Net inputs: glucose, ADP, NAD+ Net outputs: Pyruvate, NADH, ATP
Vitamin K is also a coenzyme.
A coenzyme is a nonprotein compound that is loosely bound to an enzyme. In humans, the element copper is considered as a coenzyme.
riboflavin
The answer is coenzyme because it has nothing to do with speeding u chemical processes
Net inputs: glucose, ADP, NAD+ Net outputs: Pyruvate, NADH, ATP
Coenzyme Q is found in the inner membrane of the mitochondrion and plays a key role in oxidative phosphorylation during cellular respiration. NADH releases electrons which are transferred to coenzyme Q via NADH dehydrogenase. Coenzyme Q then carries the electrons to the cytochrome bc1 complex. Electrons are also transferred to coenzyme Q by FADH2. The electrons are then brought to the cytochrome bc1 complex like before. This process of transferring electrons is known as the electron transport chain and is ultimately a part of oxidative phosphorylation which is the formation of ATP from ADP and an inorganic phosphate.
Acetyl-CoA: CoA=Co-enzyme A; Coenzyme I, coenzyme II, coenzyme A and B-12 and coenzyme Q.
Pantothenic acid is converted into its active form Coenzyme A.
A coenzyme helps an enzyme do its' work. Without the coenzyme, the enzyme will remain inactive.
Vitamin K is also a coenzyme.
The metabolism process
I'm not aware of any weight loss properties of Coenzyme Q10, or any other coenzyme.
Holoenzyme= Apoenzyme+ coenzyme
It is an important coenzyme for nutrition. CoA = coenzyme-A
Coenzyme Q10 stimulates the lipid metabolism which in turn affects the body's ability to break down food into energy. http://www.hwize.com/coenzyme-q10/coenzyme-q10.html
A coenzyme is a non-protein organic molecule that is required for the activity of an enzyme, while an apoenzyme is the protein component of an enzyme without its cofactor or coenzyme. Together, a coenzyme and an apoenzyme form a holoenzyme that is fully functional.