Literature DB >> 34293321

Proteome plasticity in response to persistent environmental change.

Matthew Domnauer1, Fan Zheng2, Liying Li3, Yanxiao Zhang4, Catherine E Chang2, Jay R Unruh5, Juliana Conkright-Fincham5, Scott McCroskey5, Laurence Florens5, Ying Zhang5, Christopher Seidel5, Benjamin Fong2, Birgit Schilling1, Rishi Sharma2, Arvind Ramanathan6, Kausik Si7, Chuankai Zhou8.   

Abstract

Temperature is a variable component of the environment, and all organisms must deal with or adapt to temperature change. Acute temperature change activates cellular stress responses, resulting in refolding or removal of damaged proteins. However, how organisms adapt to long-term temperature change remains largely unexplored. Here we report that budding yeast responds to long-term high temperature challenge by switching from chaperone induction to reduction of temperature-sensitive proteins and re-localizing a portion of its proteome. Surprisingly, we also find that many proteins adopt an alternative conformation. Using Fet3p as an example, we find that the temperature-dependent conformational difference is accompanied by distinct thermostability, subcellular localization, and, importantly, cellular functions. We postulate that, in addition to the known mechanisms of adaptation, conformational plasticity allows some polypeptides to acquire new biophysical properties and functions when environmental change endures.
Copyright © 2021 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Fet3; environmental stress; machine learning; moonlighting functions; protein conformation changes; thermal acclimation

Mesh:

Substances:

Year:  2021        PMID: 34293321      PMCID: PMC8475771          DOI: 10.1016/j.molcel.2021.06.028

Source DB:  PubMed          Journal:  Mol Cell        ISSN: 1097-2765            Impact factor:   19.328


  76 in total

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Authors:  Satyajit Mayor; Howard Riezman
Journal:  Nat Rev Mol Cell Biol       Date:  2004-02       Impact factor: 94.444

Review 2.  Theory of protein folding: the energy landscape perspective.

Authors:  J N Onuchic; Z Luthey-Schulten; P G Wolynes
Journal:  Annu Rev Phys Chem       Date:  1997       Impact factor: 12.703

3.  Purification and characterization of Fet3 protein, a yeast homologue of ceruloplasmin.

Authors:  D de Silva; S Davis-Kaplan; J Fergestad; J Kaplan
Journal:  J Biol Chem       Date:  1997-05-30       Impact factor: 5.157

Review 4.  Transfer RNA methytransferases and their corresponding modifications in budding yeast and humans: activities, predications, and potential roles in human health.

Authors:  William L Towns; Thomas J Begley
Journal:  DNA Cell Biol       Date:  2011-12-22       Impact factor: 3.311

5.  Mapping N-glycosylation sites across seven evolutionarily distant species reveals a divergent substrate proteome despite a common core machinery.

Authors:  Dorota F Zielinska; Florian Gnad; Katharina Schropp; Jacek R Wiśniewski; Matthias Mann
Journal:  Mol Cell       Date:  2012-05-25       Impact factor: 17.970

6.  A permease-oxidase complex involved in high-affinity iron uptake in yeast.

Authors:  R Stearman; D S Yuan; Y Yamaguchi-Iwai; R D Klausner; A Dancis
Journal:  Science       Date:  1996-03-15       Impact factor: 47.728

7.  Automated analysis of high-content microscopy data with deep learning.

Authors:  Oren Z Kraus; Ben T Grys; Jimmy Ba; Yolanda Chong; Brendan J Frey; Charles Boone; Brenda J Andrews
Journal:  Mol Syst Biol       Date:  2017-04-18       Impact factor: 11.429

8.  Genome-wide SWAp-Tag yeast libraries for proteome exploration.

Authors:  Uri Weill; Ido Yofe; Ehud Sass; Bram Stynen; Dan Davidi; Janani Natarajan; Reut Ben-Menachem; Zohar Avihou; Omer Goldman; Nofar Harpaz; Silvia Chuartzman; Kiril Kniazev; Barbara Knoblach; Janina Laborenz; Felix Boos; Jacqueline Kowarzyk; Shifra Ben-Dor; Einat Zalckvar; Johannes M Herrmann; Richard A Rachubinski; Ophry Pines; Doron Rapaport; Stephen W Michnick; Emmanuel D Levy; Maya Schuldiner
Journal:  Nat Methods       Date:  2018-07-09       Impact factor: 28.547

9.  Dynamic 3D proteomes reveal protein functional alterations at high resolution in situ.

Authors:  Valentina Cappelletti; Thomas Hauser; Ilaria Piazza; Monika Pepelnjak; Liliana Malinovska; Tobias Fuhrer; Yaozong Li; Christian Dörig; Paul Boersema; Ludovic Gillet; Jan Grossbach; Aurelien Dugourd; Julio Saez-Rodriguez; Andreas Beyer; Nicola Zamboni; Amedeo Caflisch; Natalie de Souza; Paola Picotti
Journal:  Cell       Date:  2020-12-23       Impact factor: 41.582

10.  Small epitope-linker modules for PCR-based C-terminal tagging in Saccharomyces cerevisiae.

Authors:  Minoru Funakoshi; Mark Hochstrasser
Journal:  Yeast       Date:  2009-03       Impact factor: 3.239
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  4 in total

Review 1.  The Molecular and Functional Interaction Between Membrane-Bound Organelles and Membrane-Less Condensates.

Authors:  Chuankai Zhou
Journal:  Front Cell Dev Biol       Date:  2022-04-25

2.  Phenomics approaches to understand genetic networks and gene function in yeast.

Authors:  Clarence Hue Lok Yeung; Nil Sahin; Brenda Andrews
Journal:  Biochem Soc Trans       Date:  2022-04-29       Impact factor: 4.919

Review 3.  Mechanisms tailoring the expression of heat shock proteins to proteostasis challenges.

Authors:  Lokha R Alagar Boopathy; Suleima Jacob-Tomas; Célia Alecki; Maria Vera
Journal:  J Biol Chem       Date:  2022-03-03       Impact factor: 5.486

Review 4.  Location, location, location: subcellular protein partitioning in proteostasis and aging.

Authors:  Anita V Kumar; Louis R Lapierre
Journal:  Biophys Rev       Date:  2021-11-19
  4 in total

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