Discovery of the first insect nidovirus, a missing evolutionary link in the emergence of the largest RNA virus genomes.

Discovery of the first insect nidovirus, a missing evolutionary link in the emergence of the largest RNA virus genomes.

Nidoviruses with large genomes (26.3-31.7 kb; 'large nidoviruses'), including Coronaviridae and Roniviridae, are the most complex positive-sense single-stranded RNA (ssRNA+) viruses. Based on genome size, they are far separated from all other ssRNA+ viruses (below 19.6 kb), including the d...

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Main Authors: Phan Thi Nga, Maria del Carmen Parquet, Chris Lauber, Manmohan Parida, Takeshi Nabeshima, Fuxun Yu, Nguyen Thanh Thuy, Shingo Inoue, Takashi Ito, Kenta Okamoto, Akitoyo Ichinose, Eric J Snijder, Kouichi Morita, Alexander E Gorbalenya
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-09-01
Series:PLoS Pathogens
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21931546/pdf/?tool=EBI
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spelling doaj-51cf373c60954767a980f57a001898672021-04-21T17:09:14ZengPublic Library of Science (PLoS)PLoS Pathogens1553-73661553-73742011-09-0179e100221510.1371/journal.ppat.1002215Discovery of the first insect nidovirus, a missing evolutionary link in the emergence of the largest RNA virus genomes.Phan Thi NgaMaria del Carmen ParquetChris LauberManmohan ParidaTakeshi NabeshimaFuxun YuNguyen Thanh ThuyShingo InoueTakashi ItoKenta OkamotoAkitoyo IchinoseEric J SnijderKouichi MoritaAlexander E GorbalenyaNidoviruses with large genomes (26.3-31.7 kb; 'large nidoviruses'), including Coronaviridae and Roniviridae, are the most complex positive-sense single-stranded RNA (ssRNA+) viruses. Based on genome size, they are far separated from all other ssRNA+ viruses (below 19.6 kb), including the distantly related Arteriviridae (12.7-15.7 kb; 'small nidoviruses'). Exceptionally for ssRNA+ viruses, large nidoviruses encode a 3'-5'exoribonuclease (ExoN) that was implicated in controlling RNA replication fidelity. Its acquisition may have given rise to the ancestor of large nidoviruses, a hypothesis for which we here provide evolutionary support using comparative genomics involving the newly discovered first insect-borne nidovirus. This Nam Dinh virus (NDiV), named after a Vietnamese province, was isolated from mosquitoes and is yet to be linked to any pathology. The genome of this enveloped 60-80 nm virus is 20,192 nt and has a nidovirus-like polycistronic organization including two large, partially overlapping open reading frames (ORF) 1a and 1b followed by several smaller 3'-proximal ORFs. Peptide sequencing assigned three virion proteins to ORFs 2a, 2b, and 3, which are expressed from two 3'-coterminal subgenomic RNAs. The NDiV ORF1a/ORF1b frameshifting signal and various replicative proteins were tentatively mapped to canonical positions in the nidovirus genome. They include six nidovirus-wide conserved replicase domains, as well as the ExoN and 2'-O-methyltransferase that are specific to large nidoviruses. NDiV ORF1b also encodes a putative N7-methyltransferase, identified in a subset of large nidoviruses, but not the uridylate-specific endonuclease that - in deviation from the current paradigm - is present exclusively in the currently known vertebrate nidoviruses. Rooted phylogenetic inference by Bayesian and Maximum Likelihood methods indicates that NDiV clusters with roniviruses and that its branch diverged from large nidoviruses early after they split from small nidoviruses. Together these characteristics identify NDiV as the prototype of a new nidovirus family and a missing link in the transition from small to large nidoviruses.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21931546/pdf/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Phan Thi Nga
Maria del Carmen Parquet
Chris Lauber
Manmohan Parida
Takeshi Nabeshima
Fuxun Yu
Nguyen Thanh Thuy
