Nanomechanics of functional and pathological amyloid materials.
about
Fibrillogenesis of huntingtin and other glutamine containing proteinsPathogenic protein seeding in Alzheimer disease and other neurodegenerative disordersSelf-propagation of pathogenic protein aggregates in neurodegenerative diseasesDevelopment and characterization of a eukaryotic expression system for human type II procollagenFabrication of enzyme-degradable and size-controlled protein nanowires using single particle nano-fabrication techniqueA natural O-ring optimizes the dispersal of fungal sporesCryo-EM reveals the steric zipper structure of a light chain-derived amyloid fibrilSecondary structure and rigidity in model proteins.Materials by Design-A Perspective From Atoms to Structures.Designed amyloid fibers as materials for selective carbon dioxide capture.Rigidity, secondary structure, and the universality of the boson peak in proteinsComparative analysis of nanomechanics of protein filaments under lateral loading.Localization of cholesterol, amyloid and glia in Alzheimer's disease transgenic mouse brain tissue using time-of-flight secondary ion mass spectrometry (ToF-SIMS) and immunofluorescence imaging.Exceptional rigidity and biomechanics of amyloid revealed by 4D electron microscopy.Dynamics of protein aggregation and oligomer formation governed by secondary nucleation.CPAD, Curated Protein Aggregation Database: A Repository of Manually Curated Experimental Data on Protein and Peptide Aggregation.Physical mechanism for biopolymers to aggregate and maintain in non-equilibrium states.Amyloid fibrils nucleated and organized by DNA origami constructions.Identification of multiple dityrosine bonds in materials composed of the Drosophila protein UltrabithoraxNanoscale Control of Amyloid Self-Assembly Using Protein Phase Transfer by Host-Guest ChemistryThe mammalian disaggregase machinery: Hsp110 synergizes with Hsp70 and Hsp40 to catalyze protein disaggregation and reactivation in a cell-free systemSmall heat shock proteins potentiate amyloid dissolution by protein disaggregases from yeast and humansStrong underwater adhesives made by self-assembling multi-protein nanofibresRubber elongation factor (REF), a major allergen component in Hevea brasiliensis latex has amyloid propertiesDistinct position-specific sequence features of hexa-peptides that form amyloid-fibrils: application to discriminate between amyloid fibril and amorphous β-aggregate forming peptide sequencesRole of sequence and structural polymorphism on the mechanical properties of amyloid fibrilsTightening up the structure, lighting up the pathway: Application of molecular constraints and light to manipulate protein folding, self-assembly and function.Tunable assembly of amyloid-forming peptides into nanosheets as a retrovirus carrierNanomechanics and intermolecular forces of amyloid revealed by four-dimensional electron microscopy.Supramolecular amplification of amyloid self-assembly by iodination.Controlling amyloid fibril formation by partial stirring.Infrared nanospectroscopy characterization of oligomeric and fibrillar aggregates during amyloid formation.Force generation by the growth of amyloid aggregates.Light-triggered disassembly of amyloid fibrils.Unzipping a functional microbial amyloid.Self-assembled amyloid fibrils with controllable conformational heterogeneity.Characterization of curli A production on living bacterial surfaces by scanning probe microscopy.Molecular insights into the reversible formation of tau protein fibrils.Local structure and global patterning of Cu2+ binding in fibrillar amyloid-β [Aβ(1-40)] proteinMolecular dynamics simulations of mechanical failure in polymorphic arrangements of amyloid fibrils containing structural defects.
P2860
Q26850062-BD25CECA-4FB7-4417-B9AF-01CF4D129DA9Q26850298-E22DFC87-C0F6-45C9-A1B9-16A908343E54Q26996441-AE2BF5E2-981B-4F9B-9AD2-80D4E4A5535DQ27309199-8E42ACE8-FEDF-49BA-AA58-422B87DF7B76Q28657713-651918E9-7000-46A9-A1DA-92068AB990C8Q28660504-49B62A28-44AA-4232-ABB6-95C6E1D47862Q28828663-99B91694-FA79-4F09-B1FF-70F5989C17CBQ30153489-E2BCE1AE-F948-444F-A992-9A2207FA2752Q30354949-F88CC06A-5E62-4021-B66B-40AA2A922416Q30391289-E3E1F476-8F20-4300-8123-A714EB568350Q30409086-3A91665A-6BF4-4916-A0A5-BFDD929A0127Q30410990-BC597C33-2F05-4A0B-92ED-556EF0B11C40Q30421485-8A514570-744B-4582-9D2F-2E60E19FF443Q30541223-B618565B-C602-4472-BD50-A6D34D4E8759Q30985903-ACBDF003-E506-4D84-87CB-5218C0C2BD06Q31068168-87A69E93-0BE8-40CC-89F4-E73297237C6FQ33780530-0A57E3AC-DF5B-4F8D-833F-8D689CFB46D3Q33848101-B267E6C6-44ED-43BD-AB9E-2C7A5A81BE2CQ33909928-7271779D-4C65-4CBE-AB7F-680C6C22FB2EQ33916228-C22933B1-E64F-4BF5-82D8-0D6CA9F86C35Q34056277-D69BA792-88CB-4539-A285-9963A84E698CQ34313725-F99CBD3A-6341-44B7-9A44-8B5E17E53573Q34314975-91877FF9-E100-4864-9B19-42D79DA94A2BQ34469298-D53F3CD8-2B98-4EE2-A59E-99C897786B86Q34787774-91EFA49A-D88B-4655-B716-0DACC20EDA4FQ35097423-1CD842A2-E9AE-48D2-9D44-EA4E341071FFQ35111788-966E0CC8-0F29-409D-90C1-E324A2ECB465Q35189892-9AAE27E0-73FF-4C48-B106-7F7AB2784BC6Q35212582-BCACBFF4-60B4-4CC4-B0B4-DAE1B4E5D81EQ35678061-64323F0D-AAA5-4570-8205-CBA3D4CE2B25Q35891537-639C2080-9371-434A-9B7D-2751ACBC8918Q35917010-30E4226C-0045-4267-B1DC-0F6E2C846780Q35946263-7ECBB5BA-E654-4C23-9419-1C383ACB98ACQ36203702-36F2CB2D-F77B-414A-81DB-BE18276D00CCQ36284021-BE5933E7-47AA-4257-A04B-CE5A4643FCF7Q36305736-3CCED25B-58AF-40BF-9D5C-185E5FF4EB14Q36330040-B32A54DB-163B-4EA0-B54F-C414F988F8A8Q36797384-94595497-15E8-47E7-8347-110E3C3846D5Q37043268-A08DF033-A73D-4976-AFC1-DFCE545A433DQ37088407-53A4A800-8FF3-4FC9-ACC3-125EE86FD670
P2860
Nanomechanics of functional and pathological amyloid materials.
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
Nanomechanics of functional and pathological amyloid materials.
@en
Nanomechanics of functional and pathological amyloid materials.
@nl
type
label
Nanomechanics of functional and pathological amyloid materials.
@en
Nanomechanics of functional and pathological amyloid materials.
@nl
prefLabel
Nanomechanics of functional and pathological amyloid materials.
@en
Nanomechanics of functional and pathological amyloid materials.
@nl
P2860
P356
P1476
Nanomechanics of functional and pathological amyloid materials
@en
P2093
Tuomas P J Knowles
P2860
P2888
P304
P356
10.1038/NNANO.2011.102
P407
P577
2011-07-31T00:00:00Z