Abstract: Mechanical unfolding of the fourth domain of Distyostelium discoideum filamin (DDFLN4) was studied using a CABS – coarse-grained knowledge-based protein model. Our study demonstrates that CABS is capable of reproducing the unfolding free energy landscape of protein unfolding and highlights an important role of non-native interactions in the protein unfolding process. The obtained three peaks in the force-extension profile suggest a four-state picture of DDFLN4 protein unfolding and correspond reasonably to the results of the all-atom simulation in explicit solvent
We have employed a Hamiltonian model based on a self-consistent Gaussian appoximation to examine the...
The ability of proteins to fold into well-defined structures forms the basis of a wide variety of bi...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...
Mechanical unfolding of the fourth domain of Distyostelium discoideum filamin ( DDFLN 4) was studied...
The thesis examines in detail the folding and unfolding processes of a number of proteins including ...
The equilibrium properties of the fourth immunoglobulin domain of filamin from Dictyostelium discoid...
AbstractMolecular dynamics simulations supplement single-molecule pulling experiments by providing t...
Single-molecule force spectroscopy is providing unique, and sometimes unexpected, insights into the ...
AbstractSingle-molecule force spectroscopy is providing unique, and sometimes unexpected, insights i...
AbstractDirect observation of the folding of a single polypeptide chain can provide important inform...
The study of mechanical unfolding, through the combined efforts of atomic force microscopy and simul...
The mechanical folding/unfolding of proteins is involved in many biological processes. However, the ...
ABSTRACT The relationship between the un-folding pseudo free energies of reduced and de-tailed atomi...
AbstractSingle-molecule manipulation techniques have enabled the characterization of the unfolding a...
This thesis presents several approaches to the study of the folding and dynamics of proteins, with a...
We have employed a Hamiltonian model based on a self-consistent Gaussian appoximation to examine the...
The ability of proteins to fold into well-defined structures forms the basis of a wide variety of bi...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...
Mechanical unfolding of the fourth domain of Distyostelium discoideum filamin ( DDFLN 4) was studied...
The thesis examines in detail the folding and unfolding processes of a number of proteins including ...
The equilibrium properties of the fourth immunoglobulin domain of filamin from Dictyostelium discoid...
AbstractMolecular dynamics simulations supplement single-molecule pulling experiments by providing t...
Single-molecule force spectroscopy is providing unique, and sometimes unexpected, insights into the ...
AbstractSingle-molecule force spectroscopy is providing unique, and sometimes unexpected, insights i...
AbstractDirect observation of the folding of a single polypeptide chain can provide important inform...
The study of mechanical unfolding, through the combined efforts of atomic force microscopy and simul...
The mechanical folding/unfolding of proteins is involved in many biological processes. However, the ...
ABSTRACT The relationship between the un-folding pseudo free energies of reduced and de-tailed atomi...
AbstractSingle-molecule manipulation techniques have enabled the characterization of the unfolding a...
This thesis presents several approaches to the study of the folding and dynamics of proteins, with a...
We have employed a Hamiltonian model based on a self-consistent Gaussian appoximation to examine the...
The ability of proteins to fold into well-defined structures forms the basis of a wide variety of bi...
We probe the general characteristics of force-induced unfolding of proteins using lattice models. Th...