Terminal Respiration

Question 1

Where is most NADH and FADH2 produced?

Answer 1

In the mitochondrial matrix from CAC and beta-oxidation.

Question 2

Where else is NADH produced?

Answer 2

In the cytosol from glycolysis.

Question 3

How is NADH transferred to the mitochondrial matrix?

Answer 3

By the glycerol phosphate shuttle:

Question 4

How does the glycerol phosphate shuttle work?

Answer 4

electrons from NADH transferred to make G-3-P which crosses outer membrane and transfers electrons to form FADH2.

Question 5

Why is there an energetic cost to using cytosolic reduced substrates in terminal respiraiton?

Answer 5

FADH2 doesnt pass electons throught he 1st complex so produces less ATP than NADH. Therefore theres a cost to using cytosolic NADH as it becomes FADH2.

Question 6

Why is ubiquinone used as a dietary supplement?

Answer 6

It reduces free radicals so is used as an antioxidant.

Question 7

Complex 1:

Answer 7

• Oxidises NADH
• e-‘s passed along Fe-S centres
• Produces ubiquinol (QH2) from matrix H+ ions and e-‘s
• 4H+ ions pumped out the matrix

Question 8

Complex 2:

Answer 8

• Oxidises FADH2
• Fe-S centres channel e-‘s
• Transfers e-‘s to form ubiquinol

Question 9

Complex 3:

Answer 9

• Ubiquinol from 1&2 gives up electrons to reduce cytochrome c
• Each QH2 reduces 2 cytochrome c molecules
• Pumps 2 protons out the matrix.

Question 10

Complex 4:

Answer 10

• e-‘s from cytochrome c channled through Fe-Cu centres
• e-‘s pass to O2 which makes water with matrix protons
• 4 more protons pumped through

Question 11

How many protons are pumped across for every NADH oxidised?

Answer 11

10 H+ ions or protons

Question 12

How many protons are pumped across for every FADH2 oxidised?

Answer 12

6 H+ ions of protons

Question 13

What is Chemiosmosis?

Answer 13

Movement of protons down the electrochemical gradient to produce a proton motive force.

Question 14

Why is chemiosmosis vectoral?

Answer 14

It has a specific directionality of movement

Question 15

What generates the electrochemical gradient?

Answer 15

The chemical potential (alkaline inside, acidic outside)

The elecrical potential (-ve inside and +ve outside)

Question 16

What is ATP synthase?

Answer 16

A large multi-subunit protein complex in inner mitochondrial membrane.
Split into F0 and F1

Question 17

What is the F0?

Answer 17

Membrane bound proton conduction unit.

10 subunits in the channel and 1 connecting to F1 (gamma shaft).

Question 18

Whats the F0 function?

Answer 18

It captures energy from the proton motive force.

Question 19

What is the F1?

Answer 19

Protudes into matrix. Made from alpha & beta subunits.

Question 20

Function of F1?

Answer 20

It uses energy captured by F0 to synthesize ATP

Question 21

What are the 3 beta subunit types?

Answer 21

• one binds to ATP
• one binds to ADP + Pi
• One cant bind to either

Question 22

How is ATP synthesised?

Answer 22

• F0 captures energy from proton motive force
• > F0 rotates
• > Gamma shaft rotates
• > Forces conformational changes in beta subunits

Question 23

How many protons need to pass through ATP synthase for 1 ATP to be made?

Answer 23

3 protons pass through before 1 conformational change occurs.

Question 24

How much ATP does NADH and FADH2 produce?

Answer 24

Every mole of NADH oxidised forms 2.5 moles of ATP.

One mole of FADH2 oxdisied forms 1.5 moles of ATP.

Question 25

What is coupling?

Answer 25

Electron transport is said coupled to atp SYNTHEsis.

Question 26

How does uncoupling occur?

Answer 26

The inner membrane becomes permeable to protons.
Proton gradient cant be generated.
No ATP can be made.

Question 27

What happens to energy generated by electron transport when uncoupled?

Answer 27

Its released as heat

Question 28

What is malignant hyperthermia?

Answer 28

A disease caused by leaky membranes when susceptible people are exposed to halothane.

Question 29

What does a large body temp increase cause?

Answer 29

Irreversible muscle dAMAGE

Question 30

When does intnetional uncoupling occur in mammals?

Answer 30

When infants are too cold
norepinephrine opens a thermogenin channel in the inner membrane making it leaky to protons
Heat is released to warm up the infant.
(brown fat)

Question 31

When does intentional uncoupling occur in plants?

Answer 31

Arum lily do it to attract insects to its heat

Skunk cabbage does it to melt snow