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Volume 139, Issue 1, Pages (October 2009)

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1 Volume 139, Issue 1, Pages 28-31 (October 2009)
Regulating the Regulators: Posttranslational Modifications of RNA Silencing Factors  Inha Heo, V. Narry Kim  Cell  Volume 139, Issue 1, Pages (October 2009) DOI: /j.cell Copyright © 2009 Elsevier Inc. Terms and Conditions

2 Figure 1 Small RNA Pathways and the Posttranslational Modification of Silencing Factors (A) MicroRNA biogenesis. The primary transcript of an miRNA gene (pri-miRNA) is cropped into pre-miRNA by Drosha and its cofactor DGCR8. The pre-miRNA is exported to the cytoplasm by exportin 5 and gets processed by Dicer. As a cofactor of Dicer, TRBP stabilizes Dicer and contribute to RISC formation. One strand of the RNA duplex is loaded onto the Ago protein. Four Ago proteins (Ago1–4) are expressed in humans. (B) Phosphorylation of TRBP (HIV-1 TAR RNA-binding protein). TRBP is phosphorylated at serine residues S142, S152, S283, and S286 in response to Erk pathway activity. Phosphorylation of TRBP enhances its stability. Its partner, Dicer, is also stabilized, increasing the levels of this processing complex. Consequently, most miRNAs are upregulated while anti-growth miRNAs, such as let-7 miRNAs, are downregulated through unknown mechanisms. These changes result in cell proliferation and survival. The yellow dots stand for phospho-serine residues in TRBP and green boxes indicate double-stranded RNA-binding domains. (C) Posttranslational modifications of Ago2. The hydroxylase C-P4H(I) catalyzes hydroxylation at proline 700 of Ago2. Proline hydroxylation stabilizes the Ago2 protein, facilitating small RNA-guided mRNA cleavage. In addition, Ago2 is phosphorylated via the p38 MAPK pathway. Serine 387 is the major phosphorylation site. Both the phosphorylation and hydroxylation enhance Ago2 localization to the P body, although the physiological significance of P body localization is unclear. Yellow and blue dots represent phosphorylation site and hydroxylation site, respectively. Orange and blue boxes correspond to PAZ and PIWI domains, respectively. (D) Piwi-interacting RNA biogenesis in mouse testes. piRNAs (24–31 nt) are processed from single-stranded RNA precursors that are transcribed from transposons or large piRNA clusters. Primary processing may occur in the cytoplasm because Miwi and Mili are localized in the cytoplasm. Factors that are needed for primary processing are unknown. In secondary processing, Mili bound to piRNA (sense strand; blue line) cleaves the complementary precursor (antisense strand; red line), defining the 5′ end of a new piRNA. The new piRNA is subsequently passed on to Miwi2. Miwi2, in turn, cleaves the opposite strand precursor, generating the 5′ end of the next piRNA that gets loaded on to Mili. The nuclease that creates the 3′ end of piRNA is unknown. Miwi2 bound to piRNA is transported into the nucleus. (E) Methylation of the Piwi proteins in mice. Piwi proteins are methylated at conserved arginine residues in the N termini by protein methyltransferase PRMT5 and its cofactor WDR77. (Top) Arginines 74, 95, 100, 146, and 163 are methylated in Mili with the major site at arginine 74. Miwi2 has a putative methylation site at the N terminus. Methylated Piwi proteins interact with the indicated Tudor proteins (TDRDs). In fetal testes, TDRD1 induces localization of Miwi2 to a cytoplasmic structure called nuage, which is essential for pre-pachytene piRNA production and transposon silencing. (Bottom) Miwi is methylated at arginines 14 and 49. Although TDRD6 is required for Miwi localization to the chromatoid body, it does not affect pachytene piRNAs. The N termini of Piwi proteins are shown. Red dots stand for experimentally validated methylation sites. (F) Methylation of Piwi proteins in Drosophila. Drosophila Piwi proteins are methylated at conserved arginine residues in the N termini by dPRMT5 and its cofactor valois (Drosophila homolog of WDR77). Arginine methylation promotes Piwi protein stability and consequently increases piRNA levels, resulting in transposon silencing and germ cell development. Orange and blue boxes correspond to PAZ and PIWI domains, respectively. Cell  , 28-31DOI: ( /j.cell ) Copyright © 2009 Elsevier Inc. Terms and Conditions


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