Abstract: Microbial compositions for application to plants, plant parts and plant seeds are provided for improvement of plant yield and/or other beneficial plant traits. Methods of making and applying microbial compositions or formulations to plants, plant parts or plant seeds or to growth media are further provided to increase or improve plant yield and/or other beneficial plant traits.

Abstract: The consortium comprises the Clostridium pasteuranium. Bacillis thuringiensis, Bacillus megaterium, Bacillus btilis, Azotobacter vinelandii and Rhizobium sp micro-organisms, which are subjected to increasing concentrations of thiodicarb and biphenthrin in order to render them tolerant to these compounds without manipulating their genome. The use of the consortium in the form of a liquid biofertiliser enriches the soil with bacteria which, besides being resistant to thiodicarb and biphenthrin, capture atmospheric nitrogen, solubilise phosphor and act against some pathogens.

Abstract: The present invention provides a method for preparing non-toxic lacquer by detoxifying stems or sprouts of lacquer trees using a malt juice and a fermented rice bran, and a method for manufacturing a fermented rice bran enzyme with improved preservability or a powdered grain nutrient food with improved preservability and dietary property by using the non-toxic lacquer prepared thereby.

Abstract: Process are provided which are effective for controlling medium conductivity during fermentation of a CO-containing gaseous substrate while providing an STY of about 10 g ethanol/(L·day) or more. The process includes balancing medium conductivity, specific carbon uptake or cell density levels.

Abstract: A system and method for duplicating a flammable gas (SDFG) that utilizes a specially engineered liquid in combination with a purpose-built container to duplicate the flammable gas is disclosed. There are three methods for the production of an engineered liquid for use in the system. In less than one hour, a single unit of any flammable or hydrocarbon gas will yield up to at least double the quantity of the same gas back.

Abstract: The present invention relates to a two-stage process for production of drop-in fuels/alcohols (methanol, ethanol or butanol) from volatile fatty acids produced either synthetically from fossil resources or as metabolic intermediates in acidification step of anaerobic digestion process from waste biomass and organic materials.

Abstract: A process for treatment of hydrocarbon refinery wastewater producing a low bio-sludge, the process including utilizing microbial consortia comprising at least one species of Pseudomonas and at least one species of Bacillus in a ratio of 10:1 to 1:10. The species of Pseudomonas and species of Bacillus have constitutive expression of at least one hydrocarbon degrading gene. The species of Pseudomonas are selected from the group consisting of Pseudomonas stutzeri (MTCC 25027), Pseudomonas aeruginosa (MTCC 5389), Pseudomonas aeruginosa strain IOC DHT (MTCC, 5385), Pseudomonas putida IOCR1 (MTCC 5387), Pseudomonas putida IOC5a1 (MTCC 5388) and a mutant thereof. The species of Bacillus are selected from the group consisting of Bacillus subtilis (MTCC 25026), Bacillus substilis (MTCC 5386), Bacillus thermoleovorans (MTCC 25023), Bacillus stearothermophilus (MTCC 25030), Lysinibacillus sp. (MTCC 25029), Lysinibacillus sp. (MTCC 5666) and a mutant thereof.

Abstract: A method for producing biogas includes: anaerobically digesting excrement with an additive, the additive including a pre-pupal stage of an insect from the scientific classification superfamily of Stratiomyoidea; and collecting the biogas. A method for producing an additive for anaerobic digestion of excrement includes: hatching eggs of an insect from the scientific classification superfamily of Stratiomyoidea in excrement; growing insect larvae by feeding with additional excrement; harvesting pre-pupal insect larvae; and grinding the pre-pupal larvae. An apparatus for producing an additive for anaerobic digestion of excrement includes: a tray having pivot along one lateral side and an upwardly sloping wall terminating with a lip along a lateral side opposite the pivot; a flume adjacent the lip; and a conveyor adjacent the pivot.

