In addition to glucose, many other carbohydrates can be broken down through the process of aerobic respiration and fermentation. for example, in the liver, two molecules of atp are hydrolyzed in a series of steps that convert fructose into two molecules of glyceraldehyde−3−phosphate. galactose can be converted into fructose−1,6−bisphosphate at the expense of two molecules of atp. with this is mind, calculate the total number of atp molecules that can be harnessed from a molecule of sucrose, a disaccharide of glucose and fructose, through the process of fermentation. assume that each molecule of nadh yields 2.5 atp and each molecule of fadh2 yields 1.5 atp. also assume that gtp transfers its phosphate group to adp, thereby forming atp.