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A coronaviral pore-replicase complex links RNA synthesis and export from double-membrane vesicles

Coronavirus-infected cells contain double-membrane vesicles (DMVs) that are key for viral RNA replication and transcription, perforated by hexameric pores connecting the vesicular lumen to the cytoplasm. How pores form and traverse two membranes, and how DMVs organize RNA synthesis, is unknown. Usin...

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Published in:	Science advances 2024-11, Vol.10 (45), p.eadq9580
Main Authors:	Chen, Anan, Lupan, Ana-Mihaela, Quek, Rui Tong, Stanciu, Stefan G, Asaftei, Mihaela, Stanciu, George A, Hardy, Kierra S, de Almeida Magalhães, Taciani, Silver, Pamela A, Mitchison, Timothy J, Salic, Adrian
Format:	Article
Language:	English
Subjects:	Coronavirus - metabolism Humans Models, Molecular RNA, Messenger - genetics RNA, Messenger - metabolism RNA, Viral - genetics RNA, Viral - metabolism RNA-Dependent RNA Polymerase - metabolism Viral Nonstructural Proteins - chemistry Viral Nonstructural Proteins - genetics Viral Nonstructural Proteins - metabolism Viral Replicase Complex Proteins - metabolism Virus Replication
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creator	Chen, Anan Lupan, Ana-Mihaela Quek, Rui Tong Stanciu, Stefan G Asaftei, Mihaela Stanciu, George A Hardy, Kierra S de Almeida Magalhães, Taciani Silver, Pamela A Mitchison, Timothy J Salic, Adrian
description	Coronavirus-infected cells contain double-membrane vesicles (DMVs) that are key for viral RNA replication and transcription, perforated by hexameric pores connecting the vesicular lumen to the cytoplasm. How pores form and traverse two membranes, and how DMVs organize RNA synthesis, is unknown. Using structure prediction and functional assays, we show that the nonstructural viral membrane protein nsp4 is the key pore organizer, spanning the double membrane and forming most of the pore lining. Nsp4 interacts with nsp3 on the cytoplasmic side and with the viral replicase inside the DMV. Newly synthesized mRNAs exit the DMV into the cytoplasm, passing through a narrow ring of conserved nsp4 residues. Steric constraints imposed by the ring predict that modified nucleobases block mRNA transit, resulting in broad-spectrum anticoronaviral activity.
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source	American Association for the Advancement of Science; PubMed (Medline)
subjects	Coronavirus - metabolism Humans Models, Molecular RNA, Messenger - genetics RNA, Messenger - metabolism RNA, Viral - genetics RNA, Viral - metabolism RNA-Dependent RNA Polymerase - metabolism Viral Nonstructural Proteins - chemistry Viral Nonstructural Proteins - genetics Viral Nonstructural Proteins - metabolism Viral Replicase Complex Proteins - metabolism Virus Replication
title	A coronaviral pore-replicase complex links RNA synthesis and export from double-membrane vesicles
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