Methanobacterium thermoalcaliphilum spec. nov., a new moderately alkaliphilic and thermophilic autotrophic methanogen

An autotrophic moderately alkaliphilic and thermophilic nonmotile rod-shaped methanogen was isolated from a biogas plant. The isolate grows only on H₂+CO₂ and requires yeast extract. Growth optimum is at 60°C with a generation time of 4 h. In the absence of substrates complete lysis occurs. The pH range for growth is 7.5–8.5. Growth was also observed at pH values above 9.0. The DNA base composition is 38.8 mol% G+C. According to its physiological properties the nameMethanobacterium thermoalcaliphilum is proposed.Abbreviations G+C Guanine+cytosine     

Characterization of a new mesophilic,secondary alcohol-utilizing methanogen,Methanobacterium palustre spec. nov. from a peat bog

The isolation and characterization of a new methanogen from a peat bog, Methanobacterium palustre spec. nov., strain F, is described. Strain F grew on H₂/CO₂ and formate in complex medium. It also grew autotrophically on H₂/CO₂. Furthermore, growth on 2-propanol/CO₂ was observed. Methane was formed from CO₂ by oxidation of 2-propanol to acetone or 2-butanol to 2-butanone, but growth on 2-butanol plus CO₂ apparently was too little to be measurable. Similarly, Methanobacterium bryantii M. o. H. and M. o. H. G formed acetone and 2-butanone from 2-propanol and 2-butanol, but no growth was measurable.On the basis of morphological and biochemical features strain F could be excluded from the genus Methanobrevibacter. Due to its cell morphology, lipid composition and polyamine pattern it belonged to the genus Methanobacterium. From known members of this genus strain F could be distinguished either by a different G+C content of the DNA, low DNA-DNA homology with reference strains, lacking serological reactions with anti-S probes and differences in the substrate spectrum.An alcohol dehydrogenase activity, specific for secondary alcohols and its substrate specificity was determined in crude extracts of strain F. NADP⁺ was the only electron carrier that was utilized. No reaction was found with NAD⁺, F₄₂₀, FMN and FAD.Abbreviations NAD⁺ nicotinamide adenine dinucleotide - NADH₂ reduced form of NAD⁺ - NADP⁺ nicotinamide adenine dinucleotide phosphate - NADPH₂ reduced form of NADP⁺ - FMN flavin adenine mononucleotide - FAD flavin adenine dinucleotide - ADH alcohol dehydrogenase - F₄₂₀ 8-hydroxy-7,8-didemethyl-5-deazaflavin - SSC standard saline citrate (0.15 M NaCl, 0.015 M trisodium citrate, pH 7.5)     

Growth and pigment production byArthrobacter pyridinolis n. sp.

A new bacterium capable of growing on 2-hydroxypyridine as sole source of carbon and nitrogen was isolated from soil. During its growth on solid medium, approximately 50% of this substrate was converted to a brilliant blue crystalline pigment which was deposited extracellularly in the colony mass. The pigment was identical to that produced byArthrobacter crystallopoietes during its growth on 2-hydroxypyridine. The new isolate exhibited the typical cycle of morphogenesis characteristic of the genusArthrobacter. The organism is different from all other reported species ofArthrobacter. It is proposed that the organism be namedArthrobacter pyridinolis n. sp.List of Abbreviations MSP mineral salts phosphate basal culture medium containing 2-hydroxypyridine, yeast extract and trace salts - 2-HP 2-hydroxypyridine - PFU plaque forming units - G+C guanine+cytosine - T _m midpoint of thermal denaturation     

Stetteria hydrogenophila, gen. nov. and sp. nov., a novel mixotrophic sulfur-dependent crenarchaeote isolated from Milos, Greece

