Abstract
Whereas Telomeres protect terminal ends of linear chromosomes telomerases identify natural chromosome ends being different from broken DNA. Although telomeres play a crucial role in the linear chromosome organisation of eukaryotic cells, their molecular syntax descended from an ancient retroviral competence. This is an indicator for the early retroviral colonization of large double stranded DNA viruses, which are putative ancestors of the eukaryotic nucleus. This contribution will demonstrate an advantage of the biosemiotic approach towards our evolutionary understanding of telomeres: focus on the genetic/genomic structures as language-like text which follows combinatorial (syntactic), context-sensitive (pragmatic) and content-specific (semantic) semiotic rules. Genetic/genomic organisation from the biosemiotic perspective is not seen any longer as an object of randomly derived alterations (mutations) but as functional innovation coherent with the broad variety of natural genome editing competences of viruses.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call