Literature DB >> 20359542

Regulation of macroautophagy in Saccharomyces cerevisiae.

Yuko Inoue1, Daniel J Klionsky.   

Abstract

Macroautophagy (hereafter autophagy) is a cellular degradation process, which in yeast is induced in response to nutrient deprivation. In this process, a double-membrane vesicle, an autophagosome, surrounds part of the cytoplasm and fuses with the vacuole to allow the breakdown and subsequent recycling of the cargo. In yeast, many autophagy-related (ATG) genes have been identified that are required for selective and/or nonselective autophagy. In all autophagy-related pathways, core Atg proteins are required for the formation of the autophagosome, which is one of the most unique aspects of autophagy and is unlike other vesicle transport events. In contrast to nonselective autophagy, the selective processes are induced in response to various specific physiological conditions such as alterations in the carbon source. In this review, we provide an overview of the common aspects concerning the mechanism of autophagy-related pathways, and highlight recent advances in our understanding of the machinery that controls autophagy induction in response to nutrient starvation conditions. (c) 2010 Elsevier Ltd. All rights reserved.

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Year:  2010        PMID: 20359542      PMCID: PMC2930024          DOI: 10.1016/j.semcdb.2010.03.009

Source DB:  PubMed          Journal:  Semin Cell Dev Biol        ISSN: 1084-9521            Impact factor:   7.727


  79 in total

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  52 in total

Review 1.  The "Janus-faced role" of autophagy in neuronal sickness: focus on neurodegeneration.

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Journal:  Mol Neurobiol       Date:  2012-07-07       Impact factor: 5.590

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Authors:  Yongqiang Chen; Daniel J Klionsky
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3.  Autophagosome biogenesis: From membrane growth to closure.

Authors:  Thomas J Melia; Alf H Lystad; Anne Simonsen
Journal:  J Cell Biol       Date:  2020-06-01       Impact factor: 10.539

4.  Lysosomal proteolysis inhibition selectively disrupts axonal transport of degradative organelles and causes an Alzheimer's-like axonal dystrophy.

Authors:  Sooyeon Lee; Yutaka Sato; Ralph A Nixon
Journal:  J Neurosci       Date:  2011-05-25       Impact factor: 6.167

5.  Autophagy contributes to regulation of nuclear dynamics during vegetative growth and hyphal fusion in Fusarium oxysporum.

Authors:  Cristina Corral-Ramos; M Gabriela Roca; Antonio Di Pietro; M Isabel G Roncero; Carmen Ruiz-Roldán
Journal:  Autophagy       Date:  2015       Impact factor: 16.016

Review 6.  Striking a balance: autophagy, apoptosis, and necrosis in a normal and failing heart.

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7.  Binding of the Atg1/ULK1 kinase to the ubiquitin-like protein Atg8 regulates autophagy.

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8.  Class IA PI3K p110β subunit promotes autophagy through Rab5 small GTPase in response to growth factor limitation.

Authors:  Zhixun Dou; Ji-An Pan; Hashem A Dbouk; Lisa M Ballou; Jennifer L DeLeon; Yongjun Fan; Juei-Suei Chen; Zhimin Liang; Guangpu Li; Jonathan M Backer; Richard Z Lin; Wei-Xing Zong
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9.  Mechanism of liponecrosis, a distinct mode of programmed cell death.

Authors:  Vincent R Richard; Adam Beach; Amanda Piano; Anna Leonov; Rachel Feldman; Michelle T Burstein; Pavlo Kyryakov; Alejandra Gomez-Perez; Anthony Arlia-Ciommo; Stefanie Baptista; Cory Campbell; Daniel Goncharov; Sonia Pannu; Dimitri Patrinos; Behnaz Sadri; Veronika Svistkova; Andrew Victor; Vladimir I Titorenko
Journal:  Cell Cycle       Date:  2014       Impact factor: 4.534

10.  Synphilin-1 enhances α-synuclein aggregation in yeast and contributes to cellular stress and cell death in a Sir2-dependent manner.

Authors:  Sabrina Büttner; Charlotte Delay; Vanessa Franssens; Tine Bammens; Doris Ruli; Sandra Zaunschirm; Rita Machado de Oliveira; Tiago Fleming Outeiro; Frank Madeo; Luc Buée; Marie-Christine Galas; Joris Winderickx
Journal:  PLoS One       Date:  2010-10-27       Impact factor: 3.240
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