The tetratricopeptide repeat (TPR) is a 34-amino acid a-helical motif that occurs in over 300 different proteins. In the different proteins, three to sixteen or more TPR motifs occur in tandem arrays and function to mediate protein-protein interactions. The binding specificity of each TPR protein is different, although the underlying structural motif is the same. Here we describe a statistical approach to the design of an idealized TPR motif. We present the high-resoln. X-ray crystal structures (to 1.55 and 1.6 .ANG.) of designed TPR proteins and describe their soln. properties and stability. A detailed anal. of these structures provides an understanding of the TPR motif, how it is repeated to give helical arrays with different superhelical twists, and how a very stable framework may be constructed for future functional designs.
Design of Stable a-Helical Arrays from an Idealized TPR Motif.
D'Andrea Luca;
2003
Abstract
The tetratricopeptide repeat (TPR) is a 34-amino acid a-helical motif that occurs in over 300 different proteins. In the different proteins, three to sixteen or more TPR motifs occur in tandem arrays and function to mediate protein-protein interactions. The binding specificity of each TPR protein is different, although the underlying structural motif is the same. Here we describe a statistical approach to the design of an idealized TPR motif. We present the high-resoln. X-ray crystal structures (to 1.55 and 1.6 .ANG.) of designed TPR proteins and describe their soln. properties and stability. A detailed anal. of these structures provides an understanding of the TPR motif, how it is repeated to give helical arrays with different superhelical twists, and how a very stable framework may be constructed for future functional designs.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
