Add to ORKGWe study the elastic properties of single A/B random copolymer chains, with a specific sequence and use them as theoretical model for so called HP proteins. HP proteins carry hydrophilic (P) and hydrophobic (H) monomers. We predict a rich structure in the force-extension relations which can be attributed to the information in the sequence. The variational method is used to probe local minima on the path of stretching and releasing for the chain molecules. At a given force, we find multiple configurations which are separated by energy barriers. A collapsed globular configuration consists of several domains which unravel cooperatively. Upon stretching, the unfolding path shows a stepwise pattern corresponding to the unfolding of each domain. ...
A statistical mechanical description of flexible and semiflexible polymer chains in a poor solvent i...
The aim of this study is to investigate the mechanochemical behavior of homopolypeptides able to cha...
We have developed a statistical mechanical model of the force–extension behavior of α-helical polype...
We study the elastic properties of single A/B random copolymer chains, with a specific sequence and ...
We study the elastic properties of a single A/B copolymer chain with a specific sequence. We predict...
ABSTRACT We present, to our knowledge, a new theory that takes internal dynamics of proteins into ac...
AbstractWe present, to our knowledge, a new theory that takes internal dynamics of proteins into acc...
International audienceForce spectroscopies have emerged as a powerful and unprecedented tool to stud...
Protein folding to specific functional structures is preceded by a largely unspecific protein collap...
Understanding the mechanical response of polymers to external force gives crucial insights into phys...
AbstractSingle-protein force experiments have relied on a molecular fingerprint based on tethering m...
Single-molecule atomic force spectroscopy probes elastic properties of proteins such as titin and ub...
AbstractHow nature tunes sequences of disordered protein to yield the desired coiling properties is ...
Mechanical unfolding and refolding may regulate the molecular elasticity of modular proteins with me...
AbstractSome small proteins, such as HP35, fold at submicrosecond timescale with low folding coopera...
A statistical mechanical description of flexible and semiflexible polymer chains in a poor solvent i...
The aim of this study is to investigate the mechanochemical behavior of homopolypeptides able to cha...
We have developed a statistical mechanical model of the force–extension behavior of α-helical polype...
We study the elastic properties of single A/B random copolymer chains, with a specific sequence and ...
We study the elastic properties of a single A/B copolymer chain with a specific sequence. We predict...
ABSTRACT We present, to our knowledge, a new theory that takes internal dynamics of proteins into ac...
AbstractWe present, to our knowledge, a new theory that takes internal dynamics of proteins into acc...
International audienceForce spectroscopies have emerged as a powerful and unprecedented tool to stud...
Protein folding to specific functional structures is preceded by a largely unspecific protein collap...
Understanding the mechanical response of polymers to external force gives crucial insights into phys...
AbstractSingle-protein force experiments have relied on a molecular fingerprint based on tethering m...
Single-molecule atomic force spectroscopy probes elastic properties of proteins such as titin and ub...
AbstractHow nature tunes sequences of disordered protein to yield the desired coiling properties is ...
Mechanical unfolding and refolding may regulate the molecular elasticity of modular proteins with me...
AbstractSome small proteins, such as HP35, fold at submicrosecond timescale with low folding coopera...
A statistical mechanical description of flexible and semiflexible polymer chains in a poor solvent i...
The aim of this study is to investigate the mechanochemical behavior of homopolypeptides able to cha...
We have developed a statistical mechanical model of the force–extension behavior of α-helical polype...