Binding of dsRNA by D. melanogaster Dicer-2 is substrate-dependent and regulated by Loquacious-PD

Author:

Jonely M.,Singh R. K.,Bass B. L.ORCID,Noriega R.ORCID

Abstract

ABSTRACTDrosophila melanogaster Dicer-2 is a large, multidomain protein that cleaves double-stranded RNA (dsRNA) into small interfering RNAs in a terminus-dependent manner as part of the RNA interference pathway. We characterize the local binding environment involved in this substrate-selective molecular recognition event by monitoring the time-resolved photophysics of a cyanine dye linked to the dsRNA terminus. We observe substantial changes in the molecular rigidity and local freedom of motion of the probe as a function of distinct conformations of the biomolecular complex between Dicer-2 and dsRNA as a function of dsRNA termini, the presence of regulatory proteins, and the addition of a biochemical energy source (ATP) or a non-hydrolysable equivalent (ATP-γS). With a clustering analysis based solely on these molecular-scale measures of the local binding environment at the dsRNA terminus, we identify sub-populations of similar conformations that define distinct modes of molecular recognition which are correlated with biochemical activity. These observations reveal the important role of substrate-selective molecular recognition properties for proteins with multiple domains that can bind RNA, regulatory proteins, and cofactors.STATEMENT OF SIGNIFICANCEThe molecular-scale determinants of protein-RNA binding remain elusive, particularly when different subunits of a single protein confer specificity toward small structural differences of their RNA partners. An important case is that of Drosophila melanogaster Dicer-2, a critical component of the antiviral RNA interference response. Dicer-2 discriminates between double stranded RNA with blunt or 3’ overhang termini, a feature suggested to mediate recognition of “self” vs. “non-self” substrates. We study these interactions at the binding site with a fluorescent label at the RNA terminus, monitoring intramolecular and collective measures of flexibility to report on the local environment. Dicer-2 has distinct modes of molecular recognition which are regulated by accessory proteins and ATP, leading to different conformations and tuning biochemical activity.

Publisher

Cold Spring Harbor Laboratory

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