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Dynamic force sensing of filamin revealed in single-molecule experiments
Dynamic force sensing of filamin revealed in single-molecule experiments
by Rognoni, Lorenz , Rief, Matthias , Ylänne, Jari , Stigler, Johannes , Pelz, Benjamin
in Actins / Bioassays / Biological Sciences / Contractile Proteins - chemistry / Contractile Proteins - metabolism / Cytoskeleton / Experiments / filamin / Filamins / glycoproteins / Humans / Integrins / Kinetics / Ligands / Materials / Mechanical forces / Membranes / Microfilament Proteins - chemistry / Microfilament Proteins - metabolism / Molecules / Peptides / Platelets / Protein Binding / Proteins / Receptors / Stem cells
2012
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Dynamic force sensing of filamin revealed in single-molecule experiments
by Rognoni, Lorenz , Rief, Matthias , Ylänne, Jari , Stigler, Johannes , Pelz, Benjamin
in Actins / Bioassays / Biological Sciences / Contractile Proteins - chemistry / Contractile Proteins - metabolism / Cytoskeleton / Experiments / filamin / Filamins / glycoproteins / Humans / Integrins / Kinetics / Ligands / Materials / Mechanical forces / Membranes / Microfilament Proteins - chemistry / Microfilament Proteins - metabolism / Molecules / Peptides / Platelets / Protein Binding / Proteins / Receptors / Stem cells
2012
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Dynamic force sensing of filamin revealed in single-molecule experiments
Dynamic force sensing of filamin revealed in single-molecule experiments
by Rognoni, Lorenz , Rief, Matthias , Ylänne, Jari , Stigler, Johannes , Pelz, Benjamin
in Actins / Bioassays / Biological Sciences / Contractile Proteins - chemistry / Contractile Proteins - metabolism / Cytoskeleton / Experiments / filamin / Filamins / glycoproteins / Humans / Integrins / Kinetics / Ligands / Materials / Mechanical forces / Membranes / Microfilament Proteins - chemistry / Microfilament Proteins - metabolism / Molecules / Peptides / Platelets / Protein Binding / Proteins / Receptors / Stem cells
2012

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Dynamic force sensing of filamin revealed in single-molecule experiments
Dynamic force sensing of filamin revealed in single-molecule experiments
Journal Article

Dynamic force sensing of filamin revealed in single-molecule experiments

Rognoni, Lorenz,
Rief, Matthias,
Ylänne, Jari,
Stigler, Johannes,
Pelz, Benjamin
2012
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Overview
Mechanical forces are important signals for cell response and development, but detailed molecular mechanisms of force sensing are largely unexplored. The cytoskeletal protein filamin is a key connecting element between the cytoskeleton and transmembrane complexes such as integrins or the von Willebrand receptor glycoprotein Ib. Here, we show using single-molecule mechanical measurements that the recently reported Ig domain pair 20–21 of human filamin A acts as an autoinhibited force-activatable mechanosensor. We developed a mechanical single-molecule competition assay that allows online observation of binding events of target peptides in solution to the strained domain pair. We find that filamin force sensing is a highly dynamic process occurring in rapid equilibrium that increases the affinity to the target peptides by up to a factor of 17 between 2 and 5 pN. The equilibrium mechanism we find here can offer a general scheme for cellular force sensing.
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Publisher
National Academy of Sciences,National Acad Sciences
Subject

Actins

/ Bioassays

/ Biological Sciences

/ Contractile Proteins - chemistry

/ Contractile Proteins - metabolism

/ Cytoskeleton

/ Experiments

/ filamin

/ Filamins

/ glycoproteins

/ Humans

/ Integrins

/ Kinetics

/ Ligands

/ Materials

/ Mechanical forces

/ Membranes

/ Microfilament Proteins - chemistry

/ Microfilament Proteins - metabolism

/ Molecules

/ Peptides

/ Platelets

/ Protein Binding

/ Proteins

/ Receptors

/ Stem cells

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