PH1123 - Energy and metabolism

Question 1

what is the universal energy molecule?

Answer 1

• ATP

Question 2

what is the structure of ATP?

Answer 2

• adenine
• ribose
• 3 phosphate groups

Question 3

what bonding is present in ATP? (2)

Answer 3

• phosphate ester bonds

- phosphoanhydride bonds

Question 4

what releases energy in ATP?

Answer 4

• hydrolysis of the phosphoanhydride bonds

Question 5

what are the factors that result in the high energy release during the hydrolysis of phosphoanhydride bonds? (3)

Answer 5

• decrease repulsion between phosphate groups helps drive hydrolysis
• increased resonance in product
• electrostatic repulsion between negative charges in ATP

Question 6

what are the different stages of energy production? (3)

Answer 6

• stage 1; no useful energy generated
• stage 2; small amounts of ATP generated (anaerobic no oxygen)
• stage 3; majority of ATP production aerobic with oxygen)

Question 7

what is the energy supply for most organisms?

Answer 7

• metabolism of glucose and other sugars

Question 8

why is the metabolism of fats and proteins important?

Answer 8

• important energy production when the supply of glucose and other sugars are limited

Question 9

what is the initial stage of the metabolism of glucose (respiration) called?

Answer 9

• glycolysis

Question 10

where does glycolysis take place ?

Answer 10

cytoplasm

Question 11

what are the different reaction types in glycolysis? (6)

Answer 11

• type 1; phosphoryl transfer
• type 2; phosphoryl shift
• type 3; isomerisation
• type 4; dehydration
• type 5; aldol cleavage
• type 6; oxidation

Question 12

what are the two parts that glycolysis is divided into? (2)

Answer 12

• the first reactions with 6 carbon units which requires energy (hexose stage)
• the reaction on the 3 carbon units which provides energy (triose stage)

Question 13

what is the net output of ATP in glycolysis?

Answer 13

• 2 molecules of ATP

Question 14

what does glycolysis produce?

Answer 14

• pyruvate x2

Question 15

what are the fates of pyruvate? (3)

Answer 15

• conversion to acetyl coenzyme A
• conversion to lactate
• conversion to ethanol

Question 16

what is acetate coenzyme A?

Answer 16

• compound used in the citric acid cycle and electron transport chain

Question 17

where does formation of acetyl coenzyme A occur?

Answer 17

• mitochondira matrix

Question 18

what enzymes is required for the conversion of pyruvate to acetyl CoA?

Answer 18

• pyruvate dehydrogenase

Question 19

what enzymes is required for the conversion of pyruvate to lactate?

Answer 19

• lactate dehydrogenase

Question 20

What are the bonds the hold the phosphates together called and what is special about them?

Answer 20

Phosphoanhydride bonds. They are unstable so are easily hydrolysed which generates a lot of energy.

Question 21

When do organisms start to metabolise fats and proteins?

Answer 21

When the supply of glucose and other sugars is limited.

Question 22

What are some important points about glycolysis?

Answer 22

Takes place inside of the cytoplasm, requires no oxygen and generates two molecules of NADPH and a NET of 2 ATP

Question 23

What are the energy requiring steps in glycolysis?

Answer 23

Glucose to glucose 6 phosphate and

fructose 6 phosphate to fructose 1,6 bisphosphate.

Question 24

What is the role of hexokinase?

Answer 24

Phosphorylates glucose to glucose 6 phosphate

Question 25

In part one of glycolysis what are the 3 steps?

Answer 25

Glucose to glucose 6 phosphate.
Glucose 6 phosphate to fructose 6 phosphate.
Fructose 6 phosphate to Fructose 1,6-bisphosphate.

Question 26

What is the enzyme that converts Glucose 6 phosphate into fructose 6 phosphate?

Answer 26

Phosphoglucose isomerase which causes isomerisation.

Question 27

How does fructose 1,6-bisphosphate spilt into 3 carbon units?

Answer 27

The enzyme aldolase cleaves the molecule, this is called aldol cleavage.

Question 28

What are the 2 3 carbon structures called formed from the aldol cleavage of fructose 1,6-bisphosphate?

Answer 28

Dihydroxyacetone and glyceraldehyde 3 phosphate.

Question 29

What happens to Dihydroxyacetone once its been cleaved and why?

Answer 29

It is converted into glyceraldehyde 3 phosphate by triose phosphate isomerase because it has a high entropy so is very reactive and unstable.

Question 30

What are the 5 conversions that happen in the second part of glycolysis?

Answer 30

Glyceraldehyde 3-Phospahte to 1,3 Bisphosphoglycerate.
1,3-bisphosphoglycerate to 3 phosphoglycerate.
3-phosphoglycerate to 2 phosphoglycerate.
2-phosphoglyceraye to phosphoenolpyruvate.
Phosphoenolpyruvate to pyruvate.

Question 31

What are the 3 fates of pyruvate?

Answer 31

Conversion to ethanol, lactate, acetyl-CoA

Question 32

How is acetyl CoA formed?

Answer 32

Pyruvate reacts with coenzyme a, carbon dioxide is generated as well as NADH catalysed by pyruvate dehydrogenase.

Question 33

When does the conversion of pyruvate to lactate happen?

Answer 33

Occurs when the supply of oxygen is limited.

Question 34

How is pyruvate converted into lactate?

Answer 34

By lactate dehydrogenase NADH is formed which can be used in glycolysis.

Question 35

What is the overall reaction of glucose to lactate?

Answer 35

Glucose + 2Pi +2ADP = 2Lactate +2ATP +2H20

Question 36

How is pyruvate converted to ethanol?

Answer 36

In a 2 step procedure pyruvate decarboxylase converts pyruvate to acetaldehyde. The acetaldehyde is converted to ethanol by alcohol dehydrogenase and NAD+ is formed.

Question 37

How does ATP/AMP control phosphofructokinase?

Answer 37

High levels inhibit the enzyme, glycolysis is stimulated when the energy levels fall. AMP reverses the effect of ATP.

Question 38

Describe the citric acid cycle

Answer 38

The citric acid cycle starts with acetyl CoA entering the cycle and being converted to citrate, this is then converted to cis-aconitate which is then converted to iso-citrate. Isocitrate is converted to a-ketoglutarate and then to succinyl CoA. Succinyl CoA is then converted to succinate the fumarate then to malate before malate being converted to oxaloacetate which starts again at the beginning of the cycle.

Question 39

What molecules and how many of them are produced by the citric acid cycle?

Answer 39

3NADH, 2CO2, 1GTP, 1FADH2.

Question 40

How many ATP molecules are generated during oxidative phosphorylation?

Answer 40

32

Question 41

How many molecules of ATP does NADH and FADH generate?

Answer 41

NADH=3

FADH2= 2

Question 42

Where is each part of the respiration process located?

Answer 42

Glycolysis is located in the cytosol.

The citric acid cycle is located in the mitochondria as well as oxidative phosphorylation.