The authors argue that the genome emits light and radio-waves whose delocalized interference patterns create calibration fields (blueprints) for a system's space-time organization. This holographic-type information is being constantly and simultaneously read in billions of cells, accounting for the quick coordinated response typical of living systems. Gariaev and his team suggest that the genome operates like a "complex multi-wave laser with adjustable frequencies", able to produce light and radio waves which regulate the biosystem's space and time organization. This complex background is the basis for the correct expression of genetic material (peptide codes) during embyogenesis and adult life, accounting for the elusive self-regulation and specificity of DNA function in various tissues and under various conditions. Various solitons (optical, acoustic, conformational, rotable-oscillating, etc) excited in polynucleotide areas, and transmitted over large distances significantly exceeding the hydrogen-bond length, "become the apparatus for continual (non-local) reading of context RNA sequences on a whole".