Abstract
A new series of peptidic nanostructures bearing two intercalating moieties was designed and synthesized to achieve selective recognition of DNA sequences. A cationic porphyrin was attached to a glutamic acid side chain and the latter introduced into a peptidic sequence by standard solid-phase peptide synthesis methodology. Conformation of the hydrosoluble peptidic structures bearing two cationic porphyrins was studied by circular dichroism. Using UV-visible spectroscopy and induced circular dichroism, we demonstrate that the compounds are fully intercalated upon binding to double-stranded DNA and that the compounds exhibit a tremendous preference for GC over AT sequences for intercalation.
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