Add to ORKGABSTRACT: We present an extension of the coarse-grained MARTINI model for proteins and apply this extension to amyloid-and elastin-like peptides. Atomistic simulations of tetrapeptides, octapeptides, and longer peptides in solution are used as a reference to parametrize a set of pseudodihedral potentials that describe the internal flexibility of MARTINI peptides. We assess the performance of the resulting model in reproducing various structural properties computed from atomistic trajectories of peptides in water. The addition of new dihedral angle potentials improves agreement with the contact maps computed from atomistic simulations significantly. We also address the question of which parameters derived from atomistic trajectories are tran...
Elastin confers elasticity to various vertebrate tissues. Elastin and elastin-like peptides are diso...
AbstractWe present a simulation study where different resolutions, namely coarse-grained (CG) and al...
By manipulating the various physico-chemical properties of amino acids, design of peptides with spec...
We present an extension of the coarse-grained MARTINI model for proteins and apply this extension to...
Many biologically interesting phenomena occur on a time scale that is too long to be studied by atom...
Many biologically interesting phenomena occur on a time scale that is too long to be studied by atom...
Many biologically interesting phenomena occur on a time scale that is too long to be studied by atom...
In vivo self-assembly of proteins into aggregates known as amyloids is related to many diseases. Alt...
The ability of proteins to fold into well-defined structures forms the basis of a wide variety of bi...
Elastin is an extracellular matrix protein that provides tissues with elasticity. In this thesis, we...
Protein aggregation into highly structured amyloid fibrils is associated both with devastating disea...
By manipulating the various physicochemical properties of amino acids, the design of peptides with s...
There still is little treatment available for amyloid diseases, despite their significant impact on ...
By manipulating the various physicochemical properties of amino acids, the design of peptides with s...
Peptide-membrane interactions play an important role in a number of biological processes, such as an...
Elastin confers elasticity to various vertebrate tissues. Elastin and elastin-like peptides are diso...
AbstractWe present a simulation study where different resolutions, namely coarse-grained (CG) and al...
By manipulating the various physico-chemical properties of amino acids, design of peptides with spec...
We present an extension of the coarse-grained MARTINI model for proteins and apply this extension to...
Many biologically interesting phenomena occur on a time scale that is too long to be studied by atom...
Many biologically interesting phenomena occur on a time scale that is too long to be studied by atom...
Many biologically interesting phenomena occur on a time scale that is too long to be studied by atom...
In vivo self-assembly of proteins into aggregates known as amyloids is related to many diseases. Alt...
The ability of proteins to fold into well-defined structures forms the basis of a wide variety of bi...
Elastin is an extracellular matrix protein that provides tissues with elasticity. In this thesis, we...
Protein aggregation into highly structured amyloid fibrils is associated both with devastating disea...
By manipulating the various physicochemical properties of amino acids, the design of peptides with s...
There still is little treatment available for amyloid diseases, despite their significant impact on ...
By manipulating the various physicochemical properties of amino acids, the design of peptides with s...
Peptide-membrane interactions play an important role in a number of biological processes, such as an...
Elastin confers elasticity to various vertebrate tissues. Elastin and elastin-like peptides are diso...
AbstractWe present a simulation study where different resolutions, namely coarse-grained (CG) and al...
By manipulating the various physico-chemical properties of amino acids, design of peptides with spec...