A new hyperthermophilic, strictly anaerobic crenarchaeote, Stetteria hydrogenophila DSM11227 representing a new genus within the family of Desulfurococcaceae, was isolated from the sediment of a marine hydrothermal system at Paleohori Bay in Milos, Greece. Cells are gram-negative irregular and disc-shaped cocci, 0.5–1.5 μm in diameter, which are flagellate and can form cytoplasmatic protrusions up to 2 μm in length. The strain grew optimally at 95°C at pH 6.0 and at a NaCl concentration of 3%. The organism grew mixotrophically on peptide substrates. It required elemental sulfur as an external electron acceptor, and in addition, its growth was completely dependent on the presence of molecular hydrogen. Sulfur could be replaced by thiosulfate. H₂S, CO₂, acetate, and ethanol were identified as products of metabolism. The G + C content of DNA was 65 mol%. Analysis of its phylogenetic position by sequence analysis of 16S rRNA placed this organism in the family of Desulfurococcaceae. The dependence of this organism on both hydrogen and sulfur during growth on peptide substrates distinguishes Stetteria from all previously described species of Crenarchaeota. Received: September 4, 1996 / Accepted: November 12, 1996     

Nutrition and factors limiting the growth of a methanogenic bacterium (Methanobacterium thermoautotrophicum)

The purification of Methanobacterium thermoautotrophicum from a culture contaminated with a heterotrophic organism is described. A defined inorganic medium under H₂/CO₂ (80:20 v/v) has been developed to support growth of M. thermoautotrophicum up to a concentration of at least 1.7 g dry weight/l. In a conventional medium iron and nitrogen sources were found to be growth-limiting factors. Throughout most of the culture period the rate of transfer of hydrogen or carbon dioxide from gas to liquid was the factor which controlled the growth rate.The growth yields of bacteria were in the range 0.6–1.6 g dry weight/mole CH₄.Abbreviation TGP thioglycollate peptone medium     

Isolation and characterization of a thermophilic Methanobacterium able to use formate,the strain FTF

A thermophilic anaerobic which produced methane from formate and H₂ and CO₂ was isolated from a bench-scale digester treating a mixture of solid wastes at 55°C, after enrichment cultures on sodium acetate. The cells were slightly crooked rods occurring singly or in filaments. The bacterium was not motile, and stained Gram positive. Colonies appearing after 1 week of incubation were white with filamentous edges and 1 mm in diameter. The organism used H₂:CO₂ or formate as an energy source. Yeast extract was not required but stimulated growth significantly. Casamino acids were stimulatory and could serve as a nitrogen source. Cysteine was used as a sulfur source. The optimum pH for growth was 7.5. Growth occurred from 35 to 70°C with an optimum at 55°C. The deoxyribonucleic acid base composition was 49.2 mol% guanine plus cytosine. Though this isolate conforms to Methanobacterium thermoformicium, its proper assignment awaits further studies. It has been deposited in the Deutsche Sammlung von Mikroorganismen as strain DSM 3012.This work was supported in part by the Conseil Régional Nord/Pas-de-Calais     

Effects of temperature, salinity and irradiance on the growth of the red tide dinoflagellate Gyrodinium instriatum Freudenthal et Lee

The effects of temperature, salinity and irradiance on the growth of the red tide dinoflagellate Gyrodinium instriatum Freudenthal et Lee were examined in the laboratory. Exposed to 45 different combinations of temperature (10–30 °C) and salinity (0–40) under saturating irradiance, G. instriatum exhibited its maximum growth rate of 0.7 divisions/day at a combination of 25 °C and a salinity of 30. Optimum growth rates (>0.5 divisions/day) were observed at temperatures ranging from 20 to 30 °C and at salinities from 10 to 35. The organism could not grow at ≤10 °C. In addition, G. instriatum burst at a salinity of 0 at all temperatures, but grew at a salinity of 5 at temperatures between 20 and 25 °C. It is noteworthy that G. instriatum is a euryhaline organism that can live under extremely low salinity. Factorial analysis revealed that the contributions of temperature and salinity to its growth of the organism were almost equal. The irradiance at the light compensation point (I₀) was 10.6 μmol/(m² s) and the saturated irradiance for growth (I_s) was 70 μmol/(m² s), which was lower than I_s for several other harmful dinoflagellates (90–110 μmol/(m² s)).     

