Structure-based protein design tests our understanding of the minimal determinants of protein structure and function. Previous studies have demonstrated that placing zinc binding amino acids (His, Glu, Asp or Cys) near each other in a folded protein in an arrangement predicted to be tetrahedral is often sufficient to achieve binding to zinc. However, few designs have been characterized with high-resolution structures. Here, we use X-ray crystallography, binding studies and mutation analysis to evaluate three alternative strategies for designing zinc binding sites with the molecular modeling program Rosetta. While several of the designs were observed to bind zinc, crystal structures of two designs reveal binding configurations that differ fr...
The studies contained in this thesis are aimed at redesigning the avid His$\sb3$-Zn$\sp{2+}$ zinc bi...
Metals are the most commonly encountered protein cofactors, and they play important structural and f...
SummaryZinc binding motifs have received much attention in the area of protein design. Here, we have...
Approximately one third of proteins are thought to bind metal ions. These ions often improve the pro...
Engineered proteins will continue to expand the molecular toolkit for applications in medicine, biot...
The geometrical properties of zinc binding sites in a dataset of high quality protein crystal struct...
The de novo design of functional proteins requires specification of tertiary structure and incorpora...
Computationally designing protein-protein interactions with high affinity and desired orientation is...
AbstractMany different zinc binding modules have been identified. Their abundance and variety sugges...
Functional proteins designed de novo have potential application in chemical engineering, agriculture...
AbstractThe recently determined structure of a zinc binding peptide reveals that a particular sequen...
Background: Zinc binding proteins make up a significant proportion of the proteomes of most organism...
Zinc is indispensable to all forms of life as it is an essential component of many different protein...
BackgroundSpecific interactions of metal ions with proteins are central to all life processes. The v...
The structures and reactions of metal ions in proteins are of tremendous interest in bioinorganic ch...
The studies contained in this thesis are aimed at redesigning the avid His$\sb3$-Zn$\sp{2+}$ zinc bi...
Metals are the most commonly encountered protein cofactors, and they play important structural and f...
SummaryZinc binding motifs have received much attention in the area of protein design. Here, we have...
Approximately one third of proteins are thought to bind metal ions. These ions often improve the pro...
Engineered proteins will continue to expand the molecular toolkit for applications in medicine, biot...
The geometrical properties of zinc binding sites in a dataset of high quality protein crystal struct...
The de novo design of functional proteins requires specification of tertiary structure and incorpora...
Computationally designing protein-protein interactions with high affinity and desired orientation is...
AbstractMany different zinc binding modules have been identified. Their abundance and variety sugges...
Functional proteins designed de novo have potential application in chemical engineering, agriculture...
AbstractThe recently determined structure of a zinc binding peptide reveals that a particular sequen...
Background: Zinc binding proteins make up a significant proportion of the proteomes of most organism...
Zinc is indispensable to all forms of life as it is an essential component of many different protein...
BackgroundSpecific interactions of metal ions with proteins are central to all life processes. The v...
The structures and reactions of metal ions in proteins are of tremendous interest in bioinorganic ch...
The studies contained in this thesis are aimed at redesigning the avid His$\sb3$-Zn$\sp{2+}$ zinc bi...
Metals are the most commonly encountered protein cofactors, and they play important structural and f...
SummaryZinc binding motifs have received much attention in the area of protein design. Here, we have...