Plum pox virus (PPV), a significant member of the genus Potyvirus, represents a global agricultural challenge, causing significant economic losses and threatening fruit farming due to its easy transmission to most Prunus species. Here, we present the high-resolution structural characterization of PPV using cryo-electron microscopy (cryo-EM). The reconstructed structure at 2.9 Å reveals a filamentous virion with a helical assembly formed by the coat protein (CP), which encapsidates a single-stranded RNA (ssRNA) genome. The structure of the CP core shows remarkable conservation with other potyviruses, with an RNA binding site and inter-subunit interactions mediated in part by the N-terminal arm, which is confirmed here to have a disordered structure. Mass spectrometry analysis identified numerous post-translational modifications, mostly phosphorylation, primarily in the flexible N-terminal region. In silico predictions revealed intrinsically disordered regions, which is compatible with the amyloidogenic properties of the CP. These results provide new insights into the architecture and assembly of PPV, offering a basis for future studies and, possibly, antiviral strategies.
Structural characterization of plum pox virus by cryo-electron microscopy / D.M.V. Bonnet, A. Chaves-Sanjuan, N. Contaldo, A. De Stradis, R. Caliandro, A. Minafra, F. Geuna. - In: ARCHIVES OF VIROLOGY. - ISSN 0304-8608. - 171:1(2025 Dec), pp. 1-12. [10.1007/s00705-025-06473-5]
Structural characterization of plum pox virus by cryo-electron microscopy
D.M.V. BonnetPrimo
;A. Chaves-Sanjuan;F. Geuna
Ultimo
2025
Abstract
Plum pox virus (PPV), a significant member of the genus Potyvirus, represents a global agricultural challenge, causing significant economic losses and threatening fruit farming due to its easy transmission to most Prunus species. Here, we present the high-resolution structural characterization of PPV using cryo-electron microscopy (cryo-EM). The reconstructed structure at 2.9 Å reveals a filamentous virion with a helical assembly formed by the coat protein (CP), which encapsidates a single-stranded RNA (ssRNA) genome. The structure of the CP core shows remarkable conservation with other potyviruses, with an RNA binding site and inter-subunit interactions mediated in part by the N-terminal arm, which is confirmed here to have a disordered structure. Mass spectrometry analysis identified numerous post-translational modifications, mostly phosphorylation, primarily in the flexible N-terminal region. In silico predictions revealed intrinsically disordered regions, which is compatible with the amyloidogenic properties of the CP. These results provide new insights into the architecture and assembly of PPV, offering a basis for future studies and, possibly, antiviral strategies.
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