Abstract: Provided herein are mycelium materials and methods for production thereof. In some embodiments, a mycelium material includes: a cultivated mycelium material including one or more masses of branching hyphae, wherein the one or more masses of branching hyphae may be disrupted or pressed and/or a bonding agent may be combined with the cultivated mycelium material. Methods of producing a mycelium material are also provided.

Abstract: Provided herein are mycelium materials and methods for production thereof. In some embodiments, a mycelium material includes: a cultivated mycelium material including one or more masses of branching hyphae, wherein the one or more masses of branching hyphae may be disrupted and/or a bonding agent may be combined with the cultivated mycelium material. Methods of producing a mycelium material are also provided.

Abstract: Non-animal-based food products are described that simulate whole cuts of meat from an animal. In embodiments, the food products may include a group of aligned fibers, where the fibers have an average fiber diameter of less than or about 500 ?m, and where the fibers comprise a non-animal-based protein. The food products may also include at least one binding agent in an interstitial space between at least a portion of the group of aligned fibers. In additional embodiments, the food products may include a scaffolding having one or more membranes that have a three-dimensional porous structure, where the scaffolding comprises one or more non-animal-based proteins. These food products may also include a gelling agent filling one or more pores in the scaffolding, where the gelling agent includes water, at least one non-animal-based protein, and at least one non-animal-based polysaccharide.

Abstract: Disclosed herein are recombinant spider silk compositions formed from a silk-based extrudate, such as stable films that adsorb to the skin, and methods for making these compositions. In some embodiments, provided herein is a method of making a silk-based emulsion, comprising: mixing a composition comprising a recombinant spider silk polypeptide powder and glycerol by applying pressure and shear force to the composition, thereby transforming the composition to an extrudate; suspending at least a portion of said extrudate in an aqueous solvent to form an aqueous extrudate suspension; and mixing said aqueous extrudate suspension into an emulsion to form said silk-based emulsion.

Abstract: Provided herein are scalable methods of processing wet-spun fiber comprising recombinant spider silk polypeptides to generate a three-dimensional crystalline lattice of beta-sheet structures in the fiber.

Abstract: Provided herein are scalable methods of processing wet-spun fiber comprising recombinant spider silk polypeptides to generate a three-dimensional crystalline lattice of beta-sheet structures in the fiber.

Abstract: Provided herein are mycelium materials and methods for production thereof. In some embodiments, a mycelium material includes: a cultivated mycelium material including one or more masses of branching hyphae, wherein the one or more masses of branching hyphae may be disrupted or pressed and/or a bonding agent may be combined with the cultivated mycelium material. Methods of producing a mycelium material are also provided.

Abstract: Provided herein are mycelium materials and methods for production thereof. In some embodiments, a mycelium material includes: a cultivated mycelium material including one or more masses of branching hyphae, wherein the one or more masses of branching hyphae may be disrupted or pressed and/or a bonding agent may be combined with the cultivated mycelium material. Methods of producing a mycelium material are also provided.

Abstract: Provided herein are mycelium materials and methods for production thereof. In some embodiments, a mycelium material includes: a cultivated mycelium material including one or more masses of branching hyphae, wherein the one or more masses of branching hyphae may be disrupted or pressed and/or a bonding agent may be combined with the cultivated mycelium material. Methods of producing a mycelium material are also provided.

Abstract: The present disclosure relates to a composition for a molded body comprising a recombinant spider silk protein, and a plasticizer. Further, the present disclosure relates to a molded body comprising a recombinant spider silk protein and a plasticizer, and a process for preparing the molded body.

Abstract: Provided herein are scalable methods of generating a recombinant silk polypeptide with a coefficient of friction sufficient to form mechanical interactions with other fibers.

Abstract: Provided herein are scalable methods of processing wet-spun fiber comprising recombinant spider silk polypeptides to generate a three-dimensional crystalline lattice of beta-sheet structures in the fiber.