Structure and assembly of double-headed Sendai virus nucleocapsids

Abstract

Paramyxoviruses, including the mumps virus, measles virus, Nipah virus and Sendai virus (SeV), have non-segmented single-stranded negative-sense RNA genomes which are encapsidated by nucleoproteins into helical nucleocapsids. Here, we reported a double-headed SeV nucleocapsid assembled in a tail-to-tail manner, and resolved its helical stems and clam-shaped joint at the respective resolutions of 2.9 and 3.9\u2009Å, via cryo-electron microscopy. Our structures offer important insights into the mechanism of the helical polymerization, in particular via an unnoticed exchange of a N-terminal hole formed by three loops of nucleoproteins, and unveil the clam-shaped joint in a hyper-closed state for nucleocapsid dimerization. Direct visualization of the loop from the disordered C-terminal tail provides structural evidence that C-terminal tail is correlated to the curvature of nucleocapsid and links nucleocapsid condensation and genome replication and transcription with different assembly forms. The authors present the reconstruction of the Sendai Virus N-RNA complex at atomic resolution, including the helical part and a clam-shaped joint, resolved to 2.9 and 3.9\u2009Å respectively, via cryo-EM. They also demonstrate the presence of an additional, ring like structural motif stabilising Nprotein interactions.