Author
Listed:
- Dongdong Cao
(Emory University School of Medicine)
- Yunrong Gao
(Emory University School of Medicine)
- Zhenhang Chen
(Emory University School of Medicine)
- Inesh Gooneratne
(Emory University School of Medicine)
- Claire Roesler
(Emory University School of Medicine)
- Cristopher Mera
(Emory University School of Medicine)
- Paul D’Cunha
(Emory University School of Medicine)
- Anna Antonova
(Emory University School of Medicine)
- Deepak Katta
(Emory University School of Medicine)
- Sarah Romanelli
(Emory University School of Medicine)
- Qi Wang
(Emory University School of Medicine)
- Samantha Rice
(Emory University School of Medicine)
- Wesley Lemons
(Emory University School of Medicine)
- Anita Ramanathan
(Emory University School of Medicine)
- Bo Liang
(Emory University School of Medicine)
Abstract
The respiratory syncytial virus (RSV) polymerase is a multifunctional RNA-dependent RNA polymerase composed of the large (L) protein and the phosphoprotein (P). It transcribes the RNA genome into ten viral mRNAs and replicates full-length viral genomic and antigenomic RNAs1. The RSV polymerase initiates RNA synthesis by binding to the conserved 3′-terminal RNA promoters of the genome or antigenome2. However, the lack of a structure of the RSV polymerase bound to the RNA promoter has impeded the mechanistic understanding of RSV RNA synthesis. Here we report cryogenic electron microscopy structures of the RSV polymerase bound to its genomic and antigenomic viral RNA promoters, representing two of the first structures of an RNA-dependent RNA polymerase in complex with its RNA promoters in non-segmented negative-sense RNA viruses. The overall structures of the promoter-bound RSV polymerases are similar to that of the unbound (apo) polymerase. Our structures illustrate the interactions between the RSV polymerase and the RNA promoters and provide the structural basis for the initiation of RNA synthesis at positions 1 and 3 of the RSV promoters. These structures offer a deeper understanding of the pre-initiation state of the RSV polymerase and could aid in antiviral research against RSV.
Suggested Citation
Dongdong Cao & Yunrong Gao & Zhenhang Chen & Inesh Gooneratne & Claire Roesler & Cristopher Mera & Paul D’Cunha & Anna Antonova & Deepak Katta & Sarah Romanelli & Qi Wang & Samantha Rice & Wesley Lemo, 2024.
"Structures of the promoter-bound respiratory syncytial virus polymerase,"
Nature, Nature, vol. 625(7995), pages 611-617, January.
Handle:
RePEc:nat:nature:v:625:y:2024:i:7995:d:10.1038_s41586-023-06867-y
DOI: 10.1038/s41586-023-06867-y
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Citations
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Cited by:
- Ge Yang & Dong Wang & Bin Liu, 2024.
"Structure of the Nipah virus polymerase phosphoprotein complex,"
Nature Communications, Nature, vol. 15(1), pages 1-11, December.
- 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, 2024.
"Structural basis for dimerization of a paramyxovirus polymerase complex,"
Nature Communications, Nature, vol. 15(1), pages 1-14, December.
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