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Prion Volume 9, 2015 - Issue 2
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Research Paper

The ribosome-associated complex antagonizes prion formation in yeast

Alvaro J AmorBiology Department; Ursinus College; Collegeville, PAUSA;;Present address: Biology Department; Massachusetts Institute of Technology; Cambridge, MAUSA;
,
Dominic T CastanzoBiology Department; Ursinus College; Collegeville, PAUSA;;Present address: Department of Molecular & Cellular Biology; University of California; Berkeley, CAUSA
,
Sean P DelanyBiology Department; Ursinus College; Collegeville, PAUSA;
,
Daniel M SelechnikBiology Department; Ursinus College; Collegeville, PAUSA;
,
Alex van OoyBiology Department; Ursinus College; Collegeville, PAUSA;
&
Dale M CameronBiology Department; Ursinus College; Collegeville, PAUSA;Correspondence[email protected]
Pages 144-164 | Received 24 Sep 2014, Accepted 16 Feb 2015, Published online: 21 May 2015

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Ben Allwein, Christina Kelly, Shaima Kammoonah, Thibault Mayor & Dale M. Cameron. (2019) Prion-dependent proteome remodeling in response to environmental stress is modulated by prion variant and genetic background. Prion 13:1, pages 53-64.
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Raffael Schaffrath & Roland Klassen. (2017) Combined tRNA modification defects impair protein homeostasis and synthesis of the yeast prion protein Rnq1. Prion 11:1, pages 48-53.
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Articles from other publishers (27)

