Construction and fit to experimental data of a computer model of glycolysis, the tricarboxylic acid cycle, and related metabolism in the perfused rat heart involving 63 enzyme submodels is described. The experimental preparation simulated is a rat heart perfused with Krebs bicarbonate solution containing glucose and insulin whose pH was lowered to 6.6 by equilibration with 35% CO2-65% O2. The glycolytic rate falls sharply and ischemia results, becoming apparent after 3.5 min. The model initially ascribes the fall in glycolysis largely to inhibition of hexokinase by accumulated glucose 6-phosphate and inactivation of phosphofructokinase by the low pH and subsequently to cytoplasmic glucose depletion owing to limitation of glucose uptake by the external acidosis. At the same time there is insufficiently deep hypoxia to trigger substantial mobilization of endogenous fuels (e.g., glycogenolysis or fatty acid mobilization, so that these hearts become ischemic primarily owing to a shortage of metabolic fuel.