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Fig. 1. The biogenesis and function of endogenous small RNAs in animals, and in
plants and fungi. (A) In animals, microRNA (MIR) genes (top) are
transcribed by Pol II into microRNA (miRNA) precursors, which are processed by
DROSHA and DICER (DICER1) into miRNAs. The miRNAs are bound by an effector
protein Argonaute (AGO) and cause the cleavage or translational inhibition of
target mRNAs. In animals, despite the fact that each miRNA is able to regulate
scores of target transcripts, genetic studies show that one major target
underlies the role of a miRNA in a developmental process. Related miRNAs
(light and dark blue) often have shared predicted targets, but genetic studies
reveal that members of a miRNA family may have distinct developmental
functions. (B) Endogenous siRNAs in S. pombe and in plants are
generated from long transcripts from repeated DNA or transposons via the
activities of RNA-dependent RNA polymerases (RdRP) and Dicer. Histone H3
lysine 9 (H3-K9) methylation and the siRNAs complexed with AGO act in a
self-reinforcing loop to maintain heterochromatin at the loci. (C) Via
an unknown mechanism, repeat-associated siRNAs (rasiRNAs) in
Drosophila are produced from a master locus composed of multiple
transposons. These small RNAs bind the Piwi subfamily of Argonaute proteins -
Piwi, Aubergine (Aub) and AGO3 - and target homologous transposons scattered
around the genome for silencing. An existing rasiRNA guides the cleavage of a
target RNA through the slicer activity of the associated Piwi subfamily of
Argonaute protein to lead to the production of a second rasiRNA.
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