RecA that catalyses efficient homology search and exchange of DNA bases has to effect major transitions in the structure as well as the dynamics of bases within RecA-DNA filament. RecA induces slippage of paired strands in poly(dA)-poly(dT) duplex using the energy of ATP hydrolysis. Here, we have adopted the targeted ligation assay and quantified the strand slippage within a short central cassette of (dA)(4)-(dT)(4) duplex. The design offers a stringent test case for scoring a cross-talk between A residues with those of T that are diagonally placed on the opposite strand at either -3, -2, -1, +1, +2, or +3 pairing frames. As expected, the cross-talk levels in RecA mediated as well as thermally annealed duplexes were maximal in non-diagonal pairing frame (i.e., 0-frame), the levels of which fell off gradually as the frames became more diagonal, i.e., -3 < -2 < -1 or +3 < +2 < +1. Interestingly, the level of cross-talk in naked duplexes was intrinsically less efficient in minus frames than their plus frame counterparts. The asymmetry created in naked duplexes by such a disparity between minus versus plus frames was partially obviated by RecA. Moreover, RecA promoted a significantly higher level of cross-talk selectively in -2 and -1 frames, as compared to that in naked DNA, which suggests a model that the elevated cross-talk in RecA filament may be limited to base pairs housed within the same rather than adjacent RecA monomers. (C) 2002 Elsevier Science (USA). All rights reserved.