Abstract: An injectable nanoparticular formulation and method of use thereof for treating non-compressible hemorrhage or internal bleeding has been developed. The formulation includes two interactive components, one a targeting nanoparticle with a polypeptide sequence that binds to a cell present at a site of injury, and the other a crosslinking nanoparticle with a bioorthogonal click-crosslinking group.

Abstract: Disclosed is a copolymer comprising a hydroxyacid, wherein the copolymer is biodegradable with a decomposition temperature is substantially higher than its melting temperature. Also disclosed is a method of synthesis of a poly(pivalolactone-co-caprolactone) copolymer.

Abstract: Disclosed are poly(ester urea)s containing two or more units containing two amino acid monomers linked by a linker. At least two units of the poly(ester urea)s are covalently bonded via a urea bond. Suitable amino acid monomers are lysine, arginine, aspartic acid, phenylalanine, or a side chain protected derivative thereof, and suitable linkers are selected from a 1,4-butane diol group, a 1,6-hexane diol group, diethylene glycol group, a triethylene glycol group, or an N-methyl diethanolamine group. The poly(ester urea)s are used to form polyplexes for the improved complexation and delivery of drugs to a subject in need thereof.

Abstract: Disclosed is a copolymer comprising a hydroxyacid, wherein the copolymer is biodegradable with a decomposition temperature is substantially higher than its melting temperature. Also disclosed is a method of synthesis of a poly(pivalolactone-co-caprolactone) copolymer.

Abstract: Elastin-like polypeptides (ELPs) form hydrogels upon heating. The polypeptides can comprise the generic sequence (XPAVG)n (SEQ ID NO: 4), wherein independently for each occurrence X can be any one of a number of different natural or unnatural amino acids, and n is chosen to determine the size of the protein. Hydrogels comprising the polypeptides have mechanical properties, including elastic modulus and fracture toughness, required for load-bearing applications.

Abstract: Disclosed are synthetic polypeptides modeled after NspI nucleoporin which are useful for forming hydrogels characterized by selective permeability. The polypeptides and hydrogels formed from them include phenylalanine-glycine (FG) repeats, which are believed to participate in the selectivity of the nuclear pore complex. Also disclosed are filtering devices, drug delivery devices, and methods of separating or selectively filtering macromolecules using the hydrogels.

Abstract: Disclosed are protein brushes that mimic mucin in physical and functional characteristics. The protein brushes have a variable number of tandem repeats similar to natural mucin and are modified at a number of their tyrosine residues to introduce brush substituents that mimic the hydrogel nature of mucin.

Abstract: Disclosed are synthetic polypeptides modeled after NspI nucleoporin which are useful for forming hydrogels characterized by selective permeability. The polypeptides and hydrogels formed from them include phenylalanine-glycine (FG) repeats, which are believed to participate in the selectivity of the nuclear pore complex. Also disclosed are filtering devices, drug delivery devices, and methods of separating or selectively filtering macromolecules using the hydrogels.

Abstract: Disclosed are elastin-like polypeptides (ELPs) that form hydrogels upon heating. Hydrogels comprising the polypeptides have mechanical properties, including elastic modulus and fracture toughness, required for load-bearing applications.

Abstract: Disclosed are complex coacervate core micelles comprising an enzyme capable of hydrolyzing organophosphorus compounds, such as nerve agents, and, for example, their use in remediation or decontamination of stockpiles of chemical weapons.

Abstract: Disclosed are protein brushes that mimic mucin in physical and functional characteristics. The protein brushes have a variable number of tandem repeats similar to natural mucin and are modified at a number of their tyrosine residues to introduce brush substituents that mimic the hydrogel nature of mucin.

Abstract: Monomers and polymers, and a method of making polymers that retain the ability of the polymer to form reversible and irreversible bonds are provided. Gels comprising the polymers have the ability to coordinate metal ions and bind biopolymers.

Abstract: Disclosed are monomers, polymers and a method of making polymers that retain the ability of the polymer to from reversible and irreversible bonds. Gels comprising the polymers have the ability to coordinate metal ions and bind biopolymers.

Abstract: The present disclosure provides protein-containing compositions, methods and uses thereof. A conjugate comprises a globular protein conjugated with a polymer that preserves the folded and functional structure of a protein. In some embodiments, a fusion protein comprises a globular protein conjugated with an elastin-mimic polymer (EMP). Also disclosed is an assembled solid-state or gel-state nanostructure comprising a plurality of conjugates, wherein each comprises a globular protein conjugated with a polymer that preserving the folded and functional structure of a protein. In certain embodiments, provided compositions and methods further comprise an additive.

Abstract: Described herein are block copolymer conjugates that form double-network hydrogels under appropriate conditions. The conjugates comprise a block of polymer end-group, a block of self-associating peptide or protein, and flexible linkers between the two. Hydrogels comprising the conjugates have the mechanical properties, including elastic modulus and fracture toughness, required for load-bearing applications, while maintaining desirable shear-thinning properties, for example, for injectability.

Abstract: Described herein are block copolymer conjugates that form double-network hydrogels under appropriate conditions. The conjugates comprise a block of polymer end-group, a block of self-associating peptide or protein, and flexible linkers between the two. Hydrogels comprising the conjugates have the mechanical properties, including elastic modulus and fracture toughness, required for load-bearing applications, while maintaining desirable shear-thinning properties, for example, for injectability.

Abstract: The present disclosure provides protein-containing compositions, methods and uses thereof. A conjugate comprises a globular protein conjugated with a polymer that preserves the folded and functional structure of a protein. In some embodiments, a fusion protein comprises a globular protein conjugated with an elastin-mimic polymer (EMP). Also disclosed is an assembled solid-state or gel-state nanostructure comprising a plurality of conjugates, wherein each comprises a globular protein conjugated with a polymer that preserving the folded and functional structure of a protein. In certain embodiments, provided compositions and methods further comprise an additive.