Visualization of gene activity in living cells

Toshiro Tsukamoto; Noriyo Hashiguchi; Susan M. Janicki; Tudorita Tumbar; Andrew S. Belmont; David L. Spector

doi:10.1038/35046510

Visualization of gene activity in living cells

Toshiro Tsukamoto, Noriyo Hashiguchi, Susan M. Janicki, Tudorita Tumbar, Andrew S. Belmont, David L. Spector

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

Abstract

Chromatin structure is thought to play a critical role in gene expression. Using the lac operator/repressor system and two colour variants of green fluorescent protein (GFP), we developed a system to visualize a gene and its protein product directly in living cells, allowing us to examine the spatial organization and timing of gene expression in vivo. Dynamic morphological changes in chromatin structure, from a condensed to an open structure, were observed upon gene activation, and targeting of the gene product, cyan fluorescent protein (CFP) reporter to peroxisomes was visualized directly in living cells. We found that the integrated gene locus was surrounded by a promyelocytic leukaemia (PML) nuclear body. The association was transcription independent but was dependent upon the direct in vivo binding of specific proteins (EYFP/lac repressor, tetracycline receptor/VP16 transactivator) to the locus. The ability to visualize gene expression directly in living cells provides a powerful system with which to study tile dynamics of nuclear events such as transcription, RNA processing and DNA repair.

Original language	English (US)
Pages (from-to)	871-878
Number of pages	8
Journal	Nature Cell Biology
Volume	2
Issue number	12
DOIs	https://doi.org/10.1038/35046510
State	Published - 2000

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Cell Biology

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10.1038/35046510

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title = "Visualization of gene activity in living cells",

abstract = "Chromatin structure is thought to play a critical role in gene expression. Using the lac operator/repressor system and two colour variants of green fluorescent protein (GFP), we developed a system to visualize a gene and its protein product directly in living cells, allowing us to examine the spatial organization and timing of gene expression in vivo. Dynamic morphological changes in chromatin structure, from a condensed to an open structure, were observed upon gene activation, and targeting of the gene product, cyan fluorescent protein (CFP) reporter to peroxisomes was visualized directly in living cells. We found that the integrated gene locus was surrounded by a promyelocytic leukaemia (PML) nuclear body. The association was transcription independent but was dependent upon the direct in vivo binding of specific proteins (EYFP/lac repressor, tetracycline receptor/VP16 transactivator) to the locus. The ability to visualize gene expression directly in living cells provides a powerful system with which to study tile dynamics of nuclear events such as transcription, RNA processing and DNA repair.",

author = "Toshiro Tsukamoto and Noriyo Hashiguchi and Janicki, {Susan M.} and Tudorita Tumbar and Belmont, {Andrew S.} and Spector, {David L.}",

note = "Funding Information: ACKNOWLEDGEMENTS We thank T. Misteli for discussions and P. Sacco-Bubulya and N. Saitoh for reviewing the manuscript. pW7-C3 (=pCFP-C3), which encoded CFP, was provided by R. Tsien, EV-124 was provided by M. Wilkinson and pUHD10-4B was provided by J. Skowronski, and monoclonal antibody 5E10 was obtained from R. van Driel. S.M.J. is supported by an NIH/NCI training grant 5T32CA09311. D.L.S. is funded by a grant from NIGMS (NIH 498100). Correspondence and requests for materials should be addressed to D.L.S. Supplementary Information is available on Nature Cell Biology{\textquoteright}s World-Wide Web site (http://cellbio.nature.com) or as paper copy from the London editorial office of Nature Cell Biology.",

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AU - Belmont, Andrew S.

AU - Spector, David L.

N1 - Funding Information: ACKNOWLEDGEMENTS We thank T. Misteli for discussions and P. Sacco-Bubulya and N. Saitoh for reviewing the manuscript. pW7-C3 (=pCFP-C3), which encoded CFP, was provided by R. Tsien, EV-124 was provided by M. Wilkinson and pUHD10-4B was provided by J. Skowronski, and monoclonal antibody 5E10 was obtained from R. van Driel. S.M.J. is supported by an NIH/NCI training grant 5T32CA09311. D.L.S. is funded by a grant from NIGMS (NIH 498100). Correspondence and requests for materials should be addressed to D.L.S. Supplementary Information is available on Nature Cell Biology’s World-Wide Web site (http://cellbio.nature.com) or as paper copy from the London editorial office of Nature Cell Biology.

PY - 2000

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N2 - Chromatin structure is thought to play a critical role in gene expression. Using the lac operator/repressor system and two colour variants of green fluorescent protein (GFP), we developed a system to visualize a gene and its protein product directly in living cells, allowing us to examine the spatial organization and timing of gene expression in vivo. Dynamic morphological changes in chromatin structure, from a condensed to an open structure, were observed upon gene activation, and targeting of the gene product, cyan fluorescent protein (CFP) reporter to peroxisomes was visualized directly in living cells. We found that the integrated gene locus was surrounded by a promyelocytic leukaemia (PML) nuclear body. The association was transcription independent but was dependent upon the direct in vivo binding of specific proteins (EYFP/lac repressor, tetracycline receptor/VP16 transactivator) to the locus. The ability to visualize gene expression directly in living cells provides a powerful system with which to study tile dynamics of nuclear events such as transcription, RNA processing and DNA repair.

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Visualization of gene activity in living cells

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