Metal Complexes of Modified Cyclen as Catalysts for Hydrolytic Restriction of Plasmid DNA
Document Type
Article
Publication Date
8-1-2010
Description
Simple and novel nuclease models have been synthesized. These involve metal-binding ligand 1,4,7,10-tetraazlcyclododecane (cyclen) tethered to an acridine ring (a DNA-binding group) by amide linkers of various lengths. Binding of these probes to DNA was studied by monitoring changes in their UV-visible spectra affected by the presence of DNA. Titration of these compounds with increasing amounts of pBR322 DNA caused hypochromic effects and shifted the acridine absorption at 360nm to a longer wavelength. Under biologically relevant conditions (37°C and pH 7.4), specific transition metal complexes of these compounds are found to be highly effective catalysts toward the hydrolysis of plasmid DNA. This is demonstrated by their ability to convert the super-coiled DNA (form I) to open-circular DNA (form II). Structure-activity correlation studies show that hydrolytic activity depends on both the structure of ligand (L1>L2>L3) and the nature of metal ion cofactor (Co3+>Zn2+>Cr2+>Ni2+>Cu2+>Fe3+).
Citation Information
Krauser, Joel A.; Joshi, Aarti L.; and Kady, Ismail O.. 2010. Metal Complexes of Modified Cyclen as Catalysts for Hydrolytic Restriction of Plasmid DNA. Journal of Inorganic Biochemistry. Vol.104(8). 877-884. https://doi.org/10.1016/j.jinorgbio.2010.04.007 PMID: 20483162 ISSN: 0162-0134