The C-terminal Domain of the Measles Virus Nucleoprotein Is Intrinsically Disordered and Folds upon Binding to the C-terminal Moiety of the Phosphoprotein

Longhi, Sonia; Receveur-Brechot, Véronique; Karlin, David; Johansson, Kenth; Darbon, Hervé; Bhella, David; Yeo, Robert; Finet, Stéphanie; Canard, Bruno

doi:10.1074/jbc.m300518200

Cited by 274 publications

(368 citation statements)

References 76 publications

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“…On the other hand, natively unfolded domains are often found in proteins capable of self-assembly into large multimeric complexes such as viral capsids and nucleocapsids (Namba, 2001). Natively unfolded domains both prevent unwanted spontaneous assembly of such proteins, as has been shown for the measles virus nucleoprotein (Longhi et al, 2003), and stabilize multimeric complexes due to folding upon interaction with the correct partners (Namba, 2001). …”

Section: Discussionmentioning

confidence: 99%

Domain organization of the N-terminal portion of hordeivirus movement protein TGBp1

Makarov

Rybakova

Ефимов

et al. 2009

Journal of General Virology

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Three 'triple gene block' proteins known as TGBp1, TGBp2 and TGBp3 are required for cell-tocell movement of plant viruses belonging to a number of genera including Hordeivirus. Hordeiviral TGBp1 interacts with viral genomic RNAs to form ribonucleoprotein (RNP) complexes competent for translocation between cells through plasmodesmata and over long distances via the phloem. Binding of hordeivirus TGBp1 to RNA involves two protein regions, the C-terminal NTPase/ helicase domain and the N-terminal extension region. This study demonstrated that the extension region of hordeivirus TGBp1 consists of two structurally and functionally distinct domains called the N-terminal domain (NTD) and the internal domain (ID). In agreement with secondary structure predictions, analysis of circular dichroism spectra of the isolated NTD and ID demonstrated that the NTD represents a natively unfolded protein domain, whereas the ID has a pronounced secondary structure. Both the NTD and ID were able to bind ssRNA non-specifically. However, whilst the NTD interacted with ssRNA non-cooperatively, the ID bound ssRNA in a cooperative manner. Additionally, both domains bound dsRNA. The NTD and ID formed low-molecular-mass oligomers, whereas the ID also gave rise to high-molecular-mass complexes. The isolated ID was able to interact with both the NTD and the C-terminal NTPase/helicase domain in solution. These data demonstrate that the hordeivirus TGBp1 has three RNA-binding domains and that interaction between these structural units can provide a basis for remodelling of viral RNP complexes at different steps of cell-to-cell and long-distance transport of virus infection. INTRODUCTIONTransport of plant viruses from cell to cell occurs through plasmodesmata and requires virus-encoded movement proteins (Boevink & Oparka, 2005;Lucas, 2006;Epel, 2009). In the genus Hordeivirus, viral movement proteins are represented by three proteins encoded by a 'triple gene block' (TGB) and referred to as TGBp1, TGBp2 and TGBp3 (Solovyev et al., 1996). The TGB is a conserved module of overlapping genes found in a number of virus groups (Morozov & Solovyev, 2003). Hordeivirus TGBp1 binds viral genomic RNA forming a cell-to-cell transportcompetent complex (Brakke et al., 1988;Kalinina et al., 2001;Lim et al., 2008;Jackson et al., 2009). TGBp2 and TGBp3 are small membrane proteins necessary for intracellular transport of complexes containing TGBp1 and viral RNA to plasmodesmata (Morozov & Solovyev, 2003;Zamyatnin et al., 2004; Haupt et al., 2005;Jackson et al., 2009 Lim et al., 2008;Jackson et al., 2009). Such TGBp1-RNA complexes are considered to be a form of viral genome capable of cell-to-cell and long-distance transport in plants (Morozov & Solovyev, 2003;Lim et al., 2008). In potex-like TGBs, the whole TGBp1 sequence is represented by the NTPase/helicase domain (HELD) with seven conserved motifs of the superfamily 1 NTPases/helicases (Gorbalenya et al., 1989), whereas the hordei-like TGBp1 has an additional N-terminal 'extension region' (Morozov & Solovyev, ...