Songsong Wu, Herman K. Edskes & Reed B. Wickner. (2023) Human proteins curing yeast prions. Proceedings of the National Academy of Sciences 120:45.
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Moonil Son, Sia Han & Seyeon Lee. (2023) Prions in Microbes: The Least in the Most. Journal of Microbiology 61:10, pages 881-889.
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Christina Kelly, Yusef Ahmed, Omar Elghawy, Nikole Fandiño Pachon, Matthew S. Fontanese, Seongchan Kim, Erica Kitterman, Amanda Marley, Danielle Terrenzio, Richard Wike, Theodora Zeibekis & Dale M. Cameron. (2023) The human ribosome‐associated complex suppresses prion formation in yeast. Proteins: Structure, Function, and Bioinformatics 91:6, pages 715-723.
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Lina M. Jay-Garcia, Joseph L. Cornell, Rebecca L. Howie, Quincy L. Faber, Abigail Salas, Tatiana A. Chernova & Yury O. Chernoff. (2023) Yeast Chaperone Hsp70-Ssb Modulates a Variety of Protein-Based Heritable Elements. International Journal of Molecular Sciences 24:10, pages 8660.
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Reed B. Wickner, Herman K. Edskes, Songsong Wu & Kristen Gregg. (2023) Prions are the greatest protein misfolding problem, and yeast has several solutions. PLOS Pathogens 19:5, pages e1011333.
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Reed B. Wickner, Herman K. Edskes, Moonil Son, Songsong Wu & Madaleine Niznikiewicz. 2023. Prions and Diseases. Prions and Diseases 599 618 .
Moonil Son & Reed B. Wickner. (2022) Anti-Prion Systems in Saccharomyces cerevisiae Turn an Avalanche of Prions into a Flurry. Viruses 14:9, pages 1945.
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Reed B. Wickner, Herman K. Edskes, Moonil Son & Songsong Wu. (2022) Anti-Prion Systems Block Prion Transmission, Attenuate Prion Generation, Cure Most Prions as They Arise and Limit Prion-Induced Pathology in Saccharomyces cerevisiae. Biology 11:9, pages 1266.
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Moonil Son & Reed B. Wickner. (2022) Antiprion systems in yeast cooperate to cure or prevent the generation of nearly all [ PSI + ] and [URE3] prions . Proceedings of the National Academy of Sciences 119:28.
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Pierre Bonnin, Ian Stansfield, M. Carmen Romano & Norbert Kern. (2022) Two-species totally asymmetric simple exclusion process model: From a simple description to intermittency and traveling traffic jams. Physical Review E 105:3.
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Yury A. Barbitoff, Andrew G. Matveenko & Galina A. Zhouravleva. (2022) Differential Interactions of Molecular Chaperones and Yeast Prions. Journal of Fungi 8:2, pages 122.
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Reed B. Wickner, Herman K. Edskes, Moonil Son, Songsong Wu & Madaleine Niznikiewicz. (2021) Innate immunity to prions: anti-prion systems turn a tsunami of prions into a slow drip. Current Genetics 67:6, pages 833-847.
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Herman K Edskes, Emily E Stroobant, Morgan P DeWilde, Evgeny E Bezsonov & Reed B Wickner. (2021) Proteasome Control of [URE3] Prion Propagation by Degradation of Anti-Prion Proteins Cur1 and Btn2 in Saccharomyces cerevisiae . Genetics 218:1.
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Stacy L. Hrizo, Samantha L. Eicher, Tracey D. Myers, Ian McGrath, Andrew P.K. Wodrich, Hemanth Venkatesh, Daniel Manjooran, Sabrina Swoger, Kim Gagnon, Matthew Bruskin, Maria V. Lebedev, Sherry Zheng, Ana Vitantonio, Sungyoun Kim, Zachary J. Lamb, Andreas Vogt, Maura R.Z. Ruzhnikov & Michael J. Palladino. (2021) Identification of protein quality control regulators using a Drosophila model of TPI deficiency. Neurobiology of Disease 152, pages 105299.
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Moonil Son & Reed B. Wickner. (2020) Normal levels of ribosome-associated chaperones cure two groups of [PSI+] prion variants. Proceedings of the National Academy of Sciences 117:42, pages 26298-26306.
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Reed B. Wickner, Herman K. Edskes, Moonil Son, Songsong Wu & Madaleine Niznikiewicz. (2020) How Do Yeast Cells Contend with Prions?. International Journal of Molecular Sciences 21:13, pages 4742.
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Andrea N. Killian, Sarah C. Miller & Justin K. Hines. (2019) Impact of Amyloid Polymorphism on Prion-Chaperone Interactions in Yeast. Viruses 11:4, pages 349.
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Reed B. Wickner. (2019) Anti-prion systems in yeast. Journal of Biological Chemistry 294:5, pages 1729-1738.
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Corey J. Wilson, Andreas S. Bommarius, Julie A. Champion, Yury O. Chernoff, David G. Lynn, Anant K. Paravastu, Chen Liang, Ming-Chien Hsieh & Jennifer M. Heemstra. (2018) Biomolecular Assemblies: Moving from Observation to Predictive Design. Chemical Reviews 118:24, pages 11519-11574.
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Andrew G. Matveenko, Yury A. Barbitoff, Lina Manuela Jay-Garcia, Yury O. Chernoff & Galina A. Zhouravleva. (2017) Differential effects of chaperones on yeast prions: CURrent view. Current Genetics 64:2, pages 317-325.
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Reed B. Wickner, Evgeny E. Bezsonov, Moonil Son, Mathieu Ducatez, Morgan DeWilde & Herman K. Edskes. (2018) Anti-Prion Systems in Yeast and Inositol Polyphosphates. Biochemistry 57:8, pages 1285-1292.
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Patrick H. W. Chan, Lisa Lee, Erin Kim, Tony Hui, Nikolay Stoynov, Roy Nassar, Michelle Moksa, Dale M. Cameron, Martin Hirst, Joerg Gsponer & Thibault Mayor. (2017) The [PSI +] yeast prion does not wildly affect proteome composition whereas selective pressure exerted on [PSI +] cells can promote aneuploidy. Scientific Reports 7:1.
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Tatiana A. Chernova, Keith D. Wilkinson & Yury O. Chernoff. (2017) Prions, Chaperones, and Proteostasis in Yeast. Cold Spring Harbor Perspectives in Biology 9:2, pages a023663.
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Kathryn M. Keefer & Heather L. True. (2016) Prion-Associated Toxicity is Rescued by Elimination of Cotranslational Chaperones. PLOS Genetics 12:11, pages e1006431.
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Yury O. Chernoff & Denis A. Kiktev. (2016) Dual role of ribosome-associated chaperones in prion formation and propagation. Current Genetics 62:4, pages 677-685.
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Dylan J. McClung, Abigail Calixto, Mackenzie N. Mosera, Raagni Kumar, Ellen L. Neidle & Kathryn T. Elliott. (2016) Novel heterologous bacterial system reveals enhanced susceptibility to DNA damage mediated by yqgF, a nearly ubiquitous and often essential gene. Microbiology 162:10, pages 1808-1821.
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R.B. Wickner, H.K. Edskes, A. Gorkovskiy, E.E. Bezsonov & E.E. Stroobant. 2016. 191 236 .

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