about
Drug delivery trends in clinical trials and translational medicine: challenges and opportunities in the delivery of nucleic acid-based therapeuticsIn vitro non-viral gene delivery with nanofibrous scaffoldsSelective condensation of DNA by aminoglycoside antibioticsThe antifungal protein AFP of Aspergillus giganteus is an oligonucleotide/oligosaccharide binding (OB) fold-containing protein that produces condensation of DNA.Exploring the interaction of ruthenium(II) polypyridyl complexes with DNA using single-molecule techniques.Lipoplex formation under equilibrium conditions reveals a three-step mechanism.Polyamine structural effects on the induction and stabilization of liquid crystalline DNA: potential applications to DNA packaging, gene therapy and polyamine therapeutics.Reversible collapse of brushlike macromolecules in ethanol and water vapours as revealed by real-time scanning force microscopy.Probing biopolymers with the atomic force microscope: a review.Formation of DNA nanoparticles in the presence of novel polyamine analogues: a laser light scattering and atomic force microscopic study.A stopped-flow kinetic study of the assembly of nonviral gene delivery complexes.Folding transition into a loosely collapsed state in plasmid DNA as revealed by single-molecule observation.DNA release dynamics from reducible polyplexes by atomic force microscopy.Segmented nanofibers of spider dragline silk: atomic force microscopy and single-molecule force spectroscopy.Toroidal condensates of semiflexible polymers in poor solvents: adsorption, stretching, and compression.Sequence-dependent DNA condensation and the electrostatic zipperForces and pressures in DNA packaging and release from viral capsidsRecent highlights from atomic force microscopy of DNA.Missing pieces in understanding the intracellular trafficking of polycation/DNA complexes.Regulatable gene expression systems for gene therapy applications: progress and future challenges.DNA release dynamics from bioreducible poly(amido amine) polyplexes.Recent developments and perspectives on gene therapy using synthetic vectors.Nanostructure-induced DNA condensation.Systematic Comparisons of Formulations of Linear Oligolysine Peptides with siRNA and Plasmid DNA.Physical morphology and surface properties of unsaturated Pseudomonas putida biofilms.Mechanism of gene transfection by polyamidoamine (PAMAM) dendrimers modified with ornithine residues.Direct real-time molecular scale visualisation of the degradation of condensed DNA complexes exposed to DNase IGene delivery via DNA incorporation within a biomimetic apatite coating.Extended, relaxed, and condensed conformations of hyaluronan observed by atomic force microscopy.Reply to the comment by S. Harvey on "entropy, energy, and bending of DNA in viral capsids".Organic Nanoflowers from a Wide Variety of Molecules Templated by a Hierarchical Supramolecular Scaffold.Ejecting phage DNA against cellular turgor pressure.Isothermal titration calorimetry study of the polyelectrolyte complexation of xanthan and chitosan samples of different degree of polymerization.Algorithmic Self-Assembly of DNA: Theoretical Motivations and 2D Assembly Experiments.A formula for the minimal coordination number of a parallel bundle.Formation and Reversible Morphological Transition of Bicontinuous Nanospheres and Toroidal Micelles by the Self-Assembly of a Crystalline-b-Coil Diblock Copolymer.Development of a Parenteral Formulation of NTS-Polyplex Nanoparticles for Clinical Purpose.Phase diagram of the ground states of DNA condensates.Influence of block sequences in polymer vectors for gene transfection in vitro and toxicity assessment of zebrafish embryos in vivoObservation of DNA-polymer condensate formation in real time at a molecular level
P2860
Q24616751-355364ED-966C-49B7-8D58-FE6D36E0CC77Q24813608-D9CF11A4-4282-4F5E-B86C-583D6D4D339EQ27324035-C1331296-38E2-4B22-BABA-193E671B1521Q30165182-89C69D18-B0E6-4AC7-9CD3-081D89762E75Q30483195-354DDD91-7516-4560-AB18-89EF4F4B25F5Q30503643-B2081B4B-B3F4-4BD6-BDC4-AF25F2DF6993Q31106045-70C9E905-4658-4120-BFB8-8242149AD063Q31113655-FF7C2B90-E863-4F50-B339-2303F4202F8EQ31811267-BE2EB609-38A0-4E24-901A-681666260BC5Q33196404-EAD729FB-7091-486A-A4FF-DD35E6FACF5DQ33213536-8CCD2795-1135-4D1C-AAA5-F4574BF8319BQ33215523-E4D54C06-A32E-4D62-ABB5-4BE4334A96DCQ33671439-E437314E-FB8D-4C6A-B12F-06CAF2DCFFA0Q34138266-85C94BF9-3780-47E4-B024-A25D3F8155A3Q34174744-716A9E11-9E83-49DF-ACB8-8BD763DAF9AFQ34180187-87608AB6-3008-4D3E-8C6E-5DEC19CF6A30Q34180575-3765A5ED-AB06-431A-B2DC-9216348BDED6Q34274518-342FF43D-EA31-43D5-B431-255E927B392CQ35911766-F45949C1-C462-443D-831F-59F0B60CFD53Q36157542-6B481D4E-57A2-4467-B334-0406BC254071Q37388713-4650692D-DF98-4901-B5D7-7CC20B22FF95Q38074465-A878B0CA-CF10-424A-A95A-1C857F6C8EB6Q38120408-C257175F-5AC8-4A66-BE50-1B4E69947B05Q38810536-931D9239-E6C5-43D0-82F6-DE40846C7BF4Q39500048-1D45D826-DFE3-424B-B869-329FDBC6650BQ39566386-9B294938-4A39-4CF7-B20C-4F6689AB82EBQ39792183-5741384E-28C6-495E-B967-5A2872A1421EQ39796040-9EEF823D-D800-4C52-9D30-4FDF7FB125E6Q40312854-53D404DA-8310-44B4-B734-60CD62ACE2D2Q41852639-F5F39390-9FFC-4D8B-8363-A1075E8D5D1EQ42178229-2F3090CD-DD4C-49E2-A4C8-6A2C00C490E1Q42180875-FF9452D6-EC55-4CA4-B820-B35C25DD20A4Q43753534-9AC50F5B-93D1-4275-AB0E-1289E4723F0EQ46688934-63E3721E-E7EA-423F-9B88-6C381859B202Q47206140-F19A1B55-6D59-46EA-983E-1B8D34E3DFAAQ48144125-47D586E6-CC97-4836-98AF-E7C18A9BF5F8Q48308187-DD4C5C7B-6B52-48EF-9F94-148FBC431C04Q50735638-C7472F85-E1D6-44C0-BD53-3577101A7084Q58068013-3BE3DFF3-4B53-4F76-91D4-9AF0E6AE879DQ58622615-A27E06B5-EDF5-4281-A1C8-9F25001A24E5
P2860
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
DNA toroids: stages in condensation.
@en
type
label
DNA toroids: stages in condensation.
@en
prefLabel
DNA toroids: stages in condensation.
@en
P2093
P356
P1433
P1476
DNA toroids: stages in condensation.
@en
P2093
P304
14069-14076
P356
10.1021/BI990901O
P407
P577
1999-10-01T00:00:00Z