Difference mRNA - modRNA

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Updated - April 18, 2025

The difference from mRNA (messenger RNA) and modRNA (synthetically modified RNA) are their natural or artificial origin.
mRNA is a copy of a section of the DNA contained in every cell, a building instruction for the production of proteins. mRNA plays an essential role in cell function.

As already mentioned in the article Essential oils - why do they work? described in detail, the causality lies in the function of each individual human cell.

When an active substance docks onto the (scent) receptor of a cell, this induces the copying of a DNA-section, from the DNA completely present in the cell nucleus, in mRNA (messenger RNA), which are then included in the Ribosomes for the production of proteins in accordance with the mRNA is used for the existing building instructions. These proteins are now available for further processes in the cell (intracellular), but also outside (extracellular).

The following diagram clearly shows the different modes of action of mRNA and modRNA:

The body's normal procedure includes steps 1 - 3: A section of DNA is copied as mRNA (1), the corresponding protein (3) is produced in the ribosomes (2) and, depending on the purpose, is used inside or outside the cell.

The use of modRNA requires steps 4 - 7: The externally supplied, synthetically (artificially) produced modRNA (5) is packaged in LNPs (4 - LipidNano Particles), which enter the cell through their external lipids (fat (envelope)). There, according to the modRNA information available, the proteins (7) are produced in the ribosomes (6) in accordance with the modRNA's instructions and transported outside the cell.
However, as these are foreign proteins, the immune system is immediately alerted and cytokines are released (used for communication between the cells), which leads to the often-cited cytokine storm (the immune system releases high concentrations of inflammation-relevant cytokines).

Effect of modRNA

Unlike viruses, which require a suitable receptor on the cell surface in order to penetrate them, LNPs can easily enter any cell due to their lipid (fatty) properties. They can even cross the blood-brain barrier.

However, the immune system recognizes foreign proteins as "hostile" and therefore fights them in order to prevent them from spreading in the body and causing damage.

While mRNA only has a very short life span of a few minutes, i.e. it is quickly metabolized, broken down, lingers modRNA much longer in the organism. This is intentional, because it enables long-lasting production of the desired protein on the basis of the protein produced by the modRNA the construction plan provided.

The resulting problem with such foreign proteins is that, as mentioned, they are recognized as foreign to the body and cells carrying such proteins must be destroyed by the immune system. This is generally known from any type of infection caused by bacteria (which attack outside the cell) or viruses (which invade the cell).

The disadvantage of the long-lasting modRNA However, the immune system has to destroy so many cells that, over time, entire tissue structures are affected and other pathogens have an easy time of it due to the resulting overload of the immune system.
As all organs are also dependent on the proteins of the modRNA The failure of entire cell clusters caused by the immune reaction is noticeable, among other things, through massive disease of affected organs.

Preparations brought to humanity as part of the corona measures contain such modRNAas well as all others on modRNA based substances that will be launched on the market in the future.

The fear initially expressed by critics that modRNA again in DNA can be incorporated (reverse transcriptase - enzymatically active proteins that act as RNA-dependent DNA polymerases catalyze transcription in the reverse direction), has unfortunately proven to be true - contrary to the distracting statements of official bodies - as studies by e.g. Liguo Zhang e.a. (25.05.2021), and Markus Aldén e.a. (06.05.2021) has already been proven.

Why modRNA at all?

The idea of using modified mRNA to counter and even cure diseases was very interesting.
However, the doctors and scientists who were once revered as gods in white ultimately had to realize that they were miles inferior to God's creative wisdom. After all, there is a big difference between theoretical knowledge and practical end products that are beneficial to human health. And ultimately: money justifies the means ...

Apart from the ethical aspects of such projects and applications, whether in the context of p(l)andemias, for example, or possibly also questionable, often ostensibly developmental ambitions, it does not appear that human capabilities have matured to such an extent that the development of such modRNA could be operated in such a way that processes are specifically set in motion in a cell that have an exclusively(!) healing effect with sufficient specificity.

Since those modRNA transporting LNPs are not specifically controllable and can therefore penetrate any cell - while viruses only find entry into cells that have a suitable receptor - a generalized effect is inevitable.

Additionally include modRNA based substances, to combat any bacterial contamination in the production process, plasmids (extrachromosomal double-stranded, self-replicating DNA molecule contained in bacteria), which code for antibiotic resistance, which in turn promotes the development of multi-resistant germs.

While antibiotics were initially developed specifically for pathogens, these increasingly gave way to broad-spectrum antibiotics that were effective against several pathogens. As broad-spectrum antibiotics became increasingly effective, the first pathogens became resistant. The best-known resistant pathogen is the MRSA-germ (Methicillin-resistant Staphylococcus aureus).

An undesirable side effect of antibiotics is their ability to damage the natural bacterial intestinal flora, which is part of the immune system.
Only essential oils with a bactericidal effect, which in turn contain thousands of "antibiotics", make it almost impossible for pathogens to develop immunity against this multitude of bactericides. One positive aspect to note is that essential oils, even if they have a bactericidal or virucidal effect, do not attack the intestinal flora to the same extent.

The human cell uses its ability to express proteins to maintain the interaction of all functional elements of the human body, on the one hand to make life possible and on the other to protect it from hostile invaders.

Synthetic modRNA however, forces the cell to produce a protein that is foreign to it and therefore hostile to it, and then to release it via Exosomes (Vesicles) to the cell surface and make it go viral, marking it as an "enemy" and thus exposing it to destruction by the immune system.

Molecular biologist Prof. Dr. Klaus Steger and epigeneticist Prof. Dr. Alexandra Henrion Caude describe these interrelationships in an article to be read here Interview, or. Article dated 27.04.2023 in more detail.

Why mRNA is toxic (PDF)

In a freely available book translated into several languages entitled "Why mRNA is toxic" (internal server) the authors Michael Palmer, MD Sucharit Bhakdi, MD, Margot DesBois, BA Brian Hooker, PhD, Mark Skidmore, PhD David Rasnick, PhD Mary Holland, JD Catherine Austin Fitts provides 218 pages of essential information on virology, immunology and toxicology in this context.

The following links refer to external servers (availability checked as of 14.04.2025):

• mRNA Toxicity (English)
• Tossicita Vaccini (Italiano)
• Toxicidad de la vacuna de ARNm (Espaniol)
• 信使核糖核酸疫苗的毒性 (Chinese)
• Az mRNS vakcinák toxicitása (Magyar)
• De giftiga mRNA-vaccinen (Svenska)

Laboratory proof

For those affected, the Institute for Molecular Diagnostics (INMODIA) uses highly specialized analytical methods to detect components of the various (vaccine) substances on the basis of samples submitted in the form of

• Biopsy or autopsy materials (fixed or paraffin-embedded archive material, e.g. taken during operations)
• Blood plasma, cerebrospinal fluid (cerebrospinal fluid)
• Immune cells from whole blood or cerebrospinal fluid

Spike proteins can still be found in exosomes isolated from the blood after 2.5 years and in individual cases even up to 4 years since the last dose was administered. proven as also demonstrated by this study (709 days; full text - preprint) of Yale University from February 18, 2025.

Minnesota becomes 11th US state to ban mRNA injections

On 07.04.2025, Shane Mekeland, representative of the state of Minnesota, introduced the bill HF 3152 to ban gene-based vaccines, as reported in this Article emerges.

Minnesota is thus following the example of the states of Washington, Montana, New York, Idaho, Iowa, Kentucky, Tennessee, South Carolina, Texas and Florida.