The most recent Q post explains to us why the vaccine needed to be a thing
It was right in front of us all along and I haven't realized it until now. Most of the viruses and illnesses come from labs. They make a sickness and sell a treatment. That's always been the business model. I'd be willing to bet this has been true thru the centuries, going back thousands of years. You'd be surprised at how many illnesses alone come from dysbiosis in the gut. Autoimmune, neurological, ALL from bacteria in the gut.
This got me to thinking, I wonder about that weird trait that viruses have where they can integrate their DNA into host DNA.
Source: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC98978/
Now, whats most interesting here is not the potential functions that this could fulfill like data storage, or using the genome as a cryptocurrency mining operation like a computer chip, or even the fact that you can engineer race/regional specific "genetic" diseases. The most interesting thing is THIS:
According to some artificial intelligence research I've been doing there are two ways to remove viral DNA from host DNA, one of which is the same technology that the vaccine uses. My hypothesis is this:yes, the vaccine was a large scale test as to how to best map and selectively remove viral DNA from host DNA.
The military, the government, big pharma, all are no stranger to large scale testing on the population, and on occasion, I can see the larger picture as to how the information gained from such research could be beneficial. I didn't get the vax, and this confirms that it would be a large scale pharma test, BUT if they gain the data in order to map and selectively delete out the manufactured bits of viral DNA, we could cure all the manufactured diseases [THEY] have lumped upon us. Below is the transcript from the AI, feel free to read, comment, and think. I love my time here and will do anything I can to help. I will always post things I think should be heard. If people understood the scope… what Trump was really able to do, and what we are in the process of being able to do, they would be stunned.
Removing viral DNA that has integrated itself into the host DNA is a challenging task because it requires specific and targeted approaches. The integration of viral DNA into the host genome occurs during a process called viral integration or proviral integration. Here are a couple of strategies that have been explored for removing viral DNA from the host genome:
Antiretroviral therapy: This approach is mainly used for retroviruses, such as human immunodeficiency virus (HIV). Antiretroviral drugs, such as integrase inhibitors, can prevent the integration of viral DNA into the host genome during the early stages of infection. By inhibiting the activity of the viral integrase enzyme, these drugs reduce the ability of the virus to integrate into the host DNA. However, antiretroviral therapy does not directly remove the integrated viral DNA but rather prevents its formation.
Targeted gene editing: Gene editing technologies, such as CRISPR-Cas9, hold promise for targeting and removing specific sequences of DNA, including viral DNA integrated into the host genome. This approach involves designing guide RNA molecules that are complementary to the viral DNA sequences. The guide RNA directs the Cas9 nuclease to the integrated viral DNA, where it can induce a double-stranded break. The host cell's DNA repair machinery can then be harnessed to remove the viral DNA segment or induce targeted modifications. Although gene editing technologies show potential, further research is needed to refine their efficiency, specificity, and safety for therapeutic applications.
It's important to note that the removal of viral DNA from the host genome is a complex task, and current techniques are still in the experimental stage. Various factors, such as the type of virus, its integration site, and the specific characteristics of the infected cells, can influence the success and feasibility of removing integrated viral DNA. Additionally, potential off-target effects and unintended consequences of DNA editing need to be carefully considered and addressed in any therapeutic approach.
Consulting with a qualified medical professional or researcher who specializes in virology and gene therapy would provide the most up-to-date information and guidance on the specific strategies being developed to remove viral DNA from the host genome.
Thank you, anons.