Pages that link to "Q30489218"

The following pages link to On the remarkable mechanostability of scaffoldins and the mechanical clamp motif (Q30489218):

Displaying 50 items.

• BSDB: the biomolecule stretching database (Q24609710) (← links)
• Formation of cystine slipknots in dimeric proteins (Q27312912) (← links)
• Common features at the start of the neurodegeneration cascade (Q28483979) (← links)
• Unusually high mechanical stability of bacterial adhesin extender domains having calcium clamps (Q30400717) (← links)
• Nanomechanics of the cadherin ectodomain: "canalization" by Ca2 binding results in a new mechanical element. (Q30427814) (← links)
• Quantitative high-resolution sensing of DNA hybridization using magnetic tweezers with evanescent illumination (Q30517273) (← links)
• Ultrastable cellulosome-adhesion complex tightens under load (Q30608250) (← links)
• Cooperative folding of intrinsically disordered domains drives assembly of a strong elongated protein (Q30653595) (← links)
• Single molecule force spectroscopy using polyproteins (Q34286926) (← links)
• Protein unfolding by biological unfoldases: insights from modeling (Q34310114) (← links)
• An intramolecular lock facilitates folding and stabilizes the tertiary structure of Streptococcus mutans adhesin P1. (Q34480684) (← links)
• Single-molecule dissection of the high-affinity cohesin-dockerin complex (Q34493566) (← links)
• Towards design principles for determining the mechanical stability of proteins (Q34976764) (← links)
• Ca2 binding enhanced mechanical stability of an archaeal crystallin. (Q35146699) (← links)
• Conformational rearrangements in the transmembrane domain of CNGA1 channels revealed by single-molecule force spectroscopy (Q35608870) (← links)
• Unequivocal single-molecule force spectroscopy of proteins by AFM using pFS vectors. (Q35743288) (← links)
• Resolving dual binding conformations of cellulosome cohesin-dockerin complexes using single-molecule force spectroscopy. (Q35828174) (← links)
• Coarse-Grained Simulations of Topology-Dependent Mechanisms of Protein Unfolding and Translocation Mediated by ClpY ATPase Nanomachines (Q35886561) (← links)
• Spontaneous dimerization of titin protein Z1Z2 domains induces strong nanomechanical anchoring (Q36016880) (← links)
• CnaA domains in bacterial pili are efficient dissipaters of large mechanical shocks. (Q36659026) (← links)
• Domain-domain interactions in filamin A (16-23) impose a hierarchy of unfolding forces (Q36824474) (← links)
• Conformational plasticity of the essential membrane-associated mannosyltransferase PimA from mycobacteria. (Q37226219) (← links)
• Intramolecular clasp of the cellulosomal Ruminococcus flavefaciens ScaA dockerin module confers structural stability (Q37289659) (← links)
• Topological transformations in proteins: effects of heating and proximity of an interface (Q37554500) (← links)
• Understanding biology by stretching proteins: recent progress. (Q37688543) (← links)
• Topological features in stretching of proteins (Q38091470) (← links)
• Thermophilic lignocellulose deconstruction (Q38151877) (← links)
• Cellulosomes: bacterial nanomachines for dismantling plant polysaccharides (Q39038630) (← links)
• Determination of contact maps in proteins: A combination of structural and chemical approaches. (Q40152267) (← links)
• Transcytosis in the blood-cerebrospinal fluid barrier of the mouse brain with an engineered receptor/ligand system (Q41184303) (← links)
• Mechanical properties of β-catenin revealed by single-molecule experiments (Q41886008) (← links)
• Engineering proteins with enhanced mechanical stability by force-specific sequence motifs. (Q41947472) (← links)
• Mechanical resistance in unstructured proteins. (Q42077482) (← links)
• Enhancing the Mechanical Stability of Proteins through a Cocktail Approach (Q42712667) (← links)
• Combining in Vitro and in Silico Single-Molecule Force Spectroscopy to Characterize and Tune Cellulosomal Scaffoldin Mechanics (Q47154819) (← links)
• A structure-based model fails to probe the mechanical unfolding pathways of the titin I27 domain (Q47774613) (← links)
• Non-local effects of point mutations on the stability of a protein module (Q47795068) (← links)
• Dual binding mode in cohesin-dockerin complexes as assessed through stretching studies. (Q51362679) (← links)
• Nanoscale Engineering of Designer Cellulosomes (Q51569110) (← links)
• Theoretical tests of the mechanical protection strategy in protein nanomechanics (Q51777291) (← links)
• Dual binding in cohesin-dockerin complexes: the energy landscape and the role of short, terminal segments of the dockerin module. (Q52345559) (← links)
• Mechanostability of cohesin-dockerin complexes in a structure-based model: anisotropy and lack of universality in the force profiles. (Q54299087) (← links)
• Ligand Binding Stabilizes Cellulosomal Cohesins as Revealed by AFM-based Single-Molecule Force Spectroscopy. (Q55446692) (← links)
• Mechanical architecture and folding of E. coli type 1 pilus domains. (Q55689320) (← links)
• Calcium stabilizes the strongest protein fold (Q59133459) (← links)
• Enzymatic biosynthesis and immobilization of polyprotein verified at the single-molecule level. (Q64957896) (← links)
• Mechanical stability of multidomain proteins and novel mechanical clamps (Q83782512) (← links)
• Highly Covalent Ferric−Thiolate Bonds Exhibit Surprisingly Low Mechanical Stability (Q83813593) (← links)
• The cohesin module is a major determinant of cellulosome mechanical stability (Q88138178) (← links)
• Substrate-Related Factors Affecting Cellulosome-Induced Hydrolysis for Lignocellulose Valorization (Q91747129) (← links)