A fijivirus major viroplasm protein shows RNA-stimulated ATPase activity by adopting pentameric and hexameric assemblies of dimers

The fijivirus Mal de R&iacuteo Cuarto virus (MRCV) causes a devastating maize disease. Its non-structural protein P9-1, which shows ATPase and RNA binding activities, is the major component of the intracellular viroplasm where virus replication takes place. Herein, we established that the 24 C-t...

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Published in	bioRxiv
Main Authors	Llauger, Gabriela, Melero, Roberto, Monti, Demian, Sycz, Gabriela, Huck-Iriart, Cristian, Cerutti, Maria L, Klinke, Sebastian, Mikkelsen, Evelyn, Tijman, Ariel, Arranz, Rocio, Alfonso, Victoria, Arellano, Sofia M, Goldbaum, Fernando A, Sterckx, Yann Gj, Jose-Maria Carazo, Kaufman, Sergio B, Dans, Pablo D, Mariana Del Vas, Otero, Lisandro H
Format	Paper
Language	English
Published	Cold Spring Harbor Cold Spring Harbor Laboratory Press 17.04.2022 Cold Spring Harbor Laboratory
Edition	1.1
Subjects	Adenosine triphosphatase Allosteric properties Binding sites Biochemistry Computer applications Crop diseases Hexamers Proteasomes Proteins Ribonucleic acid RNA Viroplasm protein-nucleic acid interaction protein structure X-ray crystallography molecular dynamics simulations reovirus ATPase RNA binding protein Plant virus double‐stranded RNA virus viroplasm small-angle X-ray scattering cryo-electron microscopy
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ISSN	2692-8205 2692-8205
DOI	10.1101/2022.04.16.488468

