SummarySmall RNAs are used to silence transposable elements (TEs) in many eukaryotes, which use diverse evolutionary solutions to identify TEs. In ciliated protozoans, small-RNA-mediated comparison of the germline and somatic genomes underlies identification of TE-related sequences, which are then eliminated from the soma. Here, we describe an additional mechanism of small-RNA-mediated identification of TE-related sequences in the ciliate Tetrahymena. We show that a limited set of internal eliminated sequences (IESs) containing potentially active TEs produces a class of small RNAs that recognize not only the IESs from which they are derived, but also other IESs in trans. This trans recognition triggers the expression of yet another class of small RNAs that identify other IESs. Therefore, TE-related sequences in Tetrahymena are robustly targeted for elimination by a genome-wide trans-recognition network accompanied by a chain reaction of small RNA production.
The loading of small interfering RNAs (siRNAs) and microRNAs into Argonaute proteins is enhanced
by Hsp90 and ATP in diverse eukaryotes. However, whether this loading also occurs independently of
Hsp90 and ATP remains unclear. We show that the Tetrahymena Hsp90 co-chaperone
Coi12p promotes siRNA loading into the Argonaute protein Twi1p in both ATP-dependent and
ATP-independent manners in vitro. The ATP-dependent activity requires Hsp90 and the
tetratricopeptide repeat (TPR) domain of Coi12p, whereas these factors are dispensable for the
ATP-independent activity. Both activities facilitate siRNA loading by counteracting the
Twi1p-binding protein Giw1p, which is important to specifically sort the 26- to 32-nt siRNAs to
Twi1p. Although Coi12p lacking its TPR domain does not bind to Hsp90, it can partially restore the
siRNA loading and DNA elimination defects of COI12 knockout cells, suggesting that
Hsp90- and ATP-independent loading of siRNA occurs in vivo and plays a
physiological role in Tetrahymena.
SummaryRNAi-mediated positive feedback loops are pivotal for the maintenance of heterochromatin, but how they are downregulated at heterochromatin-euchromatin borders is not well understood. In the ciliated protozoan Tetrahymena, heterochromatin is formed exclusively on the sequences that are removed from the somatic genome by programmed DNA elimination, and an RNAi-mediated feedback loop is important for assembling heterochromatin on the eliminated sequences. In this study, we show that the heterochromatin protein 1 (HP1)-like protein Coi6p, its interaction partners Coi7p and Lia5p, and the histone demethylase Jmj1p are crucial for confining the production of small RNAs and the formation of heterochromatin to the eliminated sequences. The loss of Coi6p, Coi7p, or Jmj1p causes ectopic DNA elimination. The results provide direct evidence for the existence of a dedicated mechanism that counteracts a positive feedback loop between RNAi and heterochromatin at heterochromatin-euchromatin borders to maintain the integrity of the somatic genome.
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