The mechanism of love
The mechanism of love was a complicated process that involved many biological and social factors. In terms of biology: - Brain chemical reaction: The neurotransmitter in the brain, such as Dopamine, Norepinephrin, and Pitocin, is the chemical basis for love. When two people look at each other, the brain will secrete phelethylamin, producing a feeling of "electricity" and falling in love. It will also bring about physiological reactions such as accelerated heartbeat, red face, dilated pupils, and so on. It will also make men and women in love feel confident. As love progressed, physical contact increased, and the brain synthesized norepinephrin, causing blood vessels to contract, causing blood pressure, heart rate, and blood sugar to rise at the same time. Dopamine in the brain was responsible for transmitting information about excitement and pleasure. It was related to the addiction mechanism and made people crave the joy of love. The secretion of endorphins would increase exponentially during the development of a relationship, giving people a sense of euphoria, accomplishment, and vitality. After the climax, the Dopamine faded, and endorphins made people feel warm and satisfied. The vasopressin in the brain would strengthen the love between lovers and make them more loyal. - * - Sight and Sound: Certain attributes of facial features and tone of voice can enhance the emotional connection between men and women. In terms of society, social factors such as culture, family, circle of friends, and education also affect the possibility of love between men and women.
Proficiency mechanism
The proficiency mechanism referred to the increase in the proficiency level of the character through performance and completion of specific tasks in the game. Different games had different proficiency mechanisms. For example, League of Legends and Naruto both had proficiency bonus mechanisms. In League of Legends Mobile, players could obtain proficiency and hero points by obtaining an S-rank evaluation, an A-rank evaluation, and victory in the qualifying matches. In Naruto Mobile Games, players needed to accumulate a certain amount of proficiency points to increase their proficiency level. Other games such as Dungeon Fighter Online and Scarlet Scar Night Ritual had a similar proficiency system. Players could increase their proficiency levels by completing missions and clearing dungeons. In general, the proficiency mechanism could help players improve their character's skills and strength. At the same time, it also provided players with rich rewards and advantages.
The mechanism of isoniazid
The mechanism of action of isoniazid was not completely clear, but the following conclusions were made: isoniazid was a synthetic antiseptic that had a specific effect on the bacteria. Its effect may be carried out in a variety of ways, including hindering the synthesis of Phospholiptides and mycolic acid in the cell wall of the M. tubers, causing the bacteria to lose acid resistance and proliferate and die. In addition, isoniazid can also be oxided into isonicotinic acid in the bacteria, interfering with the growth of the bacteria. It could also combine with the NAD glucose protector to affect the synthesis of DNA, and combine with the copper ions required by the fungus to make the bacteria lose its activity and play an antiseptic role. In short, isoniazid has a disinfecting effect on M. tube-like bacteria through a variety of pathways.
Synaptic mechanism
The formation and regulation mechanism of the Synapse is an important research topic in the field of neuroscience. Some information about the mechanism of the Synapse. First of all, the Synapse was the connection point for information transmission between neurons, and it was highly dynamic. The formation and regulation of the Synapse involves the interaction of multiple protein and molecules. Among them, the protein psd-95 and SynGAP in the post-Synaptic Dense Zone (PSD) could undergo liquid-liquid separation at high concentration, which provided a possible answer to the formation of the Synapse. In addition, Synaptic attachment molecules such as Latrophilin-3 (Lphn3) play an important role in the establishment of the Synapse. It can bind to the tenurin and FLVRT-like attachment molecules in the presynaptic membrane. In addition, the formation and regulation of the Synapse also involved the control of the Trans-Synaptic Complex between the presynaptic membrane and the Post-Synaptic membrane. However, there were still many questions about the specific mechanism of the neural network, and further research was needed to answer them.
The star of the clock mechanism
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The mechanism and pharmacology of isoniazid
Isoniazid's mechanism of action may be carried out in a variety of ways. First of all, it might cause the bacteria to lose its acid resistance and die by hindering the synthesis of phosphorus ester and mycolic acid in the cell wall of the M. tubers. Secondly, isoniazid was oxided into isonicotinic acid in the bacteria, which interfered with the metabolism process in the bacteria cells and inhibited the growth of the bacteria. In addition, isoniazid can also be combined with some of the bacteria required by the bacteria, so that the bacteria lose their activity, thereby playing an antiseptic role. Isoniazid was a synthetic antiseptic that was mainly effective against bacteria during the growth and reproduction period. It was active against both the cells and the cells. It was strong against the bacteria in the reproductive phase, but weak and slow against the bacteria in the stationary phase. Isoniazid's antiseptic effect had a high degree of selectively and specifically. It mainly had an antiseptic effect on the bacteria, but it had little effect on other bacteria.
Formula for the mechanism of isoniazid
The mechanism of isoniazid's action could be remembered through the following formula: " Bacteria-blocking wall, inhibition of nuclei, acidic oxidization, and copper binding." Specifically, isoniazid could hinder the synthesis of Phospholiptides and mycolic acid in the cell wall of M. tubers, causing the bacteria to lose its acidic state and die. It could also be oxided into isonicotinic acid in the bacteria, which inhibited the growth of the bacteria. In addition, isoniazid could also bind to the NAD glucose lysin's inhibition factor, affecting the synthesis of DNA. Finally, isoniazid can also combine with the copper ions required by some of the bacteria's antibiotics, causing the antibiotics to lose their activity and thus play an anti-inflammatory role.
