about
Obstructing toxin pathways by targeted pore blockageDynamic formation of hybrid peptidic capsules by chiral self-sorting and self-assembly.Designer nanorings with functional cavities from self-assembling β-sheet peptides.Extremely strong tubular stacking of aromatic oligoamide macrocycles.Synthesis and anion recognition properties of shape-persistent binaphthyl-containing chiral macrocyclic amides.Artificial beta-sheets: chemical models of beta-sheets.Recent synthetic transport systems.Microtubule-based nanomaterials: Exploiting nature's dynamic biopolymers.Building membrane nanopores.Recent advances in controlling the internal and external properties of self-assembling cyclic peptide nanotubes and dimers.Porous biomimetic membranes: fabrication, properties and future applications.Supramolecular approaches to combining membrane transport with adhesion.An aqueous molecular tube with polyaromatic frameworks capable of binding fluorescent dyes.Cyclodextrin ion channels.Helix formation in preorganized beta/gamma-peptide foldamers: hydrogen-bond analogy to the alpha-helix without alpha-amino acid residues.Signal control by self-assembly of fluorophores in a molecular beacon--a model study.Active ion transporters from readily accessible acyclic octapeptides containing 3-aminobenzoic acid and alanine.pH-Switchable ampholytic supramolecular copolymers.Sensing applications of synthetic transport systems.DNA-assisted oligomerization of pore-forming toxin monomers into precisely-controlled protein channels.Controlling orthogonal self-assembly through cis-trans isomerization of a non-covalent palladium complex dimer.pH-Controlled Formation of a Stable β-Sheet and Amyloid-like Fibers from an Amphiphilic Peptide: The Importance of a Tailor-Made Binding Motif for Secondary Structure Formation.Porous Peptide Complexes by a Folding-and-Assembly Strategy.An Enantiopure Hydrogen-Bonded Octameric Tube: Self-Sorting and Guest-Induced Rearrangement.Cell-penetrating poly(disulfide)s: focus on substrate-initiated co-polymerizationTransport Experiments in Membranes
P2860
Q26827489-E9749B6A-9D86-49BE-BF31-97F84C75625CQ30153321-3D32D811-12FE-4505-AD4B-9E80FA64EAD3Q30156031-98859F45-2848-498B-9A9C-76EAC1B1790DQ33655644-4D87AC8F-9B07-4265-9B9B-77A24BEA8A1AQ36073621-B54D8D86-8C01-476F-9CCF-0EB1384591D1Q37106125-147C5D9A-9748-45B8-8B25-A94ED62D326DQ37851364-2923787F-5EE3-478C-826D-2E6173B15C3BQ38366475-28481ADA-60AA-470D-B25F-8BC1DC31D3F3Q38662158-4B33BC90-000D-4DBC-9C50-682FB8248C8BQ39218795-BE7514DE-2131-47CD-9D18-EC524E2CDA7DQ39758062-DA9392F7-6E38-47AE-987E-0BDA259238D6Q41974965-F6A2BB05-05DD-4212-83E3-6C5EDC62F91BQ42259230-1610354A-3AE8-4A19-B2DF-ED4DA8269BB6Q42656021-D2A51D3E-EFBF-46B4-B90F-ACF2DB9D35B2Q42732749-03216C98-62D9-4CD8-9EFA-EAE3A7A8456DQ43816521-CC4878DC-DC9D-419D-82A3-CC86F98562A9Q44556156-323C25E8-869B-4D60-8A86-F56F95C5AE46Q44981084-C4DA9083-2558-46E8-A817-44BD1E91FDAFQ46154897-23C9B7A9-5D6D-4A43-8C9E-2AD1CB944A39Q47106323-D4726316-3DD6-49E7-8D06-69D431B64B79Q48261551-6ED28088-A2D1-496E-859B-E245948ADF73Q50224959-C8D5B1FC-D409-4DC5-BD27-B0F7D84B4A9FQ50662689-FC9AD9EA-AA0D-444D-A46A-EA98C8A35353Q53448715-7CB8D722-CF4B-4245-B3D1-92EACE36ED40Q57903024-307DDE40-16A9-4917-8F5D-C6B277BB64BAQ57903041-D116257D-C49D-4E5A-91C4-A770DB4B3EA3
P2860
description
2008 nî lūn-bûn
@nan
2008 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Artificial beta-barrels.
@ast
Artificial beta-barrels.
@en
type
label
Artificial beta-barrels.
@ast
Artificial beta-barrels.
@en
prefLabel
Artificial beta-barrels.
@ast
Artificial beta-barrels.
@en
P356
P1476
Artificial beta-barrels.
@en
P2093
Jiri Mareda
P304
P356
10.1021/AR700229R
P407
P577
2008-07-01T00:00:00Z