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19 Cards in this Set
- Front
- Back
cytosol |
where glycolysis occurs |
|
glycolysis |
decomposition of glucose to pyruvate |
|
ATP, NADH, Pyruvate |
product of glycolysis |
|
NADH, ATP, FADH2, CO2 |
Product of Krebs cycle |
|
acetyl coenzyme A |
Pyruvate combines with coenzyme A to produce |
|
energy |
electrons give up ___ to phosphorylate ADP to ATP |
|
3 ATP |
NADH's electrons provide ___ ATP |
|
2 ATP |
FADH2's electrons provides __ ATP |
|
oxygen |
final electron acceptor |
|
intermembrane space |
where [H+] accumulates |
|
inner membrane/cristae |
where oxidative phosphorylation occurs |
|
mitochondrial matrix |
where krebs cycle and conversion of pyruvate to acetyl coA occurs |
|
ATP synthase |
responsible for phosphorylation of ADP to ATP |
|
low pH |
intermembrane space has (high/low) pH than the matrix |
|
ATP synthase |
allows the protons to flow back from the intermembrane to the matrix. |
|
substrate level phosphorylation |
phosphate group AND its energy is transferred toADP to from ATP. (glycolysis) |
|
oxidative phosphorylation |
phosphate group added to ADP to form ATP doesnot have the energy needed. |
|
anaerobic respiration |
also occurs in cytosol, just like glycolysis |
|
anaerobic respiration |
allows NADH to convert back to NAD+
|