Binding of distamycin A and netropsin to the 12mer DNA duplexes containing mixed AT.GC sequences with at most five or three successive AT base pairs.

Abstract

Circular dichroism (CD), isothermal calorimetric titrations (ITC), and temperature-dependent UV spectroscopy were used to investigate binding of the minor groove-directed ligands distamycin A (Dst) and netropsin (Net) to the following duplexes: d(GTTAGTATTTGG). d(CCAAATACTAAC), d(GTTAGTATATGG).d(CCATATACTAAC), d(GTTAGTACTTGG). d(CCAAGTACTAAC), and d(GTTAGTAGTTGG).d(CCAACTACTAAC). Our results reveal that Dst binds within the minor grooves of these dodecamers that contain five-AT and/or four-AT.GC binding sites exclusively in a dimeric high-affinity 2:1 binding mode (K approximately 10(16) M(-)(2)). By contrast, Net exhibits high-affinity binding only when it binds in a 1:1 mode (K(1) approximately 10(9) M(-)(1)) to the two duplexes that contain five-AT sites (5'-TATTT-3' and 5'-TATAT-3'). Its further binding to these two duplexes occurs in a low-affinity mode (K(2) approximately 10(6) M(-)(1)) and results in the formation of 2:1 Net-DNA complexes. To the other two duplexes that contain sequences with at most three AT consecutive base pairs Net binds in two distinctive low-affinity 1:1 binding modes (K(1) approximately 10(7) M(-)(1), K(2) approximately 10(6) M(-)(1)). Competition experiments (CD and ITC titrations) reveal that Dst entirely displaces Net from its 1:1 and 2:1 complexes with any of the four duplexes. We discuss and interpret our optical and calorimetric results in the context of the available structural information about the complexes between DNA and the sequence-specific minor groove binders Dst and Net.