Title: Sodium Sodium Dexoribonulate: Studies on the effect on immunity and tissue regeneration
Introduction: The biological role of nucleic acids in the life of the human body is beyond doubt. These include the nucleic acid DNA (deoxyribuacylic acid), which is one of two fundamentally different forms of mononucleotides. Deoxynucleic acid (DNA) performs a number of important biological functions. In particular, it ensures the storage, transmission and implementation of genetic information and plays a key role in ensuring protein biosynthesis.
The acid of DNA is easily denatured, while its twin nucleotides adenine (A) - thymine (T), cytosine (C) - guanine (G) with slight heating slightly above the melting point of DNA (70-80 degrees Celsius) slowly undergo a reversible change in their atomic bonds, forming so-called thermal pairs (AT - pairs or nucleosides). As a result of the sequential rupture of hydrogen bonds between individual pairs, partially denatured DNA again undergoes spontaneous reverse molecular folding, ensuring mutual recognition of the two complementary nucleosomes included in their composition - ATCgT and GCCgc. This is a process known as the biothermalization process (intercalation). It is catalyzed by specific enzyme systems. In some cases, for example, during physiological transductions of DNA replication, in which enzymes of the enzymatic system transfer hereditary information from one parent DNA molecule to daughter ones. In scientific article 1, the authors studied the effectiveness of the use of Sodium Dexaribonate (ND), trying to establish the possible mechanisms of the biostimulating effect induced by this drug. To obtain statistically significant results, the authors used a wide range of methods for studying inducers and inducible biochemical processes. It is very interesting that the authors considered the problem of reactivity