Isolation and characterization of a new coccoid methanogen,Methanogenium tatii spec. nov. from a solfataric field on Mount Tatio

A new coccoid methanogen, Methanogenium tatii, was isolated and characterized. The mesophilic isolate can grow on and produce methane from H₂:CO₂ and formate. For growth acetate is strictly required. The cell shape, the G+C content of 54 mol% and DNA-DNA homology data suggest it to be a Methanogenium species.Abbreviations G+C Guanine+Cytosine - SDS Sodium dodecylsulfate     

Eubacterium angustum sp. nov., a Gram-positive anaerobic,non-sporeforming,obligate purine fermenting organism

A strictly anaerobic, uric acid, xanthine, and guanine fermenting bacterium was isolated from sewage sludge requiring thiamine as a vitamin. Acetate, formate, ammonia and CO₂ were products. Cells were Gram-positive, straight rods, 3 to 6.5 m long and 1.1 to 1.5 m wide. They were non-motile, however, possessed flagella. Spore formation could not be obtained. The guanine-plus-cytosine content (G+C) of its deoxyribonucleic acid was 40.3 mol%. Based on these features, the organism belongs to the genus Eubacterium. Due to its restricted substrate spectrum and its inability to utilize arginine or to form cytochromes like E. lentum, this organism did not resemble any of the previously described species of Eubacterium. Therefore, it is proposed to form a new species Eubacterium angustum sp. nov.This paper is dedicated to Prof. Dr. Hans G. Schlegel on the occasion of his 60th birthday     

Clostridium grantii sp. nov., a new obligately anaerobic,alginolytic bacterium isolated from mullet gut

A gram-positive, motile, rod-shaped, strictly anaerobic, sporulating bacterium was isolated from an enrichment initiated with mullet gut contents. The organism grew optimally at 30°C and pH6.5, and at a salinity of 1–10³. Out of a variety of polysaccharides tested as growth substrates, only alginate supported growth in either semidefined or complex culture medium. The organism also grew on a variety of mono- and disaccharides. Moles product per 100mol of alginate monomer degraded were: acetate, 186; ethanol, 19; formate, 54; and CO₂, 0.19. Moles product per 100mol of hexose in cellobiose or glucose degraded were: acetate, 135; ethanol,61; formate, 63: and CO₂, 61. Hydrogen was not detectable during the incubations (detection limit, <10^-5atm) and propionate, butyrate, lactate, or succinate were not produced as fermentation end products (<2 mol per 100 mol of monomer). The G+C content of DNA from the bacterium was 30.2±0.3 mol%, and the cell walls contained the peptidoglycan component meso-diaminopimelic acid. A phylogenetic analysis of the 16S rDNA sequence indicated that the organism grouped closely with members of the RNA-DNA homology group 1 of the genus Clostridium. However, it differed from other species of the genus with regard to morphology, growth temperature optimum, substrate range, and fermentation pattern and is therefore designated as a new species of Clostridium; the type strain is A-1 (DSM 8605).     

Isolation and characterization of Dehalospirillum multivorans gen. nov., sp. nov., a tetrachloroethene-utilizing,strictly anaerobic bacterium

A strictly anaerobic bacterium dechlorinating tetrachloroethene (perchloroethylene, PCE) via trichloroethene (TCE) to cis-1,2-dichloroethene (DCE) was isolated from activated sludge with pyruvate plus PCE as energy substrates. The organism, called Dehalospirillum multivorans, is a gram-negative spirillum that does not form spores. The G+C content of the DNA was 41.5 mol%. According to 16S rRNA gene sequence analysis, D. multivorans represents a new genus and a new species belonging to the epsilon subdivision of Proteobacteria. Quinones, cytochromes b and c, and corrinoids were extracted from the cells. D. multivorans grew in defined medium with PCE and H₂ as sole energy sources and acetate as carbon source; the growth yield under these conditions was 1.4g of cell protein per mol chloride released. Alternatively to PCE, fumarate and nitrate could serve as electron acceptors; sulfate could not replace fumarate, nitrate, or PCE in this respect. In addition to H₂, the organism utilized a variety of electron donors for dechlorination (pyruvate, lactate, ethanol, formate, glycerol). Upon growth on pyruvate plus PCE, the main fermentation products formed were acetatc, lactate, DCE, and H₂. At optimal pH (7.3–7.6) and temperature (30°C), and in the presence of pyruvate (20mM) and PCE (160M), a dechlorination rate of about 50 nmol min^-1 (mg cell protein)^-1 and a doubling time of about 2.5h were obtained with growing cultures. The ability to reduce PCE to DCE appears to be constitutive under the experimental conditions applied since cultures growing in the absence of PCE for several generations immediately started dechlorination when transferred to a medium containing PCE. The organism may be useful for bioremediation of environments polluted with tetrachloroethene.Abbreviations PCE Perchloroethylene, tetrachloroethene - TCE Trichloroethene - DCE cis-1,2-Dichloroethene - CHC Chlorinated hydrocarbon     

