Cyclic AMP is a form of adenylic acid responsible for regulating enzyme-catalyzed processes in living cells while PIP2 calcium is a membrane phospholipid.
No, calcium bonds to calmodulin
O2, ATP and NADPH ONLY ATP IS PRODUCED. NEITHER O2 NOR NADPH IS PRODUCED.
Cyclic AMP accumulates when the glucose concentration is scarce. If the glucose concentration increases, the cAMP concentration falls, and without it, CAP (catabolite activator portein) detaches from the operon and becomes inactive.
Cyclic AMP (cAMP) serves as a second messenger for many hormones. When hormones bind to their specific receptors on the cell membrane, it triggers a cascade of biochemical events that lead to the production of cAMP. cAMP then activates other signaling molecules, such as protein kinase A, which regulate various cellular processes, including gene expression, metabolism, and cell growth.
because original message is carried by hormone, which cant act directly, so in turn it activates cyclic AMP.
Cyclic AMP is a form of adenylic acid responsible for regulating enzyme-catalyzed processes in living cells while PIP2 calcium is a membrane phospholipid.
No, calcium bonds to calmodulin
"When adenylyl cyclase is activated, it catalyses the conversion of ATP to cyclic AMP, which leads to an increase in intracellular levels of cyclic AMP. Cyclic AMP functions as a "http://wiki.answers.com/../pathphys/endocrine/moaction/surface.html" to relay extracellular signals to intracellular effectors, particularly http://wiki.answers.com/pka.html. "
Cyclic AMP Receptor Protein
It is a secondary signaling molecule.
G. Alan Robison has written: 'Cyclic AMP' -- subject(s): Cyclic adenylic acid
yes
O2, ATP and NADPH ONLY ATP IS PRODUCED. NEITHER O2 NOR NADPH IS PRODUCED.
Second Messengers
Cyclic AMP accumulates when the glucose concentration is scarce. If the glucose concentration increases, the cAMP concentration falls, and without it, CAP (catabolite activator portein) detaches from the operon and becomes inactive.
It produced ATP, O2, and NADPH.