A method is disclosed in which filamentous fungi are macerated and encapsulated in an inert matrix to form beads, which can be used to promote reactions carried out by the fungi. The beads are useful, e.g., for producing compounds and compound libraries.

A method is disclosed in which filamentous fungi are macerated and encapsulated in an inert matrix to form beads, which can be used to promote reactions carried out by the fungi. The beads are useful, e.g., for producing compounds and compound libraries.

The invention relates to the fields of bacterial metabolism and the utilization or consumption of short-chain carboxylic acids to reduced products. Specifically, it relates to syngas fermentations using monocultures of syngas-utilizing homoacetogenic bacteria for the production of alcohols using native alcohol dehydrogenase.

The invention relates to the fields of bacterial metabolism and the utilization or consumption of short-chain carboxylic acids to reduced products. Specifically, it relates to syngas fermentations using monocultures of syngas-utilizing homoacetogenic bacteria for the production of alcohols using native alcohol dehydrogenase.

A composition of microorganisms, comprising photoautotrophic microorganisms (16) which produce oxygen by photosynthetic water oxidation chemoheterotrophic microorganisms (17) which respire oxygen, wherein the photoautotrophic microorganisms (16) and the chemoheterotrophic microorganisms (17) are comprised in a biofilm (13), the biofilm further comprising components (15) which were secreted by the photoautotrophic microorganisms (16) and/or the chemoheterotrophic microorganisms (17),
and a reactor (1), a method for forming a biofilm, and a method for biocatalytic conversion employing such composition.

A composition of microorganisms, comprising photoautotrophic microorganisms (16) which produce oxygen by photosynthetic water oxidation chemoheterotrophic microorganisms (17) which respire oxygen, wherein the photoautotrophic microorganisms (16) and the chemoheterotrophic microorganisms (17) are comprised in a biofilm (13), the biofilm further comprising components (15) which were secreted by the photoautotrophic microorganisms (16) and/or the chemoheterotrophic microorganisms (17),
and a reactor (1), a method for forming a biofilm, and a method for biocatalytic conversion employing such composition.

The present disclosure provides methods and materials for the cultivation and/or propagation of a photosynthetic organism. Such methods may comprise the use of a lamp assembly that comprises a plurality of circuit boards, each comprising at least three edges, arranged in a substantially spherical shape defining an interior lamp assembly volume, wherein the plurality of circuit boards comprise a first planar surface in contact with the interior lamp assembly volume and an opposing second planar surface comprising light emitting diodes (LEDs); and a barrier that surrounds the plurality of circuit boards forming the substantially spherical shape.

A method of producing butyric acid, comprising: (a) providing a microorganism co-culture system comprising an air-tight container and the following (1) to (3) contained in the air-tight container: (1) a substrate, comprising a saccharide; (2) at least one of a first strain and a second strain, wherein the first strain is able to fix a carbon oxide and the second strain is able to fermentatively metabolize an amino acid, and wherein the first strain produces a first metabolite in the fermentation, the second strain produces a second metabolite in the fermentation, and each of the first metabolite and the second metabolite comprises acetic acid; and (3) a third strain, being able to metabolize the saccharide, the first metabolite and the second metabolite in the fermentation to produce butyric acid and a metabolic byproduct in fermentation, wherein the metabolic byproduct comprises carbon oxide and hydrogen, wherein, when the second strain is present in the co-culture system, the substrate further comprises an amino acid; and (b) keeping the microorganism co-culture system under an anaerobic atmosphere to perform the fermentation and providing a fermentation product.

Methods and processes for producing aerobic digestion products, such as organic acids, from a low-rank coal substrate are provided. Also provided are multistage bioreactor systems for carrying out the described methods and processes. In another aspect, product compositions comprising organic acids produced by the described methods and processes are provided, as well as methods for their use, including for the improvement of soil quality and/or plant growth.

Methods and processes for producing aerobic digestion products, such as organic acids, from a low-rank coal substrate are provided. Also provided are multistage bioreactor systems for carrying out the described methods and processes. In another aspect, product compositions comprising organic acids produced by the described methods and processes are provided, as well as methods for their use, including for the improvement of soil quality and/or plant growth.