Isolation and physiological characterisation of Thiobacillus thyasiris sp. nov., a novel marine facultative autotroph and the putative symbiont of Thyasira flexuosa

A novel facultatively chemolithoautotropic Thiobacillus, isolated from the gill tissue of the marine bivalve Thyasira flexuosa, is described. It is believed to be the symbiont from this animal, providing the animal with carbon fixed by the Calvin cycle. The organism grows lithoautotrophically on thiosulphate, tetrathionate and elemental sulphur, which are oxidised to sulphate. It oxidizes sulphide, thiosulphate, trithionate, tetrathionate and hexathionate, but not thiocyanate. Kinetic constants for these substrates are presented. In autotrophic batch culture it produces yields that are among the lowest reported for thiosulphate or tetrathionate as energy substrates (1.25 and 2.5 g cell-carbon per mol substrate, respectively). Autotrophic cultures contain ribulose bisphosphate carboxylase and excreted 20% of their fixed carbon into the medium during growth. Mixotrophic growth on acetate and thiosulphate resulted in partial repression of the carboxylase. The organism is slightly halophilic and markedly halotolerant, showing optimum growth at about pH 7.5 and maximum growth rate at 37° C. It contains ubiquinone Q-10 and its DNA contains 52 mol % G+C. These characteristics distinguish it from any other Thiobacillus or Thiomicrospira species previously described. The organism is formally described and named as Thiobacillus thyasiris.     

Thermodynamic and kinetic analysis of the H2 threshold for Methanobacterium bryantii M.o.H

H₂ thresholds, concentrations below which H₂ consumption by a microbial group stops, have been associated with microbial respiratory processes such as dechlorination, denitrification, sulfate reduction, and methanogenesis. Researchers have proposed that observed H₂ thresholds occur when the available Gibbs free energy is minimal (ΔG ≈ 0) for a specific respiratory reaction. Others suggest that microbial kinetics also may play a role in controlling the thresholds. Here, we comprehensively evaluate H₂ thresholds in light of microbial thermodynamic and kinetic principles. We show that a thermodynamic H₂ threshold for Methanobacterium bryantii M.o.H. is not controlled by ΔG for methane production from H₂ + HCO₃⁻. We repeatedly attain a H₂ threshold near 0.4 nM, with a range of 0.2–1 nM, and ΔG for methanogenesis from H₂ + HCO₃⁻ is positive, +5 to +7 kJ/mol-H_2, at the threshold in most cases. We postulate that the H₂ threshold is controlled by a separate reaction other than methane production. The electrons from H₂ oxidation are transferred to an electron sink that is a solid-phase component of the cells. We also show that a kinetic threshold (S _min) occurs at a theoretically computed H₂ concentration of about 2400 nM at which biomass growth shifts from positive to negative.     

