Biosynthesis of coenzyme F420 and methanopterin in Methanobacterium thermoautotrophicum

Growing cultures of Methanobacterium thermoautotrophicum were supplemented with [U-¹⁴C]adenosine or [1-¹⁴C]adenosine. 7,8-Didemethyl-8-hydroxy-5-deazariboflavin (factor F₀) and 7-methylpterin were isolated from the culture medium. Hydrolysis of cellular RNA yielded purine and pyrimidine nucleotides. The ribose side chain of proffered adenosine is efficiently incorporated into cellular adenosine and guanosine nucleotide pools but not into pyrimidine nucleotides. Thus, M. thermoautotrophicum can utilize exogenous adenosine by direct phosphorylation without hydrolysis of the glycosidic bond, and AMP can be efficiently converted to GMP. Factor F₀ and 7-methylpterin had approximately the same specific activities as the purine nucleotides. It follows that the ribityl side chain of factor F₀ is derived from the ribose side chain of a nucleotide precursor by reduction. The pyrazine ring of methanopterin is formed by ring expansion involving the ribose side chain of the precursor, GTP.Abbreviations Factor F₀ 8-hydroxy-6,7-didemethyl-5-deazariboflavin - APRT adenine phosphoribosyltransferase - GPRT guanine phosphoribosyltransferase - PRPP phosphoribosylpyrophosphate - HPLC high performance liquid chromatography     

The effect of 5-fluorouracil on cells and regenerating protoplasts ofSaccharomyces cerevisiae

The regeneration of the yeast cell-wall was studied using 5-fluorouracil and yeast protoplasts. Protein synthesis in yeast cells (Saccharomyces cerevisiae) was kept reduced in the presence of this inhibitor at a rate corresponding to that before inhibition and was independent on the concentration of the inhibitor (10 or 100 μg/ml). The inhibition of the RNA synthesis was incomplete and dependent on the concentration of the inhibitor. Synthesis of thymidine and DNA was not inhibited as indicated by the growth tests. On the basis of the obtained data it may be concluded that fluorouracil inhibits only thede novo and the induced protein synthesis while permitting protein synthesis that has already been started before inhibition. Fluorouracil was then applied during the regeneration of yeast protoplasts. The results obtained have shown that fluorouracil does not inhibit the synthesis of the yeast cell wall but that the normal course of cell division is impaired by fluorouracil. The low efficiency of the fluorouracil inhibition of the cell wall synthesis indicates that processes leading to the regeneration of the cell wall are in fact only a continuation of those taking place under normal growth conditions.     

Effect of water soluble vitamins and their analogues on growth of Candida albicans II. Vitamin B12, thiamine,oxythiamine, neopyrithiamine,substituted pyrimidines and thiazoles

Summary By employing wide ranges in vitamin concentrations in biotin basal mineral synthetic medium, it was demonstrated that vitamin B₁₂ markedly stimulated the growth ofCandida albicans, the organism showing a partial dependency upon this vitamin. Growth inhibition by 5-fluorouracil was reversed non-competitively by vitamin B₁₂, suggesting that B₁₂ has a role in nucleic acid biosynthesis of the organism. Thiamine was growth stimulatory, the organism being partially dependent upon this vitamin as well. Neopyrithiamine and oxythiamine were growth inhibitory in thiamine-free biotin basal mineral synthetic medium although the halves of each inhibitor compound were non-inhibitory. Neopyrithiamine inhibition was reversed by intact thiamine but not by pyrimidine thiamine or thiazole thiamine; while oxythiamine inhibition was reversed by thiamine and pyrimidine thiamine but not by thiazole thiamine, the inference being drawn that oxythiamine selectively blocks utilization of pyrimidine thiamine. Twenty-seven different substituted pyrimidines, thiazoles and related thiamine compounds were all utilizable byC. albicans in thiamine-free basal synthetic mineral medium, the organism presumably synthesizing thiamine when presented with the constituent parts of these thiamine analogues. Substitution of sulfur of the thiazole ring with oxygen, as in -methyloxazolium, failed to produce an inhibitory compound forC. albicans. Acetylthiamine, allithiamine, cocarboxylase, tetrahydrothiamine and dihydrothiamine were equally as growth stimulatory as thiamine.     

