In the evolution of animals, poisons (toxins) play an important role in the evolutionary tree. Based on the understanding of the production or loss of toxins, their biological relevance to other organisms and the understanding of their evolutionary methods, we understand many basic biological issues, such as adaptability to the environment and competition for survival. That's very helpful. The complex relationship between venom development and balance, as well as the complex relationship between venom, immunity, physical fitness, intelligence, genetic basis, and innate factors, contributes to evolution and also provides cost-benefit analysis and bioeconomic trade-offs. it is.
Fatal animal bites have been found worldwide. However, from enemies to friends, toxin research has deciphered many important discoveries and exciting experiments, and proved that many human diseases can be overcome, including many Nobel Prize-winning results and important clinical treatment programs. It is possible. According to our research, so far, less than 0.1% of toxic animal toxins have been produced in China. Toxin research is based on the knowledge of physiological toxin protein/peptide (TLP) because it emphasizes the similarity between venom and the immune system. Proposes the natural pairing hypothesis. In the process of evolution, toxins are closely related to humans. Our task is to find the correct natural pairing and interaction of body elements with toxins and endogenous toxin molecules. In nature, toxins can harm human life, but from a philosophical point of view, a good understanding of toxins is a more effective method than knowing yourself. Therefore, this is the reason for studying toxins.