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Sequence determinant of small RNA production by DICER

Young-Yoon Lee, Haedong Kim and V. Narry Kim ()
Additional contact information
Young-Yoon Lee: Institute for Basic Science (IBS)
Haedong Kim: Institute for Basic Science (IBS)
V. Narry Kim: Institute for Basic Science (IBS)

Nature, 2023, vol. 615, issue 7951, 323-330

Abstract: Abstract RNA silencing relies on specific and efficient processing of double-stranded RNA by Dicer, which yields microRNAs (miRNAs) and small interfering RNAs (siRNAs)1,2. However, our current knowledge of the specificity of Dicer is limited to the secondary structures of its substrates: a double-stranded RNA of approximately 22 base pairs with a 2-nucleotide 3′ overhang and a terminal loop3–11. Here we found evidence pointing to an additional sequence-dependent determinant beyond these structural properties. To systematically interrogate the features of precursor miRNAs (pre-miRNAs), we carried out massively parallel assays with pre-miRNA variants and human DICER (also known as DICER1). Our analyses revealed a deeply conserved cis-acting element, termed the ‘GYM motif’ (paired G, paired pyrimidine and mismatched C or A), near the cleavage site. The GYM motif promotes processing at a specific position and can override the previously identified ‘ruler’-like counting mechanisms from the 5′ and 3′ ends of pre-miRNA3–6. Consistently, integrating this motif into short hairpin RNA or Dicer-substrate siRNA potentiates RNA interference. Furthermore, we find that the C-terminal double-stranded RNA-binding domain (dsRBD) of DICER recognizes the GYM motif. Alterations in the dsRBD reduce processing and change cleavage sites in a motif-dependent fashion, affecting the miRNA repertoire in cells. In particular, the cancer-associated R1855L substitution in the dsRBD strongly impairs GYM motif recognition. This study uncovers an ancient principle of substrate recognition by metazoan Dicer and implicates its potential in the design of RNA therapeutics.

Date: 2023
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DOI: 10.1038/s41586-023-05722-4

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