Lecture 29: FATTY ACIDS AS FUEL MOLECULES - FATTY ACID OXIDATION

Question 1

What is the preferred fuel for most tissues?

Answer 1

Fatty acids (example is red muscle)

Question 2

What is the primary energy reserve in mammals?

Answer 2

Fat as TAG’s

Question 3

What portion of body weight is fat?

Answer 3

5% to 25%

Question 4

What happens with excess energy consumed as glucose?

Answer 4

It is stored as fat (Acetyl-CoA&raquo_space; Free fatty acids&raquo_space; Triacylglycerol)

Question 5

Why do we store fuel as fatty acids?

Answer 5

Because fatty acids are more reduced than carbohydrates which means more energy is released when they are oxidised in pathways

Question 6

What amount water is stored carbohydrate (glycogen)?

Answer 6

2/3 - because carbohydrates are polar

Question 7

What happens to TAG in adipose tissue (storage)?

Answer 7

It is broken down into free fatty acids and glycerol by a lipase

Question 8

What happens as the FFA’s and glycerol increase in concentration in the cell?

Answer 8

It creates a concentration gradient for them to passively move into the blood

Question 9

What does glycerol do once it is in the blood?

Answer 9

Moves to the liver

Question 10

How are FFA’s found in the blood?

Answer 10

In hydrophobic pockets of albumin proteins because FFA’s are hydrophobic and blood is mainly water. They can then passively move into cells which have a low concentration of FFA’s

Question 11

How do FFA’s get into the cell?

Answer 11

Usually with the help of transporters across the membrane

Question 12

How are FFA’s found in the cell?

Answer 12

They are held in FABP (fatty acid binding protein) which has a barrel structure because the cytoplasm of the cell is a hydrophilic environment

Question 13

What must happen before fatty acids are oxidised?

Answer 13

They must be activated

Question 14

When does activation occur?

Answer 14

Before the fatty acid enters the mitochondria

Question 15

How are FFA’s activated?

Answer 15

By attachment to CoA to make a fatty acyl-CoA

Question 16

What is the equation for fatty acid activation?

Answer 16

FFA + ATP + CoA-SH&raquo_space; Fatty acyl-CoA + AMP + 2Pi

Question 17

What is the energy required to activate FFA’s?

Answer 17

The energy equivalent of 2ATP because ATP is converted to AMP but only one ATP is required

Question 18

What is the enzyme for FFA activation?

Answer 18

Acyl-CoA Synthetase

Question 19

What is fatty acyl-CoA?

Answer 19

Carbon chain of any length

Question 20

What is acetyl-CoA?

Answer 20

Two carbon chain

Question 21

Where does oxidation of fatty acids occur?

Answer 21

In the mitochondrial matrix

Question 22

What must the fatty acyl-CoA pass through?

Answer 22

Two membranes (inner and outer mitochondrial)

Question 23

How does fatty acyl-CoA pass through the outer membrane?

Answer 23

A fatty acyl CoA carrier from the cytosol to the inter membrane space

Question 24

How does fatty acyl-CoA pass through the inner membrane?

Answer 24

It requires the conversion to fatty acyl-carnitine as there is no fatty acyl-CoA carrier

Question 25

What happens in the carnitine acyltransferase reaction?

Answer 25

CoA and carnitine are exchanged on the fatty acid which is a reversible reaction

Question 26

What is the carnitine acyltransferase reaction?

Answer 26

Fatty acyl-CoA + carnitine&raquo_space; fatty acyl-carnitine + CoA

Question 27

What does beta oxidation use?

Answer 27

Fatty acids with an even number of carbons that are saturated (have no double bonds)

Question 28

Is ATP made in beta oxidation?

Answer 28

No

Question 29

What happens with the energy released in beta oxidation?

Answer 29

It is transferred to coenzymes NAD and FAD

Question 30

What happens to the carbon chain in beta oxidation?

Answer 30

It is cut into 2C pieces

Question 31

What is the product of beta oxidation?

Answer 31

Acetyl CoA which is further oxidised in the citric acid cycle

Question 32

What type of reaction is reaction 1 in beta oxidation?

Answer 32

Oxidation

Question 33

What happens in reaction 1 of beta oxidation?

Answer 33

A double bond is formed between the alpha and beta carbons. The 2 hydrogens removed are transferred to FAD to make FADH2

Question 34

What type of reaction is reaction 2 in beta oxidation?

Answer 34

Hydration

Question 35

What happens in reaction 2 of beta oxidation?

Answer 35

The water molecule splits over the double bond to form a single bond. Hydroxyl group on the beta carbon and hydrogen on the alpha carbon

Question 36

What type of reaction is reaction 3 in beta oxidation?

Answer 36

Oxidation

Question 37

What happens in reaction 3 of beta oxidation?

Answer 37

Two hydrogens are lost (from the OH and a H) to from a carbonyl bond. One of the hydrogens is accepted by NAD+

Question 38

What do reactions 1 to 3 involve?

Answer 38

A rearrangement, energy captured in 2 redox reactions (by NAD and FADH), the chemistry around the bond is altered so it can be cleaved in reaction 4

Question 39

What happens in reaction 4?

Answer 39

Acetyl - CoA is released, CoASH is added to the carbon chain and the 2C shorter fatty acyl-CoA enters the next round of beta oxidation

Question 40

What is the products of each round of beta oxidation?

Answer 40

1 NADH, 1 FADH2 and 1 acetyl - CoA

Question 41

What is the formula for the number of rounds of beta oxidation?

Answer 41

n(C)/2-1

Question 42

How many rounds of beta oxidation for palmitate (16C)?

Answer 42

7

Question 43

What is the equation for beta oxidation of palmitate (16C)?

Answer 43

palmitate-CoA + 7NAD+ + 7FAD + 7CoA + 7H2O&raquo_space;> 8 acetyl - CoA + 7NADH + 7FADH2 + 7H+