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Bioreducible liposomes for gene delivery: from the formulation to the mechanism of actionDNA-aptamer targeting vimentin for tumor therapy in vivo.Targeting the efficacy of a dendrimer-based nanotherapeutic in heterogeneous xenograft tumors in vivoRibozyme-mediated gene knock down strategy to dissect the consequences of PDGF stimulation in vascular smooth muscle cells.Nanogel-Mediated RNAi Against Runx2 and Osx Inhibits Osteogenic Differentiation in Constitutively Active BMPR1A OsteoblastsTumour and dendrimers: a review on drug delivery aspects.Efficacy and safety of dendrimer nanoparticles with coexpression of tumor necrosis factor-α and herpes simplex virus thymidine kinase in gene radiotherapy of the human uveal melanoma OCM-1 cell line.Surface modified poly(amido)amine dendrimers as diverse nanomolecules for biomedical applications.PAMAM dendrimer roles in gene delivery methods and stem cell research.Cationic antimicrobial polymers and their assemblies.Non-Viral Delivery and Therapeutic Application of Small Interfering RNAs.Dendrimers for gene delivery--a potential approach for ocular therapy?Applications of nanoparticle systems in gene delivery and gene therapy.Pluronic-PEI copolymers enhance exon-skipping of 2'-O-methyl phosphorothioate oligonucleotide in cell culture and dystrophic mdx mice.Biofunctional Materials Based on Amino Cellulose Derivatives--A Nanobiotechnological Concept.A mechanistic investigation exploring the differential transfection efficiencies between the easy-to-transfect SK-BR3 and difficult-to-transfect CT26 cell lines.In Vitro Drug and Gene Delivery Using Random Cationic Copolymers Forming Stable and pH-Sensitive Polymersomes.An electroporation protocol for efficient DNA transfection in PC12 cells.In vitro transfection mediated by dendrigraft poly(L-lysines): the effect of structure and molecule size.EphA2 targeting peptide tethered bioreducible poly(cystamine bisacrylamide-diamino hexane) for the delivery of therapeutic pCMV-RAE-1γ to pancreatic islets.A ligand-mediated nanovector for targeted gene delivery and transfection in cancer cells.Lipopolyamine treatment increases the efficacy of intoxication with saporin and an anticancer saporin conjugate.Optimizing transfection of primary human umbilical vein endothelial cells using commercially available chemical transfection reagents.Multilayered Nanoparticles for Gene Delivery Used to Reprogram Human Foreskin Fibroblasts to Neurospheres.Recent Findings Concerning PAMAM Dendrimer Conjugates with Cyclodextrins as Carriers of DNA and RNA.Physicochemical properties of polymers: An important system to overcome the cell barriers in gene transfection.Cationic Polymer Modified Mesoporous Silica Nanoparticles for Targeted SiRNA Delivery to HER2+ Breast Cancer.Characterization of liposomes for cancer cell transfection.Application of polyhydroxyalkanoates nanoparticles as intracellular sustained drug-release vectors.Fluorescent Magnetopolymersomes: A Theranostic Platform to Track Intracellular Delivery.Synthesis of polynucleotide analogs containing a polyvinyl alcohol backbone.Reducible Dimeric Conjugates of Small Internally Segment Interfering RNA for Efficient Gene Silencing.Imidazolium Quaternized Polymers Based On Poly(Chloromethyl Styrene) and their Complexes with FBS Proteins and DNADynamics of polyelectrolyte complex formation and stability as a polyanion is progressively added to a polycation under modeled physicochemical blood conditionsMolecular interactions of DNA with transfectants: a study based on infrared spectroscopy and quantum chemistry as aids to fluorescence spectroscopy and dynamic light scattering analyses
P2860
Q28475808-E4A38B6F-7834-4588-89FF-C012648521A3Q30415521-BD0CF3B8-D4E1-4A81-AC54-A8C873D6436CQ33640555-B05C9C65-0000-4D62-A74B-C0BA77AEFCC8Q34296126-C4CE3815-4D8A-4393-9EEA-9BAE910627A5Q36682824-8B801D8B-EC57-4429-9680-6804F78614C1Q37171165-6C084ABC-7B1E-436D-9BEF-7C9475D67129Q37225620-0E79B29C-3ABC-4D6D-ACAE-2A9CB18E9481Q37564495-E2D9720B-D3BF-4FEB-BE6E-F7CFAFD19DEEQ38090586-AA95433A-4AF4-4152-83B5-039239C86F17Q38105908-46493966-3413-43CB-9C31-2B2D25D411B0Q38168518-5344E52B-0BA9-4CD6-9A7A-687B484C7EF0Q38196447-2DE5E3D4-B330-4968-BD52-B43763EF0657Q38264536-90008A23-FA50-4AB8-9966-9FBC7FFBD906Q38311878-8ABADBF8-4A41-45C0-B5B0-24F331CEBBF6Q38557909-6CB5650D-16E4-4FE0-B5A6-81352C423909Q38705181-595E4DB9-DF74-4557-95B6-525A435E41FFQ38729369-1C98D0EE-B41F-420F-B63E-D05CC85CCCF7Q39127105-F54F9A0A-DE78-40D3-843A-3C6671CCE9FCQ39227454-C10FE8F7-FEAE-4C23-94F5-6782C912FC5BQ39446880-EC8A8CD5-D741-4D4F-8EC5-4A51F8DDFEFBQ39920259-C98BE96F-42C5-4C87-AA7F-C5BD277DA522Q40090541-1D447A61-E6EF-484D-91D5-D70EA01EDD08Q41008486-93E1B34B-03A7-4C70-9584-304638D8120FQ41902220-163089B1-A5DD-45C4-8535-9953CC8B6037Q41919054-CF7381B8-0DCD-4C89-9721-B0DA8CFAB795Q42155678-408F4404-ADEC-46DC-B925-DE1855C11056Q42429773-258ECE43-91BC-4C59-B0F0-837C983C2B89Q43106992-C795B9F1-DEE7-49CF-8D72-2180374AB2DBQ43205463-6EC2894F-DCA3-4126-972C-4C8C168A60A5Q46261462-868193B4-C944-4920-A730-7FC72B51C9D2Q46607115-EFEAB00D-CED1-4BC7-9338-00179BB87188Q51300691-B8B368DA-FC10-4822-878B-6A52A6C529E3Q57343066-406EFE38-672F-4795-A704-5F5A55865B2CQ57380901-621F8101-6390-44C2-B20E-74FFDA131D78Q57890040-8A3556A2-A325-4545-B300-35B920D85BAA
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 31 January 2005
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Polymers for DNA delivery.
@en
Polymers for DNA delivery.
@nl
type
label
Polymers for DNA delivery.
@en
Polymers for DNA delivery.
@nl
prefLabel
Polymers for DNA delivery.
@en
Polymers for DNA delivery.
@nl
P2860
P921
P356
P1433
P1476
Polymers for DNA delivery
@en
P2093
Y Barenholz
P2860
P356
10.3390/10010034
P407
P577
2005-01-31T00:00:00Z