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Structural basis for dimerization of a paramyxovirus polymerase complex

Jin Xie, Mohamed Ouizougun-Oubari, Li Wang, Guanglei Zhai, Daitze Wu, Zhaohu Lin, Manfu Wang, Barbara Ludeke, Xiaodong Yan, Tobias Nilsson, Lu Gao, Xinyi Huang, Rachel Fearns, Shuai Chen

2024Nature Communications34 citationsDOIOpen Access PDF

Abstract

The transcription and replication processes of non-segmented, negative-strand RNA viruses (nsNSVs) are catalyzed by a multi-functional polymerase complex composed of the large protein (L) and a cofactor protein, such as phosphoprotein (P). Previous studies have shown that the nsNSV polymerase can adopt a dimeric form, however, the structure of the dimer and its function are poorly understood. Here we determine a 2.7 Å cryo-EM structure of human parainfluenza virus type 3 (hPIV3) L-P complex with the connector domain (CD') of a second L built, while reconstruction of the rest of the second L-P obtains a low-resolution map of the ring-like L core region. This study reveals detailed atomic features of nsNSV polymerase active site and distinct conformation of hPIV3 L with a unique β-strand latch. Furthermore, we report the structural basis of L-L dimerization, with CD' located at the putative template entry of the adjoining L. Disruption of the L-L interface causes a defect in RNA replication that can be overcome by complementation, demonstrating that L dimerization is necessary for hPIV3 genome replication. These findings provide further insight into how nsNSV polymerases perform their functions, and suggest a new avenue for rational drug design.

Topics & Concepts

PolymerasePhosphoproteinBiologyDNA replicationRNA polymeraseTranscription factor II DChemistryRNA-dependent RNA polymeraseCell biologyComputational biologyMolecular biologyDNARNAGeneticsPhosphorylationGeneVirology and Viral DiseasesViral Infections and VectorsPlant Virus Research Studies
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