Abstract
In this communication, a novel strategy for the design of a zinc finger peptide on the basis of alpha-helix substitution has been demonstrated. Sp1HM is a helix-substituted mutant for the wild-type Sp1(zf123) and its alpha-helix of each finger is replaced by that of fingers 4-6 of CF2-II. The circular dichroism spectrum of Sp1HM suggests that Sp1HM has an ordered secondary structure similar to that of Sp1(zf123). From the analyses of the DNA binding affinity and specificity by gel mobility shift assay, it is clearly indicated that Sp1HM specifically binds to the AT-rich sequence (5'-GTA TAT ATA-3') with 3.2 nM dissociation constants. Moreover, the zinc finger peptides for the sequence alternating between the AT- and GC-rich subsites can also be created by the alpha-helix substitution. This strategy is evidently effective and is also more convenient than the phage display method. Consequently, our design method is widely applicable to creating zinc finger peptides with novel binding specificities.
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