Detection of genome-scale ordered RNA structure (GORS) in genomes of positive-stranded RNA viruses: Implications for virus evolution and host persistence

Simmonds, Peter; Tuplin, Andrew; Evans, David J.

doi:10.1261/rna.7640104

Cited by 194 publications

(253 citation statements)

References 45 publications

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“…1 and 2C). These regions may be evolving under a complex mix of pressures related to maintaining highly compacted physical configurations (18,19) while evading immune recognition. HCV genomes replicate in the presence of innate immune response sensors that detect single-stranded (RNase L) and double-stranded (PKR and others) viral RNAs.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Functionally conserved architecture of hepatitis C virus RNA genomes

Mauger¹,

Golden

Yamane

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

126

190

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Hepatitis C virus (HCV) infects over 170 million people worldwide and is a leading cause of liver disease and cancer. The virus has a 9,650-nt, single-stranded, messenger-sense RNA genome that is infectious as an independent entity. The RNA genome has evolved in response to complex selection pressures, including the need to maintain structures that facilitate replication and to avoid clearance by cell-intrinsic immune processes. Here we used highthroughput, single-nucleotide resolution information to generate and functionally test data-driven structural models for three diverse HCV RNA genomes. We identified, de novo, multiple regions of conserved RNA structure, including all previously characterized cisacting regulatory elements and also multiple novel structures required for optimal viral fitness. Well-defined RNA structures in the central regions of HCV genomes appear to facilitate persistent infection by masking the genome from RNase L and double-stranded RNA-induced innate immune sensors. This work shows how structure-first comparative analysis of entire genomes of a pathogenic RNA virus enables comprehensive and concise identification of regulatory elements and emphasizes the extensive interrelationships among RNA genome structure, viral biology, and innate immune responses.RNA structure | evolution | motif discovery | functional validation H epatitis C virus (HCV) currently infects over 170 million people. There is no vaccine, and therapy, generally involving treatment with IFN and ribavirin, is often ineffective (1). Efficacious anti-HCV therapeutics are becoming available (2), but the extent to which they will mitigate the hepatitis C disease burden remains to be seen. Roughly 70% of acutely infected individuals fail to clear the virus and become lifelong HCV carriers, at risk for progressive hepatic fibrosis, cirrhosis, and hepatocellular carcinoma (3).HCV genomes are single-stranded, ∼9,650-nt, messengersense RNA molecules (4). The naked RNA initiates autonomous replication when transfected into cells and establishes chronic HCV infection in chimpanzees (5, 6). The HCV genomic RNA carries genetic information at two levels: a single large ORF encodes viral proteins and complex RNA structural elements regulate the viral replication cycle (4). Viral replication begins when conserved RNA elements in the 5′ UTR bind the 40S ribosome subunit and recruit essential translation factors (7). Translation produces a viral polyprotein that is cleaved by cellular and viral proteases to generate 10 viral proteins (4). The HCV genome is replicated through a negative-strand RNA intermediate by a viral RNA-dependent RNA polymerase (NS5B) in a process controlled by conserved RNA elements (8-17).The HCV genomic RNA is physically compact (18) and highly structured (19). These features likely facilitate persistent HCV infections in humans by protecting the genome from degradation by innate antiviral defenses (20,21). Two elements of this defense are RNase L, which cleaves in single-stranded regions (22), and diverse double...

