1,4-Naphthoquinone and other nutrient requirements of Succinivibrio dextrinosolvens.

Three strains of Succinivibrio dextrinosolvens isolated from the rumen of cattle or sheep under diverse conditions grew well in a minimal medium containing glucose, minerals, cysteine, methionine, leucine, serine, ammonia, 1,4-naphthoquinone, p-aminobenzoic acid, and bicarbonate-carbonic acid buffer, pH 6.7. When menadione or vitamin K5 was substituted for 1,4-naphthoquinone, the growth rate was somewhat depressed. Growth was poor with vitamin K1 and ammonia, further addition of the amino acids aspartic acid, arginine, histidine, and tryptophan was necessary for good growth of type strain 24, but the other two strains grew well only in media containing ammonia. Strains C18 and 22B produced urease and grew well when ammonia replaced urea. When urea replaced ammonia, strain 24 grew poorly and urease activity could not be detected. Strain 24 required no B-vitamins, but the other two strains were stimulated by p-aminobenzoic acid. The methionine requirement was not placed by vitamin B12, betaine, or homocysteine. Cysteine was replaced by sulfide in strain 24 but less well in the other two strains. Very poor growth was obtained when sulfate replaced cysteine. The half-saturation constant for ammonia during growth of S. dextrinosolvens is more than 500 microM, a much higher value than that of many rumen bacteria.     

Development of a defined medium supporting rapid growth for Deinococcus radiodurans and analysis of metabolic capacities

A morpholinepropanesulfonic acid (MOPS)-buffered rich defined medium (RDM) was optimized to support a reproducible 2.6-h doubling time at 35 °C for Deinococcus radiodurans R1 and used to gain insight into vitamin and carbon metabolism. D. radiodurans was shown to require biotin and niacin for growth in this medium. A glutamine–serine simple defined medium (SDM) was developed that supported a 4-h doubling time, and this medium was used to probe sulfur and methionine metabolism. Vitamin B₁₂ was shown to alleviate methionine auxotrophy, and under these conditions, sulfate was used as the sole sulfur source. Phenotypic characterization of a methionine synthase deletion mutant demonstrated that the B₁₂ alleviation of methionine auxotrophy was due to the necessity of the B₁₂-dependent methionine synthase in methionine biosynthesis. Growth on ammonium as the sole nitrogen source in the presence of vitamin B₁₂ was demonstrated, but it was not possible to achieve reproducibly good growth in the absence of at least one amino acid as a nitrogen source. Growth on sulfate, cysteine, and methionine as sulfur sources demonstrated the function of a complete sulfur recycling pathway in this strain. These studies have demonstrated that rapid growth of D. radiodurans R1 can be achieved in a MOPS-based medium solely containing a carbon source, salts, four vitamins, and two amino acids.     

Nutritional Features of the Intestinal Anaerobe Ruminococcus bromii

Of six strains of Ruminococcus bromii studied, five grew in a minimal chemically defined medium containing minerals, NH(4) (+) as nitrogen source, sulfide or sulfate as sulfur source, fructose as energy and carbon source, isobutyrate or 2-methylbutyrate and carbonic acid-bicarbonate as additional carbon sources, and the vitamins biotin, riboflavin, pyridoxine, vitamin B(12) (replaced by L-methionine), pantethine, and tetrahydrofolate. The strains also could utilize cysteine or thiosulfate but not methionine; and strain Z3 failed to use dithiothreitol, thioglycolate, sulfite, or beta-mercaptoethanol as sole sources of sulfur. Mixtures of amino acids, peptides (Casitone), urea, nitrate, asparagine, or glutamine failed to replace NH(4) (+) as N source. Three strains isolated from Americans were identical in nutritional features, whereas one from a Japanese and one from a South African native differed slightly in having requirements for fewer vitamins. One strain from the cecum of a sow grew well in a rumen fluid-supplemented medium but not in the various chemically defined media plus Casitone. The nutritional features suggest that the environment which selects R. bromii contains relatively little amino acid nitrogen and a relatively large amount of NH(4) (+)-N and indicate that these bacteria must depend upon other bacteria such as those that produce NH(4) (+) from urea or protein and those that produce branched-chain volatile acids to grow.     

