ok so if i understand well, the hormone comes to the receptor which activates the G proteine, inside of the cell. G proteine is composed of béta and alpha, "sticked" together thanks to GDP. Then, GTP takes GDP's place and it provoke the separation of alpha and béta. On the cell's membrane, there is adenylate cyclase: alpha, sticked with GTP, engender the arrival of ATP which comes in it. Then, adenylate cyclase set free two AMPc and four phosphore atomes. The AMPc stickes itself on a molecule.
Interesting how Adenyl Cyclase goes by that as well as adenylate cyclase and adenylyl cyclase. You'd think the scientific community would want one name... much less three!
(*provokes sorry). Anyway, thank you very much for this very clear video. :)
Anelotes 2 months ago
ok so if i understand well, the hormone comes to the receptor which activates the G proteine, inside of the cell. G proteine is composed of béta and alpha, "sticked" together thanks to GDP. Then, GTP takes GDP's place and it provoke the separation of alpha and béta. On the cell's membrane, there is adenylate cyclase: alpha, sticked with GTP, engender the arrival of ATP which comes in it. Then, adenylate cyclase set free two AMPc and four phosphore atomes. The AMPc stickes itself on a molecule.
Anelotes 2 months ago
Interesting how Adenyl Cyclase goes by that as well as adenylate cyclase and adenylyl cyclase. You'd think the scientific community would want one name... much less three!
JackF1116 3 months ago
Thanks for the short and clear video. Helped to clear things up in my studies for an upcoming midterm
gdavge2003 4 months ago