Progeny and its influence on genetic engineering

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Kimmo Huosionmaa

Progeny is the most feared and mysterious genetic disease in the world. Those patients die at a very young age, and this means a very big tragedy for some families. In this sickness, the cells would have too strong metabolism, and it causes that the cells would be older too soon. It means that the person just gets older too fast, and then dies in very old age. Reason for this syndrome is not known, but it has a place when we are investigating aging. By using progeny patients can genome researchers find the bite in DNA, what causes this terrible symptom, and in this case, the finding that nucleotide would use genomes what is isolated from those patients. In this process, genetic researcher finds similarities of those DNA-molecules, and then it would help to locate that malfunction of the DNA. Modern technology allows reading those base pairs, and maybe take them off from DNA.

But when we are thinking about the things, that we can read those base pairs and the molecules, what they are structured, in the future that would help us to create the anti-progeny molecule, what would make cell live extremely long time. The thing, what this genetic disorder causes is the metabolism of the cell is very fast, and that would cause the thing, what is looking very fast aging. But when we are thinking about very fast aging, we can actually make artificial evolution. In this case, the natural aging process of the population would be fastened by using genomes, what consists genomes, what causes progeny.

In this process, in the nucleus of the cell, would take the genome, what consists that gene. The artificial evolution, what means very fast aging, makes possible to create the population, what members would give their places to the next generation in a very fast period. And when we are thinking about the natural selection, we might think, what human might be, if we would live in very fast cycles. The natural selection in human history has been done in the millions of years, and the generations would need to make the things, what evolution has done to us.

But do you know, what happens if the cycle of the generations would be only two or three years? The natural selection could be very fast in that case. I sometimes read one book, where this kind of situation has been made by using genome-transfer. There were two lines of humans. Other lives very long time and the mission of this line was to create technology and science, and another line is for creating a naturally selected alien, what would be creating the bodies and nerve system.

The idea in this book was that if those two lines would be connected, there was change to create the species, what has the superiority for some planet's original life-forms. And that makes this kind of research and solution for genetic engineering very terrifying. The thing, what has been making genome transfer very difficult, is that our DNA is inside the nucleus of the cell. And if we want to transfer those genomes, we must get the genetic material, and then inject it to the nucleus. That has been very difficult, but then some scientists made that thing possible.

They opened DNA as the straight form, and then in that DNA can connect or there can be removed bites. The systems, what are used in this process are similar, what are using to create nanomachines. And then the DNA would be equipped with the iron atom, what makes possible to shoot it to the nucleus of the cell by using ion cannon, and this kind of systems are suitable because the energy, what would the system gives to DNA would adjust very precisely.

Or another version is to equip the DNA with similar antigens, what viruses use when they are slipping in the cell. In this version, the own genomes of the cell would be removed by using nanomachines or highly targeted electromagnetic radiation. Then the DNA what would act as the giant virus would slip in the cell, and place in the nucleus, what allows to make new cells what has the quality, what has been programmed to the artificial DNA.

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