Literature DB >> 11013227

Subunit-specific degradation of the UmuD/D' heterodimer by the ClpXP protease: the role of trans recognition in UmuD' stability.

M Gonzalez1, F Rasulova, M R Maurizi, R Woodgate.   

Abstract

The Escherichia coli UmuD' protein is a subunit of the recently described error-prone DNA polymerase, pol V. UmuD' is initially synthesized as an unstable and mutagenically inactive pro-protein, UmuD. Upon processing, UmuD' assumes a relatively stable conformation and becomes mutagenically active. While UmuD and UmuD' by themselves exist in vivo as homodimers, when together they preferentially interact to form heterodimers. Quite strikingly, it is in this context that UmuD' becomes susceptible to ClpXP-mediated proteolysis. Here we report a novel targeting mechanism designed for degrading the mutagenically active UmuD' subunit of the UmuD/D' heterodimer complex, while leaving the UmuD protein intact. Surprisingly, a signal that is essential and sufficient for targeting UmuD' for degradation was found to reside on UmuD not UmuD'. UmuD was also shown to be capable of channeling an excess of UmuD' to ClpXP for degradation, thereby providing a mechanism whereby cells can limit error-prone DNA replication.

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Year:  2000        PMID: 11013227      PMCID: PMC302103          DOI: 10.1093/emboj/19.19.5251

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  42 in total

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7.  UmuD'(2)C is an error-prone DNA polymerase, Escherichia coli pol V.

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9.  Biochemical basis of SOS-induced mutagenesis in Escherichia coli: reconstitution of in vitro lesion bypass dependent on the UmuD'2C mutagenic complex and RecA protein.

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Journal:  Proc Natl Acad Sci U S A       Date:  1998-08-18       Impact factor: 11.205

10.  RecA protein-dependent cleavage of UmuD protein and SOS mutagenesis.

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  49 in total

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Review 2.  Managing DNA polymerases: coordinating DNA replication, DNA repair, and DNA recombination.

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4.  Converting a DNA damage checkpoint effector (UmuD2C) into a lesion bypass polymerase (UmuD'2C).

Authors:  A E Ferentz; G C Walker; G Wagner
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5.  Distinct peptide signals in the UmuD and UmuD' subunits of UmuD/D' mediate tethering and substrate processing by the ClpXP protease.

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Review 7.  A new model for SOS-induced mutagenesis: how RecA protein activates DNA polymerase V.

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8.  What a difference a decade makes: insights into translesion DNA synthesis.

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Review 9.  Protein targeting to ATP-dependent proteases.

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10.  Modification of PATase by L/F-transferase generates a ClpS-dependent N-end rule substrate in Escherichia coli.

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