Abstract: Disclosed herein are microbial consortia and compositions including microbes for use in agricultural or biodegradation applications. In some embodiments, soil, plants, and/or plant parts (such as seeds, seedlings, shoots, roots, leaves, fruit, stems, or branches) are contacted with a disclosed microbial consortia or composition including microbes. The microbial consortia or microbe-containing compositions may be applied to soil, plant, and/or plant parts alone or in combination with additional components (such as chitin, chitosan, glucosamine, amino acids, and/or liquid fertilizer). In additional embodiments, the disclosed microbial consortia or compositions including microbes are used in methods of degrading biological materials, such as chitin-containing biological materials.

Abstract: Methods for the production of lipids and biofuels with a culture of Candidatus Microthrix spp. grown on a medium such as wastewater or sewage sludge are provided. The Candidatus Microthrix spp. may be cultured with additional microorganisms that contribute to the accumulation of lipids from the growth medium such as Zoog!oea spp., Rhizobacter spp., Blautia spp., Hydrolatea spp., ODI genera incertae sedis. Further discloses are transformed organisms comprising genes isolated from Candidatus Microthrix parvicella, as well as methods and processes for producing lipids, fatty acids, or biofuels in vitro using the protein products of the isolated genes.

Abstract: Process for stimulating and maintaining the activity of a microbial consortia within a subterranean solid carbonaceous medium to produce methane are described. The process comprises the steps of: (A) dosing a first nutrient composition into the microbial consortia environment, (B) monitoring the microbial consortia environment, including the generation of methane therein; (C) dosing a second nutrient composition into the microbial consortia based upon the results of step (B); and (D) repeating steps (B) and (C) and, if required, (E) dosing a further nutrient composition into the microbial consortia environment based upon the results of step (D).

Abstract: The present disclosure provides methods, compositions, kits and apparatuses for stabilizing membranes, membrane proteins, and/or membranes containing membrane proteins using hydrophobin.

Abstract: The invention provides a method of producing acrylic acid. The method includes contacting fumaric acid with a sufficient amount of ethylene in the presence of a cross-metathesis transformation catalyst to produce about two moles of acrylic acid per mole of fumaric acid. Also provided is an acrylate ester. The method includes contacting fumarate diester with a sufficient amount of ethylene in the presence of a cross-metathesis transformation catalyst to produce about two moles of acrylate ester per mole of fumarate diester. An integrated process for process for producing acrylic acid or acrylate ester is provided which couples bioproduction of fumaric acid with metathesis transformation. An acrylic acid and an acrylate ester production also is provided.

Abstract: The present disclosure relates to an engineered microbe capable of improved productivity of fatty acid or fatty acid derivative. An NAD+-dependent 3-oxoacyl-ACP reductase or NAD+-dependent 3-oxoacyl-CoA reductase replaces or supplements the native NADP+-dependent 3-oxoacyl-ACP reductase so as to utilize the higher availability of NAD+ rather than NADP+ in the cell. Higher production, yield and titer of fatty acids are therefore obtained. Such microbes can be combined with other mutations to further improve yield of fatty acids or fatty acid derivatives.

Abstract: Process are provided which are effective for controlling medium conductivity during fermentation of a CO-containing gaseous substrate while providing an STY of about 10 g ethanol/(L·day) or more. The process includes balancing medium conductivity, specific carbon uptake or cell density levels.

Abstract: The invention relates to systems and methods for production of compounds by yeast and other organisms. In one approach yeast engineered for production of a compound of commercial value is cultured together with a cellulosic bacteria, and the yeast uses a metabolic product produced by the bacteria as a carbon source. Methyl halides are an example of compounds that may be produced by this process. The invention also relates to production of organic compounds using genetically engineered organisms expressing a S-adenosylmethionine (SAM)-dependent methyl halide transferase. In one approach the organism, halides and a carbon source are incubated in a cultivation medium under conditions in which methyl halide is produced. The methyl halide may be collected and converted into non-halogenated organic molecules.

