Recognition and selective binding of DNA by ionenes of different charge density.

The ability of aliphatic ionenes to recognize and bind DNA or poly(methacrylic acid) (PMA) in the equimolar mixture of these polyanions was studied by fluorescence quenching technique. Within a particular system, the selectivity of competitive interactions was shown to be determined by a component with the lowest degree of polymerization (DP). Ionene polycations with lowest DP values did not exhibit pronounced selectivity in binding DNA or PMA with higher values of DP.

Competitive reactions in solutions of poly-L-histidine, calf thymus DNA, and synthetic polyanions: determining the binding constants of polyelectrolytes.

The physicochemical characteristics of a nonviral gene delivery system will govern its functional bioactivity; however, empiricism dominates the literature in this field, and a significant deficiency of quantitative investigation and evaluation of nonviral gene delivery vehicles remains. Herein, we derive a physical model and experimental method to quantitatively determine the binding constants between a model polycationic nonviral gene delivery vehicle poly-L-histidine (PLH) and calf thymus DNA. The approach has utility to a variety of systems and is not limited to the described polymer model.