Shingo Inoue
Takashi Ito
Kenta Okamoto
Akitoyo Ichinose
Eric J Snijder
Kouichi Morita
Alexander E Gorbalenya
spellingShingle Phan Thi Nga
Maria del Carmen Parquet
Chris Lauber
Manmohan Parida
Takeshi Nabeshima
Fuxun Yu
Nguyen Thanh Thuy
Shingo Inoue
Takashi Ito
Kenta Okamoto
Akitoyo Ichinose
Eric J Snijder
Kouichi Morita
Alexander E Gorbalenya
Discovery of the first insect nidovirus, a missing evolutionary link in the emergence of the largest RNA virus genomes.
PLoS Pathogens
author_facet Phan Thi Nga
Maria del Carmen Parquet
Chris Lauber
Manmohan Parida
Takeshi Nabeshima
Fuxun Yu
Nguyen Thanh Thuy
Shingo Inoue
Takashi Ito
Kenta Okamoto
Akitoyo Ichinose
Eric J Snijder
Kouichi Morita
Alexander E Gorbalenya
author_sort Phan Thi Nga
title Discovery of the first insect nidovirus, a missing evolutionary link in the emergence of the largest RNA virus genomes.
title_short Discovery of the first insect nidovirus, a missing evolutionary link in the emergence of the largest RNA virus genomes.
title_full Discovery of the first insect nidovirus, a missing evolutionary link in the emergence of the largest RNA virus genomes.
title_fullStr Discovery of the first insect nidovirus, a missing evolutionary link in the emergence of the largest RNA virus genomes.
title_full_unstemmed Discovery of the first insect nidovirus, a missing evolutionary link in the emergence of the largest RNA virus genomes.
title_sort discovery of the first insect nidovirus, a missing evolutionary link in the emergence of the largest rna virus genomes.
publisher Public Library of Science (PLoS)
series PLoS Pathogens
issn 1553-7366
1553-7374
publishDate 2011-09-01
description Nidoviruses with large genomes (26.3-31.7 kb; 'large nidoviruses'), including Coronaviridae and Roniviridae, are the most complex positive-sense single-stranded RNA (ssRNA+) viruses. Based on genome size, they are far separated from all other ssRNA+ viruses (below 19.6 kb), including the distantly related Arteriviridae (12.7-15.7 kb; 'small nidoviruses'). Exceptionally for ssRNA+ viruses, large nidoviruses encode a 3'-5'exoribonuclease (ExoN) that was implicated in controlling RNA replication fidelity. Its acquisition may have given rise to the ancestor of large nidoviruses, a hypothesis for which we here provide evolutionary support using comparative genomics involving the newly discovered first insect-borne nidovirus. This Nam Dinh virus (NDiV), named after a Vietnamese province, was isolated from mosquitoes and is yet to be linked to any pathology. The genome of this enveloped 60-80 nm virus is 20,192 nt and has a nidovirus-like polycistronic organization including two large, partially overlapping open reading frames (ORF) 1a and 1b followed by several smaller 3'-proximal ORFs. Peptide sequencing assigned three virion proteins to ORFs 2a, 2b, and 3, which are expressed from two 3'-coterminal subgenomic RNAs. The NDiV ORF1a/ORF1b frameshifting signal and various replicative proteins were tentatively mapped to canonical positions in the nidovirus genome. They include six nidovirus-wide conserved replicase domains, as well as the ExoN and 2'-O-methyltransferase that are specific to large nidoviruses. NDiV ORF1b also encodes a putative N7-methyltransferase, identified in a subset of large nidoviruses, but not the uridylate-specific endonuclease that - in deviation from the current paradigm - is present exclusively in the currently known vertebrate nidoviruses. Rooted phylogenetic inference by Bayesian and Maximum Likelihood methods indicates that NDiV clusters with roniviruses and that its branch diverged from large nidoviruses early after they split from small nidoviruses. Together these characteristics identify NDiV as the prototype of a new nidovirus family and a missing link in the transition from small to large nidoviruses.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/21931546/pdf/?tool=EBI
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