Mutation, Medicine, and the Question of Evolution
A mutation is a change in the structure of a gene.
It may occur through the alteration of a single base unit in DNA, or through the deletion, insertion, or rearrangement of larger sections of genes or chromosomes. Some mutations are harmless, some harmful, and some silently passed on to the next generation.
During the COVID‑19 pandemic, Malaysia’s Health Director‑General, Datuk Dr Noor Hisham Abdullah, confirmed that mutations of SARS‑CoV‑2 had been detected locally. At the time, three known strains were already present in the country. Globally, scientists observed that the virus—an oily membrane packed with genetic instructions—was changing as it spread.
SARS‑CoV‑2 carries its instructions in RNA, written in roughly 30,000 genetic “letters.” As the virus replicates inside human cells, small changes naturally occur. Over time, researchers suggested that the virus had diversified into multiple strains, with different dominant variants appearing in different regions.
This raised difficult questions.
Could differences in outcomes be influenced not only by the virus, but also by human biology—age, health, environment, and genetic background? There was no simple answer. Survival depended on many overlapping factors, not one cause alone.
Medicine, Limits, and Biological Context
During the early phase of the pandemic, the world searched urgently for treatment. Some countries explored hydroxychloroquine, a drug long used for malaria and autoimmune diseases. Malaysia included it in treatment protocols for certain cases, while other countries reported mixed or negative results.
This contrast sparked a deeper question in my mind:
Could treatment effectiveness vary because humans themselves are biologically diverse?
Human populations have adapted over generations to different climates, diseases, and environments. DNA, RNA, and chromosomes are shaped not only by inheritance, but by history—weather, diet, pathogens, and survival pressures.
This does not mean one medicine “works” because of race or superiority.
It means biology is context‑dependent.
A virus meets a body.
A body meets a virus.
The outcome is not identical every time.
Why Chromosomes Fascinated Me
My interest in chromosomes began long before the pandemic—through psychology, philosophy, intelligence theories, and how humans classify themselves into generations, identities, and behaviors.
Every human carries:
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DNA
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RNA
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Chromosomes
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A biological history written over time
The pandemic simply forced the world to confront this reality more directly.
When people spoke about vaccines, antibodies, and genetic material, I began to see COVID‑19 not just as a crisis—but as a biological mirror.
Viruses mutate.
Humans adapt.
Life responds.
The Question of Vaccines and Change
Vaccines do not change human DNA in a literal sense—but they teach the immune system, which itself is a biological memory shaped by genes and experience.
Still, the bigger idea remains:
Humanity is entering a phase where biology, technology, and consciousness intersect.
Not just medicine—but awareness.
World: Chapter 2
We are stepping into a new era:
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Rapid mutation
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Genetic literacy
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Environmental pressure
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Technological acceleration
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Psychological transformation
Not just survival—but adaptation.
Not just disease—but response.
Not just fear—but understanding.
One Word
EVOLUTION
Not only of viruses.
But of humans—
biologically, mentally, and consciously.
And the question is no longer “What will change?”
but rather:
How will we evolve responsibly?
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