Proteomic analysis of ribosomes: Translational control of mRNA populations by glycogen synthase GYS1

Gabriele Fuchs; Camille Diges; Lori A. Kohlstaedt; Karen A. Wehner; Peter Sarnow

doi:10.1016/j.jmb.2011.04.064

Proteomic analysis of ribosomes: Translational control of mRNA populations by glycogen synthase GYS1

Gabriele Fuchs
, Camille Diges
, Lori A. Kohlstaedt
, Karen A. Wehner
, Peter Sarnow

Biology

University at Albany

Stanford University
University of California at Berkeley

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

33 Scopus citations

Abstract

Ribosomes exist as a heterogenous pool of macromolecular complexes composed of ribosomal RNA molecules, ribosomal proteins, and numerous associated "nonribosomal" proteins. To identify nonribosomal proteins that may modulate ribosome activity, we examined the composition of translationally active and inactive ribosomes using a proteomic multidimensional protein identification technology. Notably, the phosphorylated isoform of glycogen synthase, glycogen synthase 1 (GYS1), was preferentially associated with elongating ribosomes. Depletion of GYS1 affected the translation of a subset of cellular mRNAs, some of which encode proteins that modulate protein biosynthesis. These findings argue that GYS1 abundance, by virtue of its ribosomal association, provides a feedback loop between the energy state of the cells and the translation machinery.

Original language	English
Pages (from-to)	118-130
Number of pages	13
Journal	Journal of Molecular Biology
Volume	410
Issue number	1
DOIs	https://doi.org/10.1016/j.jmb.2011.04.064
State	Published - Jul 1 2011

Keywords

energy metabolism
mass spectrometry
ribosome filter
translational control
translational profiling

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10.1016/j.jmb.2011.04.064

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abstract = "Ribosomes exist as a heterogenous pool of macromolecular complexes composed of ribosomal RNA molecules, ribosomal proteins, and numerous associated {"}nonribosomal{"} proteins. To identify nonribosomal proteins that may modulate ribosome activity, we examined the composition of translationally active and inactive ribosomes using a proteomic multidimensional protein identification technology. Notably, the phosphorylated isoform of glycogen synthase, glycogen synthase 1 (GYS1), was preferentially associated with elongating ribosomes. Depletion of GYS1 affected the translation of a subset of cellular mRNAs, some of which encode proteins that modulate protein biosynthesis. These findings argue that GYS1 abundance, by virtue of its ribosomal association, provides a feedback loop between the energy state of the cells and the translation machinery.",

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T2 - Translational control of mRNA populations by glycogen synthase GYS1

AU - Fuchs, Gabriele

AU - Diges, Camille

AU - Kohlstaedt, Lori A.

AU - Wehner, Karen A.

AU - Sarnow, Peter

PY - 2011/7/1

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AB - Ribosomes exist as a heterogenous pool of macromolecular complexes composed of ribosomal RNA molecules, ribosomal proteins, and numerous associated "nonribosomal" proteins. To identify nonribosomal proteins that may modulate ribosome activity, we examined the composition of translationally active and inactive ribosomes using a proteomic multidimensional protein identification technology. Notably, the phosphorylated isoform of glycogen synthase, glycogen synthase 1 (GYS1), was preferentially associated with elongating ribosomes. Depletion of GYS1 affected the translation of a subset of cellular mRNAs, some of which encode proteins that modulate protein biosynthesis. These findings argue that GYS1 abundance, by virtue of its ribosomal association, provides a feedback loop between the energy state of the cells and the translation machinery.

KW - energy metabolism

KW - mass spectrometry

KW - ribosome filter

KW - translational control

KW - translational profiling

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Proteomic analysis of ribosomes: Translational control of mRNA populations by glycogen synthase GYS1

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