Broken up but still living together: how ARGONAUTE's retention of cleaved fragments explains its role during chromatin modification [Outlook]

Seth A. Edwards1,2 and R. Keith Slotkin1,2 1Donald Danforth Plant Science Center, St. Louis, Missouri 63132, USA; 2Division of Biological Sciences, University of Missouri, Columbia, Missouri 65211, USA Corresponding author: kslotkindanforthcenter.org Abstract

Throughout the eukaryotic kingdoms, small RNAs direct chromatin modification. ARGONAUTE proteins sit at the nexus of this process, linking the small RNA information to the programming of chromatin. ARGONAUTE proteins physically incorporate the small RNAs as guides to target specific regions of the genome. In this issue of Genes & Development, Wang and colleagues (pp. 103–118) add substantial new detail to the processes of ARGONAUTE RNA loading, preference, cleavage, and retention, which together accomplish RNA-directed chromatin modification. They show that after catalytic cleavage by the plant ARGONAUTE protein AGO4, the cleaved fragment remains bound. This happens during two distinct RNA cleavage reactions performed by AGO4: first for a passenger RNA strand of the siRNA duplex, and second for a nascent transcript at the target DNA locus. Cleaved fragment retention of the nascent transcript explains how the protein complex accumulates to high levels at the target locus, amplifying chromatin modification.

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