Provided are aqueous fermentation feedstocks comprising glucose monomers at a concentration of less than 50 gram/Liter (g/L) of the total feedstock, water-soluble dextrose oligomers at a concentration in a range between 50 g/L and 300 g/L of the total feedstock; and water. Further provided are methods of production thereof and uses thereof in the production of single cell protein and/or ethanol.

The present application discloses a Bacillus sp. producing a bioflocculant and a biosurfactant. The microbial classification of the Bacillus sp. is named Bacillus sp. SS15, which has been preserved in China Center for Type Culture Collection on Mar. 29, 2021, and its preservation number is CCTCC M2021295; the 16S rRNA sequence of SS15 is shown as SEQ ID NO.1. Bacillus sp. SS15 obtained by the present application has the function of simultaneously producing a bioflocculant and a biosurfactant. The bioflocculant and biosurfactant produced by Bacillus sp. SS15 of the present application not only have high activity, but also show strong tolerance in the ranges of pH (2-12), temperature (4° C.-100° C.) and salinity (0-100 g/L). Meanwhile, they can be applied to the remediation of a fracturing flowback liquid and can effectively promote the removal of chroma, suspended solids, COD, n-alkanes and polycyclic aromatic hydrocarbons at the same time.

The present application discloses a Bacillus sp. producing a bioflocculant and a biosurfactant. The microbial classification of the Bacillus sp. is named Bacillus sp. SS15, which has been preserved in China Center for Type Culture Collection on Mar. 29, 2021, and its preservation number is CCTCC M2021295; the 16S rRNA sequence of SS15 is shown as SEQ ID NO.1. Bacillus sp. SS15 obtained by the present application has the function of simultaneously producing a bioflocculant and a biosurfactant. The bioflocculant and biosurfactant produced by Bacillus sp. SS15 of the present application not only have high activity, but also show strong tolerance in the ranges of pH (2-12), temperature (4° C.-100° C.) and salinity (0-100 g/L). Meanwhile, they can be applied to the remediation of a fracturing flowback liquid and can effectively promote the removal of chroma, suspended solids, COD, n-alkanes and polycyclic aromatic hydrocarbons at the same time.

Microorganisms and bioprocesses are provided that convert gaseous substrates, such as renewable H.sub.2 and waste CO.sub.2 producer gas, or syngas into high-protein biomass that may be used directly for human nutrition, or as a nutrient for plants, fungi, or other microorganisms, or as a source of soil carbon, nitrogen, and other mineral nutrients. Renewable H.sub.2 used in the processes described herein may be generated by electrolysis using solar or wind power. Producer gas used in the processes described herein may be derived from sources that include gasification of waste feedstock and/or biomass residue, waste gas from industrial processes, or natural gas, biogas, or landfill gas.

Microorganisms and bioprocesses are provided that convert gaseous substrates, such as renewable H.sub.2 and waste CO.sub.2 producer gas, or syngas into high-protein biomass that may be used directly for human nutrition, or as a nutrient for plants, fungi, or other microorganisms, or as a source of soil carbon, nitrogen, and other mineral nutrients. Renewable H.sub.2 used in the processes described herein may be generated by electrolysis using solar or wind power. Producer gas used in the processes described herein may be derived from sources that include gasification of waste feedstock and/or biomass residue, waste gas from industrial processes, or natural gas, biogas, or landfill gas.

The present disclosure relates to a use of Nocardia rubra cell wall skeleton in regenerative medicine, and in particular, to a use of Nocardia rubra (especially the cell wall skeleton thereof) in the following aspects: promoting proliferation, growth, differentiation and migration of stem cells, and improving the survival rate of the stem cells, wherein the stem cells are selected from: adult stem cells, iPSCs, and mesenchymal stem cells.

A leather-like hybrid mycelial cellulose sheet and production thereof. Precise selection of mushroom species and reagents allows for production at low pH, thereby resulting in a strong, flexible, and dry leather-like material suitable for application in various industries.

A leather-like hybrid mycelial cellulose sheet and production thereof. Precise selection of mushroom species and reagents allows for production at low pH, thereby resulting in a strong, flexible, and dry leather-like material suitable for application in various industries.

An improved bacterial oil treatment composition or pool for handling a decommissioned oil cable, which may be laid in particular as part of a power grid in the ground. The invention further relates to a bacteria growth culture medium containing the bacterial oil treatment composition for refurbishing an oil cable and a corresponding use.

An improved bacterial oil treatment composition or pool for handling a decommissioned oil cable, which may be laid in particular as part of a power grid in the ground. The invention further relates to a bacteria growth culture medium containing the bacterial oil treatment composition for refurbishing an oil cable and a corresponding use.