Embodiments relate to amino acid-based poly(ester urea)s with amino acid residues selected L-leucine, L-isoleucine, L-valine or combinations thereof. The amino acid-based poly(ester urea)S may optionally include a second amino acid residue selected from proteinogenic amino acids and non-proteinogenic amino acids. The amino acid-based poly(ester urea)s are particular useful for the preparation of vascular grafts. Due to the biocompatibility of the amino acid-based poly(ester urea)s, vascular grafts prepared from amino acid-based poly(ester urea)s with small internal diameters (i.e. less than 5 mm) may be prepared and inserted into a patient or animal, and provide a substantial decrease in the risk of failure compared to conventional polymers used in vascular grafts.

Embodiments relate to amino acid-based poly(ester urea)s with amino acid residues selected L-leucine, L-isoleucine, L-valine or combinations thereof. The amino acid-based poly(ester urea)S may optionally include a second amino acid residue selected from proteinogenic amino acids and non-proteinogenic amino acids. The amino acid-based poly(ester urea)s are particular useful for the preparation of vascular grafts. Due to the biocompatibility of the amino acid-based poly(ester urea)s, vascular grafts prepared from amino acid-based poly(ester urea)s with small internal diameters (i.e. less than 5 mm) may be prepared and inserted into a patient or animal, and provide a substantial decrease in the risk of failure compared to conventional polymers used in vascular grafts.

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.

Disclosed is a method for purifying a recombinant protein of interest from a recombinant cell expressing intracellularly the recombinant protein as an insoluble matter, comprising treating the recombinant cell under conditions where a protein derived from a host cell dissolves in a first aprotic polar solvent to which an inorganic salt is added or not but the recombinant protein does not dissolve, removing a first soluble fraction, and then treating the resulting first insoluble fraction under conditions where the recombinant protein dissolves in a second aprotic polar solvent to which an inorganic salt is added.

Disclosed is a method for purifying a recombinant protein of interest from a recombinant cell expressing intracellularly the recombinant protein as an insoluble matter, comprising treating the recombinant cell under conditions where a protein derived from a host cell dissolves in a first aprotic polar solvent to which an inorganic salt is added or not but the recombinant protein does not dissolve, removing a first soluble fraction, and then treating the resulting first insoluble fraction under conditions where the recombinant protein dissolves in a second aprotic polar solvent to which an inorganic salt is added.

Provided are a composite molding composition such as a composite film and a composite fiber that have properties such as an improved tensile strength, strain and toughness as a result of blending a peptide or polyamino acid having a -sheet structure with a natural or artificially modified fibroin-derived protein; a method for producing such composite molding composition; and a method for improving the physical properties of a composite molding composition containing a fibroin-derived protein.

A method of producing polyamide material with peptides is disclosed. The method includes: mixing a peptide material and water to form a peptide solution; mixing caprolactam and the peptide solution to form a first solution; adding a catalyst into the first solution to form a second solution; adding an antioxidant into the second solution to form a third solution; causing a ring-opening reaction in the third solution; heating the third solution to a dehydration temperature to dewater the third solution; forming a polyamide material with peptides.

Provided herein are methods for the manufacture of fibers from solution-phase peptide-based polymers by electrospinning, and compositions produced thereby. In particular embodiments, various embodiments provide electrospinning supramolecular fibers from low concentration peptide amphiphile filaments.

Provided herein are methods for the manufacture of fibers from solution-phase peptide-based polymers by electrospinning, and compositions produced thereby. In particular embodiments, various embodiments provide electrospinning supramolecular fibers from low concentration peptide amphiphile filaments.