engleski

Fundamental role of start/stop regulators in whole DNA and new trinucleotide classification

The origin and logic of genetic code are two of greatest mysteries of life sciences. Analyzing DNA sequences we showed that the start/stop trinucleotides have broader importance than just marking start and stop of exons in coding DNA. On this basis, here we introduced new classification of trinucleotides and showed that all A+T rich trinucleotides consisting of three different nucleotides arise from start-ATG, stop-TGA and stop-TAG using their complement, reverse complement and reverse transformations. Due to the same transformations during generations of crossing-over they can switch from one form to the other. By direct process the start-ATG and stop-TAG can irreversibly transform into stop-TAA. By transformation into A+T rich trinucleotides and 16/32 C+G rich they can lose the start/stop function and take the role of a sense codon in reversible way. The remaining 16 C+G trinucleotides cannot directly transform into start/stop trinucleotides and thus remain a firm skeleton for structuring the C+G rich DNA. We showed that start/stops strongly enrich the A+T rich noncoding DNA through frequently extended forms. From the evolutionary viewpoint the start/stops are chief creators of prevailing A+T rich noncoding DNA, and of more stable coding DNA. We propose that start/stops have basic role as “seeds” in trinucleotide evolution of noncoding and coding sequences and lead to asymmetry between A+T and C+G rich DNA. By dynamical transformations during evolution they enabled pronounced phylogenetic broadness, keeping the regulator function.

Start trinucleotide;; Stop trinucleotides; Genetic code; Trinucleotide classification; Noncoding DNA; Regulators

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