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Chinese scientists are conducting groundbreaking research on a mutant strain of Covid-19 with alarming implications. The virus, known as GX_P2V, has been found to cause a 100% death rate in “humanized” mice. Studies conducted by researchers from the University of Chemical Technology and Nanjing University in China have shed light on the deadly potential of this virus.
The mutant strain, GX_P2V, has raised considerable concerns due to its ability to cause a 100% mortality rate in human ACE2-transgenic mice. These mice were specifically engineered to reflect the genetic makeup of humans. The virus has been observed to target the brains of these mice, leading to a rapid and devastating outcome. The study, published on the preprint site bioRxiv, has shed light on the severity of this virus and its potential implications for human health.
The experimental mice experienced dramatic weight loss within a mere five days of infection, alongside symptoms of lethargy and the discoloration of their eyes, which turned white. Shockingly, the mice succumbed to the virus within just eight days of being infected, highlighting the rapid and fatal impact of GX_P2V. The swift and deadly progression of the virus has left scientists astonished and concerned about its potential implications for humans.
The implications of this research are profound, as it underscores the potential spillover risk of GX_P2V into the human population. The unique model provided by the engineered mice offers valuable insights into the pathogenic mechanisms of SARS-CoV-2-related viruses. However, the direct implications for human health remain uncertain, leaving the scientific community eager for further research and a deeper understanding of the potential risks posed by this lethal mutant strain of Covid-19.
The ongoing research on GX_P2V serves as a stark reminder of the importance of understanding and closely monitoring the evolution and behavior of the Covid-19 virus and its variants. The knowledge gleaned from this research is crucial for developing effective strategies to mitigate the potential threats posed by these lethal mutations. As the scientific community continues to unravel the complexities of Covid-19, the focus on understanding and addressing these emerging threats is more critical than ever.