Sinorhizobium meliloti Cells Require Biotin and either Cobalt or Methionine for Growth

Sinorhizobium meliloti is usually cultured in rich media containing yeast extract. It has been suggested that some components of yeast extract are also required for growth in minimal medium. We tested 27 strains of this bacterium and found that none were able to grow in minimal medium when methods to limit carryover of yeast extract were used during inoculation. By fractionation of yeast extract, two required growth factors were identified. Biotin was found to be absolutely required for growth, whereas previously the need for this vitamin was considered to be strain specific. All strains also required supplementation with cobalt or methionine, consistent with the requirement for a vitamin B₁₂-dependent homocysteine methyltransferase for methionine biosynthesis.     

Isolation and Characterization of Strains CVO and FWKO B, Two Novel Nitrate-Reducing, Sulfide-Oxidizing Bacteria Isolated from Oil Field Brine

Bacterial strains CVO and FWKO B were isolated from produced brine at the Coleville oil field in Saskatchewan, Canada. Both strains are obligate chemolithotrophs, with hydrogen, formate, and sulfide serving as the only known energy sources for FWKO B, whereas sulfide and elemental sulfur are the only known electron donors for CVO. Neither strain uses thiosulfate as an energy source. Both strains are microaerophiles (1% O₂). In addition, CVO grows by denitrification of nitrate or nitrite whereas FWKO B reduces nitrate only to nitrite. Elemental sulfur is the sole product of sulfide oxidation by FWKO B, while CVO produces either elemental sulfur or sulfate, depending on the initial concentration of sulfide. Both strains are capable of growth under strictly autotrophic conditions, but CVO uses acetate as well as CO₂ as its sole carbon source. Neither strain reduces sulfate; however, FWKO B reduces sulfur and displays chemolithoautotrophic growth in the presence of elemental sulfur, hydrogen, and CO₂. Both strains grow at temperatures between 5 and 40°C. CVO is capable of growth at NaCl concentrations as high as 7%. The present 16s rRNA analysis suggests that both strains are members of the epsilon subdivision of the division Proteobacteria, with CVO most closely related to Thiomicrospira denitrifcans and FWKO B most closely related to members of the genus Arcobacter. The isolation of these two novel chemolithotrophic sulfur bacteria from oil field brine suggests the presence of a subterranean sulfur cycle driven entirely by hydrogen, carbon dioxide, and nitrate.     

Effect of methionine and vitamin B-12 on the activities of methionine biosynthetic enzymes in metJ mutants of Escherichia coli K12

The effects of supplementation of growth medium with high concentrations of methionine (5 mm) and/or vitamin B₁₂ (10 nm) on the activities of five enzymes of the methionine regulon were measured in wild-type Escherichia coli K12, a metJ prototrophic and three metJ methionine auxotrophic derivatives. Growth on vitamin B₁₂ causes lowering of the activities of the non-B₁₂ methyltransferase while growth on methionine causes elevation of its activity in all four metJ mutants. The previous observation that this enzyme is not repressed by vitamin B₁₂ addition in metH mutants together with our observation that vitamin B₁₂ causes repression in mutants (metF) unable to synthesize the donor for homocysteine methylation supports the model of Kung et al. (10) that the holo-B₁₂-methyltransferase functions as a repressor of synthesis of the non-B₁₂-methyltransferase. Growth on methionine causes lowering of cystathionase activity, and growth on vitamin B₁₂ results in elevation of cystathionase activity in a metJ prototroph and one metJ auxotroph. The metJmetA strain (RG326) has a higher than normal level of cystathionase while the metJmetF strain (RG191) has lower than normal cystathionase activity. These results indicate the existence of a metJ independent system that modulates the activity of cystathionase possibly in response to changes in concentration of unidentified metabolite(s).     

Pattern III Non-toxigenic Bacteroides fragilis (NTBF) Strains in Brazil

Bacteroides fragilis strains isolated from faeces of diarrhoeic and healthy children were studied by polymerase chain reaction (PCR), in order to characterise them as enterotoxigenic B. fragilis -ETBF—if they have one of the three bft gene alleles (pattern I) or as non-toxigenic B. fragilis—NTBF—if there was an absence of bft gene alleles and specific sites (flanking region of B. fragilis Pathogenicity Island—BfPAI) (pattern II NTBF) or absence of alleles, but the presence of this specific sites (pattern III NTBF). All strains were previously screened for cytotoxic activity. ETBF was detected in 1.5% (1/66) of the samples, in which we could verify, concomitantly, the presence of Escherichia coli enteroaggregative (EAEC). Due to these data, ETBF could not be associated with diarrhoea. A large number of pattern III NTBF strains were observed, which could suggest future changes in the phenotype of enterovirulence of B. fragilis species in our country. These populations were also analysed by using AP-PCR and a great heterogeneity could be observed. We were not able to make a correlation between enterovirulence patterns and genetic types.     

