Author: Deng, Zengqin; Lehmann, Kathleen C.; Li, Xiaorong; Feng, Chong; Wang, Guoqiang; Zhang, Qi; Qi, Xiaoxuan; Yu, Lin; Zhang, Xingliang; Feng, Wenhai; Wu, Wei; Gong, Peng; Tao, Ye; Posthuma, Clara C.; Snijder, Eric J.; Gorbalenya, Alexander E.; Chen, Zhongzhou
Title: Structural basis for the regulatory function of a complex zinc-binding domain in a replicative arterivirus helicase resembling a nonsense-mediated mRNA decay helicase Document date: 2013_12_24
ID: 471zei5o_49
Snippet: If the nidovirus helicase possesses some of the properties of Upf1, this could explain the exclusive conservation of ZBD in nidoviruses, which stand out for their large to very large single-stranded RNA genomes. For instance, by providing post-transcriptional quality control of genomic RNA, i.e. detection of nonsense and/ or other mutations and elimination of defective molecules, the nidovirus helicase could alleviate the consequences of the gene.....
Document: If the nidovirus helicase possesses some of the properties of Upf1, this could explain the exclusive conservation of ZBD in nidoviruses, which stand out for their large to very large single-stranded RNA genomes. For instance, by providing post-transcriptional quality control of genomic RNA, i.e. detection of nonsense and/ or other mutations and elimination of defective molecules, the nidovirus helicase could alleviate the consequences of the generally low fidelity of RNA virus genome replication. Such a role of ZBD-HEL1 may have protected an ancestral nidovirus from the mutational meltdown of its expanding genome, similar to the proposed fixation of the proofreading ExoN domain at a later stage of nidovirus evolution (19, 24, 25, 28) . Subsequently, the enzyme would have facilitated expansion to the genome size observed in contemporary arteriviruses, and remained a critical factor in the further ExoN-driven genome expansion to evolve middle-and large-sized nidoviruses. Thus, the proposed Upf1-like role of the nidovirus helicase can be accommodated in a meaningful evolutionary scenario incorporating several of the structural and functional observations made in this study. The structural similarity between nsp10 and Upf1 establishes a new connection between research on viral and cellular helicases, which could be mutually insightful for understanding the evolution and function of this group of vitally important enzymes.
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