Stiffening of individual fibrin fibers equitably distributes strain and strengthens networks. - Wikidata - awgldk - TriplyDB

Stiffening of individual fibrin fibers equitably distributes strain and strengthens networks.

Stiffening of individual fibrin fibers equitably distributes strain and strengthens networks.

http://www.wikidata.org/entity/Q33561381

about

Physical determinants of fibrinolysis in single fibrin fibers Using molecular mechanics to predict bulk material properties of fibronectin fibers Buffers Strongly Modulate Fibrin Self-Assembly into Fibrous Networks.Mechanism of fibrin(ogen) forced unfolding.Concentration independent modulation of local micromechanics in a fibrin gel.Structural basis for the nonlinear mechanics of fibrin networks under compression.Evidence that αC region is origin of low modulus, high extensibility, and strain stiffening in fibrin fibers The molecular origins of the mechanical properties of fibrin.Elastic behavior and platelet retraction in low- and high-density fibrin gels.Protein unfolding accounts for the unusual mechanical behavior of fibrin networks.Foam-like compression behavior of fibrin networks.Submillisecond elastic recoil reveals molecular origins of fibrin fiber mechanics.Multiscale models of thrombogenesis.Fibrin(ogen) and thrombotic disease.Viscoelasticity and Ultrastructure in Coagulation and Inflammation: Two Diverse Techniques, One Conclusion.Pluripotent stem cell-derived cardiac tissue patch with advanced structure and function.Fibrin mechanical properties and their structural origins.Fibrin Formation, Structure and Properties.A constitutive model for the time-dependent, nonlinear stress response of fibrin networks.Mechanical Cell-Cell Communication in Fibrous Networks: The Importance of Network Geometry.Compression-induced structural and mechanical changes of fibrin-collagen composites.Model predictions of deformation, embolization and permeability of partially obstructive blood clots under variable shear flow.Nonuniform Internal Structure of Fibrin Fibers: Protein Density and Bond Density Strongly Decrease with Increasing Diameter.Effect of functionalized PHEMA micro- and nano-particles on the viscoelastic properties of fibrin-agarose biomaterials.Effect of the hydration on the biomechanical properties in a fibrin-agarose tissue-like model.

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P2860

Stiffening of individual fibrin fibers equitably distributes strain and strengthens networks.

http://www.wikidata.org/entity/Q33561381

description

2010 nî lūn-bûn

@nan

2010 թուականի Ապրիլին հրատարակուած գիտական յօդուած

@hyw

2010 թվականի ապրիլին հրատարակված գիտական հոդված

@hy

2010年の論文

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2010年論文

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2010年論文

@zh-hant

2010年論文

@zh-hk

2010年論文

@zh-mo

2010年論文

@zh-tw

2010年论文

@wuu

name

Stiffening of individual fibri ...... rain and strengthens networks.

@ast

Stiffening of individual fibri ...... rain and strengthens networks.

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Stiffening of individual fibri ...... rain and strengthens networks.

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type

label

Stiffening of individual fibri ...... rain and strengthens networks.

@ast

Stiffening of individual fibri ...... rain and strengthens networks.

@en

Stiffening of individual fibri ...... rain and strengthens networks.

@nl

prefLabel

Stiffening of individual fibri ...... rain and strengthens networks.

@ast

Stiffening of individual fibri ...... rain and strengthens networks.

@en

Stiffening of individual fibri ...... rain and strengthens networks.

@nl

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P356

J.BPJ.2009.12.4312

P1433

Biophysical Journal

P1476

Stiffening of individual fibri ...... rain and strengthens networks.

@en

P2093

E Timothy O'Brien

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John R Houser

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Michael R Falvo

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Russell M Taylor

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Susan T Lord

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P2860

The myosin coiled-coil is a truly elastic protein structure.

Fibrin fibers have extraordinary extensibility and elasticity.

Multiscale mechanics of fibrin polymer: gel stretching with protein unfolding and loss of water.

The mechanical stability of immunoglobulin and fibronectin III domains in the muscle protein titin measured by atomic force microscopy

The elasticity of an individual fibrin fiber in a clot.

A critical review of the structural mechanics of wool and hair fibres.

Elastic proteins: biological roles and mechanical properties.

Structural origins of fibrin clot rheology

Visualization and mechanical manipulations of individual fibrin fibers suggest that fiber cross section has fractal dimension 1.3.

Role of intermolecular forces in defining material properties of protein nanofibrils.

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1632-1640

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scholarly article

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10.1016/J.BPJ.2009.12.4312

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8

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Nathan E. Hudson

Richard Superfine

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2010-04-01T00:00:00Z

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43246667

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20409484

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2856168

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