about
Nanostructures for the Inhibition of Viral InfectionsAnti-HIV-1 nanotherapeutics: promises and challenges for the futureExploiting dendrimer multivalency to combat emerging and re-emerging infectious diseasesNanocarriers for diagnosis and targeting of breast cancerSupramolecular coordination: self-assembly of finite two- and three-dimensional ensemblesNanotechnology in cancer therapyDendrimers bind antioxidant polyphenols and cisplatin drugStructure-based optimization of the terminal tripeptide in glycopeptide dendrimer inhibitors of Pseudomonas aeruginosa biofilms targeting LecAMultivalent polymers for drug delivery and imaging: the challenges of conjugationMultivalency effects on Pseudomonas aeruginosa biofilm inhibition and dispersal by glycopeptide dendrimers targeting lectin LecAThe Role of Galectin-1 in Cancer Progression, and Synthetic Multivalent Systems for the Study of Galectin-1Hybrid nanoparticles for combination therapy of cancerNanotechnology for multimodality treatment of cancer (Review)PET imaging of soluble yttrium-86-labeled carbon nanotubes in miceEffects of solute-solute interactions on protein stability studied using various counterions and dendrimersBiogenic and synthetic polyamines bind cationic dendrimersElucidation of the interaction mechanism with liposomes of gH625-peptide functionalized dendrimersOpportunities and obstacles to the development of nanopharmaceuticals for human useCurrent progress in gene delivery technology based on chemical methods and nano-carriersScreening of efficient siRNA carriers in a library of surface-engineered dendrimersTriggered drug release from superhydrophobic meshes using high-intensity focused ultrasound.3D superhydrophobic electrospun meshes as reinforcement materials for sustained local drug delivery against colorectal cancer cells.Imaging and drug delivery using theranostic nanoparticlesTargeted Nanocarriers for Imaging and Therapy of Vascular Inflammation.FUNCTIONAL NANOPARTICLES FOR MOLECULAR IMAGING GUIDED GENE DELIVERYDendrimer-based postnatal therapy for neuroinflammation and cerebral palsy in a rabbit model.Design and Synthesis of a γ(1)β(8)-Cyclodextrin Oligomer: A New Platform with Potential Application as a Dendrimeric Multicarrier.The key role of the scaffold on the efficiency of dendrimer nanodrugs.Recent progress in the construction of cavity-cored supramolecular metallodendrimers via coordination-driven self-assembly.A pillararene-based ternary drug-delivery system with photocontrolled anticancer drug release.Design and optimization of lipid-modified poly(amidoamine) dendrimer coated iron oxide nanoparticles as probes for biomedical applications.Doxorubicin-loaded aromatic imine-contained amphiphilic branched star polymer micelles: synthesis, self-assembly, and drug delivery.Guest-Host Chemistry with Dendrimers—Binding of Carboxylates in Aqueous SolutionSelf-Sorting and Coassembly of Fluorinated, Hydrogenated, and Hybrid Janus Dendrimers into Dendrimersomes.Systematic investigation of polyamidoamine dendrimers surface-modified with poly(ethylene glycol) for drug delivery applications: synthesis, characterization, and evaluation of cytotoxicity.Regulating gene expression with light-activated oligonucleotides.Metal ion-dependent, reversible, protein filament formation by designed beta-roll polypeptides.Molecule-level imaging of Pax6 mRNA distribution in mouse embryonic neocortex by molecular interaction force microscopyCombinatorial libraries of peptide dendrimers: design, synthesis, on-bead high-throughput screening, bead decoding and characterization.The influence of polymer topology on pharmacokinetics: differences between cyclic and linear PEGylated poly(acrylic acid) comb polymers
P2860
Q26801513-0CF1100A-94B3-4827-83A8-A88C70F97CCBQ26828464-AF220251-B0C4-4B18-A60E-104717A4D7BBQ26852693-A0C0937F-1E26-4BF7-A2A2-C588ECD44739Q26862309-54238D74-D0B0-41EB-890E-37485293D1D6Q27010271-BE8C3F6E-DC36-4282-88FB-5480EF3D008DQ27023013-22B8DB76-29A1-4AFB-8E63-0AAA4999C2DDQ27307187-3C59A375-C07D-4047-9A78-31E3863E9B44Q27687825-13E3D95B-014C-4BE0-8A37-5D76D92C0897Q27692689-7F78E579-C57C-4241-957F-EB18FB12D38DQ27702214-B7AAA0BF-F8BE-4805-B84F-1AB66C069F98Q28075523-D5812045-A400-46EB-B8B9-F9D3B9B47670Q28086815-E65F8181-7E46-42E2-80DF-1D70551CE9D7Q28468380-87413FA6-CF79-4242-97BA-896BAAAE2F8FQ28469301-53F29BFA-CF90-4554-B419-AE2565E7592FQ28478083-5FF5210F-7D75-4BC3-AE4B-0712A06E0F43Q28482718-68AD43E2-E934-4518-926F-37505D5E8555Q28545166-C353D310-AF98-434C-8AB6-15A965C13B92Q28597891-8EE7298B-F14C-4CC8-B30A-A563CE1A2E4AQ28659480-8AAC0585-E684-4465-9401-1A0F72F2225EQ28834046-2A7D65A5-113E-4128-B7DA-5AD173328CDAQ30431665-FC036F62-6F6E-4D6C-BE4B-67479A3FC29EQ30444900-9686FA4D-F210-4794-9A28-D5D99660558FQ30449480-C077ADA4-589C-45BD-9C49-E4B3C6ABE1D7Q30466992-623A7EA3-153E-44E8-B136-5507929AF204Q30472645-22CD09D4-B94F-4AEE-9284-E8766FE92A7BQ30528069-57426B9A-4FC6-46F8-B123-57E17ED9D452Q30656491-4149FE8E-0B90-4108-9F91-74EF61DB7118Q30658594-490F8A7E-AFB4-496F-87F0-4563B862700CQ30689640-8AE16B75-5322-4AAC-98F8-CE0814BE174EQ30860444-4059EBEB-E795-4544-9213-BA8D3C8DDAC3Q30917699-E1087608-E28E-4441-839E-68D016AEE8A8Q30968289-E72F979C-B72A-4329-AE64-772ED467B4D2Q31003166-368E809F-4859-4941-8DD6-37618AEBA25DQ31125843-CB9DEA18-94AD-4857-AD7B-19B84D268180Q31161948-A23697CA-F634-4516-9E40-CBF687A33AD1Q33270099-FB656444-05BB-44C8-B0C6-078EEAF5735FQ33301065-4D3A62D2-67D7-4F12-8BFE-A98F1868F038Q33388165-72AAD3A9-C24E-4BA5-BC82-5FF8F6EBFD16Q33404043-5A3B42F0-0D66-4112-891B-A41E74AA7172Q33451490-06258127-828D-4B1D-959A-7C442EA07C05
P2860
description
2005 nî lūn-bûn
@nan
2005 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Designing dendrimers for biological applications.
@ast
Designing dendrimers for biological applications.
@en
Designing dendrimers for biological applications.
@nl
type
label
Designing dendrimers for biological applications.
@ast
Designing dendrimers for biological applications.
@en
Designing dendrimers for biological applications.
@nl
prefLabel
Designing dendrimers for biological applications.
@ast
Designing dendrimers for biological applications.
@en
Designing dendrimers for biological applications.
@nl
P2093
P356
P1433
P1476
Designing dendrimers for biological applications.
@en
P2093
Cameron C Lee
Francis C Szoka
John A MacKay
P2888
P304
P356
10.1038/NBT1171
P50
P577
2005-12-01T00:00:00Z