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Section: Discussionmentioning

confidence: 99%

“…The HCV genomic RNA is physically compact (18) and highly structured (19). These features likely facilitate persistent HCV infections in humans by protecting the genome from degradation by innate antiviral defenses (20,21).…”

mentioning

confidence: 99%

Functionally conserved architecture of hepatitis C virus RNA genomes

Mauger¹,

Golden

Yamane

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

126

190

View full text Add to dashboard Cite

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“…Although frequencies of persistence in PKV and other kobuviruses are poorly documented, genomes of all members of this genus possess structured RNA genomes (Davis et al, 2008;Simmonds et al, 2004) -a generic property associated with persistence in several other picornavirus genera and amongst other families of positive-stranded RNA viruses. High rates of detection in older pigs and …”

Section: Infection Frequencies Diversity and Disease Associations Ofmentioning

confidence: 99%

Large-scale screening and characterization of enteroviruses and kobuviruses infecting pigs in Vietnam

Dũng

Anh

Cương

et al. 2016

Journal of General Virology

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A recent survey of pigs in Dong Thap province, Vietnam identified a high frequency of enterovirus species G (EV-G) infection (144/198; 72.7 %). Amongst these was a plethora of EV-G types (EV-G1, EV-G6 and four new types EV-G8-EV-G11). To better characterize the genetic diversity of EV-G and investigate the possible existence of further circulating types, we performed a larger-scale study on 484 pig and 45 farm-bred boar faecal samples collected in 2012 and 2014, respectively. All samples from the previous and current studies were also screened for kobuviruses. The overall EV infection frequency remained extremely high (395/484; 81.6 %), but with comparable detection rates and viral loads between healthy and diarrhoeic pigs; this contrasted with less frequent detection of EV-G in boars (4/45; 8.9 %). EV was most frequently detected in pigs j14 weeks old (,95 %) and declined in older pigs. Infections with EV-G1 and EV-G6 were most frequent, whilst less commonly detected types included EV-G3, EV-G4 and EV-G8-EV-G11, and five new types (EV-G12-EV-G16). In contrast, kobuvirus infection frequency was significantly higher in diarrhoeic pigs (40.9 versus 27.6 %; P50.01). Kobuviruses also showed contrasting epizootiologies and age associations; a higher prevalence was found in boars (42 %) compared with domestic pigs (29 %), with the highest infection frequency amongst pigs .52 weeks old. Although genetically diverse, all kobuviruses identified belonged to the species Aichivirus C. In summary, this study confirms infection with EV-G was endemic in Vietnamese domestic pigs and exhibits high genetic diversity and extensive inter-type recombination.

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“…For example, an RNA structure in the 3C pro coding region of poliovirus (ciRNA) binds RNase L, competitively inhibiting its antiviral activity (Han et al, 2007;Keel et al, 2012). Many positive-stranded RNA viruses, such as HCV, exhibit extensive RNA structure designated genome-scale ordered RNA structure (GORS) (Simmonds et al, 2004). Distinct from discrete structural elements, GORS inhibits detection by cellular PRRs with its presence correlating to persistent viruses .…”

Section: Evasion Of Innate Immune Responsesmentioning

confidence: 99%

Diverse roles and interactions of RNA structures during the replication of positive-stranded RNA viruses of humans and animals

Tuplin

2015

Journal of General Virology

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Positive-stranded RNA viruses include important human, animal and plant pathogens. Their genomes are able to fold into complex structures stabilized by base pairing between individual nucleotides, many of which are highly conserved and have essential functions during virus replication. With new studies and technological advances the diversity of roles, mechanisms and interactions in which such structured viral RNA functions is becoming increasingly clear. It is also evident that many RNA structures do not function as discrete elements but through mechanisms involving multiple, long-range and often dynamic RNA-RNA interactions. Through a range of examples and recent advances, this review illustrates the diverse roles and mechanisms of structured viral RNA during the replication of positive-stranded RNA viruses infecting humans and animals.

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Detection of genome-scale ordered RNA structure (GORS) in genomes of positive-stranded RNA viruses: Implications for virus evolution and host persistence

Cited by 194 publications

References 45 publications

Functionally conserved architecture of hepatitis C virus RNA genomes

Functionally conserved architecture of hepatitis C virus RNA genomes

Large-scale screening and characterization of enteroviruses and kobuviruses infecting pigs in Vietnam

Diverse roles and interactions of RNA structures during the replication of positive-stranded RNA viruses of humans and animals

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