Thanks to this lecture, I now have a very detailed knowledge of how memory is fixed for long-term duration. The lecture has been deep, detailed, clear, and utterly fascinating. My deepest appreciation. It will help me greatly in the design of a cybernetic model of behaviour of which the neural systems are pragmatic and efficient discrete approaches.
Sorry to be off topic but does someone know a tool to log back into an instagram account?? I somehow lost my password. I would appreciate any tricks you can give me.
@Lane Edward i really appreciate your reply. I got to the site through google and im in the hacking process now. Seems to take a while so I will get back to you later when my account password hopefully is recovered.
What an excellent discovery! I am also studying on a project related to synapse and serotonin. This presentation has shown me there are many other mechanisms of action which one chemical/ protein/ RNA could have worked in the brain. They all might have different tasks. Interesting!
"Active dynein-mediated transport along microtubules, involves regulated phosphorilation/dephosphorilation" And that must be why everyone knew phosphor was good for memory....
in summary phosphorylation/de-phosphorylation is how DNAs indirectly effect processes in the rest of the cell. By interrupting certain chemicals involving in the phosphorylation/de-phosphorylation cascade you can control a process inside cells (for therapeutic purposes)
Please redo this presentatiion using more generally accepted vocabulary so that the target audience can understand what is being said. There is no need to impress with scientific mumbo jumbo!