Abstract: A method for converting lignocellulosic biomass material to a carboxylic acid comprising the step of contacting the lignocellulosic biomass material with a microbial culture for a period of time at an initial temperature and an initial pH, thereby producing an amount of a carboxylic acid; wherein the microbial culture comprises an extremely thermophilic bacteria strain selected from the group consisting of Caldicellulosiruptor sp. DIB041C, Caldicellulosiruptor sp. DIB087C, Caldicellulosiruptor sp. DIB103C, Caldicellulosiruptor sp. DIB104C, Caldicellulosiruptor sp. DIB107C, Caldicellulosiruptor sp. DIB101C, and Caldicellulosiruptor sp. DIB004C, and wherein the lignocellulosic biomass material is converted in a single step process as part of a consolidated bioprocessing (CBP) system.

Abstract: Biomass (e.g., plant biomass, animal biomass, and municipal waste biomass) is processed to produce useful intermediates and products, such as energy, fuels, foods or materials. For example, methods are described that can use feedstock materials, such as cellulosic and/or lignocellulosic materials, to produce an intermediate or product, e.g., by fermentation.

Abstract: The objects of the present invention are to provide a method for inhibiting the coloration of a syrupy sweetener, comprising a reducing saccharide together with a non-reducing oligosaccharide having a ?-fructofuranosidic linkage, without deteriorating the taste inherent to the syrupy sweetener; and to provide a syrupy sweetener, comprising a reducing saccharide together with a non-reducing oligosaccharide having a ?-fructofuranosidic linkage, which is stabilized by the method. The present invention attains the above objects by providing a method for inhibiting the coloring of a syrupy sweetener, comprising a reducing saccharide together with a non-reducing oligosaccharide having a ?-fructofuranosidic linkage, which comprises a step of incorporating a lactate into the syrupy sweetener, and by providing a syrupy sweetener, comprising a reducing saccharide together with a non-reducing oligosaccharide having a ?-fructofuranosidic linkage, which is stabilized by the method.

Abstract: Aqueous solution containing at least 300 mg/l of hydrophobin and at least 0.3 mg/l of antifoam, wherein the antifoam/hydrophobin weight ratio is below 0.2, preferably below 0.15, more preferably below 0.1.

Abstract: The present invention relates to Rhizobium sp. KB10 strain having properties of promoting growth of Botryococcus braunii, which is an alga capable of producing biodiesel, and also enhancing production performance of biodiesel. Mores specifically, it relates to novel Rhizobium sp. KB10 strain which has properties of promoting growth of Botryococcus braunii used for biodiesel production and also enhancing content of C18 (i.e., oleate) corresponding to high quality biodiesel component as much as 900%. By using root colonizing bacteria like Rhizobium, it is possible to promote effectively the slow cell growth of Botryococcus braunii and increase as much as possible the oleate amount, which is a high quality biodiesel component. Further, by carrying out mixture culture using such bacteria, problems associated with contamination by other microorganisms during a process of producing biodiesel by culture in an outside environment can be dramatically solved.

Abstract: The present invention describes a method to generate new chemical entities (NCEs) that have well-defined activities such as, but not limited to, anti-bacterial, antifungal and anthelmintic effects. The NCEs are generated through adaptive evolution of one microbe (the producer) against another organism or cell type (the target). The producer is made to compete against the target over time by co-culturing the two together and serially passing the producer organism until the producer adaptively evolves by synthesizing an NCE(s) that inhibits growth of or kills the target. The molecular structure of the chemical entity (or entities) is then elucidated using tools from genomics, molecular biology, computational biology, analytical chemistry, organic chemistry and related fields.

Abstract: Disclosed is a method of manipulating the rate of gastrointestinal transit in a mammalian subject. Also disclosed is the use, in the manufacture of a medicament for the treatment of constipation, of a selective inhibitor of methanogensis, a methanogen-displacing probiotic agent, or a prebiotic agent that inhibits the growth of methanogenic bacteria or promotes the growth of competing non-methanogenic intestinal flora. Alternatively, in accordance with the invention, is disclosed the use in the manufacture of a medicament for the treatment of diarrhea, of methane or a methane precursor, a methanogenic or other methane-enhancing probiotic agent, or a methanogenesis-enhancing prebiotic agent.

