Abstract: 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.

Abstract: The inventions provided herein relate to silk-based scaffolds and methods of producing the same, which can be used for a range of tissue engineering applications. The fabrication methods described herein provide a versatile platform to incorporate hollow conduits (e.g., for nutrient/oxygen delivery) through three-dimensional silk-based scaffolds that have tunable bulk properties (e.g., but not limited to, porosity, mechanical, degradation rate) and allow endothelialization and/or cell compartmentalization, for engineering a variety of complex tissue equivalents.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: The present disclosure provides improved long uniform recombinant protein fibers with desirable physical traits. The present disclosure also provides compositions derived from the long uniform recombinant protein fibers.

Abstract: 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 C the native silk fibers.

Abstract: The present invention provides, among other things, methods for producing platelets including the steps of providing a silk membrane about 2 ?m and 100 ?m thick, inclusive, contacting the silk membrane with a porogen to form a porous silk membrane comprising at least one silk wall defining a lumen, associating the porous silk membrane with stromal derived factor-1? and at least one functionalizing agent, forming a three dimensional silk matrix comprising interconnected pores wherein the pores have a diameter of between about 5 and 500 ?m, inclusive, wherein the silk matrix is formed around at least a portion of the porous silk membrane, introducing a plurality of megakaryocytes to the silk matrix such that the megakaryocytes are located at least partially within the porous silk matrix, and stimulating the plurality of megakaryocytes to produce platelets. Also provided are various new compositions and methods of making those compositions.

Abstract: 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.

Abstract: The inventions provided herein relate to silk-based scaffolds and methods of producing the same, which can be used for a range of tissue engineering applications. The fabrication methods described herein provide a versatile platform to incorporate hollow conduits (e.g., for nutrient/oxygen delivery) through three-dimensional silk-based scaffolds that have tunable bulk properties (e.g., but not limited to, porosity, mechanical, degradation rate) and allow endothelialization and/or cell compartmentalization, for engineering a variety of complex tissue equivalents.

Abstract: 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.

Abstract: Provided herein relates to silk fibroin-based compositions comprising non-hydrolyzed silk fibroin and a humectant agent and methods of making the same. In some embodiments, the silk fibroin-based compositions can be formulated for personal care products, e.g., but not limited to, cosmetic products, skin care products, body care products, and/or hair products. In some embodiments, the silk fibroin-based compositions can be formulated for food applications.

Abstract: The inventions provided herein relate to silk-based scaffolds and methods of producing the same, which can be used for a range of tissue engineering applications. The fabrication methods described herein provide a versatile platform to incorporate hollow conduits (e.g., for nutrient/oxygen delivery) through three-dimensional silk-based scaffolds that have tunable bulk properties (e.g., but not limited to, porosity, mechanical, degradation rate) and allow endothelialization and/or cell compartmentalization, for engineering a variety of complex tissue equivalents.