3 facts: A healthy Omega-6 to Omega-3 ratio is 4-1. DHA uses endogenous signaling help maintain synaptic integrity in the brain; DHA molecules increase in a brain damaging event to make nueroprotectant NPD1 which prevents inflammation and induces cell survival. Fatty acids are responsible for the separation of the mother nucleus into the two daughter cells during the mitosis process. Questions: So is it a depletion of fatty acids during the mitosis process that leads to an unequal separation of the two daughter cells making the lsd phenotype? Is Cerulenin a normal part of fatty acid synthesis in which only sometimes it will prevent the normal amounts of fatty acids to be produced?
My video was about omega-3's various benefits in the body in terms of athletes, people with mental disorders, and in people's eyes and Kevin touched on all of these. He mentioned that fatty acids improve brain recovery for people with concussions, which evidently has a large impacts on many athletes today. He also talked about omega-3's as a medicinal treatment for depression, which is a mental disorder with many parallels to borderline personality disorder. He also talked about fatty acid consumption benefits for infant vision development, which relates to my research on omega-3's in retinal development.
Questions: You mentioned the benefits of omega-3 intake and the healthy ratio of omega-3's to omega-6's but what are the negative side effects of excessive intake of omega-3's- if any? Could you elaborate on the specific parts of the eye that is effected by omega-3 intake and how fatty acids manage to improve so many functions of the eye?
Your "where to go from here" is spot on! I totally would like to see you dive deeper into that information!
Could you also give a little background information on endergonic signalling and synaptic integrity? These are terms you've tossed out, which you most likely defined and explained in earlier research summaries, but it might be worth discussing/explaining again.
The mechanism you found to show how cerulenin interferes -- great diagram. Be sure that you are able to explain other areas of that diagram if you show it. I could see someone asking about a different area of that mechanism.
3 facts: A healthy Omega-6 to Omega-3 ratio is 4-1. DHA uses endogenous signaling help maintain synaptic integrity in the brain; DHA molecules increase in a brain damaging event to make nueroprotectant NPD1 which prevents inflammation and induces cell survival. Fatty acids are responsible for the separation of the mother nucleus into the two daughter cells during the mitosis process.
ReplyDeleteQuestions: So is it a depletion of fatty acids during the mitosis process that leads to an unequal separation of the two daughter cells making the lsd phenotype? Is Cerulenin a normal part of fatty acid synthesis in which only sometimes it will prevent the normal amounts of fatty acids to be produced?
My video was about omega-3's various benefits in the body in terms of athletes, people with mental disorders, and in people's eyes and Kevin touched on all of these. He mentioned that fatty acids improve brain recovery for people with concussions, which evidently has a large impacts on many athletes today. He also talked about omega-3's as a medicinal treatment for depression, which is a mental disorder with many parallels to borderline personality disorder. He also talked about fatty acid consumption benefits for infant vision development, which relates to my research on omega-3's in retinal development.
ReplyDeleteQuestions:
You mentioned the benefits of omega-3 intake and the healthy ratio of omega-3's to omega-6's but what are the negative side effects of excessive intake of omega-3's- if any?
Could you elaborate on the specific parts of the eye that is effected by omega-3 intake and how fatty acids manage to improve so many functions of the eye?
Your "where to go from here" is spot on! I totally would like to see you dive deeper into that information!
ReplyDeleteCould you also give a little background information on endergonic signalling and synaptic integrity? These are terms you've tossed out, which you most likely defined and explained in earlier research summaries, but it might be worth discussing/explaining again.
The mechanism you found to show how cerulenin interferes -- great diagram. Be sure that you are able to explain other areas of that diagram if you show it. I could see someone asking about a different area of that mechanism.