A Ca2+-sensing molecular switch based on alternate frame protein folding.
about
Generation of new protein functions by nonhomologous combinations and rearrangements of domains and modules.On the mechanism of protein fold-switching by a molecular sensor.Construction of Allosteric Protein Switches by Alternate Frame Folding and Intermolecular Fragment Exchange.Engineering an artificial zymogen by alternate frame protein foldingRational conversion of affinity reagents into label-free sensors for Peptide motifs by designed allosteryConverting a binding protein into a biosensing conformational switch using protein fragment exchange.Energetics and mechanisms of folding and flipping the myristoyl switch in the {beta}-trefoil protein, hisactophilinMolecular simulations of mutually exclusive folding in a two-domain protein switch.Thermodynamic basis for engineering high-affinity, high-specificity binding-induced DNA clamp nanoswitches.Structural characterization of two alternate conformations in a calbindin D₉k-based molecular switch.Regulated unfolding of proteins in signalingInfluence of Secondary-Structure Folding on the Mutually Exclusive Folding Process of GL5/I27 Protein: Evidence from Molecular Dynamics Simulations.Structure-switching biosensors: inspired by Nature.Converting a protein into a switch for biosensing and functional regulation.Engineering protein switches: sensors, regulators, and spare parts for biology and biotechnology.Protein conformational switches: from nature to design.Folding-based electrochemical biosensors: the case for responsive nucleic acid architectures.Synthetic Protein Switches: Theoretical and Experimental Considerations.Switch-based biosensors: a new approach towards real-time, in vivo molecular detectionBeyond molecular beacons: optical sensors based on the binding-induced folding of proteins and polypeptides.Small Molecule-Induced Domain Swapping as a Mechanism for Controlling Protein Function and Assembly.GFP variants with alternative β-strands and their application as light-driven protease sensors: a tale of two tails.Engineering biosensors with extended, narrowed, or arbitrarily edited dynamic range.Probing local structural fluctuations in myoglobin by size-dependent thiol-disulfide exchangeStepwise conversion of a binding protein to a fluorescent switch: application to Thermoanaerobacter tengcongensis ribose binding protein.An engineered calmodulin-based allosteric switch for Peptide biosensing.Large enhancement of response times of a protein conformational switch by computational design.A Lewis acid-mediated conformational switch
P2860
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P2860
A Ca2+-sensing molecular switch based on alternate frame protein folding.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
A Ca2+-sensing molecular switch based on alternate frame protein folding.
@en
A Ca2+-sensing molecular switch based on alternate frame protein folding.
@nl
type
label
A Ca2+-sensing molecular switch based on alternate frame protein folding.
@en
A Ca2+-sensing molecular switch based on alternate frame protein folding.
@nl
prefLabel
A Ca2+-sensing molecular switch based on alternate frame protein folding.
@en
A Ca2+-sensing molecular switch based on alternate frame protein folding.
@nl
P2093
P2860
P356
P1433
P1476
A Ca2+-sensing molecular switch based on alternate frame protein folding.
@en
P2093
Diana M Mitrea
Margaret M Stratton
Stewart N Loh
P2860
P304
P356
10.1021/CB800177F
P577
2008-11-01T00:00:00Z