Glycolysis and metabolism

Question 1

What is a metabolite?

Answer 1

• An intermediate or product of metabolism

- usually small molecules

Question 2

What is the function of metabolites?

Answer 2

• fuel
• structure
• signalling
• regulatory effects on enzymes
• defence
• interactions with other organisms

Question 3

How are metabolites linked?

Answer 3

Between metabolic reactions

Question 4

What are metabolic reactions?

Answer 4

The life-sustaining enzyme-catalysed reactions that allow organisms to grow, reproduce, respond to changes in the environment and maintain structure

Question 5

What is a metabolic pathway?

Answer 5

a sequence of chemical reactions undergone by a compound or class of compounds in a living organism
(the product of one enzyme acts as the substrate for the next enzyme)

Question 6

Is glucose taken in from the environment or synthesised in the body?

Answer 6

Glucose can be absorbed through the diet or created in the body by gluconeogenesis

Question 7

What is typically thought of as the universal energy provider?

Answer 7

Glycolysis

Question 8

How to you convert glycogen to glucose?

Answer 8

Glycogenolysis

Question 9

How do you convert glucose to Glycogen?

Answer 9

Glycogenesis

Question 10

How do you convert glucose to pyruvate?

Answer 10

Glycolysis

Question 11

How do you convert pyruvate to glucose?

Answer 11

Gluconeogenesis

Question 12

How do you convert pyruvate to lactate or ethanol?

Answer 12

Fermentation by anaerobic respiration

Question 13

What do you convert pyruvate to ATP?

Answer 13

TCA cycle and electron transport chain

Question 14

Where does glycolysis occur?

Answer 14

cytoplasm

Question 15

What are the two phases of glycolysis?

Answer 15

ATP consumption and ATP production

Question 16

In glycolysis what does one glucose molecule get converted to using ATP?

Answer 16

1 x glucose-6-phosphate

Question 17

What is the net production from glycolysis per molecule of glucose?

Answer 17

2x ATP
2x NADH
2x Pyruvate

Question 18

What is anaerobic metabolism?

Answer 18

Incomplete oxidation of glucose to lactate and hence less energy is produced

Question 19

What is aerobic metabolism?

Answer 19

Aerobic respiration allows for the complete oxidation of glucose and produces more ATP

Question 20

What are the stages of glycolysis? (in general)

Answer 20

1 x glucose —> 1 x glucose-6-phosphate (-ATP)
1 x glucose-6-phosphate —> 1x fructose-6-phosphate (-ATP)
1x fructose-6-phosphate—> EITHER 2x dihydroxyactetone phosphate OR 2x glyceraldehyde-3-phosphate
2x glyceraldehyde-3-phosphate —> 2x 1,3-diphosphoglycerate (2NAD+–> 2NADH)
2x1,3-diphosphoglyverate—> 2x 3-phosphoglycerate (2ADP–>2ATP)
2x 3-phosphoglycerate —> 2x 2-phosphoglycerate
2x 2-phosphoglycerate —> 2x phosphoenolpyruvate
2x phosphoenolpyruvate —> 2x pyruvate (2ADP –> 2ATP)

Question 21

How is glucose imported into mammalian cells?

Answer 21

Sodium monosaccharide co-transport system using SGLTs

Sodium independent facilitated diffusion using GLUT transporters

Question 22

What is Hexokinase?

Answer 22

Enzyme used in the first step of glycolysis to phosphorylate glucose at the 6th carbon creating glucose-6-phosphate

Question 23

What is the purpose of glucose phosphorylation?

Answer 23

Traps glucose in cells preventing the molecule leaving through GLUT2

Destabilises glucose so further metabolic reactions can be carried out.

Question 24

What is the importance of cleavage from a 6C molecule to a 3C molecule?

Answer 24

Allows for the production of 2 molecules of pyruvate.

Question 25

What can fructose-1,6-bisphosphate be converted to?