Abstract: The present technology pertains to methods and microbial co-cultures for converting lignocellulosic biomass to biofuels and/or other carbon-based chemicals. Aspects of the present disclosure relate to novel consolidated bioprocessing (CBP) methods by which the efficiency of the production of biofuels and/or other carbon-based chemicals from cellulosic biomass-containing materials can be increased. In particular, the present disclosure provides numerous microbiological co-cultures for increasing the efficiency of ethanol and/or lactic acid production from biomass.

Abstract: Enhanced yields of photosynthetically fixed carbon produced by hypersaline photosynthetic algae are provided by co-culturing with a halophilic archaea. Further, methods are provided to control harvesting of desired metabolic products from hypersaline photosynthetic algae by controlling caspase activity.

Abstract: Bioconversion processes are disclosed in which two or more biocatalysts including microorganisms or isolated enzymes that are substantially irreversibly retained in the interior of an open, porous, highly hydrophilic polymer are used in a common aqueous medium. In one exemplary embodiment, one biocatalyst produces a chemical product that is a substrate to at least one other biocatalyst. In another exemplary embodiment, the feed includes two or more substrates and one biocatalyst bioconverts at least one substrate and another biocatalyst bioconverts at least one other substrate. This aspect is particularly useful for treating water including disparate contaminants by metabolic degradation in a bioreaction zone including multiple types of biocatalysts.

Abstract: The invention relates to a method and a device for the production of a fertilizer precursor or of a fertilizer. The method comprises the following method steps: a) production of an acidic source solution (05) in which at least one organic acid is present in dissolved form; b) addition of the acidic source solution (05) to at least one substance containing minerals; c) artificial weathering of the minerals present in the substance containing minerals by means of the source solution.

Abstract: A process for the production of bio-oil from solid urban waste, comprising the following steps: a) subjecting said solid urban waste to liquefaction, obtaining a mixture including an oily phase consisting of bio-oil, a solid phase and an aqueous phase; b) subjecting the aqueous phase obtained in the liquefaction step a) to fermentation, obtaining a fermented biomass; c) feeding the fermented biomass obtained in the fermentation step b) to the liquefaction step a). The bio-oil (or bio-crude) thus obtained can be advantageously used in the production of biofuels which can be used as such or mixed with other motor vehicle fuels. Alternatively, this bio-oil (or bio-crude) can be used as such (biocombustible) or mixed with fossil combustibles (combustible oil, coal, etc.) for the generation of electric energy or heat.

Abstract: A system and method for determining the concentration of zooplankton in a continuous zooplankton culture system. The system may include a transmissiometer, a sample tube, a first sample containing water and microalgae, and a second sample containing water, microalgae, and zooplankton. The concentration of zooplankton in the system may be calculated by comparing the transmissiometer output from the first sample and the second sample, wherein each of the outputs are obtained by moving each sample into the sample tube such that the transmissionmeter is positioned to take a reading across the tube.

Abstract: The invention relates to a method and a system for obtaining biogas in two or more stages in a hydrolysis and a methane stage, wherein the hydrolysis of solid biogenic materials is performed in at least two percolators operated at offset times. Liquid hydrolyzate and CO2 rich hydrolysis gas, and then hydrolysis gas comprising methane thereby arises in the percolator. The liquid hydrolyzate is removed from the percolators, wherein part of the hydrolyzate is fed into the methane stage and the other part of the hydrolysis stage. In the methane stage, the hydrolyzate is converted to biogas and fermenting fluid. In the method according to the invention, the percolators are operated in a gas tight manner and hydrolysis gas is drawn off from the percolators, wherein the hydrolysis gas comprising methane is fed to an energy utilization and CO2 rich hydrolysis gas is used for purging a further percolator operated at an offset time.

