Hydrogen-oxidizing Methane Bacteria I. Cultivation and Methanogenesis

A method for the mass culture of hydrogen-oxidizing methane bacteria has been developed; yields of 50 to 60 g (wet weight) of cells per 12 to 14 liters of culture medium were obtained. The methanogenic organism from the culture of Methanobacillus omelianskii was grown in a complex medium which was aerated with a gas mixture of hydrogen and carbon dioxide. Extracts prepared from hydrogen-grown cells formed methane from methyl cobalamin, 5-methyl tetrahydrofolate, serine, pyruvate, and carbon dioxide; these substrates have been shown to be precursors of methane in extracts of the ethyl alcohol-grown culture of M. omelianskii.     

Ethanol production from starch by a coimmobilized mixed culture system of Aspergillus awamori and Saccharomyces cerevisiae

The development of a coimmobilized mixed culture sys tem of aerobic and facultative anaerobic microorganisms in Ca-alginate gel beads and the production of useful metabolites by the system were investigated. A coimmobilized mixed culture system of Aspergillus awamori (obligate aerobe) and Saccharomyces cerevisiae (facultative anaerobe) in Ca-alginate gel beads was used as a model system, and ethanol production from starch by the system was used as a model production. Mold Asp. awamori is an amylolytic microorganism while yeast S. cerevisiae is an ethanol producer. The two microorganisms grew competitively in the oxygen-rich surface area of the gel beads because they had similar oxygen demands in aerobic culture conditions. Neither microorganism exhibited "habitat segregation" in the gel beads and leaked yeast cells grew aerobically without ethanol production in the broth. Ethanol productivity was low under these conditions.A more desirable coimmobilized mixed culture system of Asp. awamori and S. cerevisiae was established by adding Vantocil IB (a biocidal compound) to the production medium. The antimicrobial activity of Vantocil IB was more effective with S. cerevisiae than with Asp. awamori, so that a dense mycelial layer of Asp. awamori formed in the surface of the gel beads While S. cerevisiae grew densely in the more inner areas of the gel beads. Also, yeast cell leakace was repressed and ethanol productivity was improved. The system with Vantocil IB produced ethanol of 4.5 and 12.3 g/L from 16 and 40 g/L starch, respectively. A continuous culture using this system with Vantocil IB was also carried out, and a stable steady state could be maintained for six days without leakage of yeast cells and contamination. The selection of a factor suitable for producing "habitat segregation" enabled the development of a coimmobilized mixed culture system of an aerobe and a facultative anaerobe. In this study, total habitat segregation was used to denote a tendency to exhibit denser growth in different parts of one gel bead.     

Isolation and characterization of human fecal bacteria capable of 21-dehydroxylating corticoids.

It has been known for a decade that human intestinal flora include organisms capable of 21-dehydroxylating corticoids. Yet the identity of the organisms synthesizing 21-dehydroxylase has remained unknown. Using diluted human feces, we determined the prevalence of colonies of 21-dehydroxylating organisms on a variety of media. Isolation from the medium of colonies with the highest prevalence yielded an obligate anaerobe capable of 21-dehydroxylating deoxycorticosterone and tetrahydrodeoxycorticosterone. This transformation could be carried out in a prereduced medium by the microbial culture alone or in an aerobic medium reduced by growth of Escherichia coli. The culture shares many characteristics with Eubacterium lentum, the neotype strain of which elaborated both 21-dehydroxylase and 3alpha-hydroxysteroid dehydrogenase.     

Isolation and characterization of human fecal bacteria capable of 21-dehydroxylating corticoids.

It has been known for a decade that human intestinal flora include organisms capable of 21-dehydroxylating corticoids. Yet the identity of the organisms synthesizing 21-dehydroxylase has remained unknown. Using diluted human feces, we determined the prevalence of colonies of 21-dehydroxylating organisms on a variety of media. Isolation from the medium of colonies with the highest prevalence yielded an obligate anaerobe capable of 21-dehydroxylating deoxycorticosterone and tetrahydrodeoxycorticosterone. This transformation could be carried out in a prereduced medium by the microbial culture alone or in an aerobic medium reduced by growth of Escherichia coli. The culture shares many characteristics with Eubacterium lentum, the neotype strain of which elaborated both 21-dehydroxylase and 3alpha-hydroxysteroid dehydrogenase.     