Studies on the biosynthesis of coenzyme F420 in methanogenic bacteria

Coenzyme F₄₂₀ is a 8-hydroxy-5-deazaflavin present in methanogenic bacteria. We have investigated whether the pyrimidine ring of the deazaflavin originates from guanine as in flavin biosynthesis, in which the pyrimidine ring of guanine is conserved. For this purpose the incorporation of [2-¹⁴C]guanine and of [8-¹⁴C]guanine into F₄₂₀ by growing cultures of Methanobacterium thermoautotrophicum was studied. Only in the case of [2-¹⁴C]guanine did F₄₂₀ become labeled. The specific radioactivity of the deazaflavin and of guanine isolated from nucleic acids of [2-¹⁴C]guanine grown cells were identical. This finding suggests that the pyrimidine ring of the deazaflavin and of flavins are synthesized by the same pathway.F₄₂₀ did not become labeled when M. thermoautotrophicum was grown in the presence of methyl-[¹⁴C] methionine, [U-¹⁴C]phenylalanine or [U-¹⁴C]tyrosine. This excludes that C-5 of the deazaflavin is derived from the methyl group of methionine and that the benzene ring comes from phenylalanine or tyrosine.     

Autotrophic synthesis of activated acetic acid from two CO2 in Methanobacterium thermoautotrophicum

In a previous study with Methanobacterium thermoautotrophicum evidence was presented that methanogenesis and autotrophic synthesis of activated acetic acid from CO₂ are linked processes. In this study one-carbon metabolism was investigated with growing cultures and in vitro.Serine was shown to be converted into glycine and activated formaldehyde, but only traces of label from [¹⁴C-3] of serine appeared in biosynthetic one-carbon positions. This seeming discrepancy could be explained if the same activated formaldehyde is an intermediate in biosynthesis and in methanogenesis from CO₂. This hypothesis was supported by demonstrating that [¹⁴C-3] of serine and [¹⁴C] formaldehyde were rapidly converted into methane, but a small portion of the label was also specifically incorporated into the methyl group of acetate. Methane and acetate synthesis in vitro were similarly stimulated by various compounds. These experiments indicate that the methyl of acetate and methane share common one-carbon precursor(s), i.e. methylene tetrahydromethanopterin, which can also be formed enzymatically from C-3 of serine or chemically from formaldehyde.Propyl iodide 20–40 M) and methyl iodide (1–3 M) completely inhibited growth in the dark. This effect was abolished by light. Methane formation was hardly affected. When ¹⁴CH₃I was applied at an only slightly inhibitory concentration, ¹⁴C was incorporated into the methyl of acetate. In vitro, similar effects on [¹⁴C] acetate formation from ¹⁴CO₂ or from [¹⁴C-3] of serine were observed, except that methyl iodide did not inhibit, but even stimulated acetate synthesis. These experiments indicate that a corrinoid is involved in acetate synthesis and probably not in methanogenesis from CO₂; the metal is light-reversibly alkylated and functions in methyl transfer to the acetate methyl.     

Suppression of the growth of the basidiomycete yeast, Rhodotorula minuta, by cinnamic acid

Rhodotorula minuta, a basidiomycete fungus, prefers neutral pH for growth and its growth inhibition by food preservatives such as benzoic acid and cinnamic acid has not been reported. Cinnamic acid at 1 g l^–1 arrested the growth and decreased the respiration of Rhodotorula but did not kill the yeast. The inhibitory effect was stronger in a mutant strain, 5-286, deficient in the -ketoadipate pathway than in the wild, suggesting that -ketoadipate pathway functions to detoxify this acid by restoring the decreased respiration.     

Acetyl CoA,a central intermediate of autotrophic CO2 fixation in Methanobacterium thermoautotrophicum

