Collagen fibrils in vitro grow from pointed tips in the C- to N-terminal direction. - Wikidata - awgldk - TriplyDB

Collagen fibrils in vitro grow from pointed tips in the C- to N-terminal direction.

Collagen fibrils in vitro grow from pointed tips in the C- to N-terminal direction.

http://www.wikidata.org/entity/Q42092441

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Type III collagen is crucial for collagen I fibrillogenesis and for normal cardiovascular development Collagen fibril formation Filming protein fibrillogenesis in real time.Possible involvement of aminotelopeptide in self-assembly and thermal stability of collagen I as revealed by its removal with proteases.The pentapeptide NKISK affects collagen fibril interactions in a vertebrate tissue.Effects of fibronectin and laminin on structural, mechanical and transport properties of 3D collageneous network.Assembly of the tendon extracellular matrix during development.Sequential assembly of collagen revealed by atomic force microscopy.Inhibition of the self-assembly of collagen I into fibrils with synthetic peptides. Demonstration that assembly is driven by specific binding sites on the monomers.Morphological diversity and polymorphism of self-assembling collagen peptides controlled by length of hydrophobic domains A structure-based extracellular matrix expansion mechanism of fibrous tissue growth Compositional control of higher order assembly using synthetic collagen peptides Targeted disruption of decorin leads to abnormal collagen fibril morphology and skin fragility.The echinoderm collagen fibril: a hero in the connective tissue research of the 1990s.Growing tips of type I collagen fibrils formed in vitro are near-paraboloidal in shape, implying a reciprocal relationship between accretion and diameter Helical model of nucleation and propagation to account for the growth of type I collagen fibrils from symmetrical pointed tips: a special example of self-assembly of rod-like monomers Collagen fibrillogenesis in tendon development: current models and regulation of fibril assembly.Prelude to corneal tissue engineering - gaining control of collagen organization.Mutation in a gene for type I procollagen (COL1A2) in a woman with postmenopausal osteoporosis: evidence for phenotypic and genotypic overlap with mild osteogenesis imperfecta.Procollagen with skipping of alpha 1(I) exon 41 has lower binding affinity for alpha 1(I) C-telopeptide, impaired in vitro fibrillogenesis, and altered fibril morphology.Testing the anti-fibrotic potential of the single-chain Fv antibody against the α2 C-terminal telopeptide of collagen I.Fell Muir Lecture: Collagen fibril formation in vitro and in vivo.Mutations in type 1 procollagen that cause osteogenesis imperfecta: effects of the mutations on the assembly of collagen into fibrils, the basis of phenotypic variations, and potential antisense therapies.Learning how mutations in type I collagen genes cause connective tissue disease.Assembly in vitro of thin and thick fibrils of collagen II from recombinant procollagen II. The monomers in the tips of thick fibrils have the opposite orientation from monomers in the growing tips of collagen I fibrils.Synthesis of recombinant human procollagen II in a stably transfected tumour cell line (HT1080).The initiation of embryonic-like collagen fibrillogenesis by adult human tendon fibroblasts when cultured under tension.Coalignment of plasma membrane channels and protrusions (fibripositors) specifies the parallelism of tendon Using transmission electron microscopy and 3View to determine collagen fibril size and three-dimensional organization.Tendon creep is potentiated by NKISK and relaxin which produce collagen fiber sliding.Early molecular assessment of osseointegration in humans.Nonlinear imaging study of extracellular matrix in chemical-induced, developmental dissecting aortic aneurysm: evidence for defective collagen type III.Tendon Structure and Composition.Cell differentiation and osseointegration influenced by nanoscale anodized titanium surfaces.Self-assembly of rodlike particles in two dimensions: A simple model for collagen fibrillogenesis Influence of fibril taper on the function of collagen to reinforce extracellular matrix

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P2860

Collagen fibrils in vitro grow from pointed tips in the C- to N-terminal direction.

http://www.wikidata.org/entity/Q42092441

description

1990 nî lūn-bûn

@nan

1990年の論文

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1990年論文

@yue

1990年論文

@zh-hant

1990年論文

@zh-hk

1990年論文

@zh-mo

1990年論文

@zh-tw

1990年论文

@wuu

1990年论文

@zh

1990年论文

@zh-cn

name

Collagen fibrils in vitro grow from pointed tips in the C- to N-terminal direction.

@en

Collagen fibrils in vitro grow from pointed tips in the C- to N-terminal direction.

@nl

type

label

Collagen fibrils in vitro grow from pointed tips in the C- to N-terminal direction.

@en

Collagen fibrils in vitro grow from pointed tips in the C- to N-terminal direction.

@nl

prefLabel

Collagen fibrils in vitro grow from pointed tips in the C- to N-terminal direction.

@en

Collagen fibrils in vitro grow from pointed tips in the C- to N-terminal direction.

@nl

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Biochemical Journal

P1476

Collagen fibrils in vitro grow from pointed tips in the C- to N-terminal direction.

@en

P2093

D J Prockop

http://www.w3.org/2001/XMLSchema#string

K E Kadler

http://www.w3.org/2001/XMLSchema#string

Y Hojima

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P2860

Type I procollagen carboxyl-terminal proteinase from chick embryo tendons. Purification and characterization

Collagen fibrillogenesis in situ: fibril segments are intermediates in matrix assembly

Quasi-hexagonal molecular packing in collagen fibrils.

The heat precipitation of collagen from neutral salt solutions: some rate-regulating factors.

A defect in the structure of type I procollagen in a patient who had osteogenesis imperfecta: excess mannose in the COOH-terminal propeptide.

The mechanism of nucleation for in vitro collagen fibril formation.

Axial mass distributions of collagen fibrils grown in vitro: results for the end regions of early fibrils.

Thermodynamic studies of the assembly in vitro of native collagen fibrils.

Assembly of collagen fibrils de novo by cleavage of the type I pC-collagen with procollagen C-proteinase. Assay of critical concentration demonstrates that collagen self-assembly is a classical example of an entropy-driven process.

Assembly of type I collagen fibrils de novo. Between 37 and 41 degrees C the process is limited by micro-unfolding of monomers.

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339-343

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scholarly article

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10.1042/BJ2680339

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2

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268

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2363677

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1131437

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