工业微生物：创新与突破专刊序言(2021)

工业微生物及其产品广泛用于工业、农业、医药等诸多领域,相关产业在国民经济中具有举足轻重的地位。高效的菌株是提高生产效率的核心,而先进发酵技术和仪器平台对充分开发菌株代谢潜能也很重要。近年来,工业微生物领域的研究取得了快速进展,人工智能、高效基因组编辑技术和合成生物学技术逐渐广泛使用,相关产业应用也在不断扩展。为进一步促进工业微生物在生物制造等领域的应用,《生物工程学报》特组织出版专刊,从微生物菌株的多样性和生理代谢、菌株改造技术、发酵过程优化和放大,高通量微液滴培养装备开发以及工业微生物应用等方面,分别阐述目前的研究进展,并展望未来的发展趋势,为促进工业微生物及生物制造等产业的发展奠定基础。     

Components required for the formation of CH-4 from methylcobalamin by extracts of Methanobacillus omelianskii

Wood, J. M. (University of Illinois, Urbana), and R. S. Wolfe. Components required for the formation of CH(4) from methylcobalamin by extracts of Methanobacillus omelianskii. J. Bacteriol. 92:696-700. 1966.-Optimal conditions for the formation of CH(4) from methylcobalamin (methyl-cobalt-5,6-dimethylbenzimidazolylcobamide) by partially purified extracts of Methanobacillus omelianskii (Methanobacterium omelianskii) were achieved by the addition of two protein fractions, adenosine triphosphate, Mg(++), and a reduced flavin adenine dinucleotide-generating system. Adenosine diphosphate and adenosine monophosphate play an important role in the regulation of C(1) transfer in this reaction. The possible position of adenosine triphosphate in B(12)-dependent methyl transfer is discussed.     

Use of Fe(III) as an electron acceptor to recover previously uncultured hyperthermophiles: isolation and characterization of Geothermobacterium ferrireducens gen. nov., sp. nov

It has recently been recognized that the ability to use Fe(III) as a terminal electron acceptor is a highly conserved characteristic in hyperthermophilic microorganisms. This suggests that it may be possible to recover as-yet-uncultured hyperthermophiles in pure culture if Fe(III) is used as an electron acceptor. As part of a study of the microbial diversity of the Obsidian Pool area in Yellowstone National Park, Wyo., hot sediment samples were used as the inoculum for enrichment cultures in media containing hydrogen as the sole electron donor and poorly crystalline Fe(III) oxide as the electron acceptor. A pure culture was recovered on solidified, Fe(III) oxide medium. The isolate, designated FW-1a, is a hyperthermophilic anaerobe that grows exclusively by coupling hydrogen oxidation to the reduction of poorly crystalline Fe(III) oxide. Organic carbon is not required for growth. Magnetite is the end product of Fe(III) oxide reduction under the culture conditions evaluated. The cells are rod shaped, about 0.5 microm by 1.0 to 1.2 microm, and motile and have a single flagellum. Strain FW-1a grows at circumneutral pH, at freshwater salinities, and at temperatures of between 65 and 100 degrees C with an optimum of 85 to 90 degrees C. To our knowledge this is the highest temperature optimum of any organism in the BACTERIA: Analysis of the 16S ribosomal DNA (rDNA) sequence of strain FW-1a places it within the Bacteria, most closely related to abundant but uncultured microorganisms whose 16S rDNA sequences have been previously recovered from Obsidian Pool and a terrestrial hot spring in Iceland. While previous studies inferred that the uncultured microorganisms with these 16S rDNA sequences were sulfate-reducing organisms, the physiology of the strain FW-1a, which does not reduce sulfate, indicates that these organisms are just as likely to be Fe(III) reducers. These results further demonstrate that Fe(III) may be helpful for recovering as-yet-uncultured microorganisms from hydrothermal environments and illustrate that caution must be used in inferring the physiological characteristics of at least some thermophilic microorganisms solely from 16S rDNA sequences. Based on both its 16S rDNA sequence and physiological characteristics, strain FW-1a represents a new genus among the Bacteria. The name Geothermobacterium ferrireducens gen. nov., sp. nov., is proposed (ATCC BAA-426).     

