Add to ORKGABSTRACT Using single molecule force spectroscopy we examine the response of heparin chains to mechanical stretching. We find that at forces below 200 pN heparin behaves as a simple entropic spring. At;200 pN heparin displays a large enthalpic elasticity, which is evident as a pronounced plateau in the force-extension relationship. We determine that this enthalpic elasticity is produced by sugar rings of heparin flipping to more energetic and more extended conformations. We estimate that in vivo, the forces which stretch heparin are comparable to the forces that trigger conformational transitions in our single molecule atomic force microscopy measurements. We hypothesize that these conformational transitions have biological significance in ...
International audienceSpectrins are cytoskeletal proteins located at the inner face of the plasma me...
Advances in single-molecule manipulation techniques have recently enabled researchers to study a gro...
Many processes in the body are effected and regulated by highly, specialized protein molecules: Thes...
AbstractUsing single molecule force spectroscopy we examine the response of heparin chains to mechan...
The past years have witnessed remarkable advances in our use of atomic force microscopy (AFM) for st...
The aim of this study is to investigate the mechanochemical behavior of homopolypeptides able to cha...
The aim of this study is to investigate the mechanochemical behavior of foldamers able to change the...
AbstractSpectrin is a vital and abundant protein of the cytoskeleton. It has an elongated structure ...
AbstractRecent advances in atomic force microscopy allowed globular and membrane proteins to be mech...
For thousands of years, nature has selected and perfected the conformation foldings of its molecular...
The aim of this study is to investigate the mechanochemical behavior of homopolypeptides able to cha...
Single-molecule atomic force spectroscopy probes elastic properties of proteins such as titin and ub...
The aim of this study is to investigate the mechanochemical behavior of homopolypeptides able to cha...
none1noTraditionally, protein-protein adhesion interactions have been studied in reversible equilibr...
Physical factors drive evolution and play important roles in motility and attachment as well as in d...
International audienceSpectrins are cytoskeletal proteins located at the inner face of the plasma me...
Advances in single-molecule manipulation techniques have recently enabled researchers to study a gro...
Many processes in the body are effected and regulated by highly, specialized protein molecules: Thes...
AbstractUsing single molecule force spectroscopy we examine the response of heparin chains to mechan...
The past years have witnessed remarkable advances in our use of atomic force microscopy (AFM) for st...
The aim of this study is to investigate the mechanochemical behavior of homopolypeptides able to cha...
The aim of this study is to investigate the mechanochemical behavior of foldamers able to change the...
AbstractSpectrin is a vital and abundant protein of the cytoskeleton. It has an elongated structure ...
AbstractRecent advances in atomic force microscopy allowed globular and membrane proteins to be mech...
For thousands of years, nature has selected and perfected the conformation foldings of its molecular...
The aim of this study is to investigate the mechanochemical behavior of homopolypeptides able to cha...
Single-molecule atomic force spectroscopy probes elastic properties of proteins such as titin and ub...
The aim of this study is to investigate the mechanochemical behavior of homopolypeptides able to cha...
none1noTraditionally, protein-protein adhesion interactions have been studied in reversible equilibr...
Physical factors drive evolution and play important roles in motility and attachment as well as in d...
International audienceSpectrins are cytoskeletal proteins located at the inner face of the plasma me...
Advances in single-molecule manipulation techniques have recently enabled researchers to study a gro...
Many processes in the body are effected and regulated by highly, specialized protein molecules: Thes...