Stereoselectivity for DNA Threading Intercalation of Short Binuclear Ruthenium Complexes
Artikel i vetenskaplig tidskrift, 2011

Threading intercalation is an unusual DNA binding mode with significantly slower association and dissociation rates compared with classical intercalation. The latter has been shown to correlate well with cytotoxicity, and therefore, threading intercalating compounds are of great interest in the search for new DNA binding drugs. Thus, there is a need for better understanding of the mechanisms behind this type of binding. In this work, we have investigated the threading intercalation ability, of the four stereoisomers of the AT-specific binuclear ruthenium complex [mu-dppzip(phen)(4)Ru(2)](4+) using different spectroscopic techniques. This complex contains an unsymmetrical bridging ligand consisting of a dipyridophenazine and an imidazophenanthroline ring system, in which the photophysical properties of the Ru-dipyridophenazine complex moiety make it possible to distinguish the intercalating part from the nonintercalating part We have found that Delta geometry around the ruthenium on the intercalating dipyridophenazine moiety and Lambda geometry on the nonintercalating imidazophenanthroline moiety is the optimal configuration for threading intercalation Of this complex and that the chirality on the ruthenium of the nonintercalating half dominates the stereospecificity in the threaded state. This is the cause of the reversed enantioselectivity compared with the parent threading intercalating complex [mu-bidppz(phen)(4)Ru(2)](4+), in which the enantioselectivity is controlled by the chirality on the intercalating half. The differences in the interactions with DNA between the two, complexes are most likely due to the fact that [mu-dppzip(phen)(4)Ru(2)](4+) has a slightly shorter bridging ligand than the parent complex.

dissociation

antibiotics

binding

nogalamycin

kinetics

linear dichroism

rna

recognition

equilibrium

actinomycin

Författare

Johanna Andersson

Chalmers, Kemi- och bioteknik, Fysikalisk kemi

Per Lincoln

Chalmers, Kemi- och bioteknik, Fysikalisk kemi

Journal of Physical Chemistry B

1520-6106 (ISSN) 1520-5207 (eISSN)

Vol. 115 49 14768-14775

Ämneskategorier

Fysikalisk kemi

DOI

10.1021/jp2062767

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2017-10-06