Emulsification and degradation of "Bunker C" fuel oil by microorganisms

An enrichment culture procedure has been used to isolate mixed culture systems which grow upon “Bunker C” fuel oil. When inoculated into a mineral salts aqueous medium containing Bunker C oil, the mixed cultures initiate oil emulsification. Emulsification usually is observed in 24–48 hr. The role of microbes in this emulsification will be discussed. It appears that certain metabolic products produced by the microbe possess properties of surfactants. Bacteria and fungi have been isolated which possess the ability to cause emulsification. Freeze-dried biomass is also capable of emulsifying oil. Chromatographic analyses of biodegraded Bunker C fuel oil show that microorganisms selectively metabolize the n-paraffin fraction.     

肠道微生物培养的研究进展及应用

肠道中栖居着组成复杂、功能多样的微生物群,这些微生物群在宿主免疫、营养吸收、代谢调节等方面发挥着重要作用。随着测序技术的快速发展,肠道微生物研究通过16S rRNA基因测序和宏基因组测序产生了大量的数据,其中许多未组装的序列成为微生物“暗物质”。近年来,不少研究利用多种不同微生物分离培养方法,结合高通量鉴定技术,从人、小鼠、猪肠道中分离了大量的微生物,丰富了菌株资源,为解析微生物“暗物质”以及后续肠道微生物功能和应用研究提供了基础和保障。尽管微生物的可培养性受到多种因素的影响,大部分微生物尚处于“未培养”的状态,但无论是病因研究还是生理和遗传特征的解析都离不开微生物实体资源的获取。肠道微生物的分离培养对微生物研究从关联分析向菌群功能验证、因果机制解析和功能菌株开发的深入研究具有重要意义。本文旨在探讨和综述影响微生物可培养性的因素,总结回顾肠道微生物的培养方法并阐述肠道微生物培养研究的进展,以期为肠道微生物培养研究提供新的视角。     

Metabolic network model of a human oral pathogen

The microbial community present in the human mouth is engaged in a complex network of diverse metabolic activities. In addition to serving as energy and building-block sources, metabolites are key players in interspecies and host-pathogen interactions. Metabolites are also implicated in triggering the local inflammatory response, which can affect systemic conditions such as atherosclerosis, obesity, and diabetes. While the genome of several oral pathogens has been sequenced, quantitative understanding of the metabolic functions of any oral pathogen at the system level has not been explored yet. Here we pursue the computational construction and analysis of the genome-scale metabolic network of Porphyromonas gingivalis, a gram-negative anaerobe that is endemic in the human population and largely responsible for adult periodontitis. Integrating information from the genome, online databases, and literature screening, we built a stoichiometric model that encompasses 679 metabolic reactions. By using flux balance approaches and automated network visualization, we analyze the growth capacity under amino-acid-rich medium and provide evidence that amino acid preference and cytotoxic by-product secretion rates are suitably reproduced by the model. To provide further insight into the basic metabolic functions of P. gingivalis and suggest potential drug targets, we study systematically how the network responds to any reaction knockout. We focus specifically on the lipopolysaccharide biosynthesis pathway and identify eight putative targets, one of which has been recently verified experimentally. The current model, which is amenable to further experimental testing and refinements, could prove useful in evaluating the oral microbiome dynamics and in the development of novel biomedical applications.     

