Abstract: This application is directed to methods which allow for encapsulation of an array of biological materials under physiological conditions that are relevant given a biological context and the compositions made using those methods. These reconstituted biological materials encompass: a) purified proteins that can bind to the lipid membranes inside and outside of vesicles based on the electrostatic charge; b) purified cytosolic proteins that position themselves in the lumen of the vesicles, c) mammalian cell extracts with an array of cytosolic protein content, among other contents and d) small biological molecules such as DNA and RNA as well as fluorescent dyes/probes. These vesicles can be used to simulate cells in drug discovery methods as well as useful in administering drugs and other compositions to cells in vitro and in vivo.

Abstract: This application is directed to methods which allow for encapsulation of an array of biological materials under physiological conditions that are relevant given a biological context and the compositions made using those methods. These reconstituted biological materials encompass: a) purified proteins that can bind to the lipid membranes inside and outside of vesicles based on the electrostatic charge; b) purified cytosolic proteins that position themselves in the lumen of the vesicles, c) mammalian cell extracts with an array of cytosolic protein content, among other contents and d) small biological molecules such as DNA and RNA as well as fluorescent dyes/probes. These vesicles can be used to simulate cells in drug discovery methods as well as useful in administering drugs and other compositions to cells in vitro and in vivo.

Abstract: The present invention provides a bioconjugate. The bioconjugate comprises a first molecule comprising an elastin-like peptide (ELP), a second molecule capable of self-associating into an oligomer, and a linker connecting the first molecule with the second molecule. The bioconjugate is self-assembled into particles, which are disassembled when the temperature is increased. Also provided is a method for delivering a bioconjugate to a target matrix, comprising (a) introducing a bioconjugate self-assembled into particles to a target matrix, wherein the bioconjugate comprises a first molecule comprising an elastin-like peptide (ELP), a second molecule capable of self-associating into an oligomer, and a linker connecting the first molecule with the second molecule, and (b) increasing the temperature of the target matrix to disassemble the particles at the target matrix.

Abstract: The present invention provides a bioconjugate. The bioconjugate comprises a first molecule comprising an elast-in-like peptide (ELP), a second molecule capable of self-associating into an oligomer, and a linker connecting the first molecule with the second molecule. The bioconjugate is self-assembled into particles, which are disassembled when the temperature is increased. Also provided is a method for delivering a bioconjugate to a target matrix, comprising (a) introducing a bioconjugate self-assembled into particles to a target matrix, wherein the bioconjugate comprises a first molecule comprising an elastin-like peptide (ELP), a second molecule capable of self-associating into an oligomer, and a linker connecting the first molecule with the second molecule, and (b) increasing the temperature of the target matrix to disassemble the particles at the target matrix.