In early 2021, Stephanie Seneff, Ph.D., warned that the replacing of uracil with synthetic methylpseudouridine in the COVID shots — a process known as codon optimization — could cause severe health problems
Recent research confirms this, showing that the use of methylpseudouridine can cause a glitch in the decoding, thereby triggering the production of off-target aberrant proteins. The antibodies that develop as a result may, in turn, trigger off-target immune reactions
According to the authors, off-target cellular immune responses occur in 25% to 30% of people who have received the COVID shot
According to an anonymous source, there’s evidence suggesting Pfizer and BioNTech fabricated data to hide this “glitch” from regulators
Previous research has demonstrated that codon optimization can result in misshaped and misfolded proteins that don’t match the natural protein being emulated, and that these misshapen proteins can trigger immunogenicity that in some cases may not become apparent until years later
(Mercola)—Yet again, warnings from the earliest days of the COVID jab rollout prove prescient. In May 2021, I interviewed Stephanie Seneff, Ph.D., a senior research scientist at MIT for over five decades, about the likely hazards of replacing the uracil1 in the RNA used in the COVID shots with synthetic methylpseudouridine.2 This process of substituting letters in the genetic code is known as codon optimization, which is known to be problematic.
At the time, she predicted the shots would cause a rise in prion diseases, autoimmune diseases, neurodegenerative diseases at younger ages, blood disorders and heart failure, and one of the primary reasons for this is because they genetically manipulated the RNA in the shots with synthetic methylpseudouridine, which enhances RNA stability by inhibiting its breakdown.3
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