The total ATP produced from one glucose is --------* (36/38) ATP
There are 2 FAD and NAD and molecules. This is to breakdown each glucose molecule.
It takes 2 monosaccharide molecules to form a maltose molecule. Those are 2 glucose molecules. So 2 glucose molecules join together to make 1 maltose molecule.
One molecule of glucose is capable of being metabolized into 6 molecules of CO2.
Per molecule of glucose aerobic respiration generates a total of 36ATP molecules while anarobic generates 2 ATP molecules?
If 2 NADH molecules were produced in glycolysis, it means that 1 glucose molecule was broken down. Each glucose molecule yields 2 NADH molecules during glycolysis.
200
Six oxygen molecules are released when one glucose molecule is formed.
To produce one molecule of glucose, six molecules of G3P are required.
200
There are 2 FAD and NAD and molecules. This is to breakdown each glucose molecule.
It takes 2 monosaccharide molecules to form a maltose molecule. Those are 2 glucose molecules. So 2 glucose molecules join together to make 1 maltose molecule.
Acetyl coenzyme A is produced twice from one molecule of glucose in the process of glycolysis and the citric acid cycle. Each glucose molecule is broken down into two molecules of pyruvate during glycolysis, and each pyruvate molecule is converted to one molecule of acetyl CoA before entering the citric acid cycle.
One molecule of glucose is capable of being metabolized into 6 molecules of CO2.
About 36 ATP molecules for every glucose molecule.
2
Two monosaccharides are needed to form one maltose molecule. Specifically, maltose is comprised of two glucose molecules joined together through a condensation reaction, which releases a molecule of water.
Per molecule of glucose aerobic respiration generates a total of 36ATP molecules while anarobic generates 2 ATP molecules?