The pathway of autotrophic CO₂ fixation in Methanobacterium thermoautotrophicum has been investigated by long term labelling of the organism with isotopic acetate and pyruvate while exponentially growing on H₂ plus CO₂. Maximally 2% of the cell carbon were derived from exogeneous tracer, 98% were synthesized from CO₂. Since growth was obviously autotrophic the labelled compounds functioned as tracers of the cellular acetyl CoA and pyruvate pool during cell carbon synthesis from CO₂. M. thermoautotrophicum growing in presence of U-¹⁴C acetate incorporated ¹⁴C into cell compounds derived from acetyl CoA (N-acetyl groups) as well as into compounds derived from pyruvate (alanine), oxaloacetate (aspartate), -ketoglutarate (glutamate), hexosephosphates (galactosamine), and pentosephosphates (ribose). The specific radioactities of N-acetylgroups and of the three amino acids were identical. The hexosamine exhibited a two times higher specific radioactivity, and the pentose a 1.6 times higher specific radioactivity than e.g. alanine. M. thermoautotrophicum growing in presence of 3-¹⁴C pyruvate, however, did not incorporate ¹⁴C into cell compounds directly derived from acetyl CoA. Those compounds derived from pyruvate, dicarboxylic acids and hexosephosphates became labelled. The specific radioactivities of alanine, aspartate and glutamate were identical; the hexosamine had a specific radioactivity twice as high as e.g. alanine.The finding that pyruvate was not incorporated into compounds derived from acetyl CoA, whereas acetate was incorporated into derivatives of acetyl CoA and pyruvate in a 1:1 ratio demonstrates that pyruvate is synthesized by reductive carboxylation of acetyl CoA. The data further provide evidence that in this autotrophic CO₂ fixation pathway hexosephosphates and pentosephosphates are synthesized from CO₂ via acetyl CoA and pyruvate.     

Inhibitory action of erythromycin on bacteriophage SPO1 multiplication in sporulating cells of Bacillus subtilis 168

Summary Erythromycin (2–4 g/ml) was found to inhibit specifically multiplication of SPO1 in sporulating cells of an erythromycin-resistant, conditional asporogenous mutant of Bacillus subtilis 168 thy ^- trp ^-, Ery1040. In contrast, streptomycin (150–200 g/ml) which inhibits protein synthesis to a similar extent as erythromycin did not inhibit SPO1 multiplication severely, suggesting that the inhibition of SPO1 multiplication by erythromycin is not caused by an overall inhibition of protein synthesis. Neither phage DNA synthesis nor phage messenger RNA synthesis was affected appreciably under these conditions. However, the synthesis of three phage proteins that are synthesized 15 min after infection was preferentially inhibited by erythromycin. In addition, the inhibition of SPO1 multiplication has been correlated with the stimulation of host stable RNA synthesis exhibited by erythromycin. Possible mechanisms for the inhibition of SPO1 multiplication in Ery1040 cells are discussed.     

Nickel,a component of factor F 430 from Methanobacterium thermoautotrophicum

Methanobacterium thermoautotrophicum, growing on medium supplemented with 2 mol ⁶³NiCl₂/l, was found to take up 1.2 mol ⁶³Ni per g cells (dry weight). More than 70% of the radioisotope was incorporated into a compound, which dissociated from the protein fraction after heat treatment, was soluble in 70% acetone, and could be purified by chromatography on QAE-Sephadex A-25, Sephadex G-25, and DEAE cellulose. The purified ⁶³Ni labelled compound had an absorption spectrum and properties identical to those of factor F ₄₃₀ and is therefore considered to be identical with factor F ₄₃₀.Factor F ₄₃₀, a compound of molecular weight higher than 1000 with an absorbance maximum at 430 nm, has recently been purified from Methanobacterium thermoautotrophicum (Gunsalus and Wolfe, 1978). The structure and function of this compound are not yet known.     

The dominant mutation Suppressor of black indicates that de novo pyrimidine biosynthesis is involved in the Drosophila tan pigmentation pathway

A deficiency in the production of -alanine causes the black (b) phenotype of Drosophila melanogaster. This phenotype is normalized by a semi-dominant mutant gene Su(b) shown previously to be located adjacent to or within the rudimentary (r) locus. The r gene codes for three enzyme activities involved in de novo pyrimidine biosynthesis. Pyrimidines are known to give rise to -alanine. However, until recently it has been unclear whether de novo pyrimidine biosynthesis is directly coupled to -alanine synthesis during the tanning process. In this report we show that flies carrying Su(b) can exhibit an additional phenotype, resistance to toxic pyrimidine analogs (5-fluorouracil, 6-azathymine and 6-azauracil). Our interpretation of this observation is that the pyrimidine pool is elevated in the mutant flies. However, enzyme assays indicate that r enzyme activities are not increased in Su(b) flies. Genetic mapping of the Su(b) gene now places the mutation within the r gene, possibly in the carbamyl phosphate synthetase (CPSase) domain. The kinetics of CPSase activity in crude extracts has been studied in the presence of uridine triphosphate (UTP). While CPSase from wild-type flies was strongly inhibited by the end-product, UTP, CPSase from Su(b) was inhibited to a lesser extent. We propose that diminished end-product inhibition of de novo pyrimidine biosynthesis in Su(b) flies increases available pyrimidine and consequently the -alanine pool. Normalization of the black phenotype results.     

