There still is little treatment available for amyloid diseases, despite their significant impact on individuals and the social and economic implications for society. One reason for this is that the physical nature of amyloid formation is not understood sufficiently well. Therefore, fundamental research at the molecular level remains necessary to support the development of therapeutics. A few structures of short peptides from amyloid-forming proteins have been determined. These can in principle be used as scaffolds for designing aggregation inhibitors. Attempts to this end have often used the tools of computational chemistry, in particular molecular simulation. However, few simulation studies of these peptides in the crystal state have been ...
ABSTRACT: Molecular dynamics simulations were carried out to study the structure stability of model ...
Atomistic molecular dynamics simulations of amyloid models, consisting of the previously reported ST...
Abstract 1 We have achieved a sustained performance of 55 TFLOPS for molecular dynamics simulations ...
There still is little treatment available for amyloid diseases, despite their significant impact on ...
The aggregation modes of hexapeptide fragments of Tau, Insulin and A beta peptide (VQIVYK, MVGGVV an...
The aggregation modes of hexapeptide fragments of Tau, Insulin and Aβ peptide (VQIVYK, MVGGVV and LY...
Protein aggregation into highly structured amyloid fibrils is associated both with devastating disea...
Molecular dynamics simulations play an essential role in understanding biomolecular processes such a...
Besides their biomolecular relevance, amyloids, generated by the self-assembly of peptides and prote...
Protein aggregation into highly structured amyloid fibrils is associated with various diseases inclu...
Amyloids, fibrillar assembly of (poly)peptide chains, are associated with neurodegenerative illnesse...
In vivo self-assembly of proteins into aggregates known as amyloids is related to many diseases. Alt...
The formation of amyloid fibrils is associated with major human diseases. Nevertheless, the molecula...
The self-assembly of proteins and peptides into amyloid fibrils is connected to over 40 pathological...
Most proteins do not aggregate while in their native functional states. However, they may be disturb...
ABSTRACT: Molecular dynamics simulations were carried out to study the structure stability of model ...
Atomistic molecular dynamics simulations of amyloid models, consisting of the previously reported ST...
Abstract 1 We have achieved a sustained performance of 55 TFLOPS for molecular dynamics simulations ...
There still is little treatment available for amyloid diseases, despite their significant impact on ...
The aggregation modes of hexapeptide fragments of Tau, Insulin and A beta peptide (VQIVYK, MVGGVV an...
The aggregation modes of hexapeptide fragments of Tau, Insulin and Aβ peptide (VQIVYK, MVGGVV and LY...
Protein aggregation into highly structured amyloid fibrils is associated both with devastating disea...
Molecular dynamics simulations play an essential role in understanding biomolecular processes such a...
Besides their biomolecular relevance, amyloids, generated by the self-assembly of peptides and prote...
Protein aggregation into highly structured amyloid fibrils is associated with various diseases inclu...
Amyloids, fibrillar assembly of (poly)peptide chains, are associated with neurodegenerative illnesse...
In vivo self-assembly of proteins into aggregates known as amyloids is related to many diseases. Alt...
The formation of amyloid fibrils is associated with major human diseases. Nevertheless, the molecula...
The self-assembly of proteins and peptides into amyloid fibrils is connected to over 40 pathological...
Most proteins do not aggregate while in their native functional states. However, they may be disturb...
ABSTRACT: Molecular dynamics simulations were carried out to study the structure stability of model ...
Atomistic molecular dynamics simulations of amyloid models, consisting of the previously reported ST...
Abstract 1 We have achieved a sustained performance of 55 TFLOPS for molecular dynamics simulations ...