AbstractIn this issue of Structure, characteristic features that distinguish protein-protein interfaces from noninterface protein surface (Halperin et al., 2004) provide insights into fundamental properties of protein recognition and contribute to improvement of docking methodologies
The increasing availability of co-crystallized protein-protein complexes provides an opportunity to ...
Crystallography is commonly used for studying the structures of protein-protein complexes. However, ...
<div><p>Interactions at the molecular level in the cellular environment play a very crucial role in ...
AbstractIn this issue of Structure, characteristic features that distinguish protein-protein interfa...
Proteins are the wheels and mill stones of the complex machinery that underlies human life. In carry...
Motivation: The increasing amount of data on protein-protein interaction needs to be rationalized fo...
Crystal structures deposited in the Protein Data Bank illustrate the diversity of biological macromo...
Crystallography is commonly used for studying the structures of protein–protein complexes. However, ...
Abstract: Complex protein-protein interaction networks govern biological processes in cells. Protein...
AbstractThe protein-protein docking problem is one of the focal points of activity in computational ...
The vast and growing volume of 3D protein structural data stored in the PDB contains abundant inform...
Modern structural biology still draws the vast majority of information from crystallography, a techn...
We compare the geometric and physical-chemical properties of interfaces involved in specific and non...
Protein interactions are essential in all biological processes. The changes brought about in the str...
Many biochemical and/or biophysical experimental methods have been used to identify and characterize...
The increasing availability of co-crystallized protein-protein complexes provides an opportunity to ...
Crystallography is commonly used for studying the structures of protein-protein complexes. However, ...
<div><p>Interactions at the molecular level in the cellular environment play a very crucial role in ...
AbstractIn this issue of Structure, characteristic features that distinguish protein-protein interfa...
Proteins are the wheels and mill stones of the complex machinery that underlies human life. In carry...
Motivation: The increasing amount of data on protein-protein interaction needs to be rationalized fo...
Crystal structures deposited in the Protein Data Bank illustrate the diversity of biological macromo...
Crystallography is commonly used for studying the structures of protein–protein complexes. However, ...
Abstract: Complex protein-protein interaction networks govern biological processes in cells. Protein...
AbstractThe protein-protein docking problem is one of the focal points of activity in computational ...
The vast and growing volume of 3D protein structural data stored in the PDB contains abundant inform...
Modern structural biology still draws the vast majority of information from crystallography, a techn...
We compare the geometric and physical-chemical properties of interfaces involved in specific and non...
Protein interactions are essential in all biological processes. The changes brought about in the str...
Many biochemical and/or biophysical experimental methods have been used to identify and characterize...
The increasing availability of co-crystallized protein-protein complexes provides an opportunity to ...
Crystallography is commonly used for studying the structures of protein-protein complexes. However, ...
<div><p>Interactions at the molecular level in the cellular environment play a very crucial role in ...