遗传过程是生物个体的自我复制过程。DNA的自我复制是染色体的自我复制,从而导致细胞乃至生物个体的自我复制的唯一化学原因。在细胞环境部,DNA的二分裂反应以及二分裂后的歧化反应是决定遗传过程的关键性化学反应。遗传的稳定性和连续性只与DNA的代谢平衡有关而与DNA的化学稳定性无关。遗传信息是DNA二分裂后一部分DAN单螺旋分解为小分子(DNA单螺旋片段,也就是遗传基因)时释放出的能量(eV)所携带(或伴随)的信息V。提出了一套化学符号(组分符号)和化学式(组分式和组分结构式)并用它们来写出两种DNA异构体的通式和Kornberg人工合成DNA的化学反应方程式,为从定性和定量两个方面来研究DNA的组成、结构和性质提供了新工具。 Genetic process is a biological process of self-replication. The self-replication of DNA is the only chemical reason for the self-duplication of chromosomes, which leads to the self-replication of cells and even biological individuals. In the cellular environment, the two-split reaction of DNA and the two-split disproportionation reaction are the key chemical reactions that determine the genetic process. Genetic stability and continuity only with the metabolic balance of DNA and DNA chemical stability has nothing to do. Genetic information is the information carried (or accompanied) by the energy (eV) released when a portion of the DAN single helix breaks down into small molecules (DNA single helix segments, ie, genes) after the second fission of DNA. A set of chemical symbols (component symbols) and chemical formulas (compositional and compositional formulas) were proposed and used to write out the chemical formulas for the two DNA isomers and Kornberg synthetic DNA. Quantitative two aspects to study the composition, structure and nature of DNA provides a new tool.