Glycolysis,CAC, Ox Phospho

Question 1

What electron acceptor MUST be maintained for energy production of any kind?

Answer 1

NAD +

Question 2

What are the two stages of glycolysis?

Answer 2

Preparatory stage (phosphorylation)
Pay off stage (redox)

Question 3

What two stages in the preparatory phase of glycolysis require atp?

Answer 3

1-glucose to glucose 6-phosphate by hexokinase

2-fructose 6-phosphate to fructose 1,6 bisphosphate by PFK-1

Question 4

What are the 4 enzymes of the preparatory phase of glycolysis, in order?

Answer 4

1-hexokinase (G to G6P)
2-phosphohexose isomerase (G6P to F6P)
3-phosphofructokinase-1 (F6P to F1,6P)
4-aldolase (F1,6P to glyceraldehyde 3P and dihydroxyacetone phosphate)

Question 5

Give the order of substrates of the preparatory phase of glycolysis

Answer 5

• Glucose
• Glucose 6 phosphate
• Fructose 6 phosphate
• Fructose 1,6 bisphosphate
• Glyceraldehyde 3-phosphate and dihydroxyacetone

Question 6

What two steps of the payoff phase of glycolysis produce atp?

Answer 6

1-1,3 BPG to 3 PG by phosphoglycerate kinase

2-phosphoenolpyruvate to pyruvate by pyruvate kinase

Question 7

What step of the payoff phase of glycolysis produces an NADH?

Answer 7

G3P to 1,3BPG by glyceraldehyde 3-phosphate dehydrogenase

Question 8

What are the 6 enzymes of the payoff phase of glycolysis in order?

Answer 8

1-triose phosphate isomerase (dihydroxyacetone phosphate to G3P)
2-glyceraldehyde 3 phosphate dehydrogenase (G3P to 1,3 bisphosphoglycerate)
3-phosphoglycerate kinase (1,3 BPG to 3 PG)
4-phosphoglycerate mutase (3 PG to 2 PG)
5- enolase ( 2 PG to PEpyruvate)
6-pyruvate kinase (PEpyruvate to pyruvate)

Question 9

Give the order of substrates in the payoff phase of glycolysis

Answer 9

• dihydroxyacetone phosphate
• glyceraldehyde 3 phosphate
• 1,3 bisphosphoglycerate
• 3 phosphoglycerate
• 2 phosphoglycerate
• phosphoenolpyruvate
• pyruvate

Question 10

What is the net balance of glycolysis?

Answer 10

• 2 pyruvate
• 2 ATP (2 put in, 4 produced)
• 2 NADH

Question 11

What is type 1 diabetes?

Answer 11

Lack of insulin production

Question 12

What is type 2 diabetes?

Answer 12

Insensitivity to insulin

Question 13

What enzyme is a main regulator of glycolysis?

Answer 13

Phosphofructokinase-1

Question 14

What three options does pyruvate have?

Answer 14

1-Become ethanol in fermentation (hypoxic or anaerobic)
2-become acetyl coa (aerobic)
3-become lactate (hypoxic or anaerobic)

Question 15

What important role does fermentation play in anaerobic conditions?

Answer 15

Regeneration of NAD+

Question 16

What role doe lactate play in fermentation?

Answer 16

Is the electron acceptor for NADH produced in glycolysis

Question 17

What does the Pentose phosphate pathway accomplish?

Answer 17

• production of NADPH

- production of ribose sugars which are precursors

Question 18

What regulates the Pentose phosphate pathway?

Answer 18

Feedback loop of NADPH. Presence of it down regulates conversion of 6 phosphogluconolacetone to Pentose phosphates

Question 19

What is the process through which mitochondria cause apoptosis?

Answer 19

• pore complexes open
• cytochrome c leaves mitochondria
• cyt c binds apaf to form apoptosome
• apoptosome cleaves procaspase
• Caspase dimers activate and lead to cell death

Question 20

What does pyruvate dehydrogenase do?

Answer 20

Convert pyruvate to acetyl coa

Question 21

How is pyruvate dehydrogenase set up?

Answer 21

3 enzymatic regions that work together to produce acetyl coa and NADH

Question 22

What results from 1 turn of the citric acid cycle?

Answer 22

• 3 NADH
• 2 CO 2
• 1 GTP (ATP)
• 1 FADH2

Question 23

What are the three stages of respiration?

