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In Vitro Reconstitution of SARS-Coronavirus mRNA Cap Methylation
In Vitro Reconstitution of SARS-Coronavirus mRNA Cap Methylation
by Selisko, Barbara , Bouvet, Mickaël , Snijder, Eric J. , Canard, Bruno , Imbert, Isabelle , Decroly, Etienne , Debarnot, Claire
in Distribution / Enzymes / Exoribonucleases - chemistry / Exoribonucleases - genetics / Exoribonucleases - metabolism / Experiments / Gene Expression Regulation, Viral / Genomes / In Vitro Techniques / Messenger RNA / Methylation / Nucleosides / Proteins / Risk factors / RNA Caps - chemistry / RNA Caps - genetics / RNA Caps - metabolism / RNA polymerase / RNA, Messenger / SARS Virus - chemistry / SARS Virus - genetics / SARS Virus - metabolism / Severe acute respiratory syndrome / tRNA Methyltransferases / Viral Nonstructural Proteins - chemistry / Viral Nonstructural Proteins - genetics / Viral Nonstructural Proteins - metabolism / Virology/Antivirals, including Modes of Action and Resistance / Virology/Emerging Viral Diseases / Virology/Viral and Gene Regulation
2010
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In Vitro Reconstitution of SARS-Coronavirus mRNA Cap Methylation
by Selisko, Barbara , Bouvet, Mickaël , Snijder, Eric J. , Canard, Bruno , Imbert, Isabelle , Decroly, Etienne , Debarnot, Claire
in Distribution / Enzymes / Exoribonucleases - chemistry / Exoribonucleases - genetics / Exoribonucleases - metabolism / Experiments / Gene Expression Regulation, Viral / Genomes / In Vitro Techniques / Messenger RNA / Methylation / Nucleosides / Proteins / Risk factors / RNA Caps - chemistry / RNA Caps - genetics / RNA Caps - metabolism / RNA polymerase / RNA, Messenger / SARS Virus - chemistry / SARS Virus - genetics / SARS Virus - metabolism / Severe acute respiratory syndrome / tRNA Methyltransferases / Viral Nonstructural Proteins - chemistry / Viral Nonstructural Proteins - genetics / Viral Nonstructural Proteins - metabolism / Virology/Antivirals, including Modes of Action and Resistance / Virology/Emerging Viral Diseases / Virology/Viral and Gene Regulation
2010
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In Vitro Reconstitution of SARS-Coronavirus mRNA Cap Methylation
In Vitro Reconstitution of SARS-Coronavirus mRNA Cap Methylation
by Selisko, Barbara , Bouvet, Mickaël , Snijder, Eric J. , Canard, Bruno , Imbert, Isabelle , Decroly, Etienne , Debarnot, Claire
in Distribution / Enzymes / Exoribonucleases - chemistry / Exoribonucleases - genetics / Exoribonucleases - metabolism / Experiments / Gene Expression Regulation, Viral / Genomes / In Vitro Techniques / Messenger RNA / Methylation / Nucleosides / Proteins / Risk factors / RNA Caps - chemistry / RNA Caps - genetics / RNA Caps - metabolism / RNA polymerase / RNA, Messenger / SARS Virus - chemistry / SARS Virus - genetics / SARS Virus - metabolism / Severe acute respiratory syndrome / tRNA Methyltransferases / Viral Nonstructural Proteins - chemistry / Viral Nonstructural Proteins - genetics / Viral Nonstructural Proteins - metabolism / Virology/Antivirals, including Modes of Action and Resistance / Virology/Emerging Viral Diseases / Virology/Viral and Gene Regulation
2010

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In Vitro Reconstitution of SARS-Coronavirus mRNA Cap Methylation
In Vitro Reconstitution of SARS-Coronavirus mRNA Cap Methylation
Journal Article

In Vitro Reconstitution of SARS-Coronavirus mRNA Cap Methylation

Selisko, Barbara,
Bouvet, Mickaël,
Snijder, Eric J.,
Canard, Bruno,
Imbert, Isabelle,
Decroly, Etienne,
Debarnot, Claire
2010
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Overview
SARS-coronavirus (SARS-CoV) genome expression depends on the synthesis of a set of mRNAs, which presumably are capped at their 5' end and direct the synthesis of all viral proteins in the infected cell. Sixteen viral non-structural proteins (nsp1 to nsp16) constitute an unusually large replicase complex, which includes two methyltransferases putatively involved in viral mRNA cap formation. The S-adenosyl-L-methionine (AdoMet)-dependent (guanine-N7)-methyltransferase (N7-MTase) activity was recently attributed to nsp14, whereas nsp16 has been predicted to be the AdoMet-dependent (nucleoside-2'O)-methyltransferase. Here, we have reconstituted complete SARS-CoV mRNA cap methylation in vitro. We show that mRNA cap methylation requires a third viral protein, nsp10, which acts as an essential trigger to complete RNA cap-1 formation. The obligate sequence of methylation events is initiated by nsp14, which first methylates capped RNA transcripts to generate cap-0 (7Me)GpppA-RNAs. The latter are then selectively 2'O-methylated by the 2'O-MTase nsp16 in complex with its activator nsp10 to give rise to cap-1 (7Me)GpppA(2'OMe)-RNAs. Furthermore, sensitive in vitro inhibition assays of both activities show that aurintricarboxylic acid, active in SARS-CoV infected cells, targets both MTases with IC(50) values in the micromolar range, providing a validated basis for anti-coronavirus drug design.
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Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject

Distribution

/ Enzymes

/ Exoribonucleases - chemistry

/ Exoribonucleases - genetics

/ Exoribonucleases - metabolism

/ Experiments

/ Gene Expression Regulation, Viral

/ Genomes

/ In Vitro Techniques

/ Messenger RNA

/ Methylation

/ Nucleosides

/ Proteins

/ Risk factors

/ RNA Caps - chemistry

/ RNA Caps - genetics

/ RNA Caps - metabolism

/ RNA polymerase

/ RNA, Messenger

/ SARS Virus - chemistry

/ SARS Virus - genetics

/ SARS Virus - metabolism

/ Severe acute respiratory syndrome

/ tRNA Methyltransferases

/ Viral Nonstructural Proteins - chemistry

/ Viral Nonstructural Proteins - genetics

/ Viral Nonstructural Proteins - metabolism

/ Virology/Antivirals, including Modes of Action and Resistance

/ Virology/Emerging Viral Diseases

/ Virology/Viral and Gene Regulation

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