Issue 3, 2011

Introducing structural flexibility into porphyrin–DNA zipper arrays

Abstract

A more flexible nucleotide building block for the synthesis of new DNA based porphyrin–zipper arrays is described. Changing the rigid acetylene linker between the porphyrin substituent and the 2′-deoxyuridine to a more flexible propargyl amide containing linkage leads in part to an increased duplex stability. The CD spectra reveal different electronic interactions between the porphyrins depending on the type of linker used. Molecular modelling suggests large variation of the relative orientation of the porphyrins within the major groove of the DNA. The porphyrins can be metallated post-synthetically with different metals as shown with zinc, cobalt and copper. The spectroscopic features do not alter drastically upon metallation apart from the CD spectra, and the stability of the metal complex is highly dependent on the nature of the metal. As shown by CD spectroscopy, the zinc porphyrin is rapidly demetallated at high temperatures. Globular structure determination using SAXS indicates that a molecular assembly comprised of a two to four helical bundle dominates in solution at higher concentrations (≥50 μM) which is not observed by spectroscopy at lower concentrations (≤1 μM).

Graphical abstract: Introducing structural flexibility into porphyrin–DNA zipper arrays

Supplementary files

Additions and corrections

Article information

Article type
Paper
Submitted
04 Aug 2010
Accepted
12 Oct 2010
First published
13 Oct 2010

Org. Biomol. Chem., 2011,9, 777-782

Introducing structural flexibility into porphyrin–DNA zipper arrays

A. Brewer, G. Siligardi, C. Neylon and E. Stulz, Org. Biomol. Chem., 2011, 9, 777 DOI: 10.1039/C0OB00535E

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