Identification and Characterization of Conjugative Transposons CTn86 and CTn9343 in Bacteroides fragilis Strains

The related genetic elements flanking the Bacteroides fragilis pathogenicity island (PAI) in enterotoxigenic B. fragilis (ETBF) 86-5443-2-2 and also present in pattern III nontoxigenic B. fragilis (NTBF) NCTC 9343 were defined as putative conjugative transposons (CTns), designated CTn86 and CTn9343, respectively (A. A. Franco, J. Bacteriol. 181:6623-6633, 2004). CTn86 and CTn9343 have the same basic structures except that their encoded transposases have low similarity and CTn9343 lacks the B. fragilis PAI and contains an extra 7-kb region not present in CTn86. In this study, using DNA hybridization and PCR analysis, we characterized the genetic element flanking the PAI in a collection of ETBF strains and the related genetic elements in a collection of NTBF pattern III strains. We found that in all 123 ETBF strains, the PAI is contained in a genetic element similar to CTn86. Of 73 pattern III strains, 26 (36%) present a genetic element similar to CTn9343, 38 (52%) present a genetic element similar to CTn9343 but lack the 7-kb region that is also absent in CTn86 (CTn9343-like element), and 9 (12%) present a genetic element similar to CTn86 but lacking the PAI (CTn86-like element). In addition to containing CTn86, ETBF strains can also contain CTn9343, CTn9343-like, or CTn86-like elements. CTn86, CTn9343, CTn86-like, and CTn9343-like elements were found exclusively in B. fragilis strains and predominantly in division I, cepA-positive strains.     

DNA Inversion Regulates Outer Membrane Vesicle Production in Bacteroides fragilis

Phase changes in Bacteroides fragilis, a member of the human colonic microbiota, mediate variations in a vast array of cell surface molecules, such as capsular polysaccharides and outer membrane proteins through DNA inversion. The results of the present study show that outer membrane vesicle (OMV) formation in this anaerobe is also controlled by DNA inversions at two distantly localized promoters, IVp-I and IVp-II that are associated with extracellular polysaccharide biosynthesis and the expression of outer membrane proteins. These promoter inversions are mediated by a single tyrosine recombinase encoded by BF2766 (orthologous to tsr19 in strain NCTC9343) in B. fragilis YCH46, which is located near IVp-I. A series of BF2766 mutants were constructed in which the two promoters were locked in different configurations (IVp-I/IVp-II = ON/ON, OFF/OFF, ON/OFF or OFF/ON). ON/ON B. fragilis mutants exhibited hypervesiculating, whereas the other mutants formed only a trace amount of OMVs. The hypervesiculating ON/ON mutants showed higher resistance to treatment with bile, LL-37, and human β-defensin 2. Incubation of wild-type cells with 5% bile increased the population of cells with the ON/ON genotype. These results indicate that B. fragilis regulates the formation of OMVs through DNA inversions at two distantly related promoter regions in response to membrane stress, although the mechanism underlying the interplay between the two regions controlled by the invertible promoters remains unknown.     

Oxidation of compounds metabolized through folate coenzyme pathways in vitamin B12-deficient rats

The effects of vitamin B₁₂ deficiency in rats and dietary supplementation with vitamin B₁₂ and/or l-methionine plus folate on the oxidation of compounds metabolized through folate coenzyme pathways were investigated. Rats fed a vitamin B₁₂-deficient diet oxidized significantly lower amounts in 60 min of l-histidine, glycine, sarcosine, formate, and l-serine to CO₂ than vitamin B₁₂-supplemented controls. Supplementation of the deficient diet with l-methionine plus folate restored the ability to oxidize the ring-2-carbon of l-histidine, the methyl group of sarcosine, and formate to the same level as that observed in animals receiving vitamin B₁₂. In contrast, oxidation of the 1-carbon of glycine and the 3-carbon of l-serine was not restored to control levels by addition of methionine plus folate to the vitamin B₁₂-deficient diet. Inhibition of the metabolism of the 2-carbon of glycine to CO₂ was partially overcome by additional dietary methionine and folate. Glycine synthase activity in homogenates paralleled the in vivo pattern of oxidation of the 1-carbon of glycine to CO₂, whereas sarcosine dehydrogenase activity appeared to increase 2-fold in vitamin B₁₂ deficiency.     

