Destabilization of binding to cofactors and SCFMet30 is the rate-limiting regulatory step in degradation of polyubiquitinated Met4
The Met4 transcriptional activator of methionine biosynthesis is negatively regulated by the SCFMet30 ubiquitin ligase in response to accumulation of methionine. This mechanism requires polyubiquitination, but not proteolysis. We report that a previously unappreciated mechanism involving growth cont...
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| Published in: | Molecular cell Vol. 24; no. 5; pp. 689 - 699 |
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| Main Authors: | , , , , , |
| Format: | Journal Article |
| Language: | English |
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United States
08-12-2006
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| Abstract | The Met4 transcriptional activator of methionine biosynthesis is negatively regulated by the SCFMet30 ubiquitin ligase in response to accumulation of methionine. This mechanism requires polyubiquitination, but not proteolysis. We report that a previously unappreciated mechanism involving growth control regulates Met4. Unless methionine is present in the growth medium, polyubiquitinated Met4 is stabilized in late exponential cultures, correlating with transcriptional repression. Polyubiquitinated Met4 becomes destabilized in a proteasome-dependent manner upon reentry into exponential growth, correlating with transcriptional activation. Met4 stabilization is regulated at the level of SCFMet30 binding and requires transcriptional cofactors. These lock Met4 and SCFMet30 into a tight complex active in ubiquitination but incapable of binding the proteasome. Release of polyubiquitinated Met4 from SCFMet30 is sufficient for degradation, and specific sulfur amino acids can promote the degradation by destabilizing Met4 binding to cofactors and SCFMet30. Thus, destabilization of cofactors and SCFMet30 binding is the rate-limiting regulatory step in Met4 proteolysis. |
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| AbstractList | The Met4 transcriptional activator of methionine biosynthesis is negatively regulated by the SCFMet30 ubiquitin ligase in response to accumulation of methionine. This mechanism requires polyubiquitination, but not proteolysis. We report that a previously unappreciated mechanism involving growth control regulates Met4. Unless methionine is present in the growth medium, polyubiquitinated Met4 is stabilized in late exponential cultures, correlating with transcriptional repression. Polyubiquitinated Met4 becomes destabilized in a proteasome-dependent manner upon reentry into exponential growth, correlating with transcriptional activation. Met4 stabilization is regulated at the level of SCFMet30 binding and requires transcriptional cofactors. These lock Met4 and SCFMet30 into a tight complex active in ubiquitination but incapable of binding the proteasome. Release of polyubiquitinated Met4 from SCFMet30 is sufficient for degradation, and specific sulfur amino acids can promote the degradation by destabilizing Met4 binding to cofactors and SCFMet30. Thus, destabilization of cofactors and SCFMet30 binding is the rate-limiting regulatory step in Met4 proteolysis. |
| Author | Skowyra, Dorota Mathias, Neal Bailly, Eric Deffenbaugh, Andrew E Ford, David A Chandrasekaran, Srikripa |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/17157252$$D View this record in MEDLINE/PubMed |
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| References | 29677495 - Mol Cell. 2018 Apr 19;70(2):381 |
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| SubjectTerms | Basic-Leucine Zipper Transcription Factors - genetics Basic-Leucine Zipper Transcription Factors - metabolism Coenzymes - metabolism Cysteine - metabolism F-Box Proteins Methionine - metabolism Polyubiquitin - metabolism Protein Binding Recombinant Proteins - metabolism Repressor Proteins - metabolism Saccharomyces cerevisiae - enzymology Saccharomyces cerevisiae - growth & development Saccharomyces cerevisiae Proteins - genetics Saccharomyces cerevisiae Proteins - metabolism Ubiquitin-Protein Ligase Complexes - metabolism |
| Title | Destabilization of binding to cofactors and SCFMet30 is the rate-limiting regulatory step in degradation of polyubiquitinated Met4 |
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