The Nucleocapsid of Paramyxoviruses: Structure and Function of an Encapsidated Template

Bloyet, Louis-Marie

doi:10.3390/v13122465

Cited by 16 publications

(22 citation statements)

References 220 publications

(422 reference statements)

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“…Similarly to other Mononegavirales 20,21 , the N- and C-terminal extensions of RSV N, termed NTD-arm (residues 1-36) and CTD-arm (residues 360-391) (Figure 1h), interact with the laterally adjacent N protomers thereby stabilising their oligomeric assembly on the RNA strand by subdomain swapping (Figure 2a). The visible part of the CTD-arm of N i lies on top of the CTD of N i+1 implying that in a helical NC it should be situated in between consecutive turns 4 .…”

Section: Resultsmentioning

confidence: 99%

“…All Mononegavirales NCs are left-handed helices, with the CTDs and the 3'-end of the RNA oriented towards the pointed end of the filaments and the NTDs and the 5'-end towards the barbed ends 20 . The paramyxoviral clam-shaped assemblies were proposed to seed the growth of the double-headed helices from the 5' to the 3' end, protect the 5' end from nucleases 10 and support encapsidation of several NCs per virion 24 , also documented for RSV 19,25 .…”

Section: Molecular Determinants Of the Longitudinal Ntd-ntd Interactionmentioning

confidence: 99%

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Structural landscape of the Respiratory Syncytial Virus nucleocapsids

Gonnin

Desfosses

Bacia‐Verloop

et al. 2023

Preprint

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Human Respiratory Syncytial Virus (RSV) is a prevalent cause of severe respiratory infections in children and the elderly. The viral genome, enwrapped by the nucleoprotein N into a helical nucleocapsid (NC), is a template for the viral RNA synthesis and a scaffold for the virion assembly. Although the structures of NC filaments representative of the other major families of the Mononegavirales order have been solved, a detailed understanding of the RSV NCs is missing. This cryo-electron microscopy (cryo-EM) analysis highlights the polymorphism of the RSV nucleocapsid-like assemblies. We reveal in particular the non-canonical arrangement of the RSV NC helix, composed of 16 N per asymmetric unit, and the resulting systematic variations in the RNA accessibility. We demonstrate that this unique helical symmetry originates from recurring longitudinal interactions by the C-terminal arm of the RSV N, whose truncation abrogates the inter-turn contacts. We report the cryo-EM structures of the full-length helical NC filaments, double-headed NCs, ring-capped NCs and double-decameric N-RNA rings, as well as those of the alternative assemblies formed by a C-terminally truncated N mutant. In addition, we demonstrate the functional importance of the interface involved in the formation of the double-headed and the ring-capped interactions. We put all these findings in the context of the RSV RNA synthesis machinery and delineate the structural basis for its further investigation.

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Section: Resultsmentioning

confidence: 99%

Section: Molecular Determinants Of the Longitudinal Ntd-ntd Interactionmentioning

confidence: 99%

Structural landscape of the Respiratory Syncytial Virus nucleocapsids

Gonnin

Desfosses

Bacia‐Verloop

et al. 2023

Preprint

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“…Other RNP-like particle structures have been solved in recent years by cryoEM for other paramyxoviruses (e.g., a cetacean morbillivirus or Sendai virus) [ 44 , 45 ]. Additional reviews specific to the nucleocapsid structure of paramyxoviruses can be found in [ 37 , 46 , 47 ].…”

Section: Structure Of the Nucleocapsid Of -Ssrnavmentioning

confidence: 99%

CryoEM of Viral Ribonucleoproteins and Nucleocapsids of Single-Stranded RNA Viruses