Abstract: The present invention refers to a process to produce biodiesel and/or fuel oil from microbial oilseed and/or algal biomass and/or from sugar cane residues and derivatives. The products according to the present invention are appropriate for direct use in motors and to generate energy or steam. The integrated process of the present invention comprises the use, as raw materials, of microbial oil-producing biomass obtained from sugar cane residues and derivatives, which is integrated with algal biomass and/or glycerol and are processed by steps of production of oil-producing microbial biomass from filamentous fungi and/or yeasts, steps of simultaneous production of algal biomass by fully using residues, CO2 and residual broth of said production of microbial biomass, as well as steps of extraction and transesterification of lipids contained in the biomass, with reuse of the residual glycerol thus produced.

Abstract: Enhanced yields of photosynthetically fixed carbon produced by hypersaline photosynthetic algae are provided by co-culturing with a halophilic archaea. Further, methods are provided to control harvesting of desired metabolic products from hypersaline photosynthetic algae by controlling caspase activity.

Abstract: Probiotic microorganisms are micro encapsulated by dispersing the probiotic microorganism in an aqueous suspension of a film forming protein and a carbohydrate; in an oil in water emulsion of a film forming protein and a carbohydrate and a fat; or in an oil which is subsequently dispersed in a film forming protein and a carbohydrate. The emulsion or suspension may be dried to form a powder. The probiotic may be dispersed in oil and then emulsified with the aqueous suspension and then dried to produce an encapsulated oil be dried to produce a powder. Oil suspended probiotics may be preferred where the probiotic is water sensitive. The preferred protein is casein or whey protein and the carbohydrate may be a resistant starch or a saccharide with a reducing sugar group. Where the probiotic is oxygen sensitive the protein carbohydrate is heated to create Maillard reaction products in the encapsulating film.

Abstract: The present invention relates to non-catalytic carbohydrate-binding modules (CBM) belonging to a new family of CBM's. A CBM of the invention was found attached to a glycosyl hydrolase family 61 (GH61) polypeptide and was shown to have little homology with known CBM's indicating that it is the first known member of a new family of CBM's. The present invention further relates to CBM's preferably exhibiting binding affinity for cellulose; to a method of producing such CBM's; and to methods for using such CBM's in the textile, detergent and cellulose fiber processing industries, for purification of polypeptides, immobilization of active enzymes, baking, manufacturing of biofuel, modification of plant cell walls.

Abstract: Melanin or inorganic fertilizers are produced from fermentation leachates or from low-cost nutrient-rich solutions. The method for producing the melanin or inorganic fertilizer comprises repetitive trophic cycling in the controlled conditions of primary and secondary bioreactors. Nutrients are cycled between microorganisms such as bacteria, yeast and fungi and black soldier fly larvae, Hermetia illucens. Polysaccharides are partly converted into natural melanins or inorganic fertilizer, which are difficult to biodegrade and hence accumulate in the bioreactors. The method can employ, as a source of nutrients, leachates produced from food waste or from sugar-rich liquid waste of the food industry. These leachates can be used raw or can be augmented with low-cost sugar-rich solutions such as molasses, hydrolyzed cellulose or starch. The method is inexpensive and does not require the use of expensive chemically-defined culture media.

Abstract: The present invention provides a method for the production of at least one fatty acid and/or oil from a plant cell suspension culture, the method comprising (i) maintaining a cell suspension culture of oil-producing plant cells under conditions such that the cultured cells synthesise and secrete at least one fatty acid and/or oil into the cell suspension culture medium; and (ii) extracting the thus secreted at least one fatty acid and/or oil from the cell suspension culture medium.

Abstract: Disclosed are novel microbial compositions and biodegradation processes to treat marine animal or marine animal by-products to produce solid, liquid and lipid fractions that contain useful compounds.

Abstract: The present disclosure relates in one embodiment to a method of producing a fermented food, wherein a raw food material is combined with a starter culture for fermentation, wherein at least one microorganism of the genus Bacteroides and/or at least one microorganism having at least a cell surface structure which corresponds to a human carbohydrate structure is added. Further disclosed are processing aids and fermented foods containing respective microorganisms.

