Abstract
The article describes the use of a PNA duplex (PNA zipper) as a tool to dimerize or bring in close proximity two polypeptides or protein domains. The amino acid sequence to be dimerized is covalently bound to complementary PNA sequences. Annealing of the PNA strands results in dimer formation. To test the ability of the "PNA-zipper" as a dimerization tool, we designed a GCN4 mimetic, where the leucine-zipper dimerization domain was replaced by the PNA zipper, whereas the basic DNA-binding domain was covalently attached to the PNA. The molecule was assembled by chemical ligation of the peptide corresponding to the DNA-binding domain of GCN4 modified with a succinyl thioester with two complementary PNAs harboring a cysteine residue. Electromobility-shift experiments show the ability of the PNA zipper-GCN4 to bind selected DNA duplexes. The PNA zipper-GCN4 binds both the TRE and CRE DNA sites, but it does not bind TRE and CRE mutants containing even a single base mutation, as the native GCN4. The ability to fold upon complexation with DNA was investigated by CD. A good correlation between the ability of the PNA zipper-GCN4 to fold into alpha helices and the ability to bind DNA was found.
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