Advancing nonviral gene delivery: lipid-and surfactant-based nanoparticle design strategies
Gene therapy is a technique utilized to treat diseases caused by missing, defective or
overexpressing genes. Although viral vectors transfect cells efficiently, risks associated with …
overexpressing genes. Although viral vectors transfect cells efficiently, risks associated with …
Advancing Nonviral Gene Delivery: Lipid-and Surfactant-Based Nanoparticle Design Strategies
MD Donkuru, I Badea, S Wettig, R Verrall, M Elsabahy… - Nanomedicine - aun.edu.eg
Gene therapy is a technique utilized to treat diseases caused by missing, defective or
overexpressing genes. Although viral vectors transfect cells efficiently, risks associated with …
overexpressing genes. Although viral vectors transfect cells efficiently, risks associated with …
Advancing nonviral gene delivery: lipid-and surfactant-based nanoparticle design strategies.
M Donkuru, I Badea, S Wettig, R Verrall… - Nanomedicine …, 2010 - europepmc.org
Gene therapy is a technique utilized to treat diseases caused by missing, defective or
overexpressing genes. Although viral vectors transfect cells efficiently, risks associated with …
overexpressing genes. Although viral vectors transfect cells efficiently, risks associated with …
Advancing nonviral gene delivery: lipid-and surfactant-based nanoparticle design strategies
MD Donkuru, I Badea, S Wettig, R Verrall, M Elsabahy… - Nanomedicine, 2010 - go.gale.com
Background Gene therapy is a medical technique used to repair genetic defects by inserting
a normal or functional gene to replace or correct a faulty gene, to turn off or repress an …
a normal or functional gene to replace or correct a faulty gene, to turn off or repress an …
[PDF][PDF] Advancing nonviral gene delivery: lipid-and surfactant-based nanoparticle design strategies
MD Donkuru, I Badea, S Wettig, R Verrall - Nanomedicine, 2010 - researchgate.net
Background Gene therapy is a medical technique used to repair genetic defects by inserting
a normal or functional gene to replace or correct a faulty gene, to turn off or repress an …
a normal or functional gene to replace or correct a faulty gene, to turn off or repress an …
Advancing nonviral gene delivery: lipid-and surfactant-based nanoparticle design strategies
MD Donkuru, I Badea, S Wettig… - Nanomedicine …, 2010 - pubmed.ncbi.nlm.nih.gov
Gene therapy is a technique utilized to treat diseases caused by missing, defective or
overexpressing genes. Although viral vectors transfect cells efficiently, risks associated with …
overexpressing genes. Although viral vectors transfect cells efficiently, risks associated with …
Advancing nonviral gene delivery: Lipid-and surfactant-based nanoparticle design strategies
M Donkuru, I Badea, S Wettig, R Verrall, M Elsabahy… - Nanomedicine, 2010 - hero.epa.gov
Gene therapy is a technique utilized to treat diseases caused by missing, defective or
overexpressing genes. Although viral vectors transfect cells efficiently, risks associated with …
overexpressing genes. Although viral vectors transfect cells efficiently, risks associated with …
Advancing nonviral gene delivery: lipid-and surfactant-based nanoparticle design strategies
MD Donkuru, S Wettig, R Verrall, M Foldvari - Nanomedicine, 2010 - search.proquest.com
Gene therapy is a technique utilized to treat diseases caused by missing, defective or
overexpressing genes. Although viral vectors transfect cells efficiently, risks associated with …
overexpressing genes. Although viral vectors transfect cells efficiently, risks associated with …
[PDF][PDF] Advancing nonviral gene delivery: lipid-and surfactant-based nanoparticle design strategies
MD Donkuru, I Badea, S Wettig, R Verrall - Nanomedicine, 2010 - researchgate.net
Background Gene therapy is a medical technique used to repair genetic defects by inserting
a normal or functional gene to replace or correct a faulty gene, to turn off or repress an …
a normal or functional gene to replace or correct a faulty gene, to turn off or repress an …