The role of tungstate and/or molybdate in the formation of aldehyde oxidoreductase in Clostridium thermoaceticum and other acetogens; immunological distances of such enzymes

Besides Clostridium thermoaceticum and C. formicoaceticum other resting acetogenic clostridia such as C. aceticum and C. thermoautotrophicum and to a lesser extent non-clostridial acetogens such as Butyribacterium methylotrophicum and Eubacterium limosum were able to reduce propionate to propanol at the expense of carbon monoxide or formate. Methylviologen usually increased the reduction rate. Ten M molybdate in the growth medium decreased this capability for C. thermoaceticum but increased it or had no effect for the other organisms. Ten M tungstate in the growth medium increased the aldehyde oxidoreductase activity in all organisms. Crude extracts of C. thermoaceticum cells grown in the presence of 10 M or 1 mM molybdate showed by ELISA the same or even a 4 fold concentration of aldehyde oxidoreductase in the latter case. However, the enzymic activity was very low in both cases. Omission of dithionite in the growth medium diminished the antigen by a factor of about 8. The immunological distance between the enzyme from C. thermoaceticum and C. thermoautotrophicum was rather low but very large to C. formicoaceticum and undeterminably large to the other organisms.Abbreviations Ald-DH aldehyde dehydrogenase - AOR aldehyde oxidoreductase - CO-DH carbon-monoxide dehydrogenase - ELI-SA enzyme-linked immunosorbent assay - FDH formate dehydrogenase - MV methylviologen - V⁺⁺ oxidised - V^+. reduced viologen     

Evidence for an incomplete reductive carboxylic acid cycle in Methanobacterium thermoautotrophicum

The involvement of reactions of the tricarboxylic acid cycle in autotrophic CO₂ fixation in Methanobacterium thermoautotrophicum was investigated. The incorporation of succinate into glutamate (=-ketoglutarate), aspartate (=oxaloacetate) and alanine (=pyruvate) was studied. The organism was grown on H₂ plus CO₂ at pH 6.5 in the presence of 1 mM [U-¹⁴C-]succinate. Significant amounts of the dicarboxylic acid were incorporated into cellular material under these conditions. Alanine, aspartate, and glutamate were isolated and their specific radioactivities were determined. Only glutamate was found to be labelled. Degradation of glutamate revealed that C-1 of glutamate was derived from CO₂ and C-2-C-5 from succinate indicating that in M. thermoautotrophicum -ketoglutarate is synthesized via reductive carboxylation of succinyl CoA. The finding that succinate was not incorporated into alanine and aspartate excludes that oxaloacetate and pyruvate are synthesized from -ketoglutarate via isocitrate or citrate. This is taken as evidence that a complete reductive carboxylic acid cycle is not involved here in autotrophic CO₂ fixation.     

Syntheses of Diastereoisomers of the Recent Pyrethroids,Fenvalerate (S-5602) and Cypermethrin (NRDC-149) from (–)-3-Phenoxy-mandelic Acid and Determination of Their Absolute Configurations

Lipopeptin A is a selective inhibitor of in vitro peptidoglycan synthesis of E. coli Y-10. In the study here it inhibited the formation of lipid intermediates from UDP-[U-¹⁴C]GlcNAc and UDP-MurNAc-l-Ala-d-Glu-meso-DAP-d-Ala-d-Ala, but did not inhibit the formation of MurNAc-pentapeptide-p-p-lipid from UDP-MurNAc-l-Ala-d-Glu-[³H]meso-DAP-d-Ala-d-Ala. Lipopeptin A also did not have a significant effect on polymerase reaction. Therefore, the inhibition of the formation of GleNAc-MurNAc-pentapeptide-p-p-lipid from MurNAc-pentapeptide-p-p-lipid and UDP-GlcNAc is concluded to be the site of action.

Lipopeptin A inhibits fungal growth, causing swelling in mycelia. It did not significantly inhibit the incorporations of ¹⁴C-labeled glucosamine, thymidine, uridine, phenylalanine, and sodium acetate into TCA insoluble fraction of mycelial suspension of Piricularia oryzae. In in vitro test, however, it inhibited the transfer of mannose from GDP-[U-¹⁴C]mannose (ID_5O = 250 μg/ml) and GlcNAc from UDP-[U-¹⁴C]GlcNAc (ID₅₀ = 100 μg/ml) into proteoheteroglycan with a particulate enzyme of Piricularia oryzae. It also slightly inhibited chitin synthesis (ID₅₀ = 750 μg/ml) in the same enzyme system, but did not inhibit β-l,3-glucan synthesis.     

