Mutational signatures and heterogeneous host response revealed via large-scale characterization of SARS-CoV-2 genomic diversity

To dissect the mechanisms underlying the observed inflation of variants in SARS-CoV-2 genome, we present the largest up-to-date analysis of intra-host genomic diversity, which reveals that the majority of samples present a complex sublineage architecture, due to the interplay between host-related mutational processes and transmission dynamics. Strikingly, the deconvolution of the entire set of intra-host variants reveals the existence of mutually exclusive viral mutational signatures, which prove that distinct hosts differently respond to SARS-CoV-2 infections. In particular, two signatures are likely ruled by APOBEC and Reactive Oxygen Species (ROS), which induce hypermutation in a significant number of samples, and appear to be affected by severe purifying selection. Conversely, several mutations linked to low-rate mutational processes appear to transit to clonality in the population, eventually leading to the definition of new viral genotypes and to an increase of overall genomic diversity. Finally, we demonstrate that a high number of variants are observed in samples associated to independent lineages, likely due to signature-related mutational hotspots or to positive selection.