[Six/three/one] enzymes that participate in the complete catabolism of glucose through glycolysis and the citric acid cycle are oxidative decarboxylations. From one glucose molecule [six/five/three/two] carbon dioxide molecules are produced after complete catabolism through these pathways. Glycolysis occurs in the [cytosol/lysosome/mitochondrial matrix], pyruvate dehydrogenase localizes to the [cytosol/lysosome/mitochondrial matrix], and the citric acid cycle occurs in the [cytosol/lysosome/mitochondrial matrix]. help fill in the blanks
[Six/three/one] enzymes that participate in the complete catabolism of glucose through glycolysis and the citric acid cycle are oxidative decarboxylations. From one glucose molecule [six/five/three/two] carbon dioxide molecules are produced after complete catabolism through these pathways. Glycolysis occurs in the [cytosol/lysosome/mitochondrial matrix], pyruvate dehydrogenase localizes to the [cytosol/lysosome/mitochondrial matrix], and the citric acid cycle occurs in the [cytosol/lysosome/mitochondrial matrix].
help fill in the blanks
Glycolysis is the breakdown of glucose molecules to yeild energy in the form of ATP and NADH. Glycolysis occurs in two phases - energy investment phase and energy yielding phase. The end product of Glycolysis is Pyruvate, which enters into TCA cycle. TCA cycle is the common pathway which connects carbohydrate, lipid and protein metabolism through Acetyl CoA. The pyruvate synthesized in the glycolysis is converted to Acetyl CoA, which enters into TCA cycle.
Step by step
Solved in 4 steps with 3 images