Utilization of 5-fluorouracil byMyobacterium avium

Myobacterium avium LM1 was exposed to concentrations of 5-fluorouracil (5FU) that ranged from 0 to 100 g/ml. Growth inhibition was inversely proportional to the concentration of the drug. DNA was extracted from cells grown in medium that contained [¹⁴C]5FU, but no carrier. The [¹⁴C]DNA was enzymatically hydrolyzed to deoxyribonucleotides, which were separated and fractionated by high-performance liquid chromatography (HPLC). The isotope was located in 2-deoxycytidine 5-monophosphate (dCMP) and 2-deoxythymidine 5-monophosphate (dTMP), with dCMP containing the majority. There was no radioactivity at the elution times for 5-fluoro-2-deoxyuridine 5-monophosphate or 2-deoxyuridine 5-monophosphate. These results suggested that 5FU was dehalogenated and the uracil moiety ultimately converted into cytosine and thymine deoxyribonucleotides. Cells were grown in [³H]uracil, and [³H]DNA was extracted and analyzed by HPLC. The isotope was found only in the pyrimidine deoxyribonucleotides, with dCMP containing 4.1 times that in dTMP. Thus, it was demonstrated that uracil and dehalogenated 5FU were not directly incorporated into DNA, but rather converted to cytosine and thymine and then incorporated into DNA by a salvage pathway.     

The Autotrophic Synthesis of Polyhydroxyalkanoate by Alcaligenes eutrophusin the Presence of Carbon Monoxide

The CO-resistant strain B5786 of the hydrogen-oxidizing bacterium Alcaligenes eutrophuswas found to be able to synthesize polyhydroxyalkanoates (PHAs) under the conditions of growth limitation by nitrogen deficiency (the factor that promotes PHA synthesis) and growth inhibition by carbon monoxide. The gas mixtures that contained from 5 to 20 vol % CO did not inhibit the key enzymes of PHA synthesis–-ketothiolase, acetoacetyl-CoA reductase, hydroxybutyrate dehydrogenase, and PHA synthase. In the presence of CO, cells accumulated up to 70–75 wt % PHA (with respect to the dry biomass) without any noticeable increase in the consumption of the gas substrate. Chromatographic–mass spectrometric analysis showed that the PHA synthesized by A. eutrophusis a copolymer containing more than 99 mol % -hydroxybutyrate and trace amounts of -hydroxyvalerate. The PHA synthesized under the conditions described did not differ from that synthesized by A. eutrophuscells from electrolytic hydrogen.     

Potassium accumulation in growing Methanobacterium thermoautotrophicum and its relation to the electrochemical proton gradient

Cultures of Methanobacterium thermoautotrophicum (Marburg) growing on media low in potassium accumulated the cation up to a maximal concentration gradient ([K⁺]_{intracellular}/[K⁺]_{extracellular}) of approximately 50,000-fold. Under these conditions, the membrane potential was determined by measuring the equilibrium distribution of the lipophilic cation (¹⁴C) tetraphenylphosphonium (TPP⁺). This cation was accumulated by the cells 350-to 1,000-fold corresponding to a membrane potential (inside negative) of 170–200 mV. The pH gradient, as measured by equilibrium distribution of the weak acid, benzoic acid, was found to be lower than 0.1 pH units (extracellular pH=6.8). The addition of valinomycin (0.5–1 nmol/mg cells) to the culture reduced the maximal concentration gradient of potassium from 50,000-to approximately 500-fold, without changing the membrane potential. After dissipation of the membrane potential by the addition of ¹²C-TTP⁺ (2 mol/mg cells) or tetrachlorosalicylanilide (3 nmol/mg cells), a rapid and complete efflux of potassium was observed.These data indicate that potassium accumulation in the absence of valinomycin is not in equilibrium with the membrane potential. It is concluded that at low extracellular K⁺ concentrations potassium is not accumulated by M. thermoautotrophicum via an electrogenic uniport mechanism.Non-common abbreviations TPP⁺ Tetra phenylphosphonium bromide - DTE Dithioerythritol - TCS 3,5,3,4-Tetrachlorosalycylanilide     

