Minna Li scite author profile

The binuclear ruthenium complex [μ-bidppz(phen)(4)Ru(2)](4+) has been extensively studied since the discovery of its unusual threading intercalation interaction with DNA, a binding mode with extremely slow binding and dissociation kinetics. The complex has been shown to be selective towards long stretches of alternating AT base pairs, which makes it interesting, for example, as a model compound for anti-malaria drugs due to the high AT content of the genome of the malaria parasite P. falciparum. We have investigated the effect of bridging ligand structure on threading intercalation ability and found that length and rigidity as well as the size of the intercalated ring system are all factors that affect the rate and selectivity of the threading intercalation. In particular, we discovered a new DNA-threading compound, [μ-dppzip(phen)(4)Ru(2)](4+), which appears to be just at the border of being capable of threading intercalation and displays even greater selectivity for AT-DNA than the parent compound, [μ-bidppz(phen)(4)Ru(2)](4+).

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Core-shell Zn/Co MOFs derived Co3O4/CNTs as an efficient magnetic heterogeneous catalyst for persulfate activation and oxytetracycline degradation

Liu

et al. 2020

Chemical Engineering Journal

209

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Core–shell magnetic metal–organic framework molecularly imprinted nanospheres for specific adsorption of tetrabromobisphenol A from water

Sun

et al. 2018

Environ. Sci.: Nano

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Minna Li

Lipophilic ruthenium complexes with tuned cell membrane affinity and photoactivated uptake

AT‐Specific DNA Binding of Binuclear Ruthenium Complexes at the Border of Threading Intercalation

Core-shell Zn/Co MOFs derived Co3O4/CNTs as an efficient magnetic heterogeneous catalyst for persulfate activation and oxytetracycline degradation

Core–shell magnetic metal–organic framework molecularly imprinted nanospheres for specific adsorption of tetrabromobisphenol A from water

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