Bringing the Supermarket to the Apocalypse Chapter 515:
A method for raising a special statement to a general statement or the principle of the law theorem. Empirical science comes from observations and experiments, and a large number of original records are merged into few law theorems to form an orderly knowledge system. This is the process of forming empirical science. It can be seen how induction is effective and reliable. This is the most important issue to be studied by empirical science. Since the extension of science in a strict sense, exploration and debate in this area have never stopped.
The method of deriving a special statement or deriving another statement from a general statement or axiom principle. In the deductive argument, the general conclusion is the basis, and the individual conclusion is the argument. Deductive reasoning is the opposite of inductive reasoning, which reflects the general to individual logical relationship between arguments and arguments.
The main form of deductive reasoning is syllogism, that is, major premise, minor premise and conclusion. The big premise is general affairs and the small premise is that the conclusion of individual things is the argument. Argumentation by deductive method must conform to the form of deductive reasoning.
At this point, I have to mention that one of the most terrifying and most crazy products of apocalypse, the virus, the cause of apocalypse, is also the origin of everything.
Virology is a new subject formed by the penetration and fusion of virology and molecular biology. Specifically, it is a study of the structure and function of the virus Bloodline group based on a full understanding of the general morphology and structural characteristics of the virus, to explore the virus Bloodline group replication, Bloodline expression and its regulatory mechanism, thereby revealing the virus infection and pathogenicity The molecular essence of the science provides a theoretical basis and scientific basis for the development of viral Bloodline engineering vaccines and antiviral drugs, as well as the diagnosis, prevention and treatment of viral diseases.
Virology is a science that takes the smallest cell-free biological virus as a research object. As a class of biological factors in the Earth ’s biosphere, humans have also experienced a century of understanding of the nature of viruses and their laws of life. Virology has achieved tremendous development, and has now become an important branch of life sciences. The content of virology research involves various aspects of the virus's types, components, structure, metabolism, growth and reproduction, genetics, evolution, distribution and other life activities, as well as the relationship between the virus and other organisms and the environment.
Virology research is closely related to life sciences and biotechnology, because viruses are the simplest model for studying life activities, providing a powerful tool for modern research on the structure and function of biological macromolecules, and efficient expression and regulation of the Bloodline group. The process of recognizing life phenomena provides a lot of basic information. At the same time, on the one hand, the virus can cause various diseases of animals, plants and humans, such as AIDS, which is still a huge threat to human survival. On the other hand, it can be used to eliminate pests and as an expression vector for exogenous Bloodline , Can be used by humans. Virology involves a wide range of fields such as medicine, veterinary medicine, environment, agriculture, and industry. It has developed into sub-disciplines such as bacteriophage, medical virology, veterinary virology, environmental virology, plant virology, and insect virology. Virology has become a key subject that people must study in depth to understand the nature of life, develop the national economy, and ensure the health of humans and animals.
Medical virology is an important branch of virology, mainly to study the characteristics of viruses from a medical perspective, sometimes called medical molecular virology. The scope of medical virology research includes the nature of the virus, the mode of transmission and pathogenic mechanism, as well as the application of drug and vaccine research. It is closely related to molecular biology and pharmacology.
It does not show any life characteristics outside the cell, and all its life activities can only be carried out in the host cell of life. This parasitic mode is different from that of some microorganisms such as Leprosy, Rickettsia, and Chlamydia. They are mainly derived from the lack of exogenous nutrients or exogenous metabolic intermediates that need to be provided by the host.
First of all, viruses are a pathogen, they can infect almost all cell-type organisms and produce diseases. According to preliminary statistics, 6070 infectious diseases in humans are caused by viral infections. From common colds, measles, mumps, polio, rabies, hepatitis, and various encephalitis, to epidemic hemorrhagic fever, senile dementia, AIDS, and many cancers. Therefore, viral infectious diseases are still one of the main diseases that seriously endanger the health of our people. The reason is that the virus Bloodline continues to mutate under the combined effects of natural selection and crowd immunity, and the aging of the population and the acceleration of urbanization Due to the interaction of factors, the prevalence of certain viral infectious diseases not only failed to be effectively controlled, but also became more rampant. The prevalence of hepatitis A, B, C, AIDS, influenza, and various enterovirus diseases is still very serious. In addition, many results indicate that the virus is closely related to the occurrence of malignant tumors and various chronic diseases.
At the same time, because the virus can also cause diseases of poultry, livestock, wild animals, crops, forest fruits and many other economic animals, plants and microorganisms, it will cause great harm to human economic activities and the ecological environment. To study molecular virology is to fully understand the characteristics of the virus, to clarify the relationship between the virus Bloodline and the product structure and function at the molecular level, to reveal the pathogenic mechanism and essence of the virus, and to ultimately control the viral diseases. Popularity provides important theoretical basis and scientific basis.
Secondly, because certain viruses can also attack those harmful to humans, they can become an important means of biological control. For example, the use of bacteriophage lysis of bacteria to treat cholera, dysentery and typhoid fever and other diseases using insect viruses to control harmful insects.
Finally, because the virus is the simplest known unit of life at present, based on its relative simplicity outside the cell and the outstanding characteristics of the complexity of the interaction between the virus inside the cell and the host cell, it becomes a molecule Ideal for biological research replication, information transfer, mutation and other molecular biology problems. The use of molecular biology methods for research not only promotes the study of virology, but also in turn greatly promotes the development of molecular biology. In short, molecular virology is interpenetrating and promoting each other in various natural sciences. Its research and development have important roles in elucidating more important topics in modern biology and promoting the development of biotechnology. To be continued.
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