Physical and functional association of RNA polymerase II and the proteasome

Thomas G. Gillette; Fernando Gonzalez; Agnes Delahodde; Stephen Albert Johnston; Thomas Kodadek

doi:10.1073/pnas.0305411101

Physical and functional association of RNA polymerase II and the proteasome

Thomas G. Gillette, Fernando Gonzalez, Agnes Delahodde, Stephen Albert Johnston, Thomas Kodadek

Internal Medicine

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134 Scopus citations

Abstract

Recent studies from a number of laboratories have revealed a surprising number of connections between RNA polymerase II transcription and the ubiquitin/proteasome pathway. We now find yet another intersection of these pathways by showing that the 26S proteasome associates with regions of the GAL1, GAL10, and HSP82 genes, including the 3′ ends, in a transcription-dependent fashion. The appearance of the proteasome on these inducible genes correlates with both the accumulation of transcripts and the buildup of RNA polymerase II complexes in the same region. Furthermore, the 26S proteasome and RNA polymerase II coimmunoprecipitate, and inhibition of 26S proteolytic activity leads to increased read through of a transcription termination site. We suggest that the proteasome is generally recruited to the DNA at sites of stalled RNA polymerase and may act to resolve these complexes.

Original language	English (US)
Pages (from-to)	5904-5909
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	101
Issue number	16
DOIs	https://doi.org/10.1073/pnas.0305411101
State	Published - Apr 20 2004

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abstract = "Recent studies from a number of laboratories have revealed a surprising number of connections between RNA polymerase II transcription and the ubiquitin/proteasome pathway. We now find yet another intersection of these pathways by showing that the 26S proteasome associates with regions of the GAL1, GAL10, and HSP82 genes, including the 3′ ends, in a transcription-dependent fashion. The appearance of the proteasome on these inducible genes correlates with both the accumulation of transcripts and the buildup of RNA polymerase II complexes in the same region. Furthermore, the 26S proteasome and RNA polymerase II coimmunoprecipitate, and inhibition of 26S proteolytic activity leads to increased read through of a transcription termination site. We suggest that the proteasome is generally recruited to the DNA at sites of stalled RNA polymerase and may act to resolve these complexes.",

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AU - Gillette, Thomas G.

AU - Gonzalez, Fernando

AU - Delahodde, Agnes

AU - Johnston, Stephen Albert

AU - Kodadek, Thomas

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AB - Recent studies from a number of laboratories have revealed a surprising number of connections between RNA polymerase II transcription and the ubiquitin/proteasome pathway. We now find yet another intersection of these pathways by showing that the 26S proteasome associates with regions of the GAL1, GAL10, and HSP82 genes, including the 3′ ends, in a transcription-dependent fashion. The appearance of the proteasome on these inducible genes correlates with both the accumulation of transcripts and the buildup of RNA polymerase II complexes in the same region. Furthermore, the 26S proteasome and RNA polymerase II coimmunoprecipitate, and inhibition of 26S proteolytic activity leads to increased read through of a transcription termination site. We suggest that the proteasome is generally recruited to the DNA at sites of stalled RNA polymerase and may act to resolve these complexes.

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Physical and functional association of RNA polymerase II and the proteasome

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