Add to ORKGGene therapy is a promising treatment that has enormous potential for the management of numerous diseases of acquired and innate origin. Viral delivery vectors are successful in delivering therapeutic DNA, but their efficacy is circumvented by immunogenicity and cost. Non-viral vectors face other issues of inflammatory response, colloidal stability, and low transfection efficiency. Gold nanoparticles (AuNPs) have emerged as attractive nanocarriers for gene delivery. AuNPs are bioinert, easily synthesized, and possess rich surface chemistry that facilitates versatile functionalization. Therefore, AuNPs provide an excellent platform for gene delivery. Polyamidoamine (PAMAM) dendrimers are commercially available cationic branched polymers in w...
With the aim of developing dendrimer nanovectors with a precisely controlled architecture and flexib...
Nonviral vectors used in gene delivery, such as cationic polymers and dendrimers, exhibit problems o...
Biomimetics, or the use of principles of Nature for developing new materials, is a paradigm that cou...
Gene therapy is a promising treatment that has enormous potential for the management of numerous dis...
The development of efficient and biocompatible non-viral vectors for gene therapy remains a great ch...
Abstract Background Gold nanoparticles (AuNPs) hav...
Development of highly efficient nonviral gene delivery vectors still remains a great challenge. In t...
Gene therapy presents an ideal strategy for the treatment of genetic as well as acquired diseases, s...
Poly(amidoamine) (PAMAM) dendrimers have attracted considerable attention in the field of gene thera...
Gene therapy, which involves the transfer of nucleic acid into target cells in patients, has become ...
<p>Polyamidoamine is a cationic dendrimer with the ability to condense plasmid DNA into nanometric p...
The decoration of polyamidoamine (PAMAM) dendrimers with some functional moieties holds promises for...
Preparation of versatile and safe nanovectors for efficient cancer gene therapy remains to be challe...
[[abstract]]Nonviral vectors used in gene delivery, such as cationic polymers and dendrimers, exhibi...
5In part I of this review, the authors showed how poly(amidoamine) (PAMAM)-based dendrimers can be c...
With the aim of developing dendrimer nanovectors with a precisely controlled architecture and flexib...
Nonviral vectors used in gene delivery, such as cationic polymers and dendrimers, exhibit problems o...
Biomimetics, or the use of principles of Nature for developing new materials, is a paradigm that cou...
Gene therapy is a promising treatment that has enormous potential for the management of numerous dis...
The development of efficient and biocompatible non-viral vectors for gene therapy remains a great ch...
Abstract Background Gold nanoparticles (AuNPs) hav...
Development of highly efficient nonviral gene delivery vectors still remains a great challenge. In t...
Gene therapy presents an ideal strategy for the treatment of genetic as well as acquired diseases, s...
Poly(amidoamine) (PAMAM) dendrimers have attracted considerable attention in the field of gene thera...
Gene therapy, which involves the transfer of nucleic acid into target cells in patients, has become ...
<p>Polyamidoamine is a cationic dendrimer with the ability to condense plasmid DNA into nanometric p...
The decoration of polyamidoamine (PAMAM) dendrimers with some functional moieties holds promises for...
Preparation of versatile and safe nanovectors for efficient cancer gene therapy remains to be challe...
[[abstract]]Nonviral vectors used in gene delivery, such as cationic polymers and dendrimers, exhibi...
5In part I of this review, the authors showed how poly(amidoamine) (PAMAM)-based dendrimers can be c...
With the aim of developing dendrimer nanovectors with a precisely controlled architecture and flexib...
Nonviral vectors used in gene delivery, such as cationic polymers and dendrimers, exhibit problems o...
Biomimetics, or the use of principles of Nature for developing new materials, is a paradigm that cou...