Modrego

Carlero

Arranz

et al. 2023

Viruses

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Single-stranded RNA viruses (ssRNAv) are characterized by their biological diversity and great adaptability to different hosts; traits which make them a major threat to human health due to their potential to cause zoonotic outbreaks. A detailed understanding of the mechanisms involved in viral proliferation is essential to address the challenges posed by these pathogens. Key to these processes are ribonucleoproteins (RNPs), the genome-containing RNA-protein complexes whose function is to carry out viral transcription and replication. Structural determination of RNPs can provide crucial information on the molecular mechanisms of these processes, paving the way for the development of new, more effective strategies to control and prevent the spread of ssRNAv diseases. In this scenario, cryogenic electron microscopy (cryoEM), relying on the technical and methodological revolution it has undergone in recent years, can provide invaluable help in elucidating how these macromolecular complexes are organized, packaged within the virion, or the functional implications of these structures. In this review, we summarize some of the most prominent achievements by cryoEM in the study of RNP and nucleocapsid structures in lipid-enveloped ssRNAv.

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“…For example, the HeV N protein α5-loop region contains two amino acid substitutions compared with the NiV N protein; L108V and E137D, both of which are solvent exposed [32]. Whether there is a functional relevance to these substitutions is unknown, however in the context of a helical nucleocapsid the α5-loop region is the main solvent exposed section of the N protomer and may be important for interactions with the RdRp complex during transcription and replication, or could potentially interface in-phase with the M protein lattice during virion assembly, as proposed for other paramyxoviruses [17][18][19]. Furthermore, the α5-loop region has also been identified as the main interface in intercalating interactions in the HeV N protein assembly (Figure 5), as well as in clamshell formation in NDV, NiV, and SeV nucleocapsid-like filaments (NLFs) [32,37,38].…”

Section: Comparison With Other Paramyxoviral N Protein Assembliesmentioning

confidence: 99%

“…The nucleocapsid associates with the viral RNA dependent RNA polymerase (RdRp) comprising the large (L) and phospho (P) proteins to form the holonucleocapsid. The N-RNA interaction is critical for virus multiplication as genomic RNA is only recognised by the RdRp as a template for mRNA transcription and genome replication when in the context of the assembled nucleocapsid (reviewed in [17]), and incorporation of genomic RNA into new virions depends on interactions between N protein within the nucleocapsid and the viral matrix (M) protein [17–19].…”

Section: Introductionmentioning

confidence: 99%

The cryoEM structure of theHendra henipavirusnucleoprotein reveals insights into paramyxoviral nucleocapsid architectures

Passchier,

White,

Maskell

et al. 2023

Preprint

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We report the first cryoEM structure of theHendra henipavirusnucleoprotein in complex with RNA, at 3.5 Å resolution, derived from single particle analysis of homotetradecameric RNA-bound N protein rings exhibiting D14 symmetry. The structure of the HeV N protein adopts the common bi-lobed paramyxoviral N protein fold; the N-terminal and C-terminal globular domains are bisected by an RNA binding cleft containing six RNA nucleotides and are flanked by the N-terminal and C-terminal arms, respectively. In common with other paramyxoviral nucleocapsids, the lateral interface between adjacent N and N+1protomers involves electrostatic and hydrophobic interactions mediated primarily through the N-terminal arm and globular domains with minor contribution from the C-terminal arm. However, the HeV N multimeric assembly uniquely identifies an additional interaction between N+1and N-1protomers. The model presented here broadens the understanding of RNA-bound paramyxoviral nucleocapsid architectures and provides a platform for further insight into the molecular biology of HeV, as well as the development of antiviral interventions.

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The Nucleocapsid of Paramyxoviruses: Structure and Function of an Encapsidated Template

Cited by 16 publications

References 220 publications

Structural landscape of the Respiratory Syncytial Virus nucleocapsids

Structural landscape of the Respiratory Syncytial Virus nucleocapsids

CryoEM of Viral Ribonucleoproteins and Nucleocapsids of Single-Stranded RNA Viruses

The cryoEM structure of theHendra henipavirusnucleoprotein reveals insights into paramyxoviral nucleocapsid architectures

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