Show:
PRODUCTS
STEPS
LOCATION
VERY ACCEPTING
100
The final product of the Electron Transport Chain (ETC).
What is ATP.
100
STEP 1: [BLANK] get donated at various points along the chain.
What is [ELECTRONS].
100
The Electron Transport Chain takes place here.
What is the Mitochondria.
100
The final electron acceptor of the ETC.
What is Oxygen.
200
On average, each pair of high-energy electrons that travels down the ETC provides enough energy to produce this many ATP.
What is three ATP.
200
STEP 3: [BLANK] is created by the diffusion of protons down gradient.
What is [ATP].
200
Hydrogen ions pass along this.
What is the Membrane.
200
NAD+ turns into this.
What is NADH.
300
This is how many ATP are created in the ETC.
What is 36 ATP.
300
STEP 3: Oxygen absorbs the electrons at the end of the chain forming [BLANK].
What is [WATER].
300
ATP is made here.
What is the Matrix.
300
The Krebs cycle generates high-energy electrons that are passed to [BLANK] and FAD2.
What is [NADH].
400
This is how many ATP are created in the ETC.
What is water.
400
STEP 2: [BLANK] (H+) get pumped out of the matrix as electrons bounce from carrier to carrier.
What is [PROTONS].
400
During electron transport, H+ ions build up in this space.
What is the Intermembrane space.
400
This accepts a phosphate and turns into one of the products of ETC.
What is ADP.
500
This enzyme produces ATP.
What is ATP Synthase.
500
When ATP runs out, the cell stops producing [BLANK] and is in jeopardy of dying.
What is [MOLECULES].
500
The ATP synthase is an enzyme located here.
What is the inner mitochondrial membrane.
500
Each time it rotates, the [BLANK] grabs a low-energy ADP and attaches a phosphate, forming high-energy ATP.
What is [ENZYME].