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Abstract	The fijivirus Mal de R&iacuteo Cuarto virus (MRCV) causes a devastating maize disease. Its non-structural protein P9-1, which shows ATPase and RNA binding activities, is the major component of the intracellular viroplasm where virus replication takes place. Herein, we established that the 24 C-terminal residues (C-arm) of P9-1 are required for the formation of viroplasm-like structures (VLS) in vivo and for the protein multimerization in vitro. Employing an integrative structural approach, we found that the C-arm is dispensable for P9-1 dimer assembly, but essential for the formation of doughnut-shaped pentamers and hexamers of dimers (decamers and dodecamers). Both assemblies, larger than those reported for other reoviruses, contain disordered loops oriented towards the inner pore of the structures, where RNA binding sites and conditional proteasome-mediated degradation signals (PEST) were predicted. In vitro assays demonstrated that ssRNA binding is favored towards P9-1 (do)decamers over the dimeric ΔC-arm version. In addition, although both P9-1 and P9-1ΔC-arm catalyzed the hydrolysis of ATP with similar activity values, an RNA-stimulated ATPase activity was only observed in the full-length protein, indicating a C-arm-mediated interaction between the ATP catalytic site and the allosteric RNA binding sites in the (do)decameric assemblies. Computational studies revealed a stronger preference of phosphate moieties to the decamer in the pore and the C-arm regions, suggesting that the allosteric communication between ATP and RNA binding sites is favored with this protein arrangement. Overall, our work reveals the structural versatility of a major viroplasm protein providing unprecedented insights into fijivirus viroplasm assembly and function and establishes the structural basis for the development of antiviral strategies against the Mal de R&iacuteo Cuarto crop disease. Competing Interest Statement The authors have declared no competing interest.
AbstractList	The fijivirus Mal de R&iacuteo Cuarto virus (MRCV) causes a devastating maize disease. Its non-structural protein P9-1, which shows ATPase and RNA binding activities, is the major component of the intracellular viroplasm where virus replication takes place. Herein, we established that the 24 C-terminal residues (C-arm) of P9-1 are required for the formation of viroplasm-like structures (VLS) in vivo and for the protein multimerization in vitro. Employing an integrative structural approach, we found that the C-arm is dispensable for P9-1 dimer assembly, but essential for the formation of doughnut-shaped pentamers and hexamers of dimers (decamers and dodecamers). Both assemblies, larger than those reported for other reoviruses, contain disordered loops oriented towards the inner pore of the structures, where RNA binding sites and conditional proteasome-mediated degradation signals (PEST) were predicted. In vitro assays demonstrated that ssRNA binding is favored towards P9-1 (do)decamers over the dimeric ΔC-arm version. In addition, although both P9-1 and P9-1ΔC-arm catalyzed the hydrolysis of ATP with similar activity values, an RNA-stimulated ATPase activity was only observed in the full-length protein, indicating a C-arm-mediated interaction between the ATP catalytic site and the allosteric RNA binding sites in the (do)decameric assemblies. Computational studies revealed a stronger preference of phosphate moieties to the decamer in the pore and the C-arm regions, suggesting that the allosteric communication between ATP and RNA binding sites is favored with this protein arrangement. Overall, our work reveals the structural versatility of a major viroplasm protein providing unprecedented insights into fijivirus viroplasm assembly and function and establishes the structural basis for the development of antiviral strategies against the Mal de R&iacuteo Cuarto crop disease. Competing Interest Statement The authors have declared no competing interest. The fijivirus Mal de Río Cuarto virus (MRCV) causes a devastating maize disease. Its non-structural protein P9-1, which shows ATPase and RNA binding activities, is the major component of the intracellular viroplasm where virus replication takes place. Here, we established that the 24 C-terminal residues (C-arm) of P9-1 are required for the formation of viroplasm-like structures (VLS) in vivo and for the protein multimerization in vitro. Employing an integrative structural approach, we found that the C-arm is dispensable for P9-1 dimer assembly, but essential for the formation of doughnut-shaped pentamers and hexamers of dimers (decamers and dodecamers). Both assemblies, larger than those reported for other reoviruses, contain disordered loops oriented towards the inner pore of the structures, where RNA binding sites and conditional proteasome-mediated degradation signals (PEST) were predicted. In vitro assays demonstrated that ssRNA binding is favored towards P9-1 (do)decamers over the dimeric ΔC-arm version. In addition, although both P9-1 and P9-1ΔC-arm catalyze the hydrolysis of ATP with similar activity values, an RNA-stimulated ATPase activity was only observed in the full-length protein, indicating a C-arm-mediated interaction between the ATP catalytic site and the allosteric RNA binding sites in the (do)decameric assemblies. Computational studies revealed a stronger preference of phosphate moieties to the decamer in the pore and the C-arm regions, suggesting that the allosteric communication between the ATP and RNA binding sites is favored with this protein arrangement. Overall, our work reveals the structural versatility of a major viroplasm protein providing unprecedented insights into fijivirus viroplasm assembly and function and establishes the structural basis for the development of antiviral strategies against the Mal de Río Cuarto crop disease.
Author	Kaufman, Sergio B Llauger, Gabriela Otero, Lisandro H Cerutti, Maria L Sterckx, Yann Gj Alfonso, Victoria Mikkelsen, Evelyn Monti, Demian Arranz, Rocio Goldbaum, Fernando A Jose-Maria Carazo Mariana Del Vas Melero, Roberto Sycz, Gabriela Klinke, Sebastian Dans, Pablo D Huck-Iriart, Cristian Arellano, Sofia M Tijman, Ariel
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Cites_doi	10.3389/fmicb.2013.00409 10.18632/oncotarget.24243 10.15252/embj.2021107711
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Keywords	protein-nucleic acid interaction protein structure X-ray crystallography molecular dynamics simulations reovirus ATPase RNA binding protein Plant virus double‐stranded RNA virus viroplasm small-angle X-ray scattering cryo-electron microscopy
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Snippet	The fijivirus Mal de R&iacuteo Cuarto virus (MRCV) causes a devastating maize disease. Its non-structural protein P9-1, which shows ATPase and RNA binding... The fijivirus Mal de Río Cuarto virus (MRCV) causes a devastating maize disease. Its non-structural protein P9-1, which shows ATPase and RNA binding...
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SubjectTerms	Adenosine triphosphatase Allosteric properties Binding sites Biochemistry Computer applications Crop diseases Hexamers Proteasomes Proteins Ribonucleic acid RNA Viroplasm
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Title	A fijivirus major viroplasm protein shows RNA-stimulated ATPase activity by adopting pentameric and hexameric assemblies of dimers
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