DNA-mediated biomineralization of a new planar Pt-complex
Date
2006
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Academy of Science for South Africa
Abstract
The crystal growth morphology of a coordination complex of Pt(II) that crystallizes from solution can be controlled by using a second molecular species such as peptides or other organic compounds. Examples of crystal growth controlled by nucleic acids are few. In this article we describe the use of branched three-way junction (3WJ) DNA to influence the crystal growth of a planar platinum compound, cis-[(2,2′-bipyridyl)N,N-di(2-hydroxyethyl)- N′-benzoyl-thioureatoplatinum(II)]chloride. Platinum complexes with extended planar aromatic residues are capable of stacking in the absence as well as in the presence of linear DNA double helices. This feature is based on the interaction of the compound with DNA through intercalation, resulting in the prevention of binding of DNA polymerase. Microscopic one-dimensional crystals were observed under these conditions. In the presence of the branched 3WJ DNA, however, additional nucleation sites are present, resulting in extended crystal growth of unique Pt compounds. At least two different crystal modifications were observed using transmission electron microscopy.
Description
CITATION: Klump, H. H., Koch, K. & Lin, C. T. 2006. DNA-mediated biomineralization of a new planar Pt-complex. South African Journal of Science, 102(5-6):264-266.
The original publication is available at https://journals.co.za
The original publication is available at https://journals.co.za
Keywords
Biomineralization, DNA, Transmission electron microscopy
Citation
Klump, H. H., Koch, K. & Lin, C. T. 2006. DNA-mediated biomineralization of a new planar Pt-complex. South African Journal of Science, 102(5-6):264-266