What if computers read DNA by using the high power microscope, what is connected to mass-spectrometer?

What if computers read DNA by using the high power microscope, what is connected to mass-spectrometer?

By connecting the mass-spectrometer to the very effective microscope is the possibility to make the system, what can read and compile the DNA of the humans in seconds. That kind of DNA test can create the next-generation security system possible. The mass-spectrometer can separate the base sequence, and then the data of the DNA can send to the internet.

The small-size robot bugs can take the DNA samples from the people, and then they can take the sample to the automatic, small size laboratory for analyzing. The mass-spectrometer can be a very small size and that thing allows the system to analyze the DNA that is captured by some security system very fast. And those drones can also take the photograph of the person, whose DNA has been captured.

Automatized laboratories are not very big. They can be carried to the operational area by using quadcopters, and then some smaller drones can collect the samples from the area. That kind of thing is causing good and bad news for people, who respect privacy. And this kind of system may be already in use at the highly secured military areas.

What the ability to read the DNA, by using great speed and high accuracy can give the researchers?

The thing in the reading the DNA is just found out the base sequence of the molecule. And that thing makes the genome projects like finding out what base pair would affect to the certain thing in the human cells. We know that everything we are is coded in base pairs. And the thing is that if we want to make genome therapy, what would give cure for some genetic diseases, the genome therapy would be easy to give if the place where the wrong base pair is can be located in the DNA.

When that place of the malfunctioning base pair is located, the replacing bite of the DNA would put in that place. So that thing can make this therapy sounds very easy to give. But the answer is that computers must read the genomes before they can locate the right sequence, and then the nanomachines can replace the malfunctioning part of the DNA.

Image: https://www.irishtimes.com/news/health/hospital-investigates-release-of-dna-samples-to-research-firm-1.3773529

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