Complex formation with nucleic acids and aptamers alters the antigenic properties of platelet factor 4.

The tight electrostatic binding of the chemokine platelet factor 4 (PF4) to polyanions induces heparin-induced thrombocytopenia, a prothrombotic adverse drug reaction caused by immunoglobulin G directed against PF4/polyanion complexes. This study demonstrates that nucleic acids, including aptamers, also bind to PF4 and enhance PF4 binding to platelets. Systematic assessment of RNA and DNA constructs, as well as 4 aptamers of different lengths and secondary structures, revealed that increasing length and double-stranded segments of nucleic acids augment complex formation with PF4, while single nucleotides or single-stranded polyA or polyC constructs do not.

Kinetic characterization of hairpin ribozyme variants.

Kinetic analysis of ribozyme reactions is a common method to evaluate and compare activities of catalytic RNAs. The hairpin ribozyme catalyzes the reversible cleavage of a suitable RNA substrate at a specific site. Hairpin ribozyme variants as an allosteric ribozyme responsive to flavine mononucleotide and a hairpin-derived twin ribozyme that catalyzes two cleavage reactions and two ligation events with the result of a fragment exchange have been developed by rational design and were kinetically characterized.