Sequence composition of disordered regions fine-tunes protein half-life

Susan Fishbain; Tomonao Inobe; Eitan Israeli; Sreenivas Chavali; Houqing Yu; Grace Kago; M. Madan Babu; Andreas Matouschek

doi:10.1038/nsmb.2958

Sequence composition of disordered regions fine-tunes protein half-life

Susan Fishbain, Tomonao Inobe, Eitan Israeli, Sreenivas Chavali, Houqing Yu, Grace Kago, M. Madan Babu, Andreas Matouschek^*

^*Corresponding author for this work

Life Sciences and Bioengineering

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

97 Scopus citations

Abstract

The proteasome controls the concentrations of most proteins in eukaryotic cells. It recognizes its protein substrates through ubiquitin tags and initiates degradation at disordered regions within the substrate. Here we show that the proteasome has pronounced preferences for the amino acid sequence of the regions at which it initiates degradation. Specifically, proteins in which the initiation regions have biased amino acid compositions show longer half-lives in yeast than proteins with unbiased sequences in the regions. The relationship is also observed on a genomic scale in mouse cells. These preferences affect the degradation rates of proteins in vitro, can explain the unexpected stability of natural proteins in yeast and may affect the accumulation of toxic proteins in disease. We propose that the proteasome's sequence preferences provide a second component to the degradation code and may fine-tune protein half-life in cells.

Original language	English
Pages (from-to)	214-221
Number of pages	8
Journal	Nature Structural and Molecular Biology
Volume	22
Issue number	3
DOIs	https://doi.org/10.1038/nsmb.2958
State	Published - 2015/03/06

ASJC Scopus subject areas

Structural Biology
Molecular Biology

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title = "Sequence composition of disordered regions fine-tunes protein half-life",

abstract = "The proteasome controls the concentrations of most proteins in eukaryotic cells. It recognizes its protein substrates through ubiquitin tags and initiates degradation at disordered regions within the substrate. Here we show that the proteasome has pronounced preferences for the amino acid sequence of the regions at which it initiates degradation. Specifically, proteins in which the initiation regions have biased amino acid compositions show longer half-lives in yeast than proteins with unbiased sequences in the regions. The relationship is also observed on a genomic scale in mouse cells. These preferences affect the degradation rates of proteins in vitro, can explain the unexpected stability of natural proteins in yeast and may affect the accumulation of toxic proteins in disease. We propose that the proteasome's sequence preferences provide a second component to the degradation code and may fine-tune protein half-life in cells.",

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AU - Fishbain, Susan

AU - Inobe, Tomonao

AU - Israeli, Eitan

AU - Chavali, Sreenivas

AU - Yu, Houqing

AU - Kago, Grace

AU - Babu, M. Madan

AU - Matouschek, Andreas

PY - 2015/3/6

Y1 - 2015/3/6

N2 - The proteasome controls the concentrations of most proteins in eukaryotic cells. It recognizes its protein substrates through ubiquitin tags and initiates degradation at disordered regions within the substrate. Here we show that the proteasome has pronounced preferences for the amino acid sequence of the regions at which it initiates degradation. Specifically, proteins in which the initiation regions have biased amino acid compositions show longer half-lives in yeast than proteins with unbiased sequences in the regions. The relationship is also observed on a genomic scale in mouse cells. These preferences affect the degradation rates of proteins in vitro, can explain the unexpected stability of natural proteins in yeast and may affect the accumulation of toxic proteins in disease. We propose that the proteasome's sequence preferences provide a second component to the degradation code and may fine-tune protein half-life in cells.

AB - The proteasome controls the concentrations of most proteins in eukaryotic cells. It recognizes its protein substrates through ubiquitin tags and initiates degradation at disordered regions within the substrate. Here we show that the proteasome has pronounced preferences for the amino acid sequence of the regions at which it initiates degradation. Specifically, proteins in which the initiation regions have biased amino acid compositions show longer half-lives in yeast than proteins with unbiased sequences in the regions. The relationship is also observed on a genomic scale in mouse cells. These preferences affect the degradation rates of proteins in vitro, can explain the unexpected stability of natural proteins in yeast and may affect the accumulation of toxic proteins in disease. We propose that the proteasome's sequence preferences provide a second component to the degradation code and may fine-tune protein half-life in cells.

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Sequence composition of disordered regions fine-tunes protein half-life

Abstract

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