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Section: Discussionmentioning

confidence: 99%

Domain organization of the N-terminal portion of hordeivirus movement protein TGBp1

Makarov

Rybakova

Ефимов

et al. 2009

Journal of General Virology

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“…Indeed, the C-terminal domain of the nucleoprotein (N tail ) of measles virus, which is involved in a number important functions, is intrinsically unstructured. [22][23][24][25] Metal-thiolate clusters-Several proteins known as metallothioneins rely on metal-thiolate clusters in their functions. There are at least ten known closely related metallothionein proteins expressed in humans.…”

Section: Ligands Interacting With Intrinsically Disordered Proteinsmentioning

confidence: 99%

Functional Anthology of Intrinsic Disorder. 3. Ligands, Post-Translational Modifications, and Diseases Associated with Intrinsically Disordered Proteins

et al. 2007

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Currently, the understanding of the relationships between function, amino acid sequence and protein structure continues to represent one of the major challenges of the modern protein science. As much as 50% of eukaryotic proteins are likely to contain functionally important long disordered regions. Many proteins are wholly disordered but still possess numerous biologically important functions. However, the number of experimentally confirmed disordered proteins with known biological functions is substantially smaller than their actual number in nature. Therefore, there is a crucial need for novel bioinformatics approaches that allow projection of the current knowledge from a few experimentally verified examples to much larger groups of known and potential proteins. The elaboration of a bioinformatics tool for the analysis of functional diversity of intrinsically disordered proteins and application of this data mining tool to >200,000 proteins from Swiss-Prot database, each annotated with at least one of the 875 functional keywords was described in the first paper of this series (Xie H., Vucetic S., Iakoucheva L.M., Oldfield C.J., Dunker A.K., Obradovic Z., Uversky V.N. (2006) Functional anthology of intrinsic disorder. I. Biological processes and functions of proteins with long disordered regions. J. Proteome Res.). Using this tool, we have found that out of the 711 Swiss-Prot functional keywords associated with at least 20 proteins, 262 were strongly positively correlated with long intrinsically disordered regions, and 302 were strongly negatively correlated. Illustrative examples of functional disorder or order were found for the vast majority of keywords showing strongest positive or negative correlation with intrinsic disorder, respectively. Some 80 Swiss-Prot keywords associated with disorder-and order-driven biological processes and protein functions were described in the first paper (Xie H., Vucetic S., Iakoucheva L.M., Oldfield C.J., Dunker A.K., Obradovic Z., Uversky V.N. NIH Public Access

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“…It is monomeric and consists of a flexible linker (aa 474 -517) fused to the X domain (XD) (aa 517-568). This linker is probably conserved also in MV PCT, as suggested by its high protease sensitivity (16).…”

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confidence: 99%

“…We have recently reported that MV PCT is responsible for the induced folding of N TAIL (16). The induced folding of N TAIL in the presence of its physiological partner opens new perspectives in the structural study of disordered regions within the MV replicative complex.…”

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confidence: 99%

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Crystal Structure of the Measles Virus Phosphoprotein Domain Responsible for the Induced Folding of the C-terminal Domain of the Nucleoprotein

Johansson

Bourhis

Campanacci

et al. 2003

Journal of Biological Chemistry

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Measles virus (MV) 1 is a member of the Paramyxovirinae sub-family within the Mononegavirales order. Its non-segmented, negative-sense, single-stranded RNA genome is packaged by the viral nucleoprotein (N) within a helical nucleocapsid. Mononegavirales use this N-RNA complex as a template for both transcription and replication. These reactions are carried out by the RNA-dependent RNA polymerase polymerase (L) in conjuction with the phosphoprotein (P) (for a review see Ref.

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The C-terminal Domain of the Measles Virus Nucleoprotein Is Intrinsically Disordered and Folds upon Binding to the C-terminal Moiety of the Phosphoprotein

Cited by 274 publications

References 76 publications

Domain organization of the N-terminal portion of hordeivirus movement protein TGBp1

Domain organization of the N-terminal portion of hordeivirus movement protein TGBp1

Functional Anthology of Intrinsic Disorder. 3. Ligands, Post-Translational Modifications, and Diseases Associated with Intrinsically Disordered Proteins

Crystal Structure of the Measles Virus Phosphoprotein Domain Responsible for the Induced Folding of the C-terminal Domain of the Nucleoprotein

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