Abstract: This invention provides nanoparticles containing protein-polynucleotide complexes and methods of manufacture and methods of their use. These particles, when administered to a subject in need, are capable of delivering these complexes to target cells and target intracellular locations where they can perform a therapeutic function. In some embodiments, this therapeutic function includes gene editing, induction of gene skipping, and regulation of gene expression. The instant nanoparticles are generally formed by designing and synthesizing the polynucleotide to according to its intended function, combining it with a protein selected for its substrate specificity and enzymatic function in a manner to form a polynucleotide-protein complex, encapsulating the complexes by dispersion into a water-insoluble surfactant system, optionally adding a targeting ligand, and stabilizing the nanoparticles by crystallization of the ligand to the surface of the nanoparticles.

Abstract: This invention provides nanoparticles containing protein-polynucleotide complexes and methods of manufacture and methods of their use. These particles, when administered to a subject in need, are capable of delivering these complexes to target cells and target intracellular locations where they can perform a therapeutic function. In some embodiments, this therapeutic function includes gene editing, induction of gene skipping, and regulation of gene expression. The instant nanoparticles are generally formed by designing and synthesizing the polynucleotide to according to its intended function, combining it with a protein selected for its substrate specificity and enzymatic function in a manner to form a polynucleotide-protein complex, encapsulating the complexes by dispersion into a water-insoluble surfactant system, optionally adding a targeting ligand, and stabilizing the nanoparticles by crystallization of the ligand to the surface of the nanoparticles.

Abstract: This invention provides nanoparticles containing protein-polynucleotide complexes and methods of manufacture and methods of their use. These particles, when administered to a subject in need, are capable of delivering these complexes to target cells and target intracellular locations where they can perform a therapeutic function. In some embodiments, this therapeutic function includes gene editing, induction of gene skipping, and regulation of gene expression. The instant nanoparticles are generally formed by designing and synthesizing the polynucleotide to according to its intended function, combining it with a protein selected for its substrate specificity and enzymatic function in a manner to form a polynucleotide-protein complex, encapsulating the complexes by dispersion into a water-insoluble surfactant system, optionally adding a targeting ligand, and stabilizing the nanoparticles by crystallization of the ligand to the surface of the nanoparticles.

Abstract: This invention provides nanoparticles containing protein-polynucleotide complexes and methods of manufacture and methods of their use. These particles, when administered to a subject in need, are capable of delivering these complexes to target cells and target intracellular locations where they can perform a therapeutic function. In some embodiments, this therapeutic function includes gene editing, induction of gene skipping, and regulation of gene expression. The instant nanoparticles are generally formed by designing and synthesizing the polynucleotide to according to its intended function, combining it with a protein selected for its substrate specificity and enzymatic function in a manner to form a polynucleotide-protein complex, encapsulating the complexes by dispersion into a water-insoluble surfactant system, optionally adding a targeting ligand, and stabilizing the nanoparticles by crystallization of the ligand to the surface of the nanoparticles.