Control of protein–ligand recognition using a stimuli-responsive polymer
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Shape-memory surfaces for cell mechanobiologyControlled Delivery of Vancomycin via Charged HydrogelsSize-dependent control of the binding of biotinylated proteins to streptavidin using a polymer shield.Smart hybrid materials by conjugation of responsive polymers to biomacromolecules.Investigation of the 'switch-epitope' concept with random peptide libraries displayed as thioredoxin loop fusions.Solubility control of enzymes by conjugation with stimulus-responsive polymers.In situ growth of a PEG-like polymer from the C terminus of an intein fusion protein improves pharmacokinetics and tumor accumulationBioconjugation for enzyme technology.Local myocardial insulin-like growth factor 1 (IGF-1) delivery with biotinylated peptide nanofibers improves cell therapy for myocardial infarction.Stimuli responsive polymers for biomedical applications.Sequence heuristics to encode phase behaviour in intrinsically disordered protein polymers.Stimulus-controlled delivery of drugs and genes.Synthesis of protein-polymer conjugates.Temperature-responsive electrospun nanofibers for 'on-off' switchable release of dextran.Novel temperature-responsive polymer brushes with carbohydrate residues facilitate selective adhesion and collection of hepatocytes.Polypeptide-polymer bioconjugates.Precision polymers--modern tools to understand and program macromolecular interactions.Advances in polymeric systems for tissue engineering and biomedical applications.Functional protein-organic/inorganic hybrid nanomaterials.Nanomedicine as an innovative therapeutic strategy for pediatric lung diseases.Smart nanocontainers: progress on novel stimuli-responsive polymer vesicles.Smart chemistry in polymeric nanomedicine.Protein-polymer therapeutics: a macromolecular perspective.Hierarchically ordered supramolecular protein-polymer composites with thermoresponsive properties.A thermoreversible poly(choline phosphate) based universal biomembrane adhesive.On-off affinity binding modulation on thermoresponsive polymer-grafted surfaces for capture and release of proteins and cells.Influence of poly(n-isopropylacrylamide)-CNT-polyaniline three-dimensional electrospun microfabric scaffolds on cell growth and viability.Synthetic polymer systems in drug delivery.Heparin-functionalized thermoresponsive surface: a versatile cell culture substrate for regulating multivalent affinity binding with heparin-binding proteins by temperature changespH-responsive non-ionic diblock copolymers: ionization of carboxylic acid end-groups induces an order-order morphological transition.Two-dimensional manipulation of confluently cultured vascular endothelial cells using temperature-responsive poly(N-isopropylacrylamide)-grafted surfaces.The effect of pH on the LCST of poly(N-isopropylacrylamide) and poly(N-isopropylacrylamide-co-acrylic acid).Elastin-like polypeptide switches: A design strategy to detect multimeric proteins.Evidence for vertical phase separation in densely grafted, high-molecular-weight poly(-isopropylacrylamide) brushes in water.Construction of polymer-protein bioconjugates with varying chain topologies: polymer molecular weight and steric hindrance effects.Pillar[10]arene-based size-selective host-guest complexation and its application in tuning the LCST behavior of a thermoresponsive polymer.Synthesis of glucose oxidase-PEG aldehyde conjugates and improvement of enzymatic stability.Multi-modulation for self-assemblies of amphiphilic rigid-soft compounds through alteration of solution polarity and temperature.3D graphene oxide-polymer hydrogel: near-infrared light-triggered active scaffold for reversible cell capture and on-demand release.Adsorption-desorption oscillations of nanoparticles on a honeycomb-patterned pH-responsive hydrogel surface in a closed reaction system.
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Control of protein–ligand recognition using a stimuli-responsive polymer
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature в листопаді 1995
@uk
name
Control of protein–ligand recognition using a stimuli-responsive polymer
@en
Control of protein–ligand recognition using a stimuli-responsive polymer
@nl
type
label
Control of protein–ligand recognition using a stimuli-responsive polymer
@en
Control of protein–ligand recognition using a stimuli-responsive polymer
@nl
prefLabel
Control of protein–ligand recognition using a stimuli-responsive polymer
@en
Control of protein–ligand recognition using a stimuli-responsive polymer
@nl
P2093
P356
P1433
P1476
Control of protein-ligand recognition using a stimuli-responsive polymer
@en
P2093
Chilkoti A
Hoffman AS
Shimoboji T
Stayton PS
P2888
P304
P356
10.1038/378472A0
P407
P577
1995-11-01T00:00:00Z
P6179
1036163480