Josh Ddd
@GitRDone73
02 April, 10:22
WHY LITTLE BOYS WANT TO BE GIRLS.....BECAUSE THEY ARE!
WI-38 is the cell line from a FEMALE aborted fetus, used to cultivate viruses used in vaccines. When you inject the DNA from a FEMALE (carrying two X chromosomes) into a MALE (who already carries one X chromosome and a weaker Y chromosome) you now have an overload of the X chromosome.
Now we have an onslaught of BOYS who think they should be GIRLS.
Do we have male DNA in vaccines? YES!
The MRC-5 is the code given to the fetal cell line also used to cultivate vaccine viral components, and it comes from a MALE aborted fetus.
Do we have girls thinking they are boys? YES!
Is it as prominent as boys wanting to be girls? NO!
Why? Because girls have two dominant X chromosomes.
When they are injected with a vaccine containing MRC-5, they aren't just getting a Y chromosome, but yet another dominant X chromosome, on top of the two they already have.
WI-38 is the cell line from a FEMALE aborted fetus, used to cultivate viruses used in vaccines. When you inject the DNA from a FEMALE (carrying two X chromosomes) into a MALE (who already carries one X chromosome and a weaker Y chromosome) you now have an overload of the X chromosome.
Now we have an onslaught of BOYS who think they should be GIRLS.
Do we have male DNA in vaccines? YES!
The MRC-5 is the code given to the fetal cell line also used to cultivate vaccine viral components, and it comes from a MALE aborted fetus.
Do we have girls thinking they are boys? YES!
Is it as prominent as boys wanting to be girls? NO!
Why? Because girls have two dominant X chromosomes.
When they are injected with a vaccine containing MRC-5, they aren't just getting a Y chromosome, but yet another dominant X chromosome, on top of the two they already have.
Notice: Undefined index: tg1tga_access in /home/admin/www/anonup.com/themes/default/apps/timeline/post.phtml on line 396
In the absence of being able to scientifically prove of this myself one can only look at the outcome. They’ve been playing with their DNA very very early on. For the people in Hollywood, for example, in utero.
11:25 AM - Apr 02, 2021
In response Josh Ddd to his Publication
Only people mentioned by Janedoe17 in this post can reply