Activity of cyanobacterial and algal odor compounds found in lake waters on green alga Chlorella pyrenoidosa growth

Volatile organic compounds produced by cyanobacteria and algae in freshwater lakes and contributing to the odour of lakes were tested for their ability to inhibit the growth of the green alga Chlorella pyrenoidosa by the paper disk-agar plate method. Geosmin, -cyclocitral, - and -ionones, and geranylacetone exhibited inhibitory activity by diffusion in the 2-5 mg ml^–1 range. - and -Ionones and geranylacetone showed inhibition through the vapor phase at 10 mg ml^–1. Dimethyl disulfide showed no inhibition at 10 mg ml^–1. The norcarotenoids, which are prominent contributors to the odour of lake waters, were not significantly active in inhibiting the growth of Chlorella, with activity in the same range as monoterpene alcohols in general.     

Isolation of auxotrophic and antimetabolite-resistant mutants of the hyperthermophilic bacterium Thermotoga neapolitana

Antimetabolite-resistant and auxotrophic mutants of the hyperthermophilic bacterium Thermotoga neapolitana were isolated to provide strains with genetic backgrounds amenable to genetic analyses. Norleucine, azaleucine, 4-nitropyridine-N-oxide, and 3-amino-1, 2, 4-triazole did not affect growth, while 5-fluorouracil (5 g/ml), 5-methyltryptophan (250g/ml), 6-azauracil (100 g/ml), and 4-fluorophenylalanine (30 g/ml) inhibited growth at the indicated minimum inhibitory concentrations. The effect of 5-fluorouracil was analyzed and found to be bacteriostatic. These inhibitors were used to select spontaneously arising resistant mutants. In addition, auxotrophic mutants requiring leucine, tryptophan, adenine, and histidine were isolated following mutagenesis with ethyl methanesulfonate. Six other auxotrophs with undefined growth requirements were also isolated. These strains will be useful for the development of genetic methods for T. neapolitana.     

Autotrophic synthesis of activated acetic acid from two CO2 inMethanobacterium thermoautotrophicum

An in vitro system of autotropic synthesis of activated acetic acid from¹⁴CO₂ inMethanobacterium thermoautotrophicum was developed.

1. A recognized¹⁴CO₂-fixation product in vitro was activated [¹⁴C] acetic acid. It could be trapped enzymatically into citrate and released again as [¹⁴C] acetate by citrate synthase and citrate lyase, respectively.
2. The synthesis of both activated acetic acid and methane from CO₂ proceeded in parallel under a variety of conditions. Both of these processes were stimulated greatly and to the same extent by the addition of methyl coenzyme M to the assay.
3. Various inhibitors of methanogenesis tested also inhibited acetate synthesis, e.g. CH₂Cl₂, CHCl₃, CCl₄, N₂O, and bromoethane sulfonic acid. Cyanide specifically inhibited the synthesis of activated acetic acid, whereas methane formation was unaffected. Cyanide inhibition was relieved by adding CO, whereas the inhibition by the other compounds was not.

The data suggest: The product studied in vitro was acetyl CoA. Its synthesis involves intermediates of CO₂ reduction to methane. In addition, a cyanide-sensitive reaction is required which does not participate in CO₂ reduction to methane.     

Sensitivity of thermophilic methanogenic bacteria to heavy metals

The effects of Cd, Cu, and Ni on pure cultures of thermophilic methanogenic bacteria were studied. The bacteria used wereMethanobacterium thermoautotrophicum and TAM, a thermophilic, acetate-decarboxylating, methanogenic bacterium. Much lower concentrations of heavy metals were needed to cause initial inhibition of TAM (1 mg/liter Cu and Cd; 5 mg/liter Ni) compared withM. thermoautotrophicum (10 mg/liter Cu and Cd; and 100 mg/liter Ni). No growth of TAM occurred at 5 mg/liter Cu and 25 mg/liter Ni, while the corresponding values forM. thermoautotrophicum were 50 mg/liter Cu and 200 mg/liter Ni. Cd (50 mg/liter) was totally inhibitory toM. thermoautotrophicum but allowed minimal growth of TAM. Ni stimulated both organisms at an optimal concentration of 5 mg/liter forM. thermoautotrophicum and 1 mg/liter for TAM. The toxicity of Cd and Cu was found to depend upon the presence of Ni in the medium.