Use LEFT and RIGHT arrow keys to navigate between flashcards;
Use UP and DOWN arrow keys to flip the card;
H to show hint;
A reads text to speech;
10 Cards in this Set
- Front
- Back
|
Anabolism |
Synthesis E from anabolism drives catabolism |
|
|
Catabolism |
Break down E from anabolism drives catabolism |
|
|
Glycolysis: Location, input, output |
In Cytoplasm Input: 6C glucose ->G3P Output: ATP, NADH, Pyruvate |
|
|
Glycolysis oxidation and reduction |
Reduced molecules from glucose are oxidized |
|
|
Glycolysis to Citric Acid cycle |
Pyruvate from Glycolysis is converted to Acetyl CoA inside mitochondria to enter the Citric Acid cycle |
|
|
Citric Acid Cycle: Location, Input (Pattern), Output |
Mitochondrial Matrix Input: Acetyl CoA (2C) + 4C -> 6C -> 2C+4C Output: NADH NO ATP created |
|
|
Citric Acid cycle oxidation and reduction |
NAD+ is reduced to NADH |
|
|
Where is oxygen necessary |
Converting pyruvate to acetyl CoA, no oxygen = no citric acid cycle |
|
|
Electron Transport Chain: location, 3 Basic steps |
In mitochondrial matrix 1. Electron transport from NADH to O2 produces E 2. E is used to set up H+ gradient by pumping protons against electrochemical gradient 3. Energy from H+ gradient is used to make ATP |
|
|
Electron Transport Chain: Oxidation and reduction |
NADH is used to reduce H2O |
