Dynamics of single mRNPs in nuclei of living cells

Yaron Shav-Tal; Xavier Darzacq; Shailesh M. Shenoy; Dahlene Fusco; Susan M. Janicki; David L. Spector; Robert H. Singer

doi:10.1126/science.1099754

Dynamics of single mRNPs in nuclei of living cells

Yaron Shav-Tal, Xavier Darzacq, Shailesh M. Shenoy, Dahlene Fusco, Susan M. Janicki, David L. Spector, Robert H. Singer

Cell Biology

Research output: Contribution to journal › Article › peer-review

407 Scopus citations

Abstract

Understanding gene expression requires the ability to follow the fate of individual molecules. Here we use a cellular system for monitoring messenger RNA (mRNA) expression to characterize the movement in real time of single mRNA-protein complexes (mRNPs) in the nucleus of living mammalian cells. This mobility was not directed but was governed by simple diffusion. Some mRNPs were partially corralled throughout the nonhomogenous nuclear environment, but no accumulation at subnuclear domains was observed. Following energy deprivation, energy-independent motion of mRNPs was observed in a highly ATP-dependent nuclear environment; movements were constrained to chromatin-poor domains and excluded by newly formed chromatin barriers. This observation resolves a controversy, showing that the energetic requirements of nuclear mRNP trafficking are consistent with a diffusional model.

Original language	English (US)
Pages (from-to)	1797-1800
Number of pages	4
Journal	Science
Volume	304
Issue number	5678
DOIs	https://doi.org/10.1126/science.1099754
State	Published - Jun 18 2004

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abstract = "Understanding gene expression requires the ability to follow the fate of individual molecules. Here we use a cellular system for monitoring messenger RNA (mRNA) expression to characterize the movement in real time of single mRNA-protein complexes (mRNPs) in the nucleus of living mammalian cells. This mobility was not directed but was governed by simple diffusion. Some mRNPs were partially corralled throughout the nonhomogenous nuclear environment, but no accumulation at subnuclear domains was observed. Following energy deprivation, energy-independent motion of mRNPs was observed in a highly ATP-dependent nuclear environment; movements were constrained to chromatin-poor domains and excluded by newly formed chromatin barriers. This observation resolves a controversy, showing that the energetic requirements of nuclear mRNP trafficking are consistent with a diffusional model.",

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AU - Shav-Tal, Yaron

AU - Darzacq, Xavier

AU - Shenoy, Shailesh M.

AU - Fusco, Dahlene

AU - Janicki, Susan M.

AU - Spector, David L.

AU - Singer, Robert H.

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AB - Understanding gene expression requires the ability to follow the fate of individual molecules. Here we use a cellular system for monitoring messenger RNA (mRNA) expression to characterize the movement in real time of single mRNA-protein complexes (mRNPs) in the nucleus of living mammalian cells. This mobility was not directed but was governed by simple diffusion. Some mRNPs were partially corralled throughout the nonhomogenous nuclear environment, but no accumulation at subnuclear domains was observed. Following energy deprivation, energy-independent motion of mRNPs was observed in a highly ATP-dependent nuclear environment; movements were constrained to chromatin-poor domains and excluded by newly formed chromatin barriers. This observation resolves a controversy, showing that the energetic requirements of nuclear mRNP trafficking are consistent with a diffusional model.

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Dynamics of single mRNPs in nuclei of living cells

Abstract

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