Abstract: A method for the production of a saccharification product is provided, the method comprising: a) providing a cellulosic feedstock comprising lignin; b) contacting, in water, the feedstock of (a) with at least one metal carbonate at time 0 hour under suitable initial reaction conditions to produce a first delignification slurry; c) contacting the first delignification slurry with a nucleophilic base at time (0+n) hour, where n represents a number greater than zero, under suitable secondary reaction conditions to form a second delignification slurry comprising a lignin-containing liquid fraction and a polysaccharide-enriched solid fraction; d) separating the lignin-containing liquid fraction from the polysaccharide-enriched solid fraction; and e) contacting at least a portion of the polysaccharide-enriched solid fraction with an enzyme consortium to produce a saccharification product comprising xylose and glucose monomers wherein the overall yield of xylose and glucose monomers in the saccharification produc

Abstract: The present invention relates to a process for the production of ethanol comprising both gasification and fermentation of feedstocks, and, in particular to a process for the production of ethanol comprising: a) passing a biomass feedstock to a first fermentation step wherein it is subjected to anaerobic fermentation at a pH below 6.0 and at a temperature in the range 20 to 700C to convert the biomass to a solution comprising acetic acid as the predominant product, b) passing a gasifiable feedstock to a gasification step wherein it is subjected to gasification to produce a gaseous mixture comprising carbon monoxide and hydrogen, and c) passing the solution comprising acetic acid from step (a) and the gaseous mixture from step (b) to one or more further fermentation steps wherein they are subject to fermentation to produce ethanol.

Abstract: Provided herein are methods for producing a fermentation product, such as ethanol, by co-culture of a member of the genus Paenibacillus and an ethanologenic microbe, such as yeast or E. coli. Also provided are methods for making enzymes useful in the saccharification of a pretreated lignocellulosic material. The enzymes may be made by culturing a member of the genus Paenibacillus in a composition suitable for production of such enzymes. An example of such a composition is a pretreated lignocellulosic material, for example, spent hydrolysates. Also provided are genetically modified members of the genus Paenibacillus that have been genetically modified to not produce an antimicrobial, for instance, a polymyxin E.

Abstract: The present invention relates to Rhizobium sp. KB10 strain having properties of promoting growth of Botryococcus braunii, which is an alga capable of producing biodiesel, and also enhancing production performance of biodiesel. Mores specifically, it relates to novel Rhizobium sp. KB10 strain which has properties of promoting growth of Botryococcus braunii used for biodiesel production and also enhancing content of C18 (i.e., oleate) corresponding to high quality biodiesel component as much as 900%. By using root colonizing bacteria like Rhizobium, it is possible to promote effectively the slow cell growth of Botryococcus braunii and increase as much as possible the oleate amount, which is a high quality biodiesel component. Further, by carrying out mixture culture using such bacteria, problems associated with contamination by other microorganisms during a process of producing biodiesel by culture in an outside environment can be dramatically solved.

Abstract: Helicobacter pylori is closely associated with chronic gastritis, peptic ulcer disease, and gastric adenocarcinoma. Helicobacter pylori neutrophil-activating protein (HP-NAP), a virulence factor of Helicobacter pylori, plays an important role in pathogenesis of Helicobacter pylori infection. Since HP-NAP has been proposed as a candidate vaccine against Helicobacter pylori infection, an efficient way to obtain pure HP-NAP needs to be developed. In the present invention, recombinant HP-NAP expressed in Bacillus subtilis and Escherichia coli was purified through a single step of DEAE SEPHADEX ion-exchange chromatography with high purity. Also, purified recombinant HP-NAP was able to stimulate neutrophils to produce reactive oxygen species. Thus, recombinant HP-NAP obtained from our Bacillus subtilis expression system and Escherichia coli expression system is functionally active.

