Yin-Chu Tseng scite author profile

Yin-Chu Tseng

3Publications

28Citation Statements Received

58Citation Statements Given

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National Taiwan University

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Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease

Tzeng

Tseng

Lin

et al. 2021

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The Lon AAA+ protease (LonA) is a ubiquitous ATP-dependent proteolytic machine, which selectively degrades damaged proteins or native proteins carrying exposed motifs (degrons). Here we characterize the structural basis for substrate recognition and discrimination by the N-terminal domain (NTD) of LonA. The results reveal that the six NTDs are attached to the hexameric LonA chamber by flexible linkers such that the formers tumble independently of the latter. Further spectral analyses show that the NTD selectively interacts with unfolded proteins, protein aggregates, and degron-tagged proteins by two hydrophobic patches of its N-lobe, but not intrinsically disordered substrate, α-casein. Moreover, the NTD selectively binds to protein substrates when they are thermally induced to adopt unfolded conformations. Collectively, our findings demonstrate that NTDs enable LonA to perform protein quality control to selectively degrade proteins in damaged states and suggest that substrate discrimination and selective degradation by LonA are mediated by multiple NTD interactions.

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Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease

Tzeng

Tseng

Lin

et al. 2020

Preprint

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The Lon AAA+ proteases (LonA) is a ubiquitous ATP-dependent proteolytic machine, which selectively degrades damaged proteins or native proteins carrying exposed motifs (degrons). Here we characterize the structural basis for substrate recognition and discrimination by the N-terminal domain (NTD) of LonA. The results reveal that the six NTDs are attached to the hexameric LonA chamber by flexible linkers such that the formers tumble independently of the latter. Further spectral analyses show that the NTD selectively interacts with unfolded proteins, protein aggregates, and degron-tagged proteins by two hydrophobic patches of its N-lobe, but not intrinsically disordered substrate, α-casein. Moreover, the NTD selectively binds to protein substrates when they are thermally induced to adopt unfolded conformations. Collectively, our findings demonstrate that NTDs enable LonA to perform protein quality control to selectively degrade proteins in damaged states and suggest that substrate discrimination and selective degradation by LonA are mediated by multiple NTD interactions.Impact StatementThe N-terminal domains enable Lon protease to discriminate and capture selected protein species for degradation by exposed hydrophobic patches and flexible linkages to the hexameric core complex.

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Author response: Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease

Tzeng

Tseng

Lin

et al. 2021

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Yin-Chu Tseng

Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease

Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease

Author response: Molecular insights into substrate recognition and discrimination by the N-terminal domain of Lon AAA+ protease

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