Peptide-recognition modules (PRMs) are used throughout biology to mediate protein-protein interactions, and many PRMs are members of large protein domain families. Recent genome-wide measurements describe networks of peptide-PRM interactions. In these networks, very similar PRMs recognize distinct sets of peptides, raising the question of how peptide-recognition specificity is achieved using similar protein domains. The analysis of individual protein complex structures often gives answers that are not easily applicable to other members of the same PRM family. Bioinformatics-based approaches, one the other hand, may be difficult to interpret physically. Here we integrate structural information with a large, quantitative data set of SH2 domai...
Protein-protein interactions, particularly weak and transient ones, are often mediated by peptide re...
Protein-protein interactions are of vital importance to the cell as they mediate the assembly of pro...
Evolution is the uniting concept of biology and life. At its fundamental level, it operates by sampl...
Peptide-recognition modules (PRMs) are used throughout biology to mediate protein-protein interactio...
Peptide-recognition modules (PRMs) are used throughout biology to mediate protein–protein interactio...
Peptide-recognition modules (PRMs) are used throughout biology to mediate protein–protein interactio...
Peptide recognition modules (PRMs) are used throughout biology to mediate protein-protein interactio...
MOTIVATION: Unravelling the rules underlying protein-protein and protein-ligand interactions is a cr...
Peptide recognition module (PRM) mediated protein-protein interactions (PPIs) are critical for bette...
The SH3 domain family is one of the most representative and widely studied cases of so-called Peptid...
Src homology 2 (SH2) domains are the largest family of the peptide-recognition modules (PRMs) that b...
Protein interaction domain families that modulate the formation of macromolecular complexes recogniz...
MOTIVATION: Unravelling the rules underlying protein-protein and protein-ligand interactions is a cr...
AbstractPeptide-binding domains play a critical role in regulation of cellular processes by mediatin...
Protein-protein interactions, particularly weak and transient ones, are often mediated by peptide re...
Protein-protein interactions are of vital importance to the cell as they mediate the assembly of pro...
Evolution is the uniting concept of biology and life. At its fundamental level, it operates by sampl...
Peptide-recognition modules (PRMs) are used throughout biology to mediate protein-protein interactio...
Peptide-recognition modules (PRMs) are used throughout biology to mediate protein–protein interactio...
Peptide-recognition modules (PRMs) are used throughout biology to mediate protein–protein interactio...
Peptide recognition modules (PRMs) are used throughout biology to mediate protein-protein interactio...
MOTIVATION: Unravelling the rules underlying protein-protein and protein-ligand interactions is a cr...
Peptide recognition module (PRM) mediated protein-protein interactions (PPIs) are critical for bette...
The SH3 domain family is one of the most representative and widely studied cases of so-called Peptid...
Src homology 2 (SH2) domains are the largest family of the peptide-recognition modules (PRMs) that b...
Protein interaction domain families that modulate the formation of macromolecular complexes recogniz...
MOTIVATION: Unravelling the rules underlying protein-protein and protein-ligand interactions is a cr...
AbstractPeptide-binding domains play a critical role in regulation of cellular processes by mediatin...
Protein-protein interactions, particularly weak and transient ones, are often mediated by peptide re...
Protein-protein interactions are of vital importance to the cell as they mediate the assembly of pro...
Evolution is the uniting concept of biology and life. At its fundamental level, it operates by sampl...