Chinese lab conducts experiments on highly lethal COVID variant

A Deadly Coronavirus Variant with ‌a 100% Mortality ⁤Rate on Mice Raises Concerns

A‌ groundbreaking study conducted by a Chinese lab earlier this year has shed light on a highly lethal coronavirus variant. This​ variant, known as GX_P2V, has been found to have a 100% mortality rate on mice that were genetically modified to mimic human viral reception.

The mice, when exposed to GX_P2V, ‌succumbed to the virus within a mere seven to eight days. Scientists believe that the cause of death ‍was a brain ‍infection that​ occurred ‌later in the viral process. Disturbingly, by day ‍seven, the mice displayed alarming symptoms such as weight loss,‌ slouched posture,‌ and white eyes.

“This​ underscores a ‌spillover risk of⁢ GX_P2V into humans and provides a unique model for understanding the pathogenic mechanisms of SARS-CoV-2-related viruses,”

The scientists behind the study emphasized the potential danger of‌ GX_P2V infecting humans and its significance‌ in‌ unraveling the pathogenic mechanisms of SARS-CoV-2-related viruses. It is⁣ worth noting that this coronavirus variant ​was first identified in pangolins back in 2017.

However, not everyone is ⁣convinced ‍of the value of this study. Several researchers have publicly criticized the experiment, deeming it scientifically pointless and potentially‍ hazardous. University College London Genetics Institute director⁢ Francois Balloux expressed his skepticism, stating, “It’s a terrible study, scientifically totally pointless. I can see nothing of vague interest ​that could be learned from force-infecting a weird breed of humanized mice with a random virus.“

Richard Ebright, a professor at Rutgers ​University, ​concurred with‌ Balloux’s assessment, highlighting the absence of information regarding biosafety precautions taken ⁤during ‌the research. He drew parallels to the research conducted in Wuhan from 2016 to ⁤2019, which is believed to have led to the COVID-19 pandemic. ​Ebright warned, “The absence of this information raises ​the concerning possibility that part or all of this research, like the research in ​Wuhan, was performed​ without the minimal biosafety containment and practices ‌essential for ​research‌ with ⁤a potential pandemic pathogen.“

The scrutiny surrounding this study intensified following ​Dr. Anthony Fauci’s recent testimony,⁣ where he reportedly acknowledged ​that the “lab leak” theory, suggesting‌ that the virus originated from a⁢ Chinese laboratory, was not a⁣ conspiracy theory. While‌ most federal‍ agencies do not officially endorse‍ the lab leak ⁢theory, the FBI and the Department of Energy have identified it as the most plausible explanation for the origins of the coronavirus.

What are the alarming symptoms exhibited by ⁤the mice infected with GX_P2V?

Ind this variant concerning due to its high mortality rate and the possibility ⁢of it crossing over into humans. This discovery highlights the importance ‌of ‍studying and understanding the pathogenic mechanisms of similar viruses.

GX_P2V is a variant of the severe acute respiratory syndrome coronavirus‌ 2 (SARS-CoV-2), the virus responsible for the ongoing COVID-19 pandemic. While the mortality rate of ​the original strain of the virus​ varies, this new variant poses an immediate threat‍ with a 100%‍ mortality rate on⁢ the modified mice.

The study,‍ conducted ​by researchers at a Chinese lab, involved infecting genetically modified mice with GX_P2V. The mice ⁢showed rapid deterioration⁤ of health, with death​ occurring within a remarkably short span of seven ⁢to eight days. The exact cause of death was identified⁤ as ⁤a brain infection that developed later⁤ in⁣ the viral process.

Furthermore, the mice exhibited alarming symptoms by⁢ day seven, ​including weight loss,⁤ slouched posture,‍ and white eyes. These observations are consistent ⁤with the⁢ severe symptoms observed in ‌human COVID-19 cases, such as respiratory distress and organ failure. This similarity suggests that GX_P2V could potentially cause similar outcomes in humans, making it ⁣a​ significant cause for concern.

The implications ​of‌ this study are substantial. The research⁤ highlights the potential risk of spillover from GX_P2V to humans. Spillover⁣ occurs⁤ when‌ a virus jumps from one‌ species to another, potentially leading to a new epidemic or pandemic. Previous outbreaks, including SARS and Ebola, ‍have caused devastating consequences and resulted from spillover events.

Moreover, this study provides a unique⁤ model for scientists to ⁣investigate the pathogenic mechanisms of SARS-CoV-2 and related viruses. By studying GX_P2V in⁣ the genetically modified mice, researchers can gain valuable insights into how ​the virus affects ⁤the brain and causes severe symptoms. This knowledge can aid in the development of ‌effective treatments and preventive measures.

Health authorities ‍worldwide must closely monitor any ⁢emerging ​variants of the coronavirus, including ⁤GX_P2V. The identification⁢ of highly lethal variants emphasizes the importance⁤ of continued surveillance and research to understand the virus’s behavior and potential threats. This knowledge will⁢ enable scientists to develop appropriate strategies, such as targeted vaccines or therapeutics, to combat new variants effectively.

While this ‍particular variant’s mortality rate is alarming, it ⁢is‍ essential to approach such findings with caution. Further research is needed to determine the variant’s exact transmission‌ potential and its implications for ​public health. Continued collaboration among scientists, health authorities, and researchers‌ worldwide is crucial to combat the ⁢ongoing ⁤pandemic ‍and mitigate future risks.

In‌ conclusion, the discovery of ⁢the GX_P2V variant with⁤ a 100% mortality rate on genetically modified mice raises concerns about its potential spillover to humans. This groundbreaking study provides a unique model for understanding the pathogenic mechanisms of‍ related‍ viruses and underlines the need‍ for continued surveillance and research. Efforts must be ​made to‌ study ‌and combat emerging variants effectively to safeguard public health.

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