Isolation and characterization of a marine Anabaena sp. capable of rapid growth on molecular nitrogen

A marine filamentous cyanobacterium capable of rapid growth under N₂-fixing conditions has been isolated from the Texas Gulf Coast. This organism appears to be an Anabaena sp. and has been given the strain designation CA. Cultures grown on mineral salts medium bubbled with 1% CO₂-enriched air at 42°C show a growth rate of 5.6±0.1 generations per day with molecular nitrogen as the sole nitrogen source. This growth rate is higher than any other reported in the literature to date for heterocystous cyanobacteria growing on N₂. Under similar growth conditions, 7.5 mM NH₄Cl yields a growth rate of 6.6±0.1 generations per day while 7.5 mM KNO₃ allows for a growth rate of 5.8±0.4 generations-day. Nitrogen-fixation rates, as measured by acetylene reduction, show maximum activity values in the range of 50–100 nmoles ethylene produced/minxmg protein. These values compare favorably with those obtained from heterotrophic bacteria and are much higher than values reported for other cyanobacteria. Growth experiments indicate that the organism requires relatively high levels of sodium and grows maximally at 42°C. Because of its high growth rate on N₂, this newly isolated organism appears ideal for studying nitrogen metabolism and heterocyst development among the cyanobacteria.     

Isolation and characterization of Methanoplanus endosymbiosus sp. nov., an endosymbiont of the marine sapropelic ciliate Metopus contortus quennerstedt

Epifluorescence microscopy revealed the presence of a methanogenic bacterium as an endosymbiont in the sapropelic marine ciliate Metopus contortus. The in situ methanogenic activity of the symbiont could be demonstrated. The isolated endosymbiont was an irregular, disc-shaped bacterium with a diameter of 1.6–3.4 m. It had a generation time of 7 or 12 hours on growth on H₂/CO₂ or formate, respectively. The temperature range for growth was between 16 and 36°C with an optimum at 32°C. The optimal pH range for growth was 6.8 to 7.3. Salts, with an optimum concentration of 0.25 M, and tungsten were required for growth. The mol% G+C was 38.7%. The cell envelope consisted of proteins and a glycoprotein with an apparent molecular weight of 110,000. Morphology, antigenic relationship and the G+C content established the isolate MC1 as a new species of the genus Methanoplanus, and the name Methanoplanus endosymbiosus is proposed.Abbreviations G+C Guanine+cytosine - SDS sodium dodecylsulfate - PIPES piperazine-N,N-bis (2-ethane) sulfonic acid     

Isolation and physiological characterisation of Thiobacillus aquaesulis sp. nov., a novel facultatively autotrophic moderate thermophile

A moderately thermophilic, facultatively chemolithoautotrophic thiobacillus isolated from a thermal sulphur spring is described. It differs from all other species currently known to be in culture. It grows lithoautotrophically on thiosulphate, trithionate or tetrathionate, which are oxidized to sulphate. Batch cultures on thiosulphate do not produce tetrathionate, but do precipitate elemental sulphur during growth. In autotrophic chemostat cultures the organism produces yields on thiosulphate, trithionate and tetrathionate that are among the highest observed for a Thiobacillus. Autotrophic cultures contain ribulose bisphosphate carboxylase. Heterotrophic growth has been observed only on complex media such as yeast extract and nutrient broth. It is capable of autotrophic growth and denitrification under anaerobic conditions with thiosulphate and nitrate. It grows between 30 to 55° C, and pH 7 to 9, with best growth at about 43°C and pH 7.6. It contains ubiquinone Q-8, and its DNA contains 65.7 mol% G+C. The organism is formally described and named as Thiobacillus aquaesulis.Now the Department of Biological Sciences     

Isolation and characterization of a strictly xylan-degrading Dictyoglomus from a man-made,thermophilic anaerobic environment

A thermophilic, strictly anaerobic eubacterium which utilized an unusually limited range of substrates was isolated from a sludge and pulp sample from a paperpulp cooling tank at a paper-board factory in Finland. The organism grew only with beech wood or oat spelt xylan; no growth occurred with soluble sugars, other polysaccharides, peptone, or yeast extract. The organism was rod-shaped, long (up to 20 m), thin (0.3 m), gramnegative, and in late-exponential and stationary phase cultures formed ball of yarn like structures; endospores were not observed and the organism was not motile. The organism grew fastest (=0.08 – 0.09 h^-1) at 65 to 75°C and pH 6.5 to 8.4, with a maximum growth temperature between 75 and 80°C and an upper pH limit near 9. During growth on beech xylan the isolate produced only acetate, H₂, and CO₂ as fermentation products. The guanine + cytosine (G+C) content of the isolates cellular DNA was 34%. The unusual morphology of the isolate is characteristic of the genus Dictyoglomus, and the limited substrate range, higher G+C ratio, and different fermentation products indicated that the isolate was a new species in that genus.     

