Microfibrillar structure of type I collagen in situ - Test2 - elhamkhani - TriplyDB

Microfibrillar structure of type I collagen in situ

Microfibrillar structure of type I collagen in situ

http://www.wikidata.org/entity/Q24546271

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Dinosaur peptides suggest mechanisms of protein survival Crystallographic insight into collagen recognition by discoidin domain receptor 2 Collagen structure and stability Collagen fibril architecture, domain organization, and triple-helical conformation govern its proteolysis Candidate cell and matrix interaction domains on the collagen fibril, the predominant protein of vertebrates Nature designs tough collagen: explaining the nanostructure of collagen fibrils Mechanical properties of collagen fibrils Always cleave up your mess: targeting collagen degradation to treat tissue fibrosis Optimizing dentin bond durability: control of collagen degradation by matrix metalloproteinases and cysteine cathepsins Corneal structure and transparency Internal strain drives spontaneous periodic buckling in collagen and regulates remodeling.High-speed atomic force microscopy reveals strongly polarized movement of clostridial collagenase along collagen fibrils.Structural basis of sequence-specific collagen recognition by SPARC Identification and structural analysis of type I collagen sites in complex with fibronectin fragments Solution Structure of an ABC Collagen Heterotrimer Reveals a Single-register Helix Stabilized by Electrostatic Interactions Implications for Collagen Binding from the Crystallographic Structure of Fibronectin 6FnI1-2FnII7FnI The NC2 Domain of Type IX Collagen Determines the Chain Register of the Triple Helix Implications for collagen I chain registry from the structure of the collagen von Willebrand factor A3 domain complex The Mineral-Collagen Interface in Bone.Non-enzymatic decomposition of collagen fibers by a biglycan antibody and a plausible mechanism for rheumatoid arthritis Fibres and cellular structures preserved in 75-million-year-old dinosaur specimens.Osmotic pressure induced tensile forces in tendon collagen.Deposition of apatite in mineralizing vertebrate extracellular matrices: A model of possible nucleation sites on type I collagen.The dentin organic matrix - limitations of restorative dentistry hidden on the nanometer scale Scleraxis is required for differentiation of the stapedius and tensor tympani tendons of the middle ear Coherent X-ray diffraction from collagenous soft tissues The nanometre-scale physiology of bone: steric modelling and scanning transmission electron microscopy of collagen-mineral structure.Effects of decorin proteoglycan on fibrillogenesis, ultrastructure, and mechanics of type I collagen gels.Collagen unfolding accelerates water influx, determining hydration in the interstitial matrix.Adopting the principles of collagen biomineralization for intrafibrillar infiltration of yttria-stabilized zirconia into three-dimensional collagen scaffolds Estimating the 3D pore size distribution of biopolymer networks from directionally biased data.Distinct decalcification process of dentin by different cariogenic organic acids: Kinetics, ultrastructure and mechanical properties.Distinct biological events generated by ECM proteolysis by two homologous collagenases Proteomic protease specificity profiling of clostridial collagenases reveals their intrinsic nature as dedicated degraders of collagen.Decorin core protein (decoron) shape complements collagen fibril surface structure and mediates its binding Actinidain-hydrolyzed type I collagen reveals a crucial amino acid sequence in fibril formation.Discoidin domain receptor 2 mediates collagen-induced activation of membrane-type 1 matrix metalloproteinase in human fibroblasts.Location of 3-hydroxyproline residues in collagen types I, II, III, and V/XI implies a role in fibril supramolecular assembly.Direct visualization of protease action on collagen triple helical structure.New directions in nanofibrous scaffolds for soft tissue engineering and regeneration.

P2860

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P2860

Microfibrillar structure of type I collagen in situ

http://www.wikidata.org/entity/Q24546271

description

2006 nî lūn-bûn

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2006 թուականի Յունիսին հրատարակուած գիտական յօդուած

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name

Microfibrillar structure of type I collagen in situ

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Microfibrillar structure of type I collagen in situ

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Microfibrillar structure of type I collagen in situ

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Microfibrillar structure of type I collagen in situ

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Microfibrillar structure of type I collagen in situ

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Microfibrillar structure of type I collagen in situ

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Microfibrillar structure of type I collagen in situ

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Microfibrillar structure of type I collagen in situ

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Microfibrillar structure of type I collagen in situ

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Proceedings of the National Academy of Sciences of the United States of America

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Microfibrillar structure of type I collagen in situ

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P2093

Andrew Miller

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

Joseph P R O Orgel

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

Thomas C Irving

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Tim J Wess

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P2860

Corneal collagen fibril structure in three dimensions: Structural insights into fibril assembly, mechanical properties, and tissue organization

The 1.8-A crystal structure of a matrix metalloproteinase 8-barbiturate inhibitor complex reveals a previously unobserved mechanism for collagenase substrate recognition

Crystal and molecular structure of a collagen-like peptide at 1.9 A resolution

Structure of full-length porcine synovial collagenase reveals a C-terminal domain containing a calcium-linked, four-bladed beta-propeller

XtalView/Xfit--A versatile program for manipulating atomic coordinates and electron density

Crystal structure of the dimeric protein core of decorin, the archetypal small leucine-rich repeat proteoglycan.

Biologically active decorin is a monomer in solution.

Building collagen molecules, fibrils, and suprafibrillar structures.

Molecular packing in type I collagen fibrils.

Quasi-hexagonal molecular packing in collagen fibrils.

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16751282

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