Add to ORKGThe intracellular delivery of nucleic acids and proteins remains a key challenge in the development of biological therapeutics. In gene therapy, the inefficient delivery of small interfering RNA (siRNA) to the cytosol by lipoplexes or polyplexes is often ascribed to the entrapment and degradation of siRNA payload in the endosomal compartments. A possible mechanism by which polyplexes rupture the endosomal membrane and release their nucleic acid cargo is commonly defined as the "proton sponge effect". This is an osmosis-driven process triggered by the proton buffering capacity of polyplexes. Herein, we investigate the molecular basis of the "proton sponge effect" through direct visualization of the siRNA trafficking proce...
To gain a better understanding of intracellular processing of nanomedicines, we employed quantitativ...
The successful application of gene therapy relies on the development of safe and efficient delivery ...
To gain a better understanding of intracellular processing of nanomedicines, we employed quantitativ...
The intracellular delivery of nucleic acids and proteins remains a key challenge in the development ...
The intracellular delivery of nucleic acids and proteins remains a key challenge in the development ...
The intracellular delivery of nucleic acids and proteins remains a key challenge in the development ...
In gene therapy, endosomal escape represents a major bottleneck since nanoparticles often remain ent...
Lipoplexes and polyplexes are widely applied as nonviral gene delivery carriers. Although their effi...
Lipoplexes and polyplexes are widely applied as nonviral gene delivery carriers. Although their effi...
In non-viral gene therapy, cationic polymers and lipids are frequently used to encapsulate macromole...
In gene therapy, endosomal escape represents a major bottleneck since nanoparticles often remain ent...
The therapeutic and research potentials of oligonucleotides (ONs) have been hampered by their inabil...
The therapeutic and research potentials of oligonucleotides (ONs) have been hampered by their inabil...
RNA interference (RNAi) is a method that can be used to treat various medical conditions. This metho...
Materials that self-assemble with nucleic acids into nanocomplexes (e.g. polyplexes) are widely used...
To gain a better understanding of intracellular processing of nanomedicines, we employed quantitativ...
The successful application of gene therapy relies on the development of safe and efficient delivery ...
To gain a better understanding of intracellular processing of nanomedicines, we employed quantitativ...
The intracellular delivery of nucleic acids and proteins remains a key challenge in the development ...
The intracellular delivery of nucleic acids and proteins remains a key challenge in the development ...
The intracellular delivery of nucleic acids and proteins remains a key challenge in the development ...
In gene therapy, endosomal escape represents a major bottleneck since nanoparticles often remain ent...
Lipoplexes and polyplexes are widely applied as nonviral gene delivery carriers. Although their effi...
Lipoplexes and polyplexes are widely applied as nonviral gene delivery carriers. Although their effi...
In non-viral gene therapy, cationic polymers and lipids are frequently used to encapsulate macromole...
In gene therapy, endosomal escape represents a major bottleneck since nanoparticles often remain ent...
The therapeutic and research potentials of oligonucleotides (ONs) have been hampered by their inabil...
The therapeutic and research potentials of oligonucleotides (ONs) have been hampered by their inabil...
RNA interference (RNAi) is a method that can be used to treat various medical conditions. This metho...
Materials that self-assemble with nucleic acids into nanocomplexes (e.g. polyplexes) are widely used...
To gain a better understanding of intracellular processing of nanomedicines, we employed quantitativ...
The successful application of gene therapy relies on the development of safe and efficient delivery ...
To gain a better understanding of intracellular processing of nanomedicines, we employed quantitativ...