Like a dot matrix printer, is each “pass” of the Spike Protein slowly corrupting our DNA into nonsense?
SARS-CoV-2 MAY OR MAY NOT WRITE ITSELF INTO YOUR DNA, BUT IT IS ALMOST CERTAINLY CUTTING/PASTING YOUR GENES, WRITING THEM BACK “WRONG” INTO YOUR DNA.
And I saw the possibility of the virus writing itself into our DNA. As it turns out, this is, unfortunately, the case. What disturbs me the most is that this appears to be a trait of ALL the “sus” coronaviruses in circulation. Is this, perhaps, why they were targeted for “study?”
Stephanie Seneff, et al. brilliantly demonstrated how the Spike Protein is a retrotranscription-inducer – just like the GaG protein of HIV. They also underscore the finding that the transfected Spike retrotranscribes within hours.
(Retrotranscription: Upon entry into the target cell, the virus must complete the reverse transcription of its RNA genome into a double-stranded DNA genome, allowing the virus to integrate into the host cell DNA and generate new viral progeny.)
Ultimately, what am I saying here?
Our genome is BIG. THREE BILLION BASE PAIRS.
Yet, no matter how much money you have, if you play Blackjack, the house’s one percent advantage will eventually bankrupt you. And that’s the point. If, over and over again, we are exposed to the Spike Protein, our genome gets ever so slowly overwritten. Diabolical. If this is intentional (and it almost certainly is) it is so very difficult to prove – until it is too late. The same way a dot matrix printer slowly overwrites a clean piece of paper with each pass before the picture becomes legible.
Finish reading: https://wmcresearch.substack.com/p/pli-selon-pli-the-slow-inexorable
The Solution – What nutrients help the body repair DNA damage?
On reading the previous article I too felt sobered! “So”, I thought, “what can I do to help overcome this?”
Well, there are two issues. 1. How to prevent the spike protein from gaining access and 2. What nutrients do we need to give the body to help it repair DNA?
The first I have done a lot of work on and now have a very comrehensive address to it with my Anti-Spike Blend. https://www.healthelicious.com.au/NutriBlast-Anti-Spike.html
So for the next I asked perplexity.ai “What nutrients help the body repair DNA damage?” To which I received the following:
Several nutrients play a crucial role in helping the body repair DNA damage, primarily through their antioxidant properties and involvement in various biochemical processes. Here are the key ones:
1. Antioxidative Micronutrients
Vitamin C: This vitamin helps reduce oxidative stress and enhances DNA repair mechanisms. It is essential for the synthesis of collagen and also acts as an antioxidant that protects cells from damage caused by free radicals.
Vitamin E: Known for its antioxidant properties, vitamin E helps protect cell membranes from oxidative damage, thus playing a role in maintaining DNA integrity.
Selenium: This trace mineral is vital for the activity of several antioxidant enzymes, which help prevent oxidative damage to DNA. Low selenium levels have been linked to an increased risk of certain cancers.
2. B Vitamins
B Vitamins (e.g., B6, B12, Folate): These vitamins are involved in DNA synthesis and repair. They help maintain proper cellular function and prevent mutations during DNA replication.
3. Carotenoids
Lycopene, Lutein, Astaxanthin: Found in fruits and vegetables like tomatoes and leafy greens, these carotenoids have been shown to reduce oxidative stress and enhance DNA repair capabilities. For example, lutein and zeaxanthin protect against UV-induced DNA damage.
4. N-Acetylcysteine (NAC)
NAC is a precursor to glutathione, one of the body’s most potent antioxidants. It helps combat oxidative stress and may mitigate genetic changes linked to cancer development.
5. Coenzyme Q10 (CoQ10)
CoQ10 supports mitochondrial function and protects against oxidative damage to DNA. It has been shown to enhance recovery from DNA damage in immune cells.
6. Alpha-Lipoic Acid
This antioxidant helps protect against chemical-induced DNA damage and is beneficial in reducing oxidative stress related to alcohol metabolism.
7. Phytonutrients from Fruits and Vegetables
Regular consumption of fruits and vegetables rich in antioxidants can significantly boost the body’s ability to repair DNA. Specific foods like kiwifruit have been shown to enhance both antioxidant levels and stimulate DNA repair processes.
Conclusion
Incorporating a diet rich in these nutrients can support the body’s natural ability to repair DNA damage. Foods high in antioxidants, such as fruits, vegetables, nuts, and seeds, along with adequate micronutrient intake, are essential for maintaining cellular health and preventing diseases associated with DNA damage.