Method for studying the adaptation of Escherichia coli to the acidification of the medium

Apparatus permitting to regulate the growth rate of turbidostat culture of microorganisms has been worked out. The process of adaptation of culture microorganisms to the medium acidity has been investigated by the stabilization of growth rate method. The correlation coefficients between adaptation time and changes of acid concentration in medium have been determined. The effect of aeration and density of microorganisms on the parameters of adaptation process has been considered. The conclusion concerning prospects of the growth rate stabilization method application for studying the regularities of culture microorganisms adaptation to the action of the stress has been made.     

A structured model for simulation of cultures of the cyanobacterium Spirulina platensis in photobioreactors: II. Identification of kinetic parameters under light and mineral limitations

A structured model for the culture of cyanobacteria in photobioreactors is developed on the basis of Schuster's approximations for radiative light transfer. This model is therefore limited to monodimensional geometries and kinetic aspects.Light-harvesting pigments play a crucial role in defining the profile of radiative transfer inside the culture medium and in controlling the metabolism, particularly the metabolic deviations induced by mineral limitations. Modeling therefore requires the biomass to be divided into several compartments, among which the light-harvesting compartment allows a working illuminated volume to be defined within the photobioreactor. This volume may change during batch cultures, largely decreasing as pigment concentration increases during growth but increasing as pigments are consumed during mineral limitation. This approach enables, in photobioreactors of simple parallelepipedic, geometries, kinetic parameters to be determined with high accuracy; this may then be extended to vessels of more complex geometries, such as cylindrical photobioreactors.The model is applied to controlled batch cultures of the cyanobacterium Spirulina platensis in parallelepipedic photobioreactors to assess its ability to predict the behavior of these microorganisms in conditions of light and mineral limitations. Results allowed the study of optimal operating condition for continuous cultures to be approached (c) 1992 John Wiley & Sons, Inc.     

平板混合培养木质纤维素降解菌研究进展

微生物的混合培养已广泛应用于木质纤维素类物质的转化与降解领域.不同木质纤维素降解菌在混合培养时的相互关系在很大程度上影响混合培养的效果.目前对这种相互关系的研究主要依托平板混合培养展开,所用到的平板主要有基础培养基平板和改进培养基平板两种.其中基础培养基平板法主要根据菌落形态、菌丝体颜色、胞外挥发性有机化合物成分和典型胞外酶活性等进行研究,而改进培养基平板则是将基础培养基平板中的碳源更换为天然木质纤维素类物质进行对比研究.本文综述了采用平板混合培养不同木质纤维素降解菌菌株的研究现状和进展,并对该领域研究应重点关注的问题进行了展望.     

Analysis of the physiological control of replication of ColE1-type plasmids

The physiology of ColE1-type plasmid replication in a growing host has been examined both theoretically, using computer simulation, and experimentally, by observing replication of the plasmid pBR322 after a nutritional shift-up from glycerol minimal medium (doubling time 71 min) to LB medium (doubling time 24 min). The theory was based on a negative control model and uses three rate equations: for the accumulation of cell mass, for the accumulation of the replication inhibitor, and for the rate of plasmid synthesis. The implications of the theory were explored by simulating the effects of changes in the expression of replication control genes. The nutritional shift-up experiment showed that plasmid replication was blocked immediately after the shift for about half a mass doubling time; after that time, replication rapidly increased until plasmid numbers per unit volume of culture parallelled the increase in culture mass. After the establishment of steady-state growth in the post-shift medium, the plasmid concentration (plasmids per cell mass) was reduced in comparison to pre-shift growth in the same proportion as the culture doubling time. The results showed that plasmid replication factors are under metabolic control and that the changes in the control of these factors compensate one another during steady-state growth, but not immediately after the medium shift.     

Method of culturing microorganisms at constant concentrations of the nutrient components

A method for batch cultivation of microorganisms in a flow medium is described, characterized by slight changes in concentrations of medium components in time and by the absence of products of vital activity of microorganisms in the fermentation medium. The conditions are achieved due to application of a fermentation installation with a microfiltrative membrane that separates the cells of cultivated microorganisms from the culture fluid and due to increasing the flow rate to a value at which the inlet and outlet concentrations of the medium components are almost equal. The cells of cultivated microorganisms under such conditions remain in the fermentation medium volume. The system was called "Ekostat". If the process is performed in "Ekostat" system, a positive deviation from the logarithmic law is observed for the growth rate of the yeast Candida utilis VSB-651 on ethanol cultivation.     

