Zinc is indispensable to all forms of life as it is an essential component of many different proteins involved in a wide range of biological processes. Not differently from other metals, zinc in proteins can play different roles that depend on the features of the metal-binding site. In this work, we describe zinc sites in proteins with known structure by means of three-dimensional templates that can be automatically extracted from PDB files and consist of the protein structure around the metal, including the zinc ligands and the residues in close spatial proximity to the ligands. This definition is devised to intrinsically capture the features of the local protein environment that can affect metal function, and corresponds to what we call a...
Zinc is one of the most important biologically active metals. 10% of the human genome is thought to...
The geometry of metal coordination by proteins is well understood, but the evolution of metal bindin...
Approximately one third of proteins are thought to bind metal ions. These ions often improve the pro...
Zinc is indispensable to all forms of life as it is an essential component of many different protein...
Metal binding proteins or metalloproteins chelate a metal ion cofactor such as iron, zinc, or copper...
Zinc ®ngers are small protein domains in which zinc plays a structural role contributing to the stab...
Metal ions play a functional role in numerous biochemical processes and cellular pathways. Indeed, a...
The geometrical properties of zinc binding sites in a dataset of high quality protein crystal struct...
Engineered proteins will continue to expand the molecular toolkit for applications in medicine, biot...
Zinc is more widely used as a cofactor in proteins than any other transition metal ion. In addition ...
In metalloproteins, the protein environment modulates metal properties to achieve the required goal,...
Structure-based protein design tests our understanding of the minimal determinants of protein struct...
The specific arrangement of secondary elements in a local motif often totally relies on the formatio...
AbstractThe crystal structures of eleven zinc enzymes have served to identify common features of the...
We developed a new software tool, MetalS<sup>2</sup>, for the structural alignment of Minimal Functi...
Zinc is one of the most important biologically active metals. 10% of the human genome is thought to...
The geometry of metal coordination by proteins is well understood, but the evolution of metal bindin...
Approximately one third of proteins are thought to bind metal ions. These ions often improve the pro...
Zinc is indispensable to all forms of life as it is an essential component of many different protein...
Metal binding proteins or metalloproteins chelate a metal ion cofactor such as iron, zinc, or copper...
Zinc ®ngers are small protein domains in which zinc plays a structural role contributing to the stab...
Metal ions play a functional role in numerous biochemical processes and cellular pathways. Indeed, a...
The geometrical properties of zinc binding sites in a dataset of high quality protein crystal struct...
Engineered proteins will continue to expand the molecular toolkit for applications in medicine, biot...
Zinc is more widely used as a cofactor in proteins than any other transition metal ion. In addition ...
In metalloproteins, the protein environment modulates metal properties to achieve the required goal,...
Structure-based protein design tests our understanding of the minimal determinants of protein struct...
The specific arrangement of secondary elements in a local motif often totally relies on the formatio...
AbstractThe crystal structures of eleven zinc enzymes have served to identify common features of the...
We developed a new software tool, MetalS<sup>2</sup>, for the structural alignment of Minimal Functi...
Zinc is one of the most important biologically active metals. 10% of the human genome is thought to...
The geometry of metal coordination by proteins is well understood, but the evolution of metal bindin...
Approximately one third of proteins are thought to bind metal ions. These ions often improve the pro...