A method for extracting functional ingredients of mulberry leaves using enzyme is provided. A method for preparing crude cellulase enzyme solution and crude pectinase enzyme solution includes: preparing PDA slant culture mediums; preparing fermentation mediums for producing cellulase and pectinase; preparing solid bacteria; fermentation; preparing crude cellulase enzyme solution and crude pectinase enzyme solution. A preparation method of mulberry leaf concentrate is provided and includes: enzymatic hydrolysis, enzyme inactivation and concentration. A method for preparing mulberry leaf products from mulberry leaf concentrate is provided. Cellulase and pectinase prepared by the stock culture of agaric are safer and more reliable; the content and yield of protein and other functional ingredients in mulberry leaves are improved; the mulberry leaf product can be directly applied to processing and production of food, health care products and cosmetics which improves comprehensive utilization rate of mulberry leaf raw materials.

The invention describes a methodology for production of a secondary extra-particle fungal matrix for application as a mycological material, manufactured via a Type II actively aerated static packed-bed bioreactor. A pre-conditioned air stream is passed through a substrate of discrete elements inoculated with a filamentous fungus to form an isotropic inter-particle hyphal matrix between the discrete elements. Continued feeding of the air through the substrate of discrete elements and isotropic inter-particle hyphal matrixes develops an extra-particle hyphal matrix that extends from an isotropic inter-particle hyphal matrix in the direction of airflow into a void space within the vessel.

The invention describes a methodology for production of a secondary extra-particle fungal matrix for application as a mycological material, manufactured via a Type II actively aerated static packed-bed bioreactor. A pre-conditioned air stream is passed through a substrate of discrete elements inoculated with a filamentous fungus to form an isotropic inter-particle hyphal matrix between the discrete elements. Continued feeding of the air through the substrate of discrete elements and isotropic inter-particle hyphal matrixes develops an extra-particle hyphal matrix that extends from an isotropic inter-particle hyphal matrix in the direction of airflow into a void space within the vessel.

A Geomyces mutant strain and an application thereof, relating to the technical field of the screening and application of functional microorganisms; the mutant strain is obtained through a mutagenic method, capable of greatly improving the yield of red pigment; the mutant strain has been preserved in the China Center for Type Culture Collection of Wuhan University on Jan. 24, 2019, and the preservation number is CCTCC NO: M2019086; the mutant strain can be widely used in the field of natural pigment production, can reduce the production cost of red pigment, and has a bright application prospect.

A Geomyces mutant strain and an application thereof, relating to the technical field of the screening and application of functional microorganisms; the mutant strain is obtained through a mutagenic method, capable of greatly improving the yield of red pigment; the mutant strain has been preserved in the China Center for Type Culture Collection of Wuhan University on Jan. 24, 2019, and the preservation number is CCTCC NO: M2019086; the mutant strain can be widely used in the field of natural pigment production, can reduce the production cost of red pigment, and has a bright application prospect.

The present invention relates to a method of making non-woven material from mycelium produced in a stirred submerged liquid culture. The present invention also relates to use of a crosslinking agent in making a non-woven material from mycelium produced in a stirred submerged liquid culture. In addition, the present invention relates to use of mixing in making a non-woven material from mycelium produced in a stirred submerged liquid culture. The present invention relates also to a mycelium based non-woven material, wherein the mycelium is produced in a stirred submerged liquid culture.

The present invention relates to a method of making non-woven material from mycelium produced in a stirred submerged liquid culture. The present invention also relates to use of a crosslinking agent in making a non-woven material from mycelium produced in a stirred submerged liquid culture. In addition, the present invention relates to use of mixing in making a non-woven material from mycelium produced in a stirred submerged liquid culture. The present invention relates also to a mycelium based non-woven material, wherein the mycelium is produced in a stirred submerged liquid culture.

An assembly includes a housing with opposite first and second layers. The first and second layers are spaced apart to define a confined interior space. A semi-permeable membrane is attached to the first layer, the semi-permeable membrane covering a porous area portion of the first layer. An outlet port and an inlet port are in fluid communication with the interior space. The assembly includes a first circulator for circulating a first fluid between the outlet port and the inlet port, and a second circulator for circulating a second fluid along an exterior surface of the semi-permeable membrane. The second circulator includes a fluid duct attached to or integrated within the housing. The fluid duct is isolated from the interior space and is porous to provide fluid access to an exterior surface of the semi-permeable membrane. The semi-permeable membrane forms a barrier allowing exchange of compounds across the membrane.

An assembly includes a housing with opposite first and second layers. The first and second layers are spaced apart to define a confined interior space. A semi-permeable membrane is attached to the first layer, the semi-permeable membrane covering a porous area portion of the first layer. An outlet port and an inlet port are in fluid communication with the interior space. The assembly includes a first circulator for circulating a first fluid between the outlet port and the inlet port, and a second circulator for circulating a second fluid along an exterior surface of the semi-permeable membrane. The second circulator includes a fluid duct attached to or integrated within the housing. The fluid duct is isolated from the interior space and is porous to provide fluid access to an exterior surface of the semi-permeable membrane. The semi-permeable membrane forms a barrier allowing exchange of compounds across the membrane.

The present invention includes systems, methods and compositions for the generation of water-soluble cannabinoids in yeast, and other plant cell suspension cultures as well as novel water-soluble cannabinoid compounds. The present invention also includes compositions of matter that may contain one or more water-soluble cannabinoids.