The characteristics of the announcement mechanism
The characteristics of the "Uncovering the List" mechanism included the following points: First, the list selection was different from the traditional scientific planning projects. It was based on the actual technical needs of enterprises and the scientific and technological achievements of universities and research institutes. Secondly, open innovation allowed researchers who were previously restricted by regions, professional titles, age, and unit types to have a chance to compete fairly. Third, the funding allocation method and evaluation mechanism had changed from " peer review " to " determining the hero based on success or failure ", from " emphasizing application " to " emphasizing results ". This not only prevented researchers from spending a lot of energy to apply for scientific research projects but not paying attention to the project, but also avoided the knowledge inertia brought by " peer review ". It solved the problem of many scientific and technological achievements lying on paper. In addition, the " Reveal the List of Commanders " also adopted the " horse racing system ", which meant that different scientific research teams would tackle key problems at the same time to improve the success rate of scientific and technological innovation and stimulate the innovative vitality of young talents. In general, the " Reveal the List " mechanism had clear requirements, clear guidance, wide participation, and high efficiency. It was an efficient mechanism to solve difficult problems.
The mechanism of Taiping Courtyard
The mechanism of Taiping Courtyard was a mysterious secret, and the details had not been revealed yet. According to the letter Ye Qingmei left Fan Xian, there was a mechanism at the bottom of Taiping Courtyard's lake. Opening the mechanism would allow one to enter a mysterious place. Ye Qingmei only became pregnant with her son several years after she left the temple. During her pregnancy, she transferred another person's consciousness into her child's body, and the method of transferring it should be in that secret door. However, the specific purpose of the mechanism and its internal secrets had yet to be revealed. The Qing Emperor occupied Taiping Courtyard and sent heavy troops to guard it. It was still unclear whether the Qing Emperor knew how to use the mechanism or whether he had already opened the secret door.
The mechanism of the cycloaddition reaction
The cycloaddition reaction was a bimoleral reaction in which the carbon atoms of the end groups of two molecules in a Conjugated System joined together to form a ring. For the cycloaddition reaction, from the perspective of the molecular orbital symmetries conservation principle, when the sum of the number of carbon atoms in the two reaction molecules was an integral multiple of four, the thermochemical reaction was mainly carried out in the same face-different face or different face-same face mode, and the photochemical reaction was mainly carried out in the same face-same face or different face-different face mode. When the sum of the number of carbon atoms in the two reaction molecules is an even number other than four, the thermochemical reaction is mainly carried out in the same face-same face or different face-different face mode, and the biochemical reaction is mainly carried out in the same face-different face or different face-same face mode. The frontier orbital (FMO) theory believed that in a bimoleral photoreaction, both components were excited molecules with two single electrons. The Mo occupied by a single electron was also called SOMO. The cycloaddition method under illumination was: The two SOMOs with higher energy of the two components combined to form a single bond. However, this was only a part of the general bimoleral photoreaction. It was related to the cycloaddition reaction. The specific reaction mechanism was more complicated and different reagent systems might be different. Fantasy Realm is equally exciting. Everyone is welcome to click and read it!
mechanism of the cycloaddition reaction
The cycloaddition reaction was a bimoleral reaction in which the carbon atoms of the end groups of two molecules in a Conjugated System joined together to form a ring. When forming a sigma-bond in the cycloaddition reaction, the carbon atoms of each pair of end groups could be in the same or different faces. If the polyene reagent has a substitution, then the product molecules may have different, recognizable structural characteristics. According to the principle of conservation of molecular orbit, the main way of cycloaddition reaction could be determined: when the sum of the number of carbon atoms in the two reaction molecules was an integral multiple of four, the thermochemical reaction was mainly carried out in the same face-different face or different face-same face way, and the photochemical reaction was mainly carried out in the same face-same face or different face-different face way. When the sum of the number of carbon atoms in the two reaction molecules is an even number that is not an integral multiple of four, the thermochemical reaction is mainly carried out in the same face-same face or different face-different face manner, and the biochemical reaction is mainly carried out in the same face-different face or different face-same face manner. For example, the sum of the number of carbon atoms in the Diels-Alder reaction was 6, which was an even number that was not an integral multiple of four. The thermochemical reaction was mainly carried out in the same face-same face or different face-different face manner. In addition, taking the "cycloaddition/ring-opening" reaction of bicyclo [1.1.0] butanes (BCPs) and triazinane reported by Peng Shiyong's research group of Wuyi University as an example, the cycloaddition followed a step-by-step (3 + 2 + 2) instead of (4 + 3) cycloaddition. It involved the SSN2-like addition of formaldimine and Lewis acid activated BCPs. The possible mechanism was: first, B(C6F5)3 activated 2a to form complex I; then, formaldimine (formed in place from triazinane 1a) and I carried out a N-like addition to form intermediate II; then, it reacted with another formaldimine to form intermediate III; finally, the molecular cycle released the B(C6F5)3 catalyst to form product 3a. Fantasy Realm is equally exciting. Everyone is welcome to click and read it!