Abstract: Cationic liposomes are broadly used as non-viral vectors to deliver genetic materials that can be used to treat various diseases including cancer. To circumvent problems associated with cationic liposome-mediated delivery systems such as low transfection efficiency and serum-induced inhibition, cholesterol-based cationic lipids have been synthesized that resist the effects of serum. The introduction of an ether-type linkage and extension of the aminopropyl head group on the cholesterol backbone increased the transfection efficiency and DNA binding affinity compared to a carbamoyl-type linkage and a mono aminopropyl head group, respectively. Under optimal conditions, each liposome formulation showed higher transfection efficiency i...
AbstractStable complexes of cationic liposomes with plasmid DNA were prepared by (1) including a sma...
Gene therapy is often cited as the future of therapeutics. DNA has the potential to revolutionize di...
Gene therapy is often cited as the future of therapeutics. DNA has the potential to revolutionize di...
Cationic liposomes are broadly used as non-viral vectors to deliver genetic materials that can be us...
Synthetic gene delivery vectors are being developed for in vivo gene transfer applications, and thes...
In the present study, we developed some novel gene delivery vectors, coated cationic complexes with ...
In the present study, we developed some novel gene delivery vectors, coated cationic complexes with ...
dimethyldioctadecyl ammonium bromide, (DDAB); 1,2-dioleoyloxy-3-[trimethylammonio]-propane, (DOTAP);...
The design, synthesis and biological evaluation of the cationic lipid gene delivery vectors based on...
A major obstacle in the development of gene therapy is delivery of therapeutic genes to the desired ...
Aim: To perform a parallel comparison of key parameters affecting the safety and efficiency of lipid...
Objectives. Gene therapy is based on the introduction of genetic material into cells, tissues, or or...
Satya Ranjan Sarker, Yumiko Aoshima, Ryosuke Hokama, Takafumi Inoue, Keitaro Sou, Shinji Takeoka Dep...
AbstractThree novel cationic cholesterol derivatives with different modes of linkage between the cat...
Non–viral gene vectors exhibit several desirable properties, over their viral counterparts. This has...
AbstractStable complexes of cationic liposomes with plasmid DNA were prepared by (1) including a sma...
Gene therapy is often cited as the future of therapeutics. DNA has the potential to revolutionize di...
Gene therapy is often cited as the future of therapeutics. DNA has the potential to revolutionize di...
Cationic liposomes are broadly used as non-viral vectors to deliver genetic materials that can be us...
Synthetic gene delivery vectors are being developed for in vivo gene transfer applications, and thes...
In the present study, we developed some novel gene delivery vectors, coated cationic complexes with ...
In the present study, we developed some novel gene delivery vectors, coated cationic complexes with ...
dimethyldioctadecyl ammonium bromide, (DDAB); 1,2-dioleoyloxy-3-[trimethylammonio]-propane, (DOTAP);...
The design, synthesis and biological evaluation of the cationic lipid gene delivery vectors based on...
A major obstacle in the development of gene therapy is delivery of therapeutic genes to the desired ...
Aim: To perform a parallel comparison of key parameters affecting the safety and efficiency of lipid...
Objectives. Gene therapy is based on the introduction of genetic material into cells, tissues, or or...
Satya Ranjan Sarker, Yumiko Aoshima, Ryosuke Hokama, Takafumi Inoue, Keitaro Sou, Shinji Takeoka Dep...
AbstractThree novel cationic cholesterol derivatives with different modes of linkage between the cat...
Non–viral gene vectors exhibit several desirable properties, over their viral counterparts. This has...
AbstractStable complexes of cationic liposomes with plasmid DNA were prepared by (1) including a sma...
Gene therapy is often cited as the future of therapeutics. DNA has the potential to revolutionize di...
Gene therapy is often cited as the future of therapeutics. DNA has the potential to revolutionize di...