The Role of ABCE1 in Eukaryotic Posttermination Ribosomal Recycling

Pisarev, Andrey V.; Skabkin, Maxim A.; Pisareva, Vera P.; Skabkina, Olga V.; Rakotondrafara, Aurélie M.; Hentze, Matthias W.; Hellen, Christopher U.T.; Pestova, Tatyana V.

doi:10.1016/j.molcel.2009.12.034

Cited by 297 publications

(400 citation statements)

References 32 publications

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“…The same study demonstrated that downregulation of ABCE1 protein leads to defects in the recognition of a stop codon. By contrast, ABCE1 protein was identified to strongly enhance ribosome recycling (34). After translation termination and release of polypeptide chain catalyzed by aRF1, ABCE1 protein docks to stop codon programmed ribosome via aRF1 positioned at A-site, ATP binding to ABCE1 protein induces a conformational change into its closed state, which reorganizes the FeS cluster domain to drive ribosome splitting and release of aRF1.…”

Section: Abce1 Protein Relates Closely With Eukaryotic Translationmentioning

confidence: 99%

The biological regulation of ABCE1

2012

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SummaryATP binding cassette E1 (ABCE1) protein, also named RLI or HP68, is one member of ATP binding cassette superfamily. By forming a heterodimer with RNase L, ABCE1 protein inhibits the IFN-depended 2-5A/RNase L system and regulates a broad range of biological functions including viral infection, tumor cell proliferation, and antiapoptosis. As a highly conserved protein, recent studies have mainly focused that ABCE1 protein is involving in the fields of HIV virus capsids assembly and important roles in translation. Our manuscript will review the studies which revealed the biological regulation of ABCE1.

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Section: Abce1 Protein Relates Closely With Eukaryotic Translationmentioning

confidence: 99%

The biological regulation of ABCE1

2012

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“…Some differing data exist with respect to the necessity of ATP binding versus ATP hydrolysis in this splitting reaction. While in one study on the archaeal system a non-hydrolysable ATP analog triggered splitting (Barthelme et al , 2011 ), in two other studies on the eukaryotic and archaeal systems, hydrolysis competent ATP was necessary (Pisarev et al , 2010 ;Becker et al , 2012 ). However, the stability of ribosomes is sensitive to buffer conditions (especially magnesium), which may account for these discrepancies.…”

Section: Asymmetry and Allosteric Regulation: A New Chapter In Abc Prmentioning

confidence: 99%

“…Unexpectedly, work from the Krebber and Ficner labs found that ABCE1 physically interacts with eRF1 and is required for proper stop codon recognition (Khoshnevis et al , 2010 ). At the same time the Pestova lab showed that ABCE1 functions in mammalian ribosome recycling by studying ABCE1 promoted ribosome splitting in biochemical assays (Pisarev et al , 2010 ). Here, Pestova and colleagues found that the ATPase activity of ABCE1 is stimulated by post-termination complexes and that ABCE1 splits ribosomes using ATP hydrolysis (Pisarev et al , 2010 ).…”

Section: Abce1 Is a Eukaryotic And Archaeal Termination And Ribosome-mentioning

confidence: 99%

“…At the same time the Pestova lab showed that ABCE1 functions in mammalian ribosome recycling by studying ABCE1 promoted ribosome splitting in biochemical assays (Pisarev et al , 2010 ). Here, Pestova and colleagues found that the ATPase activity of ABCE1 is stimulated by post-termination complexes and that ABCE1 splits ribosomes using ATP hydrolysis (Pisarev et al , 2010 ). In parallel, the Green and Tamp é labs demonstrated that ABCE1 is the ribosome recycling factor in yeast and archaea, respectively, establishing that ABCE1 ' s role in ribosome recycling is evolutionary conserved (Barthelme et al , 2011 ;Shoemaker and Green , 2011 ).…”

Section: Abce1 Is a Eukaryotic And Archaeal Termination And Ribosome-mentioning

confidence: 99%

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Rustless translation

Hopfner

2012

Biological Chemistry

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: ATP binding cassette proteins are a large and diverse family of molecular machines and include transmembrane transporter, chromosome maintenance and DNA repair proteins, and translation factors. However, the function of the ABCE1, the only member of subfamily E of ABC proteins, remained mysterious for over a decade, even though it is perhaps the most conserved ABC protein in eukaryotes and archaea. Recent results have now identified ABCE1 as the ribosome-recycling factor of eukaryotes and archaea. Thus, two iron-sulfur clustersthe hallmark feature of ABCE1 -help catalyze an integral step of the translational cycle at the core of the protein synthesis machinery.

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“…21 Besides promoting translation termination, ABCE1 can act as an efficient ribosome recycling factor catalyzing post-termination complex dissociation at various conditions. 22 In addition to canonical termination, ABCE1 dissociates stalled and vacant ribosomes acting in quality control mechanisms during mRNA translation and ribosome biogenesis, and in regulation of available ribosome pool. [23][24][25] Moreover, ABCE1 recycling activity may control non-canonical 3 0 -UTR translation on stalled ribosomes during stress.…”

Section: Introductionmentioning

confidence: 99%

ABCE1 is essential for S phase progression in human cells

et al. 2016

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ABCE1 is a highly conserved protein universally present in eukaryotes and archaea, which is crucial for the viability of different organisms. First identified as RNase L inhibitor, ABCE1 is currently recognized as an essential translation factor involved in several stages of eukaryotic translation and ribosome biogenesis. The nature of vital functions of ABCE1, however, remains unexplained. Here, we study the role of ABCE1 in human cell proliferation and its possible connection to translation. We show that ABCE1 depletion by siRNA results in a decreased rate of cell growth due to accumulation of cells in S phase, which is accompanied by inefficient DNA synthesis and reduced histone mRNA and protein levels. We infer that in addition to the role in general translation, ABCE1 is involved in histone biosynthesis and DNA replication and therefore is essential for normal S phase progression. In addition, we analyze whether ABCE1 is implicated in transcript-specific translation via its association with the eIF3 complex subunits known to control the synthesis of cell proliferation-related proteins. The expression levels of a few such targets regulated by eIF3A, however, were not consistently affected by ABCE1 depletion.

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The Role of ABCE1 in Eukaryotic Posttermination Ribosomal Recycling

Cited by 297 publications

References 32 publications

The biological regulation of ABCE1

The biological regulation of ABCE1

Rustless translation

ABCE1 is essential for S phase progression in human cells

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