The double-stranded microRNA precursor.

MicroRNAs (miRNAs) are generated from stem-loop-structured double-stranded RNA precursors by the consecutive action of the two RNase III-type endoribonuclease Drosha and Dicer. However, such structures are very common on cellular transcripts and specific features have evolved that guide and regulate processing of stem-loop-structured hairpins into mature and functional miRNAs. These features include sequence motifs and local RNA structures but also trans-acting factors such as RNA binding proteins. The menu of features required for miRNA biogenesis is summarized in this review.

Ago4-piRNA complex is a key component of genomic immune system against transposon expression in Penaeus monodon.

Argonaute proteins are key constituents of small RNA-guided regulatory pathways. In crustaceans, members of the AGO subfamily of Argonaute proteins that play vital roles in immune defense are well studied, while proteins of the PIWI subfamily are less established. PmAgo4 of the black tiger shrimp, Penaeus monodon, though phylogenetically clustered with the AGO subfamily, has distinctive roles of the PIWI subfamily in safeguarding the genome from transposon invasion and controlling germ cell development. This study explored a molecular mechanism by which PmAgo4 regulates transposon expression in the shrimp germline. PmAgo4-associated small RNAs were co-immunoprecipitated from shrimp testis lysate using a PmAgo4-specific polyclonal antibody. RNA-seq revealed a majority of 26-27 nt long small RNAs in the PmAgo4-IP fraction suggesting that PmAgo4 is predominantly associated with piRNAs. Mapping of these piRNAs on nucleotide sequences of two gypsy and a mariner-like transposons of P. monodon suggested that most piRNAs were originated from the antisense strand of transposons. Suppression of PmAgo4 expression by a specific dsRNA elevated the expression levels of the three transposons while decreasing the levels of transposon-related piRNAs. Taken together, these results imply that PmAgo4 exerts its suppressive function on transposons by controlling the biogenesis of transposon-related piRNAs and thus, provides a defense mechanism against transposon invasion in shrimp germline cells.