An ankyrin-repeat ubiquitin-binding domain determines TRABID's specificity for atypical ubiquitin chains

Julien D.F. Licchesi; Juliusz Mieszczanek; Tycho E.T. Mevissen; Trevor J. Rutherford; Masato Akutsu; Satpal Virdee; Farid El Oualid; Jason W. Chin; Huib Ovaa; Mariann Bienz; David Komander

doi:10.1038/nsmb.2169

An ankyrin-repeat ubiquitin-binding domain determines TRABID's specificity for atypical ubiquitin chains

Julien D.F. Licchesi, Juliusz Mieszczanek, Tycho E.T. Mevissen, Trevor J. Rutherford, Masato Akutsu, Satpal Virdee, Farid El Oualid, Jason W. Chin, Huib Ovaa, Mariann Bienz, David Komander

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

97 Citations (Scopus)

Abstract

Eight different types of ubiquitin linkages are present in eukaryotic cells that regulate diverse biological processes. Proteins that mediate specific assembly and disassembly of atypical Lys6, Lys27, Lys29 and Lys33 linkages are mainly unknown. We here reveal how the human ovarian tumor (OTU) domain deubiquitinase (DUB) TRABID specifically hydrolyzes both Lys29-and Lys33-linked diubiquitin. A crystal structure of the extended catalytic domain reveals an unpredicted ankyrin repeat domain that precedes an A20-like catalytic core. NMR analysis identifies the ankyrin domain as a new ubiquitin-binding fold, which we have termed AnkUBD, and DUB assays in vitro and in vivo show that this domain is crucial for TRABID efficiency and linkage specificity. Our data are consistent with AnkUBD functioning as an enzymatic S1' ubiquitin-binding site, which orients a ubiquitin chain so that Lys29 and Lys33 linkages are cleaved preferentially.

Original language	English
Pages (from-to)	62-72
Number of pages	11
Journal	Nature Structural and Molecular Biology
Volume	19
Issue number	1
DOIs	https://doi.org/10.1038/nsmb.2169
Publication status	Published - 2012 Jan
Externally published	Yes

ASJC Scopus subject areas

Structural Biology
Molecular Biology

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title = "An ankyrin-repeat ubiquitin-binding domain determines TRABID's specificity for atypical ubiquitin chains",

abstract = "Eight different types of ubiquitin linkages are present in eukaryotic cells that regulate diverse biological processes. Proteins that mediate specific assembly and disassembly of atypical Lys6, Lys27, Lys29 and Lys33 linkages are mainly unknown. We here reveal how the human ovarian tumor (OTU) domain deubiquitinase (DUB) TRABID specifically hydrolyzes both Lys29-and Lys33-linked diubiquitin. A crystal structure of the extended catalytic domain reveals an unpredicted ankyrin repeat domain that precedes an A20-like catalytic core. NMR analysis identifies the ankyrin domain as a new ubiquitin-binding fold, which we have termed AnkUBD, and DUB assays in vitro and in vivo show that this domain is crucial for TRABID efficiency and linkage specificity. Our data are consistent with AnkUBD functioning as an enzymatic S1' ubiquitin-binding site, which orients a ubiquitin chain so that Lys29 and Lys33 linkages are cleaved preferentially.",

author = "Licchesi, {Julien D.F.} and Juliusz Mieszczanek and Mevissen, {Tycho E.T.} and Rutherford, {Trevor J.} and Masato Akutsu and Satpal Virdee and Oualid, {Farid El} and Chin, {Jason W.} and Huib Ovaa and Mariann Bienz and David Komander",

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doi = "10.1038/nsmb.2169",

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AU - Licchesi, Julien D.F.

AU - Mieszczanek, Juliusz

AU - Mevissen, Tycho E.T.

AU - Rutherford, Trevor J.

AU - Akutsu, Masato

AU - Virdee, Satpal

AU - Oualid, Farid El

AU - Chin, Jason W.

AU - Ovaa, Huib

AU - Bienz, Mariann

AU - Komander, David

PY - 2012/1

Y1 - 2012/1

N2 - Eight different types of ubiquitin linkages are present in eukaryotic cells that regulate diverse biological processes. Proteins that mediate specific assembly and disassembly of atypical Lys6, Lys27, Lys29 and Lys33 linkages are mainly unknown. We here reveal how the human ovarian tumor (OTU) domain deubiquitinase (DUB) TRABID specifically hydrolyzes both Lys29-and Lys33-linked diubiquitin. A crystal structure of the extended catalytic domain reveals an unpredicted ankyrin repeat domain that precedes an A20-like catalytic core. NMR analysis identifies the ankyrin domain as a new ubiquitin-binding fold, which we have termed AnkUBD, and DUB assays in vitro and in vivo show that this domain is crucial for TRABID efficiency and linkage specificity. Our data are consistent with AnkUBD functioning as an enzymatic S1' ubiquitin-binding site, which orients a ubiquitin chain so that Lys29 and Lys33 linkages are cleaved preferentially.

AB - Eight different types of ubiquitin linkages are present in eukaryotic cells that regulate diverse biological processes. Proteins that mediate specific assembly and disassembly of atypical Lys6, Lys27, Lys29 and Lys33 linkages are mainly unknown. We here reveal how the human ovarian tumor (OTU) domain deubiquitinase (DUB) TRABID specifically hydrolyzes both Lys29-and Lys33-linked diubiquitin. A crystal structure of the extended catalytic domain reveals an unpredicted ankyrin repeat domain that precedes an A20-like catalytic core. NMR analysis identifies the ankyrin domain as a new ubiquitin-binding fold, which we have termed AnkUBD, and DUB assays in vitro and in vivo show that this domain is crucial for TRABID efficiency and linkage specificity. Our data are consistent with AnkUBD functioning as an enzymatic S1' ubiquitin-binding site, which orients a ubiquitin chain so that Lys29 and Lys33 linkages are cleaved preferentially.

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An ankyrin-repeat ubiquitin-binding domain determines TRABID's specificity for atypical ubiquitin chains

Abstract

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