Abstract: Bacterial compositions effective for inhibiting fungal diseases of potatoes and/or potato sprouting are produced by co-culture of two or more of Pseudomonas fluorescens (NRRL B-21133), Pseudomonas fluorescens biovar (NRRL B-21053), Pseudomonas fluorescens (NRRL B-21102) and Enterobacter cloacae (NRRL B-21050). Compositions produced by co-culture of these bacteria together in the same culture medium are significantly more effective for inhibiting fungi-induced diseases of potatoes and/or inhibiting sprouting of potatoes, than blends or mixtures of the same bacteria cultured separately.

Abstract: A method for identifying a biological analyte that is affected by a stressor is disclosed in which two substantially identical biological samples are provided, with a first sample being a control sample and a second sample being an experimental sample. The control sample is grown with a nutrient having an isotope of a first atom, whereas the experimental sample is grown with a nutrient having a second isotope of the first atom. The experimental sample is grown with a stressing agent and regimen. The samples are admixed, and the formed composite is mass spectroscopically assayed for analyte peaks. The ratio of first isotope to second isotope is determined for the peaks, as is a sample median isotopic ratio. The ratio for assayed analyte peaks is compared with the median ratio. An analyte whose isotopic ratio significantly deviates from the median ratio is an analyte affected by the stressing agent.

Abstract: A method, device and system for producing preselected products, (either finished products or preselected intermediary products) from biobased precursors or CO2 and/or bicarbonate. The principal features of the present invention include a method wherein a binary culture is incubated with a biobased precursor in a closed system to transform at least a portion of the biobased precursor to a preselected product. The present invention provides a method of cultivation that does not need sparging of a closed bioreactor to remove or add a gaseous byproduct or nutrient from a liquid medium. This improvement leads to significant savings in energy consumption and allows for the design of photobioreactors of any desired shape. The present invention also allows for the use of a variety of types of waste materials to be used as the organic starting material.

Abstract: The present invention is directed to a method of converting biomass to biofuel, and particularly to a consolidated bioproces sing method using a co-culture of thermophilic and extremely thermophilic microorganisms which collectively can ferment the hexose and pentose sugars produced by degradation of cellulose and hemicelluloses at high substrate conversion rates. A culture medium therefor is also provided as well as use of the methods to produce and recover cellulosic ethanol.

Abstract: The invention relates to a method and a device for the production of a fertilizer precursor or of a fertilizer. The method comprises the following method steps: a) production of an acidic source solution (05) in which at least one organic acid is present in dissolved form; b) addition of the acidic source solution (05) to at least one substance containing minerals; c) artificial weathering of the minerals present in the substance containing minerals by means of the source solution.

Abstract: Disclosed is an immunopotentiating composition comprising an effective immunostimulating substance which can activate natural immunity and a subsequent immunity mediated by lymphocytes without causing any damage to cells. Specifically disclosed is an immunopotentiating composition which is characterized by comprising, as an active ingredient, an immunostimulating substance produced by decomposing at least one bacterium selected from an MRE symbiotic bacteria group consisting of Bacillus sp. (FERM BP-11209), Lysinibacillus fusiformis (FERM BP-11206), Bacillus sonorensis, Lysinibacillus sp. (FERM BP-11207) and Comamonas sp. (FERM BP-11208).

Abstract: A method by which high-purity CMP-N-acetylneuraminic acid (HPLC purity, 95% or higher), which has been difficult to obtain with any technique other than chromatography, can be easily obtained in satisfactory yield by a simple operation without the need of chromatography. The process, which is for producing high-purity CMP-N-acetylneuraminic acid (CMP-NeuAc), is characterized by conducting a suitable combination of the following steps (1) to (4). Step 1: a step in which divalent cations are added to a solution containing CMP-NeuAc to thereby precipitate the phosphoric acid, pyrophosphoric acid, and nucleotide which coexist; Step 2: a step in which a phosphatase is added to a solution containing CMP-NeuAc to thereby convert the coexistent nucleotide into nucleoside; Step 3: a step in which an organic solvent is added to precipitate the CMP-NeuAc; and Step 4: a step in which the CMP-NeuAc precipitated is recovered.