An object of the present invention is to provide a method for efficiently manufacturing a protein crimped staple from protein filaments at a low cost. A manufacturing method for a protein crimped staple according to the present invention includes: a) preparing an artificial fibroin filament containing a modified fibroin; b) cutting the artificial fibroin filament to obtain an artificial fibroin staple; and c) performing crimping by bringing the artificial fibroin filament into contact with an aqueous medium to crimp the artificial fibroin filament before the cutting or bringing the artificial fibroin staple into contact with an aqueous medium to crimp the artificial fibroin staple after the cutting.

The present invention provides synthetic fibres with advantageous properties such as high tensile strength and which can be produced by recombinant biotechnological means. The invention also provides the constituent components from which the fibres are assembled, along with fabrics formed from the synthetic fibres. Items comprising the fibres and fabrics of the invention are also included.

Methods and compositions are provided for improved proteinaceous block copolymer fibers based on long repeat units having molecular weight of greater than about 10 kDal. Each repeat unit includes more than about 150 amino acid residues that are organized into a number of quasi-repeat units. The fibers have improved mechanical properties that better recapitulate those of the native silk fibers.

Methods and compositions are provided for improved proteinaceous block copolymer fibers based on long repeat units having molecular weight of greater than about 10 kDal. Each repeat unit includes more than about 150 amino acid residues that are organized into a number of quasi-repeat units. The fibers have improved mechanical properties that better recapitulate those of the native silk fibers.

The present invention relates to compositions comprising: a polypeptide, wherein at least a portion of the polypeptide has a coiled coil structure; and a chelate comprising a chelating agent and a metal ion; and wherein the chelate is bound to at least one amino acid of the polypeptide. In a preferred embodiment the polypeptide is a silk fibroin, wherein at least a portion of the silk fibroin has a coiled coil structure.

Embodiments of the invention relate generally to electrospun fibers and, more particularly, to the controlled release of an active pharmaceutical ingredient (API) from electrospun fiber scaffolds (EFSs).

A polar solvent solution of the present invention is a polar solvent solution in which a solute containing a polyamine acid is dissolved in a polar solvent. The solution has a moisture content of less than 5 mass % based on 100 mass % of the solution. A method for producing a polar solvent solution of the present invention includes changing a moisture content of the solution to adjust the viscosity of the solution. Further, another method for producing a polar solvent solution includes reducing a moisture content of the solution to increase the viscosity of the solution. Thus, the present invention provides a polar solvent solution that enables stable spinning and casting without lowering its viscosity when used as dopes for spinning, film, etc., and methods for producing the same.

The present disclosure provides methods and compositions for directed to synthetic block copolymer proteins, expression constructs for their secretion, recombinant microorganisms for their production, and synthetic fibers (including advantageously, microfibers) comprising these proteins that recapitulate many properties of natural silk. The recombinant microorganisms can be used for the commercial production of silk-like fibers.

The present disclosure provides methods and compositions for directed to synthetic block copolymer proteins, expression constructs for their secretion, recombinant microorganisms for their production, and synthetic fibers (including advantageously, microfibers) comprising these proteins that recapitulate many properties of natural silk. The recombinant microorganisms can be used for the commercial production of silk-like fibers.

Compositions and methods are provided for recombinant protein fiber yarns engineered to have desirable properties along with textiles made using such yarns. Recombinant protein fibers (RPFs) whose properties can be influenced by their composition, structure and processing to obtain improved combinations of mechanical properties, chemical properties, and antimicrobial properties for a given application are presented, along with methods of producing those fibers. The present disclosure also presents filament yarns, spun yarns, and blended yarns formed using these fibers that can be used to manufacture textiles suitable for different applications. Additionally, the combinations of RPFs with certain properties, and yarns and textiles produced from those yarns with certain structures yield yarns and textiles with certain properties designed for various applications.