The most prominent version of a COVID-19 vaccine was developed through genetic engineering. The is a novelty in vaccine science, because it allows for easier processes in the way we fight diseases such as COVID-19. As Cornell’s Alliance for Science explains:
“That’s what the “m” in mRNA stands for : messenger. Messenger RNA just carries instructions for the assembly of proteins from the DNA template to the ribosomes. (Proteins do almost everything that matters in the body.) That’s it.
This is useful for vaccines because scientists can easily reconstruct specific genetic sequences that encode for proteins that are unique to the invading virus. In the COVID case, this is the familiar spike protein that enables the coronavirus to enter human cells.”
For the European Union, this meant that the European Parliament had to approve a derogation of existing GMO legislation. In a statement, the Parliament said that “The derogation will facilitate the development, authorisation and consequently availability of COVID-19 vaccines and treatments”. According to EU legislation dating back to the early 2000s, genetic engineering is generally forbidden, with only a few exceptions. This was particularly driven by the scepticism of genetic engineering in agriculture.
Now that Europe is facing the largest health emergency in our lifetime, scientific innovation is desperately needed. This must be particularly confusing for all patients who could have been given more of a chance of survival if genetic engineering was allowed across the board for all treatments. The unfortunate reality is that GMOs have been so highly politicised that we have moved away from a sober evidence-based conversation. It is now politically viable to allow for scientific innovation to fight this virus but in the area of agriculture, we are still facing a dead end. If it is safe for vaccines, then shouldn’t we also trust the mountain of scientific evidence that it is safe in food?
Genetic engineering is technology, unlike any other. The precise genetic modification of crops has arisen not out of a need to interfere with nature, but out of necessity and thanks to human ingenuity. Early application of genetic engineering stood to solve the problems of complicated environments with challenging climates. As climate change progresses, these challenges will only grow larger.
Picture the state of human medicine prior to the development of certain advances. Ear or mouth infections or pneumonia led to the death of millions until penicillin came into widespread use. What is true in medicine, also applies for modern agriculture: high-yield farming has made our societies more advanced, provided us with a safer food supply, and has provided more food for fewer resources. The technologies of today are incomparable with those of 30 years ago. In fact, the invention of gene-editing has opened a new chapter for agriculture, allowing us to act precisely, with trusted experts. Pinpointed DNA-changes allow us to much more precisely target and understand the changes that we are making.
The GMO vaccine derogation is a first recognition that pinpointed DNA changes are safe and viable in human medicine. However, this was a realisation the Parliament was only able to reach because it was faced with unprecedented urgency. The concept of making this structural reform in the 2001 GMO Directive — which are necessary — is something that needs to be overcome politically. The scientific opinions are there: we know that genetic engineering can be conducted in a safe manner. What we now need to do is shift the conversation on the European stage, overcoming the unscientific narratives of many parliamentarians, and ushering in a new age of science in the European Union.
This article was first published by The Conservative.
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