Monomolecular assembly of siRNA and poly(ethylene glycol)-peptide copolymers.
about
Advances in PEGylation of important biotech molecules: delivery aspectsAdvances in Systemic siRNA DeliverysiRNA-based therapy ameliorates glomerulonephritisBiophysical characterization of copolymer-protected gene vectors.Coating of single DNA molecules by genetically engineered protein diblock copolymers.RNA interference for improving the outcome of islet transplantation.Histone-targeted Polyplexes Avoid Endosomal Escape and Enter the Nucleus During Postmitotic Redistribution of ER Membranes.3-D tissue culture systems for the evaluation and optimization of nanoparticle-based drug carriersGene therapy progress and prospects: synthetic polymer-based systems.Mechanisms and strategies for effective delivery of antisense and siRNA oligonucleotides.Balancing protection and release of DNA: tools to address a bottleneck of non-viral gene delivery.Smart siRNA delivery systems based on polymeric nanoassemblies and nanoparticles.Bioreducible polycations as shuttles for therapeutic nucleic acid and protein transfection.Delivery strategies and potential targets for siRNA in major cancer typesSingle siRNA nanocapsules for enhanced RNAi deliveryPrecisely tunable engineering of sub-30 nm monodisperse oligonucleotide nanoparticlesParticle transport through hydrogels is charge asymmetric.Artificial cell membrane-mimicking nanostructure facilitates efficient gene delivery through fusogenic interaction with the plasma membrane of living cells.Acidic pH-responsive siRNA conjugate for reversible carrier stability and accelerated endosomal escape with reduced IFNα-associated immune response.Enhanced Intracellular Delivery of siRNA by Controlling ATP-Responsivity of Phenylboronic Acid-Functionalized Polyion Complex Micelles.Influence of RNA Strand Rigidity on Polyion Complex Formation with Block Catiomers.Multifunctional polyion complex micelle featuring enhanced stability, targetability, and endosome escapability for systemic siRNA delivery to subcutaneous model of lung cancer.Self-assembly of novel lipid-mimicking brush polymers in nanoscale thin films.
P2860
Q28277255-5B84C60F-9536-4AB8-AF1F-0BC72C5CD955Q33613316-E1743132-D2F9-4020-833D-FAEBF0EB3D83Q33748522-0DC15C0A-BF5F-4638-AA36-8596CFF3AC6CQ34072540-C02A077B-0A7C-46A3-833E-7809B2D22ED2Q34367059-0995728E-495C-413D-B4F3-9FE3ACD3E538Q34729434-2D3C531C-ED30-45E1-8FD6-64678A6060DCQ35133940-C41FAE3D-E0CB-49D1-A38C-2B4FFCC9039DQ37120582-06464A02-9E1B-4D19-8E3D-A3A459E6D3E0Q37182756-91D5A3D9-0CED-4C66-941C-95FE5788797CQ37193000-98A84AAB-A93B-4123-B479-27C07E88322FQ37592852-387B05CD-243C-4FD7-AB4A-A604AE772A77Q37793079-EEDC20BC-C0CB-4A74-AF2D-8BDEC5BD9078Q38161927-B5261054-6A93-48D7-9C0F-8DA6A17730E2Q38853191-EC2C4EC0-AD5A-406D-95BA-1814F06B4F68Q39301867-515C0AB1-6A53-4CBB-9FEC-70142B7CB00EQ41790614-C6E98818-743E-4F44-A644-6104E3FE6A2DQ41820852-91DA08A2-F09D-4C97-A68C-2378B378FD99Q42805917-4E8FCA3A-2572-46DD-BC0D-D55413F6914DQ46543595-8E637EB4-6995-4E4F-A994-9D5E2DF4FE91Q47240866-79E695F8-9B6C-43D1-8F73-8CD04572E7A5Q51562391-271B9565-4325-45A8-B1C2-F02BC17376DAQ52658268-700DABE6-4CB4-4BB0-9787-7A6495087C5DQ53065681-087D7D34-A21F-4985-8320-D73C0B5234E5
P2860
Monomolecular assembly of siRNA and poly(ethylene glycol)-peptide copolymers.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh-hant
name
Monomolecular assembly of siRNA and poly
@nl
Monomolecular assembly of siRNA and poly(ethylene glycol)-peptide copolymers.
@en
type
label
Monomolecular assembly of siRNA and poly
@nl
Monomolecular assembly of siRNA and poly(ethylene glycol)-peptide copolymers.
@en
prefLabel
Monomolecular assembly of siRNA and poly
@nl
Monomolecular assembly of siRNA and poly(ethylene glycol)-peptide copolymers.
@en
P2093
P50
P356
P1433
P1476
Monomolecular assembly of siRNA and poly(ethylene glycol)-peptide copolymers
@en
P2093
Christian Koch
Claudia Schmidt
Greg F Walker
Joachim O Rädler
P304
P356
10.1021/BM7011482
P577
2008-01-26T00:00:00Z