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Dubble or nothing? Is HAUSP deubiquitylating enzyme the final arbiter of p53 levels?

Dubble or nothing? Is HAUSP deubiquitylating enzyme the final arbiter of p53 levels? Signal transduction processes can be regulated by biochemical modifications that affect protein activity or localization and by protein stability. Proteins implicated in cancer, such as beta-catenin and p53, are regulated by a combination of posttranslational modifications and protein degradation by the ubiquitin-proteasome pathway. Wood explores how ubiquitylation of these proteins may not be as unidirectional as previously thought. With the identification of substrate-specific deubiquitylating enzymes, ubiquitylation may not always lead to protein destruction, but may provide another finely tunable step for controlling protein activity. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Science's STKE : signal transduction knowledge environment Pubmed

Dubble or nothing? Is HAUSP deubiquitylating enzyme the final arbiter of p53 levels?

Wood, Stephen A
Science's STKE : signal transduction knowledge environment , Volume 2002 (143): -3399 – Aug 27, 2002
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Dubble or nothing? Is HAUSP deubiquitylating enzyme the final arbiter of p53 levels?


Abstract

Signal transduction processes can be regulated by biochemical modifications that affect protein activity or localization and by protein stability. Proteins implicated in cancer, such as beta-catenin and p53, are regulated by a combination of posttranslational modifications and protein degradation by the ubiquitin-proteasome pathway. Wood explores how ubiquitylation of these proteins may not be as unidirectional as previously thought. With the identification of substrate-specific deubiquitylating enzymes, ubiquitylation may not always lead to protein destruction, but may provide another finely tunable step for controlling protein activity.

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ISSN
1945-0877
DOI
10.1126/stke.2002.143.pe34
pmid
12149513

Abstract

Signal transduction processes can be regulated by biochemical modifications that affect protein activity or localization and by protein stability. Proteins implicated in cancer, such as beta-catenin and p53, are regulated by a combination of posttranslational modifications and protein degradation by the ubiquitin-proteasome pathway. Wood explores how ubiquitylation of these proteins may not be as unidirectional as previously thought. With the identification of substrate-specific deubiquitylating enzymes, ubiquitylation may not always lead to protein destruction, but may provide another finely tunable step for controlling protein activity.

Journal

Science's STKE : signal transduction knowledge environmentPubmed

Published: Aug 27, 2002

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