Conserved sequence preferences contribute to substrate recognition by the proteasome

Houqing Yu; Amit K. Singh Gautam; Shameika R. Wilmington; Dennis Wylie; Kirby Martinez-Fonts; Grace Kago; Marie Warburton; Sreenivas Chavali; Tomonao Inobe; Ilya J. Finkelstein; M. Madan Babu; Andreas Matouschek

doi:10.1074/jbc.M116.727578

Conserved sequence preferences contribute to substrate recognition by the proteasome

Houqing Yu, Amit K. Singh Gautam, Shameika R. Wilmington, Dennis Wylie, Kirby Martinez-Fonts, Grace Kago, Marie Warburton, Sreenivas Chavali, Tomonao Inobe, Ilya J. Finkelstein, M. Madan Babu, Andreas Matouschek^*

^*Corresponding author for this work

Life Sciences and Bioengineering

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

55 Scopus citations

Abstract

The proteasome has pronounced preferences for the amino acid sequence of its substrates at the site where it initiates degradation. Here, we report that modulating these sequences can tune the steady-state abundance of proteins over 2 orders of magnitude in cells. This is the same dynamic range as seen for inducing ubiquitination through a classic N-end rule degron. The stability and abundance of His3 constructs dictated by the initiation site affect survival of yeast cells and show that variation in proteasomal initiation can affect fitness. The proteasome's sequence preferences are linked directly to the affinity of the initiation sites to their receptor on the proteasome and are conserved between Saccharomyces cerevisiae, Schizosaccharomyces pombe, and human cells. These findings establish that the sequence composition of unstructured initiation sites influences protein abundance in vivo in an evolutionarily conserved manner and can affect phenotype and fitness.

Original language	English
Pages (from-to)	14526-14539
Number of pages	14
Journal	Journal of Biological Chemistry
Volume	291
Issue number	28
DOIs	https://doi.org/10.1074/jbc.M116.727578
State	Published - 2016/07/08

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Cell Biology

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10.1074/jbc.M116.727578

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title = "Conserved sequence preferences contribute to substrate recognition by the proteasome",

abstract = "The proteasome has pronounced preferences for the amino acid sequence of its substrates at the site where it initiates degradation. Here, we report that modulating these sequences can tune the steady-state abundance of proteins over 2 orders of magnitude in cells. This is the same dynamic range as seen for inducing ubiquitination through a classic N-end rule degron. The stability and abundance of His3 constructs dictated by the initiation site affect survival of yeast cells and show that variation in proteasomal initiation can affect fitness. The proteasome's sequence preferences are linked directly to the affinity of the initiation sites to their receptor on the proteasome and are conserved between Saccharomyces cerevisiae, Schizosaccharomyces pombe, and human cells. These findings establish that the sequence composition of unstructured initiation sites influences protein abundance in vivo in an evolutionarily conserved manner and can affect phenotype and fitness.",

author = "Houqing Yu and {Singh Gautam}, {Amit K.} and Wilmington, {Shameika R.} and Dennis Wylie and Kirby Martinez-Fonts and Grace Kago and Marie Warburton and Sreenivas Chavali and Tomonao Inobe and Finkelstein, {Ilya J.} and Babu, {M. Madan} and Andreas Matouschek",

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year = "2016",

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day = "8",

doi = "10.1074/jbc.M116.727578",

language = "英語",

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T1 - Conserved sequence preferences contribute to substrate recognition by the proteasome

AU - Yu, Houqing

AU - Singh Gautam, Amit K.

AU - Wilmington, Shameika R.

AU - Wylie, Dennis

AU - Martinez-Fonts, Kirby

AU - Kago, Grace

AU - Warburton, Marie

AU - Chavali, Sreenivas

AU - Inobe, Tomonao

AU - Finkelstein, Ilya J.

AU - Babu, M. Madan

AU - Matouschek, Andreas

PY - 2016/7/8

Y1 - 2016/7/8

N2 - The proteasome has pronounced preferences for the amino acid sequence of its substrates at the site where it initiates degradation. Here, we report that modulating these sequences can tune the steady-state abundance of proteins over 2 orders of magnitude in cells. This is the same dynamic range as seen for inducing ubiquitination through a classic N-end rule degron. The stability and abundance of His3 constructs dictated by the initiation site affect survival of yeast cells and show that variation in proteasomal initiation can affect fitness. The proteasome's sequence preferences are linked directly to the affinity of the initiation sites to their receptor on the proteasome and are conserved between Saccharomyces cerevisiae, Schizosaccharomyces pombe, and human cells. These findings establish that the sequence composition of unstructured initiation sites influences protein abundance in vivo in an evolutionarily conserved manner and can affect phenotype and fitness.

AB - The proteasome has pronounced preferences for the amino acid sequence of its substrates at the site where it initiates degradation. Here, we report that modulating these sequences can tune the steady-state abundance of proteins over 2 orders of magnitude in cells. This is the same dynamic range as seen for inducing ubiquitination through a classic N-end rule degron. The stability and abundance of His3 constructs dictated by the initiation site affect survival of yeast cells and show that variation in proteasomal initiation can affect fitness. The proteasome's sequence preferences are linked directly to the affinity of the initiation sites to their receptor on the proteasome and are conserved between Saccharomyces cerevisiae, Schizosaccharomyces pombe, and human cells. These findings establish that the sequence composition of unstructured initiation sites influences protein abundance in vivo in an evolutionarily conserved manner and can affect phenotype and fitness.

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DO - 10.1074/jbc.M116.727578

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AN - SCOPUS:84979073028

SN - 0021-9258

VL - 291

SP - 14526

EP - 14539

JO - Journal of Biological Chemistry

JF - Journal of Biological Chemistry

IS - 28

ER -

Conserved sequence preferences contribute to substrate recognition by the proteasome

Abstract

ASJC Scopus subject areas

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