Hand rubbing nuclear fusion live in the wilderness

Chapter 559 The key to maintaining biological activity
Soon, the anatomical data for these experimental subjects will come out

From these data, Won saw obvious body atrophy and excessive cellular energy consumption.

For example, a large amount of ADP, as well as the disappearance of ATP, CP, and some muscle glycogen and fat were detected in the body tissues of all mice.

ATP, scientific name adenosine triphosphate, referred to as adenosine triphosphate, is an unstable high-energy compound.

It is the content of university organisms, it can be hydrolyzed, and release energy and ADP when hydrolyzed, it is the most direct energy source in organisms.

After absorbing energy, ADP can re-form ATP with a phosphate group, and the two constitute the energy balance of biological activities.

From here, the result is obvious.

That is, after injecting the dlRNA living body solution, these dlRNAs have modified the host's body, and the modification needs to consume the energy of the host's body.

In other words, these experimental animals were actually starved to death.

After injecting the dlRNA living body solution, the cells of the experimental body will consume a lot of energy, and the most direct one is ATP.

ATP, as a high-energy compound that directly supplies energy to cells, actually does not account for much in cells.

For example, in humans, there are about 50.7g of ATP in the human body, and these ATP can only sustain strenuous exercise for 0.3 seconds.

However, ATP and ADP can be quickly converted to maintain a balance, but the process of converting ADP into ATP requires energy.

When energy is missing, ADP cannot be quickly converted into ATP.

All other activities in the organism use the energy generated when ATP is hydrolyzed. When the body cannot provide enough ATP, the cells are directly starved to death.

This is the truth that all experimental samples injected with dlRNA living solution died within 48 hours.

The two birds, the red-throated hummingbird and the floating gull, can bring more energy to the body to a certain extent because of their strong digestive ability, which is why they can live longer.

However, Han Yuan was a little puzzled. In the follow-up autopsy of the test subjects, many animals had a lot of fat left in their bodies.

One of the functions of fat is to provide energy for the body. After it is broken down, it can provide a large amount of energy for physical activities.

If it is said that there is a lack of energy, then these fats should not remain, and will be broken down.

Just like people who starve to death are almost skinny, because the fat in the human body has been broken down.

However, most of these experimental subjects who were starved to death due to the injection of the dlRNA living body solution had residual fat in their bodies, and the amount was quite large.

This is where the Korean Won is a bit puzzled.

However, he didn't worry too much about this problem. The key now is to find the cause of dlRNA's death, and then find a way to solve it.

The method is also very easy. The simplest and quickest way is to configure a large amount of ATP, and it is enough to inject the experimental questions synchronously after injecting the dlRNA living solution.

If you don't have enough energy, just make up for it.

Soon, a batch of ATP solution was manufactured, and Won started a new experiment at the same time.

The subjects of this experiment were a group of mice and rabbits.

When injecting the dlRNA solution, the ATP solution is synchronously input through the hanging bottle to maintain the body modification function of the mice and rabbits.

As expected by Won, after providing a large amount of ATP solution, these mice and rabbits survived for more than 48 hours.

But with the injection of ATP solution, new problems appeared in this batch of experimental subjects.

Hemolysis, nervous excitement, supraventricular tachycardia, etc. A series of problems appeared with the input of ATP solution.

These problems are not caused by dlRNA, but caused by too much ATP and ADP in the experiment.

This made Han Yuan realize that the cell telomere modification agent in his hand is not that simple, and simply replenishing energy for the experimental subject is not the solution to the problem.

Presumably, that small cell telomere modification agent is unlikely to provide a large amount of energy for the injector to use.

Now that the route of replenishing energy has been passed, the remaining routes have to be chosen again.

In the biological laboratory, Han Yuan was thinking about what is controlling the effect of dlRNA in the cell telomere modifier on the user.

The route of replenishing energy is desirable, but it has defects, and the defects are relatively large, so it is definitely not the original method of telomere modifiers.

Unless this cell telomere modifying agent contains some kind of nutrient that can provide a lot of energy with a relatively small volume and mass, and it must be energy that can be directly absorbed by the human body.

But this probability is quite low, even close to zero.

After all, the needle tube that contains the medicine is only that small, no matter how you say it, the law of energy conservation and the mass-energy equation are there.

It is possible to pack a large amount of energy into such a small needle tube, such as nuclear energy, but humans cannot directly absorb nuclear energy.

"It's not enough to make up, what about restraint?"

Suddenly, a flash of inspiration flashed in Han Yuan's mind, and a seemingly feasible way jumped out of his brain.

What if the activity of dlRNA injected into the body is controlled within a certain range?How many dlRNAs are activated according to the energy corresponding to the normal biological activities, and then repair the telomeres of the cells without affecting the biological activities?

Is this possible?

"Xiao Ling, how is the development of the ingredients in the cell telomere modifier?"

"A total of 33 different components, 26 of which can be mass-produced at present, two of the remaining seven can only be synthesized on a small scale, four unknown components are being analyzed, and one material is currently looking for a synthetic method."

Xiao Ling's voice sounded in the biological experiment, and he quickly answered the question.

"Which component substance cannot be synthesized?"

Han Yuan was a little surprised. Ever since he obtained the information on the application of intermediate industrial equipment, as long as it is a material he can think of, and it is within the scope of synthesis, Base Zero has the ability to manufacture it.

The various industrial equipment contained in the intermediate industrial equipment application knowledge information are not fake, if he can't synthesize them, what is it?
"A substance called 'isoflavone-proline. Potassium diazoxide valine' has a structure somewhat similar to the active dormant hormone. According to the data, it is deduced that it is synthesized from the active dormant hormone and other substances."

"Like an active dormant hormone? The one on Mars?"

"Yes."

Hearing this answer, Han Yuan was taken aback for a moment. He never thought that the material that could not be synthesized was actually this.

"Wait, is there a Martian dormancy hormone in the cell telomere modifier?"

Suddenly, Han Yuan realized a problem, and quickly flipped through the virtual screen in front of him.

Sure enough, among the 33 components of the cell telomere modifying agent, he saw a substance with a name so long that it could fill half a page of A4 paper. chemical composition.

"It really is."

Staring at the name on the virtual screen, Han Yuan touched his chin. His scientific research instinct told him that this thing might be what he had guessed.

(End of this chapter)