Products Reactants Cell Cycles

Reactants Glycolysis

2 ATP, Glucose, 2NAD+

Products Glycolysis

4 ATP, 2 pyruvate, 2 NADH

Reactants Pyruvate Oxidation

2 Pyruvate, 2 NAD+, CoA

Products Pyruvate Oxidation

AcetylCoA, 2 CO₂, 2NADH

Reactants Krebs Cycle

AcetylCoA, 3 NAD+, ADP, FAD

Products Krebs Cycle

1 ATP, FADH₂, 3NADH, 2CO₂

Reactants Oxidative Phosphorylation

NADH, FADH₂, O₂ (needs to be final e acceptor), ADP

Products Oxidative Phosphorylation

H₂O, 32-36 ATP and NAD+, FAD

Reactants Lactic Acid Fermentation

Glucose, NAD+

Products Lactic Acid Fermentation

Lactate, NAD+, 2 ATP

Reactants Alcoholic Fermentation

Glucose, NAD+, ADP

Products Alcoholic Fermentation

ATP, CO₂, Ethanol, NAD+

Reactants Light Dependent Reaction

Light, 6H₂O, 6ADP, 6NADP+

Products Light Dependent Reaction

O₂, ATP , NADPH

Reactants Calvin Cycle

ATP, NADPH, CO₂

Products Calvin Cycle

Glucose, ADP, NADP+

General Steps Calvin Cycle

1. Fixation with Rubisco

2. Reduction, produces reduced e carriers

3. Regeneration, the 5 G3Ps that weren’t used turn back into RUBP to be used again

Steps Light Dependent Reaction

The light excites an electron that splits the H₂O and H+ is pumped through ETC to create a concentration gradient that powers ATP synthase, O₂ is left as a byproduct