Answer 25

Either:
Glyceraldehyde-3-phosphate (G3P)
OR
Dihydroxyacetone phosphate (DHAP)

Question 26

What is important about DHAP?

Answer 26

It cannot be converted into 1,3-Bisphosphoglycert directly and therefore must be converted to G3P in an extra stage before glycolysis continues.

Question 27

How does the sodium monosaccharide co-transport system work?

Answer 27

• energy requiring process
• transports glucose against conc gradient
• the transport of glucose is coupled to sodium which moves down conc-gradient

Question 28

How does sodium-independent facilitated diffusion work when transporting glucose?

Answer 28

-mediated by a group of 14 glucose transporter isoforms (GLUT1-GLUT14)

1. transport protein has a binding site for glucose outside the cell
2. glucose binds to the binding site
3. The binding causes the protein to change shape exposing glucose to the inside of the cell
4. glucose passes into the cell and the protein returns to original shape

Question 29

What is needed to transfer glucose to glucose-6-phosphate?

Answer 29

• ATP (gets converted to ADP and H+)
• Mg2+
• Hexokinase

Question 30

What is the role of the divalent metal ion (Mg2+) in the first step of glycolysis?

Answer 30

forms a complex with ATP to activate the ATP into losing a phosphate group

Question 31

What is the conformation of hexokinase?

Answer 31

2 lobes

Question 32

What happens to hexokinase when glucose binds?

Answer 32

• large conformational change
• two lobes move closer to each other when glucose binds
• the cleft between the lobes closes and glucose is surrounded by the protein
• only the hydroxyl group on the 6 carbon of glucose is available for reaction.

Question 33

Why is the conformational change of the hexokinase lobes important?

Answer 33

Environment around glucose is non-polar
Hydrophobic space allows ATP to diffuse to glucose
Ensures phosphorylation of glucose and not ATP hydrolysis

Question 34

What are the ways in which pyruvate is metabolised?

Answer 34

Transamination
Aerobic respiration
Anaerobic fermentation

Question 35

What does transamination of pyruvate produce?

Answer 35

forms alanine to be used in gluconeogenesis

Question 36

What does aerobic respiration of pyruvate produce?

Answer 36

Generates Acetyl CoA to be used in the TCA cycle

Question 37

What does the fermentation of pyruvate produce in humans?

Answer 37

Generates lactate

Question 38

What does the fermentation of pyruvate produce in yeast?

Answer 38

Generates ethanol

Question 39

What enzyme catalyses the reaction between glucose and glucose-6-phosphate? (step 1)

Answer 39

Hexokinase (HK)

Question 40

What enzyme catalyses the reaction between Glucose-6-phosphate and fructose-6-phosphate? (step 2)

Answer 40

Phosphoglucose isomerase

Question 41

What enzyme catalyses the reaction between fructose-6-phosphate and fructose-1,6-bisphosphate? (step 3)

Answer 41

Phosphofructokinase (PFK)

Question 42

What enzyme catalyses the reaction between fructose-1,6-bisphosphate and G3P/DHAP? (step 4)

Answer 42

Aldolase

Question 43

What enzyme catalyses the reaction between DHAP and G3P? (step 5)

Answer 43

Triose phosphate isomerase

Question 44

What enzyme catalyses the reaction between G3P and 1,3-bisphosphoglycerate? (step 6)

Answer 44

G3P dehydrogenase

Question 45

What enzyme catalyses the reaction between 1,3-bisphosphoglycerate and 3-phosphoglycerate? (step 7)

Answer 45

Phosphoglycerate Kinase (PG-kinase)

Question 46

What enzyme catalyses the reaction between 3-phosphoglycerate and 2-phosphoglyverate? (step 8)

Answer 46

Phosphoglycerate mutase

Question 47

What enzyme catalyses the reaction between 2-phosphoglycerate and phosphoenolpyruvate? (step 9)

Answer 47

Enolase

Question 48

What enzyme catalyses the reaction between phosphoenolpyruvate and pyruvate? (step 10)

Answer 48

Pyruvate kinase (PK)