Time to celebrate! This 400th publication debunks the entire theory of evolution!
I have been writing this blog since 2016. There are now 400 articles and almost 400,000 views. It's time to celebrate the long history of this blog with an article that thoroughly debunks the entire theory of evolution.
Today I asked the AI:
"Is there an observed cellular mechanism for rebuilding collapsed CpG islands?"
It replied:
"No observed cellular mechanism can fully rebuild collapsed CpG islands once they are lost. CpG islands are regions of DNA rich in cytosine and guanine dinucleotides, crucial for gene regulation. When these cytosines are methylated, they can spontaneously deaminate to thymine, leading to mutations and the eventual depletion of CpG islands over time. Cells can mitigate some DNA damage through repair mechanisms, but there is no known process that specifically restores the original CpG island structure after it has been lost. This ongoing degradation of CpG islands poses a challenge to evolutionary models that assume genomic stability over long timescales."
It replied:
"No observed cellular mechanism can fully rebuild collapsed CpG islands once they are lost. CpG islands are regions of DNA rich in cytosine and guanine dinucleotides, crucial for gene regulation. When these cytosines are methylated, they can spontaneously deaminate to thymine, leading to mutations and the eventual depletion of CpG islands over time. Cells can mitigate some DNA damage through repair mechanisms, but there is no known process that specifically restores the original CpG island structure after it has been lost. This ongoing degradation of CpG islands poses a challenge to evolutionary models that assume genomic stability over long timescales."
The Role of CpG Islands
However, the methylation of cytosines within CpG sites can lead to their deamination and conversion into thymine, causing mutations. Over time, this process leads to the inevitable depletion of CpG islands. Importantly, cells lack a mechanism to regenerate CpG islands once they are lost, making this a one-way path to degradation.
This inevitable breakdown challenges the idea that complex genomes can be maintained through natural processes alone, debunking the entire theory of evolution.
The collapse of CpG islands leads to:
- Nonfunctional gene regulatory areas.
- Nonfunctional gene regulatory areas.
- So-called pseudogenes.
- A need for the cell to use alternative regulatory mechanisms that are not so efficient.
- A need for the cell to rearrange DNA.
- A heavy loss of biological information.
- Inevitable genetic degradation.
Checkmate evolutionist!
Checkmate evolutionist!