Answer 23

1-glycolysis and acetyl coa production (anaerobic)
2-citric acid cycle (aerobic)
3-oxidative phosphorylation (aerobic)

Question 24

What three steps in the CAC produce NADH?

Answer 24

1-isocitrate to a-ketogluterate by isocitrate dehydrogenase
2-a-ketogluterate to succinyl coa by a-ketogluterate dehydrogenase complex
3-Malate to oxaloacetate by malate dehydrogenase

Question 25

What are he 8 steps of the CAC?

Answer 25

1-acetyl coa and oxaloacetate to citrate by citrate synthase
2a-citrate to cis-aconitate by aconitase
2b-cis-aconitate to isocitrate by aconitase
3-isocitrate to a-ketogluterate by isocitrat dehydrogenase
4-a-ketogluterate to succinyl-coA by a-ketoglutarate dehydrogenase
5-succinyl-coA to succinate by succinyl- CoA synthetase
6-succinate to fumarate by succinate dehydrogenase (ETC complex II)
7-fumarate to malate by fumarase
8-malate to oxaloacetate by malate dehydrogenase

Question 26

How do energy substrates and products regulate enzymes?

Answer 26

allosterically

Question 27

Which CAC intermediate becomes fatty acids or sterols?

Answer 27

Citrate

Question 28

Which CAC intermediate becomes Nucleic Acids?

Answer 28

a-ketogluterate- Purines

oxaloacetate-Pyrimidines

Question 29

Which CAC intermediate can become a Heme?

Answer 29

Succinyl CoA

Question 30

What 6 things can intermediates of the CAC become?

Answer 30

• Amino Acids
• Nucleic Acids
• Fatty Acids
• Gluconeogensis
• Neurotransimitters
• Hemes

Question 31

Where does Glycolysis take place?

Answer 31

in the cytoplasmic space

Question 32

Where does the CAC take place?

Answer 32

matrix of the mitochondria

Question 33

Where does oxidative phosphorylation take place?

Answer 33

across the inner mitochondrial membrane

Question 34

What are the 3 ways to transfer electrons?

Answer 34

1-direct transfer
2-Hydrogen Atom
3-Hydride ion

Question 35

What are the 3 main electron carrier moieties of the ETC?

Answer 35

1-Ubiquinone (Q10)
2-Cytochromes
3-Iron-sulfur proteins

Question 36

what are the 3 cytochrome types? how are they classified? which one is mobile?

Answer 36

a,b,c; classified by light absorption, c is mobile

Question 37

What do complexes I (NADH dehydrogenase) and II (Succinate dehydrogenase) do?

Answer 37

Introduce electrons

Question 38

What is formed by Complex II that is a critical stage of the CAC?

Answer 38

FADH2

Question 39

What Electron carrier transfers its electrons to Complex I?

Answer 39

NADH

Question 40

What does complex III (Cytochrome bc1 complex) do?

Answer 40

transfer electrons to cytochrome c through the Q cycle

Question 41

What does complex 4 (cytochrome oxidase) do?

Answer 41

transports hydrogen and reduces oxygen

Question 42

what role does oxygen play in the ETC?

Answer 42

it is the final electron acceptor

Question 43

what is the formula to make ATP?

Answer 43

4 H + ADP + Pi = ATP

Question 44

1 NADH results in how many ATP?

Answer 44

2.5

Question 45

1 FADH2 results in how many ATP?

Answer 45

1.5

Question 46

What are the two shuttle systems that allow NADH to affect the electron transport chain?

Answer 46

1-Malate-aspartate shuttle (transfers e- to malate which is transported, malate transfers to NAD+ on other side)
2-Glycerol 3-phosphate shuttle (transfers e- to G3P then to FAD then to QH2 then to Complex III)

Question 47

What two conditions favor Reactive Oxygen Species?

Answer 47

1-Mitochondria not making ATP (Lack of O2 or ADP)

2-Excess NADH

Question 48

How many ATP are ultimately formed through Glycolysis, CAC, and Oxidative phosphorylation?

Answer 48

30-32 (depending on which pathway the 2 NADH from Glycolysis take into the mitochondria)

Question 49

What are the three important cellular processes affected by these metabolic pathways?

Answer 49

• Pentose Phosphate pathway
• Reactive Oxygen Species formation
• Apoptosis