Dietary vitamin B12, sulfur amino acids,and odd-chain fatty acids affect the response of rats to nickel deprivation

An experiment was performed to ascertain whether changing the dietary intake of two substances, cystine and margaric acid (heptadecanoic acid), that affect the flux through pathways involving the two vitamin B₁₂-depednent enzymes, methionine synthase and methylmalonyl-CoA mutase, would affect the interaction between nickel and vitamin B₁₂. Rats were assigned to treatment groups of six in a fully crossed, four-factorial arrangement. The independent variables, or factors, were: per kg of fresh diet, nickel analyzed at 25 and 850 μg; vitamin B₁₂ supplements of 0 and 50 μg; margaric acid supplements of 0 and 5 g; andl-cystine supplements of 0 and 12 g. The diet without cystine was marginally deficient in sulfur amino acids. Nickel affected growth, liver wt/body wt ratio (LB/BW), and a number of variables associated with iron, calcium, zinc, copper, and magnesium metabolism. Most of the effects of nickel were modified by the vitamin B₁₂ status of the rat. In numerous cases, the interaction between nickel and vitamin B₁₂ was dependent on, or altered by, the cystine or margaric acid content of the diet. Thus, the findings showed that the extent and the direction of changes in numerous variables in response to nickel deprivation varied greatly with changes in diet composition. These variables include those previously reported to be affected by nickel deprivation, including growth and the distribution or functioning of iron, calcium, zinc, copper, and magnesium. The findings also support the hypothesis that nickel has a biological function in a metabolic pathway in which vitamin B₁₂ is important.     

Nutritional requirements ofPrevotella sp. Isolated from the rumen of the goat

The nutritional requirements forPrevotella sp. 4PCCNB2 isolated from the rumen of a native goat in Korea and those of the ATCC 19189 strain isolated from the bovine rumen were investigated. The two strains grew well with ammonium sulfate as the sole added nitrogen source. However, neither a complex of amino acids nor casein hydrolysate effectively replaced ammonium sulfate. Biotin,p-aminobenzoic acid, and vitamin B₁₂ were essential to culture the ATCC 19189 strain. Unlike the ATCC 19189 strain, however, B₁₂ was only stimulatory for the growth of the 4PCCNB2 strain. The 4PCCNB2 strain grew well in the basal medium without an individual acid such as acetic acid or valeric acid. In contrast, either acetic or valeric acid was absolutely required for the growth of the ATCC 19189 strain.     

Evaluation of Genetic Relatedness of Bacteroides fragilis Strains Isolated from Different Sources by AP-PCR and Pulsed-Field Gel Electrophoresis Assays

The genetic relatedness of 71 Bacteroides fragilis strains isolated from different sources (human intestinal and non-intestinal infections and animal intestinal infections, human and animal intestinal microflora and polluted aquatic environment) was evaluated by arbitrarily primed-polymerase chain reaction (AP-PCR) and pulsed-field gel electrophoresis (PFGE). The presence of the enterotoxin gene (bft) and β-lactamase genes (cep A, cfi A) was also determined by PCR. The amplification with the arbitrary primer AP12h produced electrophoretic profiles and the use of a biostatistical program (NTSYS) provided a dendrogram that revealed nine amplitypes, clustered in two groups, AI and AII, at a genetic distance of 0.30. Eight strains harbouring cfi A gene presented homogeneous profiles and could be clustered (amplitype A8) as well as 82.4% of the strains isolated from non-intestinal infections (amplitype A4). EnterotoxigenicB. fragilis strains (ETBF) were clustered in group AI as well as non-enterotoxigenic B. fragilis strains (NTBF). PFGE was used to analyse strains representative of each ampli-type formed. DNA restriction with Not I generated 25 PFGE profiles and only two pairs of strains presented more than 90% of similarity when Dice's coefficient and UPGMA clustering were applied. Although our data suggest a relevant relatedness among cfi A positive strains and among strains isolated from non-intestinal infections using AP-PCR, the use of a method with a greater discriminatory power revealed the wide diversity. These data reinforce the idea of infinite heterogeneity among B. fragilis strains.     

