The de novo design of functional proteins requires specification of tertiary structure and incorporation of molecular binding sites. Here, we develop an inside-out design strategy in the molecular modeling program Rosetta that begins with amino acid side chains from one or two α-helices making well-defined contacts with a ligand. A full-sized protein is then built around the ligand by adding additional helices that promote the formation of a protein core and allow additional contacts with the ligand. The protocol was tested by designing 12 zinc-binding proteins, each with 4–5 helices. Four of the designs were folded and bound to zinc with equilibrium dissociation constants varying between 95 nM and 1.1 μM. The design with the tightest affin...
Several groups have applied and experimentally tested systematic, quan-titative methods to protein d...
AbstractThe recently determined structure of a zinc binding peptide reveals that a particular sequen...
The protein matrix finely tunes metal cofactor geometry and reactivity, despite the limited number o...
Structure-based protein design tests our understanding of the minimal determinants of protein struct...
Approximately one third of proteins are thought to bind metal ions. These ions often improve the pro...
Computationally designing protein–protein interactions with high affinity and desired orientation is...
Functional proteins designed de novo have potential application in chemical engineering, agriculture...
Engineered proteins will continue to expand the molecular toolkit for applications in medicine, biot...
SummaryZinc binding motifs have received much attention in the area of protein design. Here, we have...
AbstractMany different zinc binding modules have been identified. Their abundance and variety sugges...
An iterative design process involving the synthesis and structural analyses of five polypeptides pat...
Summary: The assembly of helical and β-sheet peptide blocks containing reactive chain ends results i...
International audienceHydrolytic zinc enzymes are common targets for protein design. The versatility...
Selective metal binding is a key requirement not only for the functions of natural metalloproteins b...
Creating proteins with new functions is a challenging task in the field of protein design. While var...
Several groups have applied and experimentally tested systematic, quan-titative methods to protein d...
AbstractThe recently determined structure of a zinc binding peptide reveals that a particular sequen...
The protein matrix finely tunes metal cofactor geometry and reactivity, despite the limited number o...
Structure-based protein design tests our understanding of the minimal determinants of protein struct...
Approximately one third of proteins are thought to bind metal ions. These ions often improve the pro...
Computationally designing protein–protein interactions with high affinity and desired orientation is...
Functional proteins designed de novo have potential application in chemical engineering, agriculture...
Engineered proteins will continue to expand the molecular toolkit for applications in medicine, biot...
SummaryZinc binding motifs have received much attention in the area of protein design. Here, we have...
AbstractMany different zinc binding modules have been identified. Their abundance and variety sugges...
An iterative design process involving the synthesis and structural analyses of five polypeptides pat...
Summary: The assembly of helical and β-sheet peptide blocks containing reactive chain ends results i...
International audienceHydrolytic zinc enzymes are common targets for protein design. The versatility...
Selective metal binding is a key requirement not only for the functions of natural metalloproteins b...
Creating proteins with new functions is a challenging task in the field of protein design. While var...
Several groups have applied and experimentally tested systematic, quan-titative methods to protein d...
AbstractThe recently determined structure of a zinc binding peptide reveals that a particular sequen...
The protein matrix finely tunes metal cofactor geometry and reactivity, despite the limited number o...