1.
Molecules: glucose
Image of glucose representations from Fisher to Haworth. Animated image of D-Glucose shifting into β-D-glucose. posted at 4/18/2006 12:03:00 AM ...
2.
Molecules: ATP
AMP + Pi → ADP + Pi → ATP. (Pi is inorganic phosphorus) Redox reactions are chemical reactions in which electrons are transferred from a donor molecule to ...
3.
Molecules: Cofactors, Coenzymes, biosynthetic intermediates
Cofactors may be loosely or tightly bound to the enzyme. Organic, loosely bound cofactors are called coenzymes, and play an accessory role in ...
4.
Molecules: purine pyrimidine
Left - purine (smaller molecule with bigger name) and (right) pyrimidine (larger molecule with smaller name). grey - carbon / white - hydrogen / blue - ...
5.
Molecules: purine pyrimidine
Left - purine (smaller molecule with bigger name) and (right) pyrimidine (larger molecule with smaller name). grey - carbon / white - hydrogen / blue - ...
6.
Molecules: purine pyrimidine
Left - purine (smaller molecule with bigger name) and (right) pyrimidine (larger molecule with smaller name). grey - carbon / white - hydrogen / blue - ...
7.
Molecules: Cofactors, Coenzymes, biosynthetic intermediates
In general, a cofactor is any substance required to cooperate with an enzyme that catalyzes a specific reaction. Cofactors are non-proteinaceous substances ...
8.
Molecules: Cofactors, Coenzymes, biosynthetic intermediates
Cofactors are non-proteinaceous substances that assist enzymes in performing catalytic actions. Cofactors may be cations (metal ions) or organic molecules ...
9.
Molecules: ATP
AMP + Pi → ADP + Pi → ATP. (Pi is inorganic phosphorus) Redox reactions are chemical reactions in which electrons are transferred from a donor molecule to ...
10.
Molecules: glucose
Animals and fungi convert glycogen to glucose (glycogenolysis), while plants hydrolyse the storage form starch into glucose. ...
