Mechanical and chemical unfolding of a single protein: a comparison. - Wikidata - wikimedia - TriplyDB

Mechanical and chemical unfolding of a single protein: a comparison.

Mechanical and chemical unfolding of a single protein: a comparison.

http://www.wikidata.org/entity/Q33856547

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Role of titin in vertebrate striated muscle Unfolding of titin domains explains the viscoelastic behavior of skeletal myofibrils A nanoscale force probe for gauging intermolecular interactions Ultrastable atomic force microscopy: atomic-scale stability and registration in ambient conditions Evolution of the ssrA degradation tag in Mycoplasma: specificity switch to a different protease Force dependency of biochemical reactions measured by single-molecule force-clamp spectroscopy.Solid-state synthesis and mechanical unfolding of polymers of T4 lysozyme Isopeptide bonds block the mechanical extension of pili in pathogenic Streptococcus pyogenes Common features at the start of the neurodegeneration cascade A rapid cloning method employing orthogonal end protection Using molecular mechanics to predict bulk material properties of fibronectin fibers Force Sensing by Mechanical Extension of the Src Family Kinase Substrate p130Cas Molecular basis for the structural stability of an enclosed β-barrel loop.Exploring the energy landscape of GFP by single-molecule mechanical experiments.Native topology determines force-induced unfolding pathways in globular proteins.Effect of protein structure on mitochondrial import.Anisotropic deformation response of single protein molecules.Contour length and refolding rate of a small protein controlled by engineered disulfide bonds.The mechanical unfolding of ubiquitin through all-atom Monte Carlo simulation with a Go-type potential.Collisional and Coulombic unfolding of gas-phase proteins: high correlation to their domain structures in solution.Capturing the mechanical unfolding pathway of a large protein with coiled-coil probes.Deconvolution of dynamic mechanical networks Unusually high mechanical stability of bacterial adhesin extender domains having calcium clamps Direct measurements of the mechanical stability of zinc-thiolate bonds in rubredoxin by single-molecule atomic force microscopy.Mechanically untying a protein slipknot: multiple pathways revealed by force spectroscopy and steered molecular dynamics simulations.Single molecule force spectroscopy on titin implicates immunoglobulin domain stability as a cardiac disease mechanism.Adhesion through single peptide aptamers.Stepwise unfolding of ankyrin repeats in a single protein revealed by atomic force microscopy.Secondary and tertiary structure elasticity of titin Z1Z2 and a titin chain model.On the remarkable mechanostability of scaffoldins and the mechanical clamp motif.Force unfolding kinetics of RNA using optical tweezers. II. Modeling experiments.Pretransition and progressive softening of bovine carbonic anhydrase II as probed by single molecule atomic force microscopy.Full reconstruction of a vectorial protein folding pathway by atomic force microscopy and molecular dynamics simulations.High-resolution, single-molecule measurements of biomolecular motion.Optical trapping with high forces reveals unexpected behaviors of prion fibrils.Direct observation of proteolytic cleavage at the S2 site upon forced unfolding of the Notch negative regulatory region Cooperative folding of intrinsically disordered domains drives assembly of a strong elongated protein Stepwise unfolding of titin under force-clamp atomic force microscopy.The effect of core destabilization on the mechanical resistance of I27.Dynamic force spectroscopy of single DNA molecules.

P2860

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P2860

Mechanical and chemical unfolding of a single protein: a comparison.

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1999 nî lūn-bûn

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1999 թուականի Մարտին հրատարակուած գիտական յօդուած

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1999 թվականի մարտին հրատարակված գիտական հոդված

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Mechanical and chemical unfolding of a single protein: a comparison.

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Mechanical and chemical unfolding of a single protein: a comparison.

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Mechanical and chemical unfolding of a single protein: a comparison.

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Mechanical and chemical unfolding of a single protein: a comparison.

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Mechanical and chemical unfolding of a single protein: a comparison.

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Mechanical and chemical unfolding of a single protein: a comparison.

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

P1476

Mechanical and chemical unfolding of a single protein: a comparison.

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P2093

A F Oberhauser

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J Clarke

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J M Fernandez

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M Carrion-Vazquez

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P E Marszalek

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S B Fowler

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S E Broedel

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P2860

Immunoglobulin-like modules from titin I-band: extensible components of muscle elasticity

Structure and stability of an immunoglobulin superfamily domain from twitchin, a muscle protein of the nematode Caenorhabditis elegans

The immunoglobulin fold. Structural classification, sequence patterns and common core

Over-production of proteins in Escherichia coli: mutant hosts that allow synthesis of some membrane proteins and globular proteins at high levels

Models for the specific adhesion of cells to cells

Determination and analysis of urea and guanidine hydrochloride denaturation curves

Denaturant m values and heat capacity changes: relation to changes in accessible surface areas of protein unfolding

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

Unfolding of titin immunoglobulin domains by steered molecular dynamics simulation

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