Binding of a designed anti-cancer drug to the central cavity of an RNA three-way junction.

Getting to the heart of it: Co-crystallization of an RNA three-way junction with a cylindrical di-iron(II)-based anti-cancer drug (green) results in π-stacking interactions between the cylinder and the central base pairs of the RNA structure. The shape, size, and cationic nature of the cylinder were found to be responsible for this perfect fit. Native gel electrophoresis studies confirmed stabilization of the RNA three-way junction by the iron(II) cylinder.

Targeted delivery of polyoxometalate nanocomposites.

Polyoxometalate/carboxymethyl chitosan nanocomposites with an average diameter of 130 nm are synthesized and labeled with fluorescein isothiocyanate (FITC) for a combined drug-carrier and cellular-monitoring approach. [Eu(β(2) -SiW(11) O(39) )(2) ](13-) /CMC nanospheres as a representative example do not display cytotoxicity for POM concentrations up to 2 mg mL(-1) . Cellular uptake of fluoresecently labelled {EuSiW(11) O(39) }/FITC-CMC nanoparticles is monitored with confocal laser scanning microscopy.

Synthesis, characterisation and cytotoxicity of polyoxometalate/carboxymethyl chitosan nanocomposites.

Chitosan and its derivates continue to attract considerable research interest as effective drug carriers with good biocompatibility and high cellular uptake rates. We used these versatile features to tap the considerable biomedical potential of polyoxometalates (POMs) through their encapsulation into a carboxymethyl chitosan (CMC) matrix. The nanocapsules were prepared by ionic gelification with Ca(2+); their size distribution ranges from 60 to 150 nm.

Using in vitro transcription to construct scaffolds for one-dimensional arrays of mercuric ions.

In vitro transcription by T7 RNA polymerase can be used to construct scaffolds for the one-dimensional arrangement of mercury(II) ions. In these constructs, the metal ions are located inside of RNA double helices. By replacing the amide protons of two oppositely located uracil residues of complementary strands, mercury(II) becomes coordinated in a linear fashion to form metal-ion mediated base pairs, analogous to the well-known thymine-Hg-thymine base pair in DNA.