2016
DOI: 10.1016/j.jmb.2016.02.021
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An overview of macroautophagy in yeast

Abstract: Macroautophagy is an evolutionarily conserved dynamic pathway that functions primarily in a degradative manner. A basal level of macroautophagy occurs constitutively, but this process can be further induced in response to various types of stress including starvation, hypoxia and hormonal stimuli. The general principle behind macroautophagy is that cytoplasmic contents can be sequestered within a transient double-membrane organelle, an autophagosome, which subsequently fuses with a lysosome or vacuole (in mamma… Show more

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Cited by 230 publications
(199 citation statements)
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References 195 publications
(240 reference statements)
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“…ALD is a highly conserved eukaryotic process, once thought to involve the bulk degradation of senescent, long-lived proteins/organelles as well as cytosolic components following starvation (Mizushima et al, 2008; Klionsky et al, 2010; Rabinowitz & White, 2010; Cuervo, 2011; Rubinsztein et al, 2012). It is now recognized to be both a rather tightly regulated and selective process entailing macroautophagy with subsequent lysosomal degradation (Mizushima et al, 2008; Yang & Klionsky, 2009; Klionsky et al, 2010; Mizushima et al, 2010; Rabinowitz & White, 2010; Cuervo, 2011; Rubinsztein et al, 2012; Ohsumi, 2014; Madrigal-Matute & Cuervo, 2015; Bento et al, 2016; Wen & Klionsky, 2016). Macroautophagy (or autophagy for short) involves the concerted function of over 35 a u t ophagy-related g enes (ATGs; Mizushima et al, 2008; Yang & Klionsky, 2009; Klionsky et al, 2010; Mizushima et al, 2010; Rabinowitz & White, 2010; Cuervo, 2011; Rubinsztein et al, 2012; Ohsumi, 2014; Madrigal-Matute & Cuervo, 2015; Bento et al, 2016; Wen & Klionsky, 2016) that generate multiprotein complexes that act cooperatively and sequentially to deliver the cargo for lysosomal degradation (Fig.…”
Section: Introductionmentioning
confidence: 99%
“…ALD is a highly conserved eukaryotic process, once thought to involve the bulk degradation of senescent, long-lived proteins/organelles as well as cytosolic components following starvation (Mizushima et al, 2008; Klionsky et al, 2010; Rabinowitz & White, 2010; Cuervo, 2011; Rubinsztein et al, 2012). It is now recognized to be both a rather tightly regulated and selective process entailing macroautophagy with subsequent lysosomal degradation (Mizushima et al, 2008; Yang & Klionsky, 2009; Klionsky et al, 2010; Mizushima et al, 2010; Rabinowitz & White, 2010; Cuervo, 2011; Rubinsztein et al, 2012; Ohsumi, 2014; Madrigal-Matute & Cuervo, 2015; Bento et al, 2016; Wen & Klionsky, 2016). Macroautophagy (or autophagy for short) involves the concerted function of over 35 a u t ophagy-related g enes (ATGs; Mizushima et al, 2008; Yang & Klionsky, 2009; Klionsky et al, 2010; Mizushima et al, 2010; Rabinowitz & White, 2010; Cuervo, 2011; Rubinsztein et al, 2012; Ohsumi, 2014; Madrigal-Matute & Cuervo, 2015; Bento et al, 2016; Wen & Klionsky, 2016) that generate multiprotein complexes that act cooperatively and sequentially to deliver the cargo for lysosomal degradation (Fig.…”
Section: Introductionmentioning
confidence: 99%
“…Autophagy thus provides a short-term supply of amino acids in starvation (Wen and Klionsky, 2016). Moreover, autophagy removes aggregated proteins, damaged organelles and intracellular pathogens (Mizushima et al, 2008).…”
mentioning
confidence: 99%
“…Moreover, successful autophagy requires fusion of autophagosomes with the vacuole in yeast and plants or the lysosome in other eukaryotes for further degradation and recycling. 1 Most of the core machinery of autophagy-those components that play a critical role in autophagosome formation-have been identified with the discovery of over 40 autophagy-related (ATG) genes in yeast; many of which are conserved in more complex eukaryotes. 2,3 However, there are still many questions that remain to be answered with regard to autophagy regulation.…”
mentioning
confidence: 99%