Nonesterified fatty acid accumulation and release during heart muscle-cell (myocyte) injury: modulation by extracellular "acceptor"

Long-chain nonesterified fatty acid (NEFA) accumulation in the heart muscle cell (myocyte) and NEFA release to the extracellular milieu are considered contributors to the pathogenesis of myocardial injury in a number of cardiovascular disease states. Reported here is a study of the factors which influence and control the interactions among NEFA formation, intracellular NEFA accumulation, and NEFA release to the extracellular compartment by the irreversibly injured myocyte. Under conditions of metabolic inhibition, neonatal rat myocytes in primary monolayer culture became virtually depleted of ATP within 8 h. The metabolically inhibited myocytes evidenced membrane phospholipid degradation and a resultant net accumulation of NEFA produced thereby in the extracellular medium. However, under conditions of nutrient deprivation, the injured myocytes retained the NEFA produced from phospholipid catabolism intracellularly and did not release it to the culture medium, although the extent of myocyte ATP depletion was the same as it had been from metabolic inhibition. Serum could elicit, in a concentration-dependent fashion, the quantitative release of NEFA from metabolically inhibited myocytes to the culture medium but did not influence the net production of NEFA by the injured cells. Similarly, NEFA release from nutrient-deprived myocytes incubated in serum-free, substrate-free medium or in physiological buffer could be induced by supplementing the medium or buffer with bovine serum albumin (BSA), and the extent of NEFA release, but not NEFA formation, was dependent upon the extracellular BSA concentration. No manipulations to media other than changing their serum content or supplementing them with BSA were found to influence the disposition of NEFA produced during phospholipid catabolism in the irreversibly injured, ATP-depleted myocyte. Therefore, although progressive metabolic compromise in the myocyte was correlated with increasing, net NEFA formation, the distribution of the NEFA between the intracellular and the extracellular compartments was not determined by the magnitude of ATP loss or by the nature or duration of at least two injury stimuli, metabolic inhibition and nutrient deprivation. Rather, the net release of NEFA from the ATP-depleted myocyte to the culture medium and the consequent reduction of intracellular myocyte NEFA overload were critically and causally dependent upon the presence and concentration of extracellular NEFA "acceptor". The influence of acceptor on the mobilization of NEFA from the injured myocyte has implications regarding the use of NEFA release as an index of myocyte pathology and could serve to modify the progression and extent of myocardial injury in vivo.     

Optimization of growth medium for <Emphasis Type="Italic">Sporosarcina pasteurii</Emphasis> in bio-based cement pastes to mitigate delay in hydration kinetics

Microbial-induced calcium carbonate precipitation has been identified as a novel method to improve durability and remediate cracks in concrete. One way to introduce microorganisms to concrete is by replacing the mixing water with a bacterial culture in nutrient medium. In the literature, yeast extract often has been used as a carbon source for this application; however, severe retardation of hydration kinetics has been observed when yeast extract is added to cement. This study investigates the suitability of alternative carbon sources to replace yeast extract for microbial-induced calcium carbonate precipitation in cement-based materials. A combination of meat extract and sodium acetate was identified as a suitable replacement in growth medium for Sporosarcina pasteurii; this alternative growth medium reduced retardation by 75 % (as compared to yeast extract) without compromising bacterial growth, urea hydrolysis, cell zeta potential, and ability to promote calcium carbonate formation.     

Use of Fe(III) as an Electron Acceptor To Recover Previously Uncultured Hyperthermophiles: Isolation and Characterization of Geothermobacterium ferrireducens gen. nov., sp. nov.

