Question

The total number of ATP formed in the aerobic respiration from one glucose molecule is:

• A. 30
• B. 38
• C. 40
• D. 24

Answer 1

Answer: (B)

The energetics of aerobic respiration is as follows:

ATP Consuming Reactions

Phosphorylation-I	$Glucose+ATP{\to }_{M{g}^{2+}}^{Hexokinase}Glucose6-Phosphate+ADP$	-1 ATP	-1 ATP
Phosphorylation-II	$Fructose6-Phosphate+ATP{\to }_{M{g}^{2+}}^{Phosphofructokinase}Fructose1,6-Biphosphate$	-1 ATP	-1 ATP
	Net Gain		8 ATP

Energetics of Link reaction

Reaction Type	Reaction	Products of reaction	In terms of ATP
Dehydrogenation	$Pyruvate+CoA+NA{D}^{+}{\to }_{M{g}^{+2},TPP,Lipoicacid}^{Pyruvatedehydrogenase}AcetylCoA+NAD{H}_2+C{O}_2$	2 x NADH2	6 ATP

Energetics of Kreb's cycle/TCA cycle

Reaction Type	Reaction	Products of reaction	In terms of ATP
Dehydrogenation-I	$Isocitrate+NA{D}^{+}{\to }_{M{n}^{+2}}^{Isocitratedehydrogenase}Oxalosuccinate+NAD{H}_2$	2 x NADH2	6 ATP
Oxidative decarboxylation	$\alpha -Ketoglutarate+CoA+NA{D}^{+}{\to }_{M{g}^{+2},TPP,Lipoicacid}^{\alpha -Ketoglutaratedehydrogenase}SuccinylCoA+NAD{H}_2+C{O}_2$	2 x NADH2	6 ATP
Dehydrogenation III	$Succinate+FAD\stackrel{Succinicdehydrogenase}{\to }Fumarate+FAD{H}_2$	2 x FADH2	4 ATP
Dehydrogenation IV	$Malate+NA{D}^{+}\stackrel{Malatedehydrogenase}{\to }Oxaloacetate+NAD{H}_2$	2 x NADH2	6 ATP
Substrate-level Phosphorylation	$SuccinylCoA+GDP+Pi\stackrel{SuccinylCoAsynthetase/Succinylthiokinase}{\to }Succinate+GTP+CoA$	2 x 1 GTP	2 ATP
	Net gain		24 ATP
	Net gain in aerobic respiration (Glycolysis + Link reaction + Kreb's cycle)	8 ATP + 6 ATP + 24 ATP	38 ATP