Abstract
A method of Transitional Automorphic Mapping of the Genome on Itself (TAMGI) is aimed at combining detection and reconstruction of correlational and quasi-periodic motifs in the viral genomic RNA/DNA sequences. The motifs reconstructed by TAMGI are robust with respect to indels and point mutations and can be tried as putative therapeutic targets. We developed and tested the relevant theory and statistical criteria for TAMGI applications. The applications of TAMGI are illustrated by the study of motifs in the genomes of the severe acute respiratory syndrome coronaviruses SARS-CoV and SARS-CoV-2 (the latter coronavirus SARS-CoV-2 being responsible for the COVID-19 pandemic) packaged within filament-like helical capsid. Such ribonucleocapsid is transported into spherical membrane envelope with incorporated spike glycoproteins. Two other examples concern the genomes of viruses with icosahedral capsids, satellite tobacco mosaic virus (STMV) and bacteriophage PHIX174. A part of the quasi-periodic motifs in these viral genomes was evolved due to weakly specific cooperative interaction between genomic ssRNA/ssDNA and nucleocapsid proteins. The symmetry of the capsids leads to the natural selection of specific quasi-periodic motifs in the related genomic sequences. Generally, TAMGI provides a convenient tool for the study of numerous molecular mechanisms with participation of both quasi-periodic motifs and complete repeats, the genome organization, contextual analysis of cis/trans regulatory elements, data mining, and correlations in the genomic sequences.
Highlights
The development of antiviral drugs is based mainly on targeting specific motifs in viral proteins and/or viral genomes [1,2,3,4,5]
As the main information in viral genomes is related to the coding for different proteins needed for virus proliferation, the signals corresponding to genome packaging are evolved using the redundancy of the genetic code
The common paradigm for the cooperative specific interaction between genomic RNA/DNA and proteins is based on the consensus motifs in genomic sequences recognized by protein epitopes
Summary
The development of antiviral drugs is based mainly on targeting specific motifs in viral proteins and/or viral genomes [1,2,3,4,5]. We chose the genomes of the coronaviruses SARS-CoV and SARS-CoV-2 packaged within the helical capsid as well as the genomes of two viruses with the icosahedral capsids, satellite tobacco mosaic virus (STMV) and bacteriophage φX174 studied previously [19, 20] by different methods. Such choices allow us to cross-check the features detected by TAMGI and other methods
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