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Phosphorylation of the RNase III enzyme Drosha at Serine300 or Serine302 is required for its nuclear localization

The RNaseIII enzyme Drosha plays a pivotal role in microRNA (miRNA) biogenesis by cleaving primary miRNA transcripts to generate precursor miRNA in the nucleus. The RNA binding and enzymatic domains of Drosha have been characterized and are on its C-terminus. Its N-terminus harbors a nuclear localiz...

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Published in:	Nucleic acids research 2010-10, Vol.38 (19), p.6610-6619
Main Authors:	Tang, Xiaoli, Zhang, Yingjie, Tucker, Lynne, Ramratnam, Bharat
Format:	Article
Language:	English
Subjects:	C-Terminus Cell Line Cell Nucleus - chemistry Cell Nucleus - metabolism Enzymes Evolution Humans Mass Spectrometry MicroRNAs - metabolism Mimicry miRNA Mutation N-Terminus Nuclear Localization Signals Nuclear transport Nucleic Acid Enzymes Phosphorylation Ribonuclease III Ribonuclease III - analysis Ribonuclease III - chemistry Ribonuclease III - metabolism RNA RNA Processing, Post-Transcriptional Sequence Deletion Serine - metabolism
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creator	Tang, Xiaoli Zhang, Yingjie Tucker, Lynne Ramratnam, Bharat
description	The RNaseIII enzyme Drosha plays a pivotal role in microRNA (miRNA) biogenesis by cleaving primary miRNA transcripts to generate precursor miRNA in the nucleus. The RNA binding and enzymatic domains of Drosha have been characterized and are on its C-terminus. Its N-terminus harbors a nuclear localization signal. Using a series of truncated Drosha constructs, we narrowed down the segment responsible for nuclear translocation to a domain between aa 270 and aa 390. We further identified two phosphorylation sites at Serine300 (S300) and Serine302 (S302) by mass spectrometric analysis. Double mutations of S[rightward arrow]A at S300 and S302 completely disrupted nuclear localization. Single mutation of S[rightward arrow]A at S300 or S302, however, had no effect on nuclear localization indicating that phosphorylation at either site is sufficient to locate Drosha to the nucleus. Furthermore, mimicking phosphorylation status by mutating S[rightward arrow]E at S300 and/or S[rightward arrow]D at S302 restored nuclear localization. Our findings add a further layer of complexity to the molecular anatomy of Drosha as it relates to miRNA biogenesis.
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The RNA binding and enzymatic domains of Drosha have been characterized and are on its C-terminus. Its N-terminus harbors a nuclear localization signal. Using a series of truncated Drosha constructs, we narrowed down the segment responsible for nuclear translocation to a domain between aa 270 and aa 390. We further identified two phosphorylation sites at Serine300 (S300) and Serine302 (S302) by mass spectrometric analysis. Double mutations of S[rightward arrow]A at S300 and S302 completely disrupted nuclear localization. Single mutation of S[rightward arrow]A at S300 or S302, however, had no effect on nuclear localization indicating that phosphorylation at either site is sufficient to locate Drosha to the nucleus. Furthermore, mimicking phosphorylation status by mutating S[rightward arrow]E at S300 and/or S[rightward arrow]D at S302 restored nuclear localization. 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subjects	C-Terminus Cell Line Cell Nucleus - chemistry Cell Nucleus - metabolism Enzymes Evolution Humans Mass Spectrometry MicroRNAs - metabolism Mimicry miRNA Mutation N-Terminus Nuclear Localization Signals Nuclear transport Nucleic Acid Enzymes Phosphorylation Ribonuclease III Ribonuclease III - analysis Ribonuclease III - chemistry Ribonuclease III - metabolism RNA RNA Processing, Post-Transcriptional Sequence Deletion Serine - metabolism
title	Phosphorylation of the RNase III enzyme Drosha at Serine300 or Serine302 is required for its nuclear localization
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