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Literature DB >> 27572964

Highly heterogeneous mutation rates in the hepatitis C virus genome.

Ron Geller¹, Úrsula Estada², Joan B Peris¹, Iván Andreu¹, Juan-Vicente Bou¹, Raquel Garijo¹, José M Cuevas¹, Rosario Sabariegos³, Antonio Mas³, Rafael Sanjuán^1,4.

Abstract

Spontaneous mutations are the ultimate source of genetic variation and have a prominent role in evolution. RNA viruses such as hepatitis C virus (HCV) have extremely high mutation rates, but these rates have been inferred from a minute fraction of genome sites, limiting our view of how RNA viruses create diversity. Here, by applying high-fidelity ultradeep sequencing to a modified replicon system, we scored >15,000 spontaneous mutations, encompassing more than 90% of the HCV genome. This revealed >1,000-fold differences in mutability across genome sites, with extreme variations even between adjacent nucleotides. We identify base composition, the presence of high- and low-mutation clusters and transition/transversion biases as the main factors driving this heterogeneity. Furthermore, we find that mutability correlates with the ability of HCV to diversify in patients. These data provide a site-wise baseline for interrogating natural selection, genetic load and evolvability in HCV, as well as for evaluating drug resistance and immune evasion risks.

Entities: Species

Mesh：

Substances：
Nucleotides
RNA, Viral

Year: 2016 PMID： 27572964 DOI： 10.1038/nmicrobiol.2016.45

Source DB: PubMed Journal: Nat Microbiol ISSN： 2058-5276 Impact factor: 17.745

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