New COVID-19 variant moves 'twice as fast' as Delta, could evade vaccines -
lvlrsSTI - 01-09-2021
https://www.skynews.com.au/australia-news/coronavirus/new-covid19-variant-moves-twice-as-fast-as-delta-could-evade-vaccines/news-story/354126f83fe443b1dd6a0ec4558faa35
RE: New COVID-19 variant moves 'twice as fast' as Delta, could evade vaccines -
singlon - 01-09-2021
WHO got a new variant to monitor calle MU.
-CNA
RE: New COVID-19 variant moves 'twice as fast' as Delta, could evade vaccines -
lvlrsSTI - 01-09-2021
(01-09-2021, 09:26 PM)singlon Wrote: WHO got a new variant to monitor calle MU.
-CNA
Correct, but that’s a different variant...the variant we are talking about here is called C.1.2 from South Africa, that is twice as contagious as Delta variant....scary!
RE: New COVID-19 variant moves 'twice as fast' as Delta, could evade vaccines -
singlon - 01-09-2021
(01-09-2021, 09:44 PM)lvlrsSTI Wrote: Correct, but that’s a different variant...the variant we are talking about here is called C.1.2 from South Africa, that is twice as contagious as Delta variant....scary! ![crying crying](https://sgtalk.net/images/smilies/Animated/crying_s.gif)
correct c.1.2 from Safrica
RE: New COVID-19 variant moves 'twice as fast' as Delta, could evade vaccines -
Teeth53 - 01-09-2021
In general, viruses have major roles in driving evolution. In the long-term, viruses have positive impacts on our genome and shape evolution," explained Satoshi Namekawa of CCPI.
https://www.indiatimes.com/technology/news/viruses-play-key-role-in-mammals-ability-to-reproduce-and-survive-finds-new-study-522652.html
RE: New COVID-19 variant moves 'twice as fast' as Delta, could evade vaccines -
Teeth53 - 01-09-2021
(01-09-2021, 10:08 PM)Teeth53 Wrote: In general, viruses have major roles in driving evolution. In the long-term, viruses have positive impacts on our genome and shape evolution," explained Satoshi Namekawa of CCPI.
https://www.indiatimes.com/technology/news/viruses-play-key-role-in-mammals-ability-to-reproduce-and-survive-finds-new-study-522652.html
Study further demonstrated the molecular process responsible for super-enhancer switching within germ cells. It found that these super-enhancers are regulated by two molecules, the transcription factor A-MYB and SCML2, a silencing protein in sperm formation. These molecules act as gene-burst control switches for the super-enhancers.