Synaptic energy
Synapses were an important structure for transmitting signals between the brain's neurons. Synaptic activity required a large amount of energy to support the function and signal transmission process of the neurons. Synapses consume 20% of the total energy of the human body, and glucose is the main carbon source for the production of ATP. 95% of the ATP-generated in the brain. Synaptic activity requires ATP-driven action potentials, resting potentials, and ion grads. In addition, the circulation of the vesicles and the attachment of the mitochondria to the membrane also required a large amount of energy. The study also found that high-intensity Synaptic Activity would lead to a decrease in presynaptic energy levels and activate the AMPK signaling pathway, thereby increasing the number of mitochondria anchored at the presynaptic level. In short, the metabolism of the energy in the brain was an important process to support the transmission function of the brain.
Synaptic hyperpolar
Synaptic hypersaturation refers to the phenomenon of hypersaturation of the post-Synaptic membrane under the effect of neurotransmitter. Hyperpolar refers to the membrane potential becoming more negative, resulting in a decrease in the excitability of the neurons to stimulation. Specifically, when the suppressive neurotransmitter acts on the post-Synaptic membrane, it will cause the Cl-channel on the post-Synaptic membrane to open, allowing Cl-ions to flow in, thus making the membrane potential more negative and reaching a hyperpolar state. This hyperpolar state would suppress the transmission of nerve impulses, making it less likely for the later neurons to produce nerve impulses. Synaptic hyperoscillations play an important role in the inhibition of neurotransmitter regulation, which is of great significance in regulating the information transmission between neurons and the normal function of neural networks.
Synaptic components
The components of the Synapse include the presynaptic membrane, the Synaptic Gap, and the post-Synaptic membrane. The presynaptic membrane was the membrane of the Synaptosome, and the post-Synaptic membrane was the membrane of the post-Synaptic neurons that corresponded to the presynaptic membrane. The desynaptic gap was a narrow gap between the presynaptic membrane and the postsynaptic membrane.
synaptic efficacy
Synaptic efficacy referred to the strength and efficiency of the transmission of the nerve. The increase in the effectiveness of the Synaptic Connection could be achieved through the use of Synaptic Membrane, which was the adjustability of the Synaptic Connection. Synaptic elasticity refers to the characteristics of the strength of the Synaptic Connection that can be changed, including formation, elimination, strengthening, and weakening. The mechanisms of the plasticity-inducing effect include the change in the probability of neurotransmitter release at the presynaptic stage, the change in sensitivity to neurotransmitter at the post-Synaptic stage, and the change in the number and structure of the Synaptic System. The long-term enhancement (LTL) and inhibition (ilt) of the effectiveness of the nerve are two forms of the plastic of the nerve. LTL referred to the process of long-term enhancement of the transmission efficiency of the nerve, while ilt referred to the process of long-term weakening of the transmission efficiency of the nerve. The increase in the effectiveness of the Synapse could be caused by the repeated and continuous stimulation of the presynaptic cells on the post-Synaptic cells. This theory was called Hebb's theory. Hebb's theory was that when the presynaptic neurons were repeatedly stimulated to the post-Synaptic neurons, the efficiency of the transmission would increase. Further research was needed to reveal the specific mechanism of the effect of the nerve.
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.
Synaptic composition
Synapses were composed of presynaptic, desynaptic, and post-desynaptic parts. The presynaptic was the end of the axon of the previous nerve cell, and the post-Synaptic was the cell body or the twig of the next nerve cell. The gap between two neurons is the gap between the two. The presynaptic part included the vesicle and the presynaptic membrane, while the post-synaptic part included the post-synaptic membrane. The structure and composition of the Synapse was the key part of the signal transmission between the neurons.
Synaptic Number Intelligence
There was a certain relationship between the number of Synapses and intelligence. A neuroscientist determines the usage rate of the human brain by measuring the number of Synapses on the brain cells. The higher the number of Synapses, the higher the usage rate of brain cells, and the more developed one's intelligence. Some studies have shown that people with a relatively high level of education have more nerve cells in their brains. In addition, people with high intelligence also had stronger neuromalleability. They would produce more nerve Synapses under the same stimulation, thus increasing their brain capacity. However, the number of Synapses is not the only determining factor of intelligence. Other factors such as the complexity of the Synapses, the number of specific protein on the Synapses, and the structure of the brain may also play an important role in the development of intelligence. In general, there was a certain relationship between the number of Synapses and intelligence, but it was not a decisive factor.
What kind of energy would appear in fantasy novels? For example, battle energy, elemental energy, spiritual energy, soul energy, soul energy, spiritual energy, and so on. The more the better?
The common types of energy in fantasy novels were: Dou Qi, elemental energy, demonic energy, spiritual energy, soul power, soul power, mental energy, true qi, spiritual energy, immortal energy, divine power, divine soul, magical power, divine power, combat skills, soul power, soul, true essence, vital qi, martial soul, star power, true strength, calmness, heavenly eye, true qi technique, magic value, sword qi, heavenly wind qi, earth evil qi, sword intent, sword soul, dao qi, mountain river qi, five elements qi, and so on. I hope you like this fairy's recommendation. Muah ~😗
The true energy of the celebration is not true energy
The true qi in Qing Yu Nian was actually nuclear radiation energy left over from the previous era, not true qi. This nuclear radiation energy was used to strengthen the human body, allowing humans to obtain extraordinary abilities. Therefore, Qing Yu Nian's true qi was not true qi.
The true energy of the celebration is not true energy
The true qi in Qing Yu Nian was actually nuclear radiation energy left over from the previous era, not true qi. True Qi was used to strengthen the human body, allowing humans to obtain extraordinary abilities. In her letter to Fan Xian, Ye Qingmei mentioned that zhenqi did not exist in the world. This power was actually a relic of a civilization from the previous era. The power Fan Xian relied on was not zhenqi, but the product of civilization. Therefore, it could be said that Qing Yu Nian's true qi was not true qi.
The true energy of the celebration is not true energy
The true qi in Qing Yu Nian was actually nuclear radiation energy left over from the previous era, not true true qi. True Qi was used to strengthen the human body, allowing humans to obtain extraordinary abilities. In her letter to Fan Xian, Ye Qingmei mentioned that zhenqi did not exist in the world. This power was actually a relic of a civilization from the previous era. The power Fan Xian relied on was not zhenqi, but the product of civilization. Therefore, it could be said that Qing Yu Nian's true qi was not true qi.