A MAJOR challenge in protein design is to create stable scaffolds into which tailored functions can be introduced. Here we present the design, synthesis and characterization of a 61-residue all-beta protein: the minibody. We used a portion of the heavy chain variable domain of an immunoglobulin as a template, obtaining a molecule with a novel beta-sheet scaffold and two regions corresponding to the hypervariable loops H1 and H2. To exploit the potential for creating functional centres in the minibody, we engineered a metal-binding site into it. This site is formed by one histidine in H1 and two in H2. The protein is folded, compact and able to bind metal, thus representing the first designed beta-protein with a novel fold and a tailored function. By randomizing the sequence of the hypervariable loops, we are using the minibody scaffold to construct a conformationally constrained peptide library displayed on phage.
A DESIGNED METAL-BINDING PROTEIN WITH A NOVEL FOLD / Antonello, Pessi; Elisabetta, Bianchi; Andreas, Crameri; Sara, Venturini; Tramontano, Anna; Maurizio, Sollazzo. - In: NATURE. - ISSN 0028-0836. - 362:6418(1993), pp. 367-369. [10.1038/362367a0]
A DESIGNED METAL-BINDING PROTEIN WITH A NOVEL FOLD
TRAMONTANO, ANNA;
1993
Abstract
A MAJOR challenge in protein design is to create stable scaffolds into which tailored functions can be introduced. Here we present the design, synthesis and characterization of a 61-residue all-beta protein: the minibody. We used a portion of the heavy chain variable domain of an immunoglobulin as a template, obtaining a molecule with a novel beta-sheet scaffold and two regions corresponding to the hypervariable loops H1 and H2. To exploit the potential for creating functional centres in the minibody, we engineered a metal-binding site into it. This site is formed by one histidine in H1 and two in H2. The protein is folded, compact and able to bind metal, thus representing the first designed beta-protein with a novel fold and a tailored function. By randomizing the sequence of the hypervariable loops, we are using the minibody scaffold to construct a conformationally constrained peptide library displayed on phage.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