Studies on the vitamin B12 auxotrophy of Rhodocyclus purpureus and two other vitamin B12-requiring purple nonsulfur bacteria

The vitamin B₁₂ requirement of Rhodocyclus purpureus 6770, Rhodospirillum tenue 1/67, and Rhodopseudomonas palustris G 53/2 was determined. A wide variety of biogenetic precursors of the vitamin including cobinamide, cobyric acid, cobinic acid and several partially amidated cobyrinic acids showed growth-promoting activity in all three strains. In R. purpureus vitamin B₁₂ could even be substituted by cobyrinic acid which is the first cobalt-containing precursor of vitamin B₁₂ so far established. Neither methionine, deoxynucleosides, dimethylbenzimidazole nor increased amounts of cobalt could replace vitamin B₁₂ as growth factor.Cupribalamin, which is a strong antimetabolite of vitamin B₁₂ in Escherichia coli 113-3 and Lactobacillus leichmannii ATCC 7830, exhibited only a weak antagonistic effect on growth of R. purpureus and R. tenue. Growth of R. palustris was not inhibited by cupribalamin. The cells of all three strains were shown to contain metal-free corrinoids in addition to cobalt-containing corrinoids. The principal products were identified as 5-deoxyadenosylcobalamin and hydrogenobalamin, the metal free analogue of vitamin B₁₂. The latter does not originate from the vitamin by removal of cobalt but is de novo biosynthesized as could be demonstrated in the case of R. purpureus by a labelling experiment with [¹³C] methyl-l-methionine.     

Comparison of Assimilatory Organic Nitrogen, Sulfur, and Carbon Sources for Growth of Methanobacterium Species

Experiments document the ability of two species of autotrophic methanogens to assimilate and utilize organic substrates as the nutrient sulfur or nitrogen source and as a carbon source during growth on H₂-CO₂. Methanobacterium thermoautotrophicum strain ΔH and the mesophilic species Methanobacterium sp. strain Ivanov grew with glutamine as the nitrogen source or cysteine as the sulfur source. M. thermoautotrophicum also utilized urea as the nitrogen source and as a carbon precursor for methane and cell synthesis. Methanobacterium sp. strain Ivanov grew with methionine as the sulfur source. The growth rate of two different Methanobacterium species was lower on an organic N or S source than on ammonium or sulfide. ³⁵S and ¹⁴C tracer studies demonstrated that amino acid or urea assimilation correlated with time and amount of growth. The rate of [³⁵S]cysteine incorporation was similar in strain ΔH (34 nmol h⁻¹ mg of cells⁻¹) and strain Ivanov (23 nmol h⁻¹ mg of cells⁻¹). However, the rate of [¹⁴C]acetate incorporation was dramatically different (17 versus 208 nmol h⁻¹ mg of cells⁻¹ in strains ΔH and Ivanov, respectively). [¹⁴C]acetate accounted for 1.3 and 21.2% of the total cell carbon synthesized by strains ΔH and Ivanov, respectively. Amino acids and urea were mainly assimilated into the cell protein fraction, but accounted for less than 2.0% of the total cell carbon synthesized. The data suggest that a biochemical-genetic approach to understanding cell carbon synthesis in methanogens is feasible; mutants that are auxotrophic for either acetate, glutamine, cysteine, or methionine are suggested as future targets for genetic studies.     

