thehacker3 said:Title says it all. How close are we to genetically instilling more memory, faster processing power, etc.. in the human brain?
Can an admin please PM this time before just deleting the thread? It's a serious question and an interesting discussion if taken as such.
nismaratwork said:Not close at all... remember that to achieve those ends we need to have a deep understanding of memory and what makes the brain work "faster" and "better". The last time gene therapy was tried with good intentions and little testing, it killed all save one participant.
I would say we're not even within sight of such a breakthrough, unless it came out of nowhere. Remember that genes act in an incredibly complex fashion with each other, the environment, and then each other again. It's one thing to make a fern bioluminescent, quite another to enhance a brain without killing it.
thehacker3 said:Thank you for a much more informative response. This answered my question quite well, actually.
Proton Soup said:you could try the dual n-back method to increase working memory.
http://en.wikipedia.org/wiki/N-back#Dual_n-back
i downloaded the brain workshop game, but just never seem to find the interest to play it.
As a scientist, I can say that we are already making progress towards genetically altering brain functionality. However, this is a complex and controversial area of research and there are still many challenges and ethical considerations to be addressed before it becomes a widespread practice.
Currently, the most commonly used method for genetic alteration of brain functionality is through the use of gene editing tools such as CRISPR-Cas9. This allows scientists to make precise changes in specific genes that can potentially affect brain function.
The potential benefits of genetically altering brain functionality include the ability to treat and potentially cure neurological disorders and diseases, improve cognitive abilities, and enhance human capabilities. It could also provide a better understanding of the brain and its functions.
Some potential risks and drawbacks of genetically altering brain functionality include unintended consequences and side effects, ethical concerns surrounding the manipulation of human genes, and the potential for unequal access and distribution of these technologies.
This is a complex and controversial area of research, and there are many ethical considerations to be addressed. These include issues of consent, potential discrimination and inequality, and the potential for unintended consequences and misuse of these technologies.