It has recently been recognized that the ability to use Fe(III) as a terminal electron acceptor is a highly conserved characteristic in hyperthermophilic microorganisms. This suggests that it may be possible to recover as-yet-uncultured hyperthermophiles in pure culture if Fe(III) is used as an electron acceptor. As part of a study of the microbial diversity of the Obsidian Pool area in Yellowstone National Park, Wyo., hot sediment samples were used as the inoculum for enrichment cultures in media containing hydrogen as the sole electron donor and poorly crystalline Fe(III) oxide as the electron acceptor. A pure culture was recovered on solidified, Fe(III) oxide medium. The isolate, designated FW-1a, is a hyperthermophilic anaerobe that grows exclusively by coupling hydrogen oxidation to the reduction of poorly crystalline Fe(III) oxide. Organic carbon is not required for growth. Magnetite is the end product of Fe(III) oxide reduction under the culture conditions evaluated. The cells are rod shaped, about 0.5 μm by 1.0 to 1.2 μm, and motile and have a single flagellum. Strain FW-1a grows at circumneutral pH, at freshwater salinities, and at temperatures of between 65 and 100°C with an optimum of 85 to 90°C. To our knowledge this is the highest temperature optimum of any organism in the Bacteria. Analysis of the 16S ribosomal DNA (rDNA) sequence of strain FW-1a places it within the Bacteria, most closely related to abundant but uncultured microorganisms whose 16S rDNA sequences have been previously recovered from Obsidian Pool and a terrestrial hot spring in Iceland. While previous studies inferred that the uncultured microorganisms with these 16S rDNA sequences were sulfate-reducing organisms, the physiology of the strain FW-1a, which does not reduce sulfate, indicates that these organisms are just as likely to be Fe(III) reducers. These results further demonstrate that Fe(III) may be helpful for recovering as-yet-uncultured microorganisms from hydrothermal environments and illustrate that caution must be used in inferring the physiological characteristics of at least some thermophilic microorganisms solely from 16S rDNA sequences. Based on both its 16S rDNA sequence and physiological characteristics, strain FW-1a represents a new genus among the Bacteria. The name Geothermobacterium ferrireducens gen. nov., sp. nov., is proposed (ATCC BAA-426).     

Ferredoxin-Dependent Conversion of Acetaldehyde to Acetate and H2 in Extracts of S Organism

S organism, an anaerobic gram-negative rod, which is one of two bacterial species isolated from the culture known as "Methanobacillus omelianskii," ferments ethanol to acetate and H(2). The present study shows that extracts of this organism contain ferredoxin and produce acetate from acetaldehyde via aldehyde: ferredoxin oxidoreductase activity. Electrons generated in the reaction are given off as H(2) by a previously demonstrated ferredoxin-linked hydrogenase system. Extracts were shown to contain good phosphotransacetylase and acetokinase activities, but no mechanism of adenosine triphosphate generation during acetaldehyde conversion to acetate could be detected. No evidence could be obtained for coenzyme A (CoASH) or phosphate requirement or for formation of acetyl CoA or acetyl phosphate.     

BACTERIAL OXIDATION OF DIPICOLINIC ACID I. : Isolation of Microorganisms, Their Culture Conditions, and End Products.

Arima, Kei (University of Tokyo, Tokyo, Japan) and Yasuo Kobayashi. Bacterial oxidation of dipicolinic acid. I. Isolation of microorganisms, their culture conditions, and end products. J. Bacteriol. 84:759-764. 1962.-In a study of the metabolic pathway(s) of dipicolinic acid (DPA) in microorganisms, 436 strains of soil microorganisms were isolated by use of an enrichment culture technique. Most of them were bacteria, and one of them, Achromobacter, which had the strongest DPA-oxidizing activity, was used for the following experiments. In DPA-free medium, the enzymes which oxidize DPA were not produced. The best culture condition for enzyme production and cell growth was: Nutrient Broth supplemented with 0.1% DPA, 30 C, and 20 hr of shake culture. End products were oxalic acid, NH(3), and CO(2). Oxalic acid was not oxidized further by this bacterium. The over-all reaction equation of DPA oxidation was determined.