A new anaerobic bacterium,forming up to five endospores per cell —Anaerobacter polyendosporus gen. et spec. nov.

An obligately anaerobic sporeforming bacterium assigned to a new genus and species Anaerobacter polyendosporus gen. et spec. nov. is described. Characteristic features distinguishing the bacterium from known anaerobic sporeformers were variable cell shape, including spherical, the ability to form up to five endospores per cell, diffusive distribution of reserve polysaccharide throughout the cytoplasm, independence from growth factors. The eubacterial nature of the organism was revealed by its sensitivity to 1 mg/l of streptomycin, rifampicin, penicillin and to lysozyme. It belonged to Firmicutes by the type of cell wall structure. The cell wall consisted of one layer; the outer membrane was absent. The cells were not motile. The spores were spherical or oval, heat-resistant, contained dipicolinic acid and had typical endospore structure. Cortex, coats, spore coare, and in most cases exosporium could be distinguished. The bacterium fermented carbohydrates, but not amino acids. The products of fermentation included ethanol, acetate, lactate, butyrate, butanol, H₂ and CO₂. Sulfate or nitrate could not be used as electron acceptors, but nitrite was reduced to NH ₄ ⁺ in a dissimilatory process. The bacterium was capable of fixing N₂. The G + C content of the DNA was 29 mol %. The bacterium was isolated from meadow-gley soil.     

Formate utilization by members of the genus Methanobacterium

Washed cell suspensions of Methanobacterium formicicum MF, Methanobacterium bryantii M.o.H.G. and Methanobacterium strain FR-2 but not Methanobacterium bryantii M.o.H., were shown to produce hydrogen and methane from formate. Levels of dissolved gases (H₂ and CH₄) were continuously and simultaneously monitored within a closed reaction vessel using membrane inlet mass spectrometry. Growth on formate (0–50mM), measured by methane production and increase in absorbance, was observed for both M. formicicum MF and M. bryantii M.o.H.G. but not with Methanobacterium strain FR-2 or M. bryantii M.o.H.     

Halonatronum saccharophilum gen. nov. sp. nov.: A New Haloalkaliphilic Bacterium of the Order Haloanaerobiales from Lake Magadi

A new alkaliphilic and moderately halophilic chemoorganotrophic anaerobic bacterium (strain Z-7986), which is spore-forming, rod-shaped, and has a gram-negative cell wall pattern, was isolated from the coastal lagoon mud of the highly mineralized Lake Magadi (Kenya). The organism is an obligatorily carbonate- and sodium chloride-dependent motile peritrichously flagellated rod that grows within a 3–17% NaCl concentration range (with an optimum at 7–12% NaCl) and within a pH range of 7.7–10.3 (with an optimum at pH values of 8–8.5). It is a moderate thermophile with a broad temperature optimum at 36–55°C; maximum growth temperature is 60°C. The bacterium catabolizes glucose, fructose, sucrose, maltose, starch, glycogen, N-acetyl-D-glucosamine, and, to a slight degree, peptone and yeast extract. Its anabolism requires yeast extract or casamino acids. Glucose fermentation yields formate, acetate, ethanol, H₂, and CO₂. The bacterium is sulfide-tolerant and capable of the nonspecific reduction of S⁰ to H₂S. The G+C content of the DNA is 34.4 mol %. The analysis of the 16S rRNA sequence revealed that strain Z-7986 belongs to the order Haloanaerobiales and represents a new genus in the family Halobacteroidaceae. We suggest the name Halonatronum saccharophilum gen. nov. sp. nov. The type strain of this species is Z-7986^T (= DSM13868, = Uniqem*211).