Masanori Naitou scite author profile

MicroRNAs (miRNAs) control cell proliferation, differentiation and fate through modulation of gene expression by partially base-pairing with target mRNA sequences. Drosha is an RNase III enzyme that is the catalytic subunit of a large complex that cleaves pri-miRNAs with distinct structures into pre-miRNAs. Here, we show that both the p68 and p72 DEAD-box RNA helicase subunits in the mouse Drosha complex are indispensable for survival in mice, and both are required for primary miRNA and rRNA processing. Gene disruption of either p68 or p72 in mice resulted in early lethality, and in both p68(-/-) and p72(-/-) embryos, expression levels of a set of, but not all, miRNAs and 5.8S rRNA were significantly lowered. In p72(-/-) MEF cells, expression of p72, but not a mutant lacking ATPase activity, restored the impaired expression of miRNAs and 5.8S rRNA. Furthermore, we purified the large complex of mouse Drosha and showed it could generate pre-miRNA and 5.8S rRNA in vitro. Thus, we suggest that DEAD-box RNA helicase subunits are required for recognition of a subset of primary miRNAs in mDrosha-mediated processing.

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RETRACTED: Maturation of MicroRNA Is Hormonally Regulated by a Nuclear Receptor

Yamagata

Fujiyama

et al. 2009

Molecular Cell

190

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Steroid hormones and their cognate nuclear receptors exert a wide spectrum of biological actions through regulation of transcriptional and posttranscriptional processes. However, the underlying molecular mechanism by which steroid hormones control posttranscriptional processes is largely unknown. We now report that estrogen receptor alpha (ERalpha) inhibits the maturation of a particular microRNA (miRNA) and thereby stabilizes the mRNA of an ERalpha target gene through the 3'UTR. Estrogen-bound ERalpha downregulated expression of a set of miRNAs in both animals and cultured cells. Activated ERalpha attenuated the processing of primary miRNAs into pre-miRNAs through estrogen-dependent association with the Drosha complex, resulting in stabilization of the transcript of an ERalpha target gene through its 3'UTR. Thus, a steroid hormone achieves posttranscriptional control by regulating the maturation of miRNA.

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Maturation of MicroRNA Is Hormonally Regulated by a Nuclear Receptor

Yamagata¹,

Fujiyama²,

S³

et al. 2010

Molecular Cell

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Analysis of the nucleotide sequence of chromosome VI from Saccharomyces cerevisiae

Murakami¹,

Naitou²,

Hagiwara

et al. 1995

Nat Genet

103

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The complete nucleotide sequence of Saccharomyces cerevisiae chromosome VI (270 kb) has revealed that it contains 129 predicted or known genes (300 bp or longer). Thirty-seven (28%) of which have been identified previously. Among the 92 novel genes, 39 are highly homologous to previously identified genes. Local sequence motifs were compared to active ARS regions and inactive loci with perfect ARS core sequences to examine the relationship between these motifs and ARS activity. Additional ARS sequences were predominantly observed in 3' flanking sequences of active ARS loci.

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Sepantronium Bromide (YM155) induces disruption of the ILF3/p54nrb complex, which is required for survivin expression

Yamauchi

Nakamura

Hiramoto

et al. 2012

Biochemical and Biophysical Research Communications

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Masanori Naitou

DEAD-box RNA helicase subunits of the Drosha complex are required for processing of rRNA and a subset of microRNAs

RETRACTED: Maturation of MicroRNA Is Hormonally Regulated by a Nuclear Receptor

Maturation of MicroRNA Is Hormonally Regulated by a Nuclear Receptor

Analysis of the nucleotide sequence of chromosome VI from Saccharomyces cerevisiae

Sepantronium Bromide (YM155) induces disruption of the ILF3/p54nrb complex, which is required for survivin expression

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