Question | Answer |
*Splits glucose into two pyruvate molecules | Glycolosis |
Produces 2 pyruvates | Glycolosis |
*Produces 4 ATPs by substrate level | Glycolosis |
Phosphorylation | Glycolosis |
*Requires 2 ATPs to activate | Glycolosis |
*Anaerobic | Glycolosis and Fermentation |
*Occurs in the cytoplasm | Glycolosis |
2 NADH as a final product | Glycolosis |
Ends with a net gain of 2 ATPs | Glycolosis |
Oxides e' form 6-c sugars | Glycolosis |
NAD+ oxides e' from 3-carbon sugars | Glycolosis |
*Removes hydrogen in the form of 2 NADH | Glycolosis |
Process that completes the oxidation of glucose | Kreb's Cycle |
*Forms Acetyl CO-A | Kreb's Cycle |
Produces 6 NADH | Kreb's Cycle |
*Aerobic | Kreb's Cycle and Electron Transport Chain |
*Produces CO2 | Kreb's Cycle |
Removes 6-C as 6-CO2 | Kreb's Cycle |
*Occurs in the matrix of mitochondria | Kreb's Cycle |
Begins with pyruvate | Kreb's Cycle |
Produces 2 FADH | Kreb's Cycle |
Produces 2 ATPs by substrate level phosphorylation | Kreb's Cycle |
*Uses NAD and FAD to remove hydrogen | Kreb's Cycle |
*Produces 6CO2 and 2ATP per turn (glucose) | Kreb's Cycle |
Uses ATP synthasis | Electron Transport Chain |
*Produces H2O | Electron Transport Chain |
Requires O2 | Electron Transport Chain |
Produces 34 ATPs by combining ADP and P | Electron Transport Chain |
Uses the energy of e' from NADH | Electron Transport Chain |
*Occurs in the inner membrane of mitochondria | Electron Transport Chain |
Uses the energy of electrons from FADH | Electron Transport Chain |
Maintains a H+ resevoir and the proton gradiant | Electron Transport Chain |
*Makes most of the ATP | Electron Transport Chain |
*Uses oxygen as the final electron acceptor | Electron Transport Chain |
*Lactic acid in muscle cells is a product | Fermentation |
*Ethanol is a product | Fermentation |
*Process used to make bread and alcoholic beverages (yeast) | Fermentation |
*Occurs when no oxygen is available | Fermentation |
*Yeast cells | Fermentation |
*Oxidizes oxygen so there is a place to dump hydrogen, so the process can occur again | Fermentation |