Background: Macromolecular complexes are the molecular machines of the cell. Knowledge at the atomic level is essential to understand and influence their function. However, their number is huge and a significant fraction is extremely difficult to study using classical structural methods such as NMR and X-ray crystallography. Therefore, the importance of large-scale computational approaches in structural biology is evident. This study combines two of these computational approaches, interface prediction and docking, to obtain atomic-level structures of protein-protein complexes, starting from their unbound components. Methodology/Principal Findings: Here we combine six interface prediction web servers into a consensus method called CPORT (Con...
Advances in biophysics and biochemistry have pushed back the limits of the structural characterizati...
peer reviewedThe increasing number of solved protein structures provides a solid number of interface...
Protein docking prediction using predicted protein-protein interface Bin Li1 and Daisuke Kihara2,1,3...
Background: Macromolecular complexes are the molecular machines of the cell. Knowledge at the atomic...
BACKGROUND: Macromolecular complexes are the molecular machines of the cell. Knowledge at the atomic...
Proteins are the wheels and mill stones of the complex machinery that underlies human life. In carry...
Reliable prediction of the amino acid residues involved in protein-protein interfaces can provide va...
Over the last years, large scale proteomics studies have generated a wealth of information of biomol...
Over the last years, large scale proteomics studies have generated a wealth of information of biomol...
Abstract Background Many important cellular processes are carried out by protein complexes. To provi...
We have shown previously that given high-resolution structures of the unbound molecules, structure d...
Protein-protein and protein-ligand interactions are fundamental as many proteins mediate their biolo...
We have shown previously that given high-resolution structures of the unbound molecules, structure d...
The experimental determination of the structure of protein complexes cannot keep pace with the gener...
Computational structural prediction of macromolecular interactions is a fundamental tool towards the...
Advances in biophysics and biochemistry have pushed back the limits of the structural characterizati...
peer reviewedThe increasing number of solved protein structures provides a solid number of interface...
Protein docking prediction using predicted protein-protein interface Bin Li1 and Daisuke Kihara2,1,3...
Background: Macromolecular complexes are the molecular machines of the cell. Knowledge at the atomic...
BACKGROUND: Macromolecular complexes are the molecular machines of the cell. Knowledge at the atomic...
Proteins are the wheels and mill stones of the complex machinery that underlies human life. In carry...
Reliable prediction of the amino acid residues involved in protein-protein interfaces can provide va...
Over the last years, large scale proteomics studies have generated a wealth of information of biomol...
Over the last years, large scale proteomics studies have generated a wealth of information of biomol...
Abstract Background Many important cellular processes are carried out by protein complexes. To provi...
We have shown previously that given high-resolution structures of the unbound molecules, structure d...
Protein-protein and protein-ligand interactions are fundamental as many proteins mediate their biolo...
We have shown previously that given high-resolution structures of the unbound molecules, structure d...
The experimental determination of the structure of protein complexes cannot keep pace with the gener...
Computational structural prediction of macromolecular interactions is a fundamental tool towards the...
Advances in biophysics and biochemistry have pushed back the limits of the structural characterizati...
peer reviewedThe increasing number of solved protein structures provides a solid number of interface...
Protein docking prediction using predicted protein-protein interface Bin Li1 and Daisuke Kihara2,1,3...