A Cautionary Tale: What if Stealth Adapted Viruses Incorporate the Covid-19 Spike Protein Coding mRNA into Their Genome?

Abstract

Stealth adaptation a generic evasion mechanism, with all viruses It the deletion or mutation of the genes coding for the relatively few virus components typically targeted by the cellular immune system. A further characteristic of certain stealth adapted viruses is the incorporation of additional genetic sequences of cellular and bacterial origins These “renegade” genetic sequences can be subsequently transmitted between humans as components of infectious stealth adapted viruses. The best characterized stealth adapted virus, referred in GenBank as stealth virus a derivative of an African green monkey simian cytomegalovirus (SCMV) It cultured a the chronic fatigue (CFS) A virus (stealth virus-2) psychosis Stealth virus-1 cloned and complete or partial DNA sequences of 248 clones submitted GenBank. Of these clones, 200 of the sequences correspond to regions of the SCMV genome. The sequences are unevenly distributed over the genome of the originating SCMV, with clear major deletions and genetic instability. Fourteen clones genetic sequences that were derived from non-coding regions of the human genome. These incorporated cellular sequences also undergone genetic changes indicative of the genetically stealth adapted virus genome Thirty-four sequences from stealth virus-1 protein-coding sequences. These sequences coinfection of with both stealth adapted and intracellular bacteria, with the bacteria-derived sequences specific metabolic functions and/or substituting for some of the ordinary capsids The overall genome of stealth virus-1 is genetically fragmented the likelihood of the cellular and bacteria-derived sequences incorporated into the virus genome by the cross-linking of fragments from the Cellular sequences incorporated into the stealth