clostridium/isolation & purification , Hemiterpenes , Humans , Isobutyrates , Lactates/biosynthesis , Osteolysis/etiology , Pentanoic Acids/biosynthesis , Peptococcus/isolation & purification , Propionates/biosynthesis , Proteus mirabilis/isolation & purification , Staphylococcus aureus/isolation & purificationABSTRACT
Factors affecting in vitro ruminal bacterial VFA production were examined. Treatments consisted of high and low initial pH (6.7, 5.7), osmolality (600, 400 mOsm) and concentrations of acetic (40, 0 mM) and propionic acids (20, 0 mM). Response variables measured included the production of acetic, propionic and total VFA, total gas and methane. Initial pH affected (P less than .05) most variables either independently or in combination with one or more of the other factors. Acetic acid production was reduced 40% (P = .03) when initial acetic acid concentrations were 40 mM compared with 0 mM. Also, acetic acid production was less (P less than .01) at low initial pH (5.7) than at high initial pH (6.7). Propionic acid production was greater (P = .05) at high vs low initial acetic acid concentrations. Propionic acid production was greater in response to low vs high initial osmolality, although the magnitude of this difference depended on initial pH (interaction P = .02). Total production of VFA was greater (P less than .01) at high than at low initial pH; however, at low initial pH, no difference (P greater than .05) was observed due to initial osmolality, whereas at high pH, production was greater (interaction P = .04) for low than for high initial osmolality. The diminished production of total VFA at pH 5.7 occurred primarily due to reduced acetic acid production, although increased production of propionic and butyric acids was noted.(ABSTRACT TRUNCATED AT 250 WORDS)
Subject(s)
Bacteria/metabolism , Cattle/microbiology , Fatty Acids, Volatile/biosynthesis , Rumen/microbiology , Acetates/biosynthesis , Acetic Acid , Animals , Colony Count, Microbial/veterinary , Hydrogen-Ion Concentration , Methane/biosynthesis , Propionates/biosynthesisABSTRACT
Spontaneous variants of the beromycin-producing strain Streptomyces glomeratus 3980 were divided into five groups (A-E) according to increasing antibiotic activity. The most active variants (group E) differed from the other types and the wild strain by a suppressed ability to produce aerial mycelium and melanoid piogment and by an increased production of propionic acid. Strains with a 12-fold higher antibiotic production capacity (with respect to strain 3980) were obtained by selection of superior segregants from submerged cultures of the E type.
Subject(s)
Antibiotics, Antineoplastic/biosynthesis , Streptomyces/metabolism , Anthracyclines , Genetic Variation , Naphthacenes/biosynthesis , Pigments, Biological/biosynthesis , Propionates/biosynthesis , Streptomyces/cytology , Streptomyces/geneticsABSTRACT
The possibility of detecting propionic acid-producing bacteria in the intestine of healthy humans with a view to obtaining a strain which is physiologically most suitable for therapeutic purposes has been studied. The selective conditions for the isolation of propionic acid-producing bacteria from the large intestine have been experimentally established. Analysis of 70 puncture biopsy specimens of parietal mucus and luminal contents from different sections of the intestine has not shown the presence of the representatives of propionic acid-producing bacteria. The strains isolated under the conditions selective for such bacteria have been found to belong to the family Enterobacteriaceae. These strains have proved capable of synthesizing vitamin B12, but the synthesis of propionic acid has not been observed.