Anonymous ID: bbdb1c March 15, 2020, 5:43 a.m. No.8423719   🗄️.is đź”—kun   >>3802

>>8423706

RUN Billy RUN

John Hopkins

Event 201

Simulated Coronavirus Outbreak

 

In October 2019, the Johns Hopkins Center for Health Security hosted a pandemic tabletop exercise called Event 201 with partners, the World Economic Forum and the Bill & Melinda Gates Foundation.

 

That center's latest pandemic simulation, Event 201, dropped participants right in the midst of an uncontrolled coronavirus outbreak that was spreading like wildfire out of South America to wreak worldwide havoc. As fictional newscasters from "GNN" narrated, the immune-resistant virus (nicknamed CAPS) was crippling trade and travel, sending the global economy into freefall. Social media was rampant with rumors and misinformation, governments were collapsing, and citizens were revolting.

 

https://hub.jhu.edu/2019/11/06/event-201-health-security/

 

http://www.centerforhealthsecurity.org/event201/

Anonymous ID: bbdb1c March 15, 2020, 5:48 a.m. No.8423744   🗄️.is đź”—kun   >>3802

Did we get a strong footing on the allegation that CoronaVirus had HIV genes spliced into it?

 

We know China leads in gene splicing and CRISPR editing.

 

For a decade, the Bill & Melinda Gates Foundation has been backing research into the use of gene editing in agriculture. In one of the first projects we funded, scientists from the University of Oxford are developing improved varieties of rice, including one called C4 rice. Using gene editing and other tools, the Oxford scientists were able to rearrange the cellular structures in rice plant leaves, making C4 rice a remarkable 20 percent more efficient at photosynthesis, the process by which plants convert sunlight into food. The result is a crop that not only produces higher yields but also needs less water. That’s good for food security, farmers’ livelihoods, and the environment, and it will also help smallholder farmers adapt to climate change.

 

Such alterations of the genomes of plants and even animals are not new. Humans have been doing this for thousands of years through selective breeding. Scientists began recombining DNA molecules in the early 1970s, and today, genetic engineering is widely used in agriculture and in medicine, the latter to mass-produce human insulin, hormones, vaccines, and many drugs. Gene editing is different in that it does not produce transgenic plants or animals—meaning it does not involve combining DNA from different organisms. With CRISPR, enzymes are used to target and delete a section of DNA or alter it in other ways that result in favorable or useful traits. Most important, it makes the discovery and development of innovations much faster and more precise.

 

https://www.foreignaffairs.com/articles/2018-04-10/gene-editing-good