about
Tunable assembly of amyloid-forming peptides into nanosheets as a retrovirus carrierSupramolecular amplification of amyloid self-assembly by iodination.Spontaneous structural transition and crystal formation in minimal supramolecular polymer modelA Competitive Bio-Barcode Amplification Immunoassay for Small Molecules Based on Nanoparticles.The Use of the Calcitonin Minimal Recognition Module for the Design of DOPA-Containing Fibrillar Assemblies.MpUL-multi: Software for Calculation of Amyloid Fibril Mass per Unit Length from TB-TEM ImagesAmyloid Structures as Biofilm Matrix Scaffolds.Amyloid Fibrils as Building Blocks for Natural and Artificial Functional Materials.Structural and functional diversity among amyloid proteins: Agents of disease, building blocks of biology, and implications for molecular engineering.Nanostructure and stability of calcitonin amyloids.α-Helical coiled-coil peptide materials for biomedical applications.Stability and cytotoxicity of crystallin amyloid nanofibrils.Self-assembling peptide and protein amyloids: from structure to tailored function in nanotechnology.Molecular interactions of amyloid nanofibrils with biological aggregation modifiers: implications for cytotoxicity mechanisms and biomaterial design.Functionalization of α-synuclein fibrilsSystematic Moiety Variations of Ultrashort Peptides Produce Profound Effects on Self-Assembly, Nanostructure Formation, Hydrogelation, and Phase Transition.Controlling the bioactivity of a peptide hormone in vivo by reversible self-assembly.Structural and Mechanical Properties of Amyloid Beta Fibrils: A Combined Experimental and Theoretical Approach.Local Mechanical Perturbation Provides an Effective Means to Regulate the Growth and Assembly of Functional Peptide Fibrils.Design Principles of Peptide Based Self-Assembled Nanomaterials.Self-assembly of two hydrophobins from marine fungi affected by interaction with surfaces.Redox-sensitive reversible self-assembly of amino acid-naphthalene diimide conjugates.A fine-tuned composition of protein nanofibrils yields an upgraded functionality of displayed antibody binding domains.Sodium chloride's effect on self-assembly of diphenylalanine bilayer.Amyloid Templated Gold Aerogels.The mechanical response of hIAPP nanowires based on different bending direction simulations.Mechanical properties of amyloid-like fibrils defined by secondary structures.The kinetics of TEM1 antibiotic degrading enzymes that are displayed on Ure2 protein nanofibrils in a flow reactor.FRET evidence for untwisting of amyloid fibrils on the surface of model membranes
P2860
Q35189892-17CCD630-6BE6-4F39-A887-9EA9FBBAF219Q35678061-987EEEFA-EC90-4514-834E-C4EC1E024370Q36593562-13957DDA-79F9-4CEE-AA6C-82C4A8FBA0F3Q37479583-FC45A721-9473-470C-A676-92D7F86ABF54Q37638525-7B2659CD-2228-43B8-9946-7710E5357435Q38381825-79F4A94F-248B-4740-8538-555C13E8F7BBQ38836013-FA2BA738-AA25-442C-8F7B-7D5431B76CEAQ38868961-B0435E61-4FE7-45A8-A39F-0EF23E4419D6Q38913307-53A9551C-DC56-4B37-8785-BB8A12C15FE8Q38914037-E875C3C3-5271-4A04-B533-6642B9B01BCDQ38946939-68535128-A8DF-46E9-AA27-4CE27CCAB787Q38953393-1726A017-54F4-481F-8DFF-59BF09ED34EFQ39322110-ACF742FF-EC5C-4FDC-85A8-B137E35FF086Q39384630-EB9A5C64-CC66-41B5-85D5-A5757DCEB4BAQ41860926-1F038E2F-022D-4EEE-944E-9DB2FC73A5F9Q42374279-5BEBDEAE-C23F-4C05-AEA2-305B460769BEQ42380173-5B891E67-224C-48C6-A5FC-1F0C52923AF4Q45037666-19B90890-8CC0-483E-9DAA-273CACB76768Q46712005-82B36DD8-120A-408B-987C-7EB45DA1543EQ47400913-D85D5201-E10B-431B-B332-E9B3F231BA35Q48099701-B4761FBB-EA53-42A3-AD9E-BD710FC96733Q48286576-EE540F7F-0B7E-465C-B164-179448217BFFQ51074523-15AF79DF-C230-4F5E-BF0D-10949EAA7EDEQ51311781-A30E96DF-38C5-4C23-B50C-C42F297CA32BQ51635501-9F955272-CCDF-41D5-8311-86A0C16E995BQ53488011-E0F0CD19-496C-461A-AE87-3A8725845BE9Q53558654-0B0BA528-E544-4E25-85A3-97BEABF5CC6EQ54969379-03758F4D-4D07-4963-B565-46C32B126C3BQ59150078-6E0341BD-5081-4148-A678-006E5C9E261A
P2860
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Amyloid-based nanosensors and nanodevices.
@en
type
label
Amyloid-based nanosensors and nanodevices.
@en
prefLabel
Amyloid-based nanosensors and nanodevices.
@en
P2860
P356
P1476
Amyloid-based nanosensors and nanodevices
@en
P2093
Sebastian Maurer-Stroh
P2860
P304
P356
10.1039/C4CS00082J
P577
2014-08-01T00:00:00Z