Biochemistry: Oxidative Phosphorylation

Question 1

how many electrons (NADH and FADH2) are produced from glycolysis and the TCA cycle

Answer 1

10 NADH+ and 2FADH2

Question 2

each NADH+/FADH2 molecules carries two what

Answer 2

high energy bonds

Question 3

how do NADH electrons from glycolysis cross into the inner mitochondrial membrane

Answer 3

• glycerol-3-phosphate shuttle

- malate-aspartate shuttle

Question 4

describe the malate-aspartate shuttle

Answer 4

aspartate-> oxaloacetate -> malate (reduced by NADH+)
*crosses membrane
malate (oxidised by NAD+) -> oxaloacetate -> aspartate *crosses membrane

Question 5

what is the electron transfer potential of NADH+ and FADH2 converted into

Answer 5

the phosphoryl transfer potential of ATP

Question 6

how is the phosphoryl transfer potential of ATP measured

Answer 6

by measuring the free energy change of ATP hydrolysis

Question 7

how is the electron transfer potential of a compound measured

Answer 7

by the redox potential

Question 8

what is a redox potential

Answer 8

how readily a compound gives up an electron

Question 9

describe the redox potentials of

• NADH+ + H+ and FADH2
• O2 and H2O

Answer 9

• negative - readily donates, strong reducer

- positive - strong oxidiser

Question 10

describe the ETC

Answer 10

• NADH+ enters into the inner membrane at complex I, FADH2 at complex II
• these are proton pumps
• they then flow back through ATP synthase via the electrochemical gradient causing the rotor subunits to turn and generate ATP
• the H+, now back in the matrix, reduce O2 to H2O and energy is released

Question 11

how do the proton pumps of the ETC get their energy

Answer 11

from the reduction of O2 by H+

Question 12

what are cytochromes

Answer 12

enzymes containing haem as a cofactor

Question 13

what does haem allow a substance to do as a cofactor and why

Answer 13

• allows it to take up and release electrons

- contain and Fe II ion

Question 14

what are the two subunits of ATP synthase and where are they in the membrane

Answer 14

• F0 in the matrix

- F1 in the inner membrane (hydrophobic)

Question 15

what inhibits oxidative posphorylation and how

Answer 15

• cyanide, CO and azide
• inhibits transfer of electrons to O2 and there for no ATP synthesis
• can inhibit different stages

Question 16

what tissue contains uncoupling proteins

Answer 16

brown adipose

Question 17

what do UCP do

Answer 17

generate heat by shortcircuting the mitochondrial battery

Question 18

what UCP is found in newborns and what does it do

Answer 18

• UCP-1

- non-shivering thermogenesis

Question 19

what do UCP do

Answer 19

• creates protein leaks

- H+ flows across UCPs and not the ETC

Question 20

what type of therapy are UCPs the target for and why is this bad

Answer 20

• anti-obesity

- overheating

Question 21

where is UCP-3 found and what are its functions

Answer 21

• skeletal muscle

- limits free radical generation and thermogenesis

Question 22

what is the P/O ratio

Answer 22

• no of phosphate molecules incorporated into ATP per O2 molecule

Question 23

how many ATP does 1 glucose make

Answer 23

30-32 depending on the P/O ratio

Question 24

what does the P/O ration depend on and what is it linked to

Answer 24

• substrate oxidised

- UCP