Comparison of Insertion, Deletion, and Point Mutations in the Genomes of Human Adenovirus HAdvC-2 and SARS-CoV-2

Abstract

Virus genome mutation profiles with insertion, deletion, and point mutations have recently been revealed to differ remarkably between viruses. In RNA viruses like human coronaviruses or influenza viruses, genome samples collected over two to three decades usually show point mutations in 10-20% of the bases, while the rate of insertion and/or deletion mutations (indels) largely depends on the virus. This study evaluates the mutation profiles of DNA viruses by comparing a recently sampled genome of human adenovirus species C type 2 (isolate SG06/HAdvC2/2016) with a genome of the same species sampled in the 1970s. It was found insertions of 23 bases at seven sites and deletions of 22 bases at nine sites. The longest indels were 6-base insertions in E2B and L4. All indels in the coding regions were in-frame mutations with base lengths in multiples of three. In the non-coding regions, the lengths of the indels ranged from 1-4 consecutive bases. Long indels with more than 10 consecutive bases, which comprise nearly half of indels in the SARS-CoV-2 genome, were absent. In other sites, the point mutation rate was approximately 0.3%, which was significantly lower than in RNA viruses. In summary, the estimated point mutation rate in human adenovirus species C type 2 (HAdvC-2) was over 10 times lower than in RNA viruses. Unlike the relatively long indels in the SARS-CoV-2 genome, the indels in HAdvC-2 were short, with 6 or fewer consecutive bases.

Keywords: deletion; human adenovirus; insertion; point mutation; severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2).