Folic acid and the methylation of homocysteine by Bacillus subtilis

1. Cell-free extracts of Bacillus subtilis synthesize methionine from serine and homocysteine without added folate. The endogenous folate may be replaced by tetrahydropteroyltriglutamate or an extract of heated Escherichia coli for the overall C₁ transfer, but tetrahydropteroylmonoglutamate is relatively inactive. 2. Extracts of B. subtilis contain serine transhydroxymethylase and 5,10-methylenetetrahydrofolate reductase, which are non-specific with respect to the glutamate content of the folate substrates. Methyl transfer to homocysteine requires a polyglutamate folate as methyl donor. These properties are not affected by growth of the organism with added vitamin B₁₂. 3. The synthesis of methionine from 5-methyltetrahydropteroyltriglutamate and homocysteine has the characteristics of the cobalamin-independent reaction of E. coli. No evidence for a cobalamin-dependent transmethylation was obtained. 4. S-Adenosylmethionine was not a significant precursor of the methyl group of methionine with cell-free extracts, neither was S-adenosylmethionine generated by methylation of S-adenosylhomocysteine by 5-methyltetrahydrofolate. 5. A procedure for the isolation and analysis of folic acid derivatives from natural sources is described. 6. The folates isolated from lysozyme extracts of B. subtilis are sensitive to folic acid conjugase. One has been identified as 5-formyltetrahydropteroyltriglutamate; the other is possibly a diglutamate folate. 7. A sequence is proposed for methionine biosynthesis in B. subtilis in which methyl groups are generated from serine and transferred to homocysteine by means of a cobalamin-independent pathway mediated by conjugated folate coenzymes.     

Enterotoxin-producing Bacteroides fragilis (ETBF) Strains in Stool Samples Submitted for Testing ofClostridium difficile and its Toxins

Fifty faecal samples of patients suspected of having diarrhoea associated with Clostridium difficile were studied. Toxins of C. difficile were tested in vivo directly from the faecal sample using Toxin Detection Kits (Oxoid) to detect toxin A and primers for detection genes of Toxin A and B in a PCR test. The same samples were tested for B. fragilis enterotoxin gene directly from the faecal sample using special primers and a PCR test. Samples were inoculated onto selective media for C. difficile (CCCA) and B. fragilis (BBE) for isolation of bacteria.In vitro Toxin A of C. difficile in culture was tested using a C. difficile toxin A immunoassay (Oxoid, U.K. test and Toxin B of C. difficile was tested by using the McCoy cell line. C. difficile toxin A and B genes were determined in DNA of isolated strains using special primers and a PCR reaction. The enterotoxin production in B. fragilis strains was tested on the human carcinoma cell line HT29/C1. The presence of fragilysin gene was detected using a special pair of primers and a PCR reaction. Toxinogenic strains of C. difficile and enterotoxigenic Bacteroides fragilis (ETBF) strains were isolated from the same samples.     

Simulation of fermentation conditions for vitamin B12 biosynthesis from whey

Vitamin B₁₂ production in fermentation of Propionibacterium shermanii and Propionibacterium arl AKU 1251 in whey permeate medium has been studied. The observed results and simulated expected values obtained by fitting statistical equations to the recorded data showed that 24 h old inoculum, 5 mg iron l^?1 and 4% whey lactose were optimal for vitamin B₁₂ biosynthesis in both strains when fermentation was carried out under anerobic (84 h) and aerobic (84 h) conditions at 30°C. The supplementation of whey medium with 0.5% (NH₄)₂HPO₄ enhanced further the metabolite yield; however, the preference for a mixed carbon source (lactose + d-glucose or lactose + d-fructose) at different levels varied in the strains under study. P. shermanii, under optimal cultural conditions, was found to be a better strain than Propionibacterium arl AKU, 1251 in fermenting whey lactose for product (vitamin B₁₂) formation.     

Role of amino acids, betaine and choline in vitamin B12 biosynthesis by strains of Propionibacterium

This paper reports the role of amino acids, betaine and choline on vitamin B₁₂ biosynthesis in Propionibacterium shermanii 566, P. shermanii and Propionibacterium arl AKU 1251. l-Glutamic acid supplemented at the 0.05% (w/v) level in whey permeate stimulated vitamin B₁₂ production in the three organisms, whereas the influence of other amino acids differed in the three strains. A uniform increase in product formation in Propionibacterium cultures with increasing doses of betaine and choline was recorded, but with variable relative effectiveness. However, no significant difference at the 0.50 and 0.75% (w/v) levels of these two compounds was observed. The addition of betaine at 0.5% (w/v) concentration was considered optimal for maximum fermentation efficiency in the cultures. An increase of 2.8–25.7% and 5.1–40.8% in vitamin B₁₂ yield as compared to the control was observed by supplementing whey permeate medium with l-glutamic acid and betaine, respectively, at their optimum values in the organisms studied.