Eukaryotic mRNA decapping

Jeff Coller; Roy Parker

doi:10.1146/annurev.biochem.73.011303.074032

Eukaryotic mRNA decapping

Jeff Coller, Roy Parker

Research output: Contribution to journal › Review article › peer-review

383 Scopus citations

Abstract

Eukaryotic mRNAs are primarily degraded by removal of the 3′ poly (A) tail, followed either by cleavage of the 5′ cap structure (decapping) and 5′->3′ exonucleolytic digestion, or by 3′ to 5′ degradation. mRNA decapping represents a critical step in turnover because this permits the degradation of the mRNA and is a site of numerous control inputs. Recent analyses suggest decapping of an mRNA consists of four central and related events. These include removal, or inactivation, of the poly(A) tail as an inhibitor of decapping, exit from active translation, assembly of a decapping complex on the mRNA, and sequestration of the mRNA into discrete cytoplasmic foci where decapping can occur. Each of these steps is a demonstrated, or potential, site for the regulation of mRNA decay. We discuss the decapping process in the light of these central properties, which also suggest fundamental aspects of cytoplasmic mRNA physiology that connect decapping, translation, and storage of mRNA.

Original language	English (US)
Pages (from-to)	861-890
Number of pages	30
Journal	Annual review of biochemistry
Volume	73
DOIs	https://doi.org/10.1146/annurev.biochem.73.011303.074032
State	Published - 2004
Externally published	Yes

Keywords

mRNA decay deadenylation
mRNA stability
mRNA turnover

ASJC Scopus subject areas

Biochemistry

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10.1146/annurev.biochem.73.011303.074032

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title = "Eukaryotic mRNA decapping",

abstract = "Eukaryotic mRNAs are primarily degraded by removal of the 3′ poly (A) tail, followed either by cleavage of the 5′ cap structure (decapping) and 5′->3′ exonucleolytic digestion, or by 3′ to 5′ degradation. mRNA decapping represents a critical step in turnover because this permits the degradation of the mRNA and is a site of numerous control inputs. Recent analyses suggest decapping of an mRNA consists of four central and related events. These include removal, or inactivation, of the poly(A) tail as an inhibitor of decapping, exit from active translation, assembly of a decapping complex on the mRNA, and sequestration of the mRNA into discrete cytoplasmic foci where decapping can occur. Each of these steps is a demonstrated, or potential, site for the regulation of mRNA decay. We discuss the decapping process in the light of these central properties, which also suggest fundamental aspects of cytoplasmic mRNA physiology that connect decapping, translation, and storage of mRNA.",

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AU - Coller, Jeff

AU - Parker, Roy

PY - 2004

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N2 - Eukaryotic mRNAs are primarily degraded by removal of the 3′ poly (A) tail, followed either by cleavage of the 5′ cap structure (decapping) and 5′->3′ exonucleolytic digestion, or by 3′ to 5′ degradation. mRNA decapping represents a critical step in turnover because this permits the degradation of the mRNA and is a site of numerous control inputs. Recent analyses suggest decapping of an mRNA consists of four central and related events. These include removal, or inactivation, of the poly(A) tail as an inhibitor of decapping, exit from active translation, assembly of a decapping complex on the mRNA, and sequestration of the mRNA into discrete cytoplasmic foci where decapping can occur. Each of these steps is a demonstrated, or potential, site for the regulation of mRNA decay. We discuss the decapping process in the light of these central properties, which also suggest fundamental aspects of cytoplasmic mRNA physiology that connect decapping, translation, and storage of mRNA.

AB - Eukaryotic mRNAs are primarily degraded by removal of the 3′ poly (A) tail, followed either by cleavage of the 5′ cap structure (decapping) and 5′->3′ exonucleolytic digestion, or by 3′ to 5′ degradation. mRNA decapping represents a critical step in turnover because this permits the degradation of the mRNA and is a site of numerous control inputs. Recent analyses suggest decapping of an mRNA consists of four central and related events. These include removal, or inactivation, of the poly(A) tail as an inhibitor of decapping, exit from active translation, assembly of a decapping complex on the mRNA, and sequestration of the mRNA into discrete cytoplasmic foci where decapping can occur. Each of these steps is a demonstrated, or potential, site for the regulation of mRNA decay. We discuss the decapping process in the light of these central properties, which also suggest fundamental aspects of cytoplasmic mRNA physiology that connect decapping, translation, and storage of mRNA.

KW - mRNA decay deadenylation

KW - mRNA stability

KW - mRNA turnover

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Eukaryotic mRNA decapping

Abstract

Keywords

ASJC Scopus subject areas

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