EMD-39867
Cryo-EM structure of Thogoto virus polymerase in a replication reception conformation
EMD-39867
Single-particle2.33 Å
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Map released: 29/05/2024
Last modified: 19/06/2024
Sample Organism:
Thogoto virus (isolate SiAr 126)
Sample: Cryo-EM structure of Thogoto virus polymerase in a replication reception conformation
Fitted models: 8z9q (Avg. Q-score: 0.6)
Deposition Authors: Xue L, Chang T, Li Z, Zhao H, Li M, He J
,
Chen X
,
Xiong X
Sample: Cryo-EM structure of Thogoto virus polymerase in a replication reception conformation
Fitted models: 8z9q (Avg. Q-score: 0.6)
Deposition Authors: Xue L, Chang T, Li Z, Zhao H, Li M, He J
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Cryo-EM structures of Thogoto virus polymerase reveal unique RNA transcription and replication mechanisms among orthomyxoviruses.
Xue L,
Chang T,
Li Z,
Wang C
,
Zhao H,
Li M,
Tang P
,
Wen X,
Yu M,
Wu J,
Bao X
,
Wang X
,
Gong P
,
He J
,
Chen X
,
Xiong X
(2024) Nat Commun , 15 , 4620 - 4620
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(2024) Nat Commun , 15 , 4620 - 4620
Abstract:
Influenza viruses and thogotoviruses account for most recognized orthomyxoviruses. Thogotoviruses, exemplified by Thogoto virus (THOV), are capable of infecting humans using ticks as vectors. THOV transcribes mRNA without the extraneous 5' end sequences derived from cap-snatching in influenza virus mRNA. Here, we report cryo-EM structures to characterize THOV polymerase RNA synthesis initiation and elongation. The structures demonstrate that THOV RNA transcription and replication are able to start with short dinucleotide primers and that the polymerase cap-snatching machinery is likely non-functional. Triggered by RNA synthesis, asymmetric THOV polymerase dimers can form without the involvement of host factors. We confirm that, distinctive from influenza viruses, THOV-polymerase RNA synthesis is weakly dependent of the host factors ANP32A/B/E in human cells. This study demonstrates varied mechanisms in RNA synthesis and host factor utilization among orthomyxoviruses, providing insights into the mechanisms behind thogotoviruses' broad-infectivity range.
Influenza viruses and thogotoviruses account for most recognized orthomyxoviruses. Thogotoviruses, exemplified by Thogoto virus (THOV), are capable of infecting humans using ticks as vectors. THOV transcribes mRNA without the extraneous 5' end sequences derived from cap-snatching in influenza virus mRNA. Here, we report cryo-EM structures to characterize THOV polymerase RNA synthesis initiation and elongation. The structures demonstrate that THOV RNA transcription and replication are able to start with short dinucleotide primers and that the polymerase cap-snatching machinery is likely non-functional. Triggered by RNA synthesis, asymmetric THOV polymerase dimers can form without the involvement of host factors. We confirm that, distinctive from influenza viruses, THOV-polymerase RNA synthesis is weakly dependent of the host factors ANP32A/B/E in human cells. This study demonstrates varied mechanisms in RNA synthesis and host factor utilization among orthomyxoviruses, providing insights into the mechanisms behind thogotoviruses' broad-infectivity range.