Transhumanism is the conclusion of liberalism and the death of the west as a human community, with westerners losing their very human identity to genetic modifications.
Inb4 Class
I love poison I slurp it up every day with a smileam I cool yet
Space Marines when
Quote from: KING IN DA NORTH! on August 11, 2016, 04:01:56 AMQuote from: CIS on August 10, 2016, 07:22:30 PMInb4 ClassIs there anything he doesn't whine about?Well yeah, lots of things.His bait is obnoxious, but he always shitposts about the same range of topics. It's fairly predictable. Which is why it's getting annoying instead of frustrating like it originally was.
Quote from: CIS on August 10, 2016, 07:22:30 PMInb4 ClassIs there anything he doesn't whine about?
Quote from: Grozny on August 11, 2016, 05:01:32 AMQuote from: KING IN DA NORTH! on August 11, 2016, 04:01:56 AMQuote from: CIS on August 10, 2016, 07:22:30 PMInb4 ClassIs there anything he doesn't whine about?Well yeah, lots of things.His bait is obnoxious, but he always shitposts about the same range of topics. It's fairly predictable. Which is why it's getting annoying instead of frustrating like it originally was."if you're not an alt right neoconservative who hates women and doesnt believe in morality you're just a TROLL lmao"
There was an article published in 2015, and was mentioned late in the first video, by scientists in china who used CRISPR/Cas9 on tripronuclear (3PN) human zygotes to see if they could effectively repair a defective copy of a certain gene. However, the frequency of homologous recombination of their supplied transcript was low, roughly 25% (off the top of my head).
I think the first video really over-glorifies the capabilities of CRISPR/Cas9 as it is now, but I am rather interested in its gene drive implications that appear to lead to "super-mendelian inheritance". There is also research into combining the sequence targeting capabilities of CRISPR with enzymatic domains of adenosine deaminases to create base editors that appear to have more effective use compared to the standard CRISPR/Cas9 system.
Quote from: JUSTFLUXMYSHITUP on September 26, 2016, 11:01:52 AMThere was an article published in 2015, and was mentioned late in the first video, by scientists in china who used CRISPR/Cas9 on tripronuclear (3PN) human zygotes to see if they could effectively repair a defective copy of a certain gene. However, the frequency of homologous recombination of their supplied transcript was low, roughly 25% (off the top of my head).Is 25% success higher than what we're currently getting with ZFN or TALEN methods? If not, then the main advantage of CRISPR is saving time and funding to produce at least some results (I'm thinking a quick brute-force method over meticulous but productive).QuoteI think the first video really over-glorifies the capabilities of CRISPR/Cas9 as it is now, but I am rather interested in its gene drive implications that appear to lead to "super-mendelian inheritance". There is also research into combining the sequence targeting capabilities of CRISPR with enzymatic domains of adenosine deaminases to create base editors that appear to have more effective use compared to the standard CRISPR/Cas9 system.I kinda got that vibe too from it, but if it's something that could be spectacular in it's infancy then it's worth waiting to see what comes of it as it's researched and tested more (particularly if the upfront cost is lower).Who knows, with gene-drive it could be possible to eradicate other diseases by targeting the parents without having to genetically alter a zygote/fetus during pregnancy and all the risks that brings (but I'm completely out of my element here, so I don't know how exactly that would work, if at all).
Genetic Engineering, Pt. II - CRISPR & CAS9
