Drosophila dicer-2 cleavage is mediated by helicase- and dsrna termini-dependent states that are modulated by loquacious-PD

Abstract

In previous studies we observed that the helicase domain of Drosophila Dicer-2 (dmDcr-2) governs substrate recognition and cleavage efficiency, and that dsRNA termini are key to this discrimination. We now provide a mechanistic basis for these observations. We show that discrimination of termini occurs during initial binding. Without ATP, dmDcr-2 binds 3' overhanging, but not blunt, termini. By contrast, with ATP, dmDcr-2 binds both types of termini, with highest-affinity binding observed with blunt dsRNA. In the presence of ATP, binding, cleavage, and ATP hydrolysis are optimal with BLT termini compared to 3'ovr termini. Limited proteolysis experiments suggest the optimal reactivity of BLT dsRNA is mediated by a conformational change that is dependent on ATP and the helicase domain. We find that dmDcr-2's partner protein, Loquacious-PD, alters termini dependence, enabling dmDcr-2 to cleave substrates normally refractory to cleavage, such as dsRNA with blocked, structured, or frayed ends.