Carb Metabolism

Question 1

T/F: only the liver has glycogen metabolism AND carb metabolism and controls blood glucose

Answer 1

TRUE

Question 2

Where does glycogenesis occur?

Answer 2

in the cytoplasm of liver and muscle

Question 3

Where does glycogenolysis occur?

Answer 3

in cytoplasm of liver and muscles

Question 4

Where does glucogenesis occur?

Answer 4

in mitochondria AND cytoplasm of LIVER

Question 5

Where does glycolysis occur?

Answer 5

in the cytoplasm of ALL tissues

Question 6

Glycolysis has 3 stages. What steps are a part of the energy investment stage/preparatory stage/stage 1?

Answer 6

step 1, 2, 3

Question 7

Glycolysis has 3 stages. What steps are a part of the splitting stage/stage 2 (no energy is involved here)?

Answer 7

step 4 and 5

Question 8

Glycolysis has 3 stages. What steps are a part of the energy payoff stage/ stage 3?

Answer 8

step 6-10

step 6 is the only step that creates NADH

step 7 and 10 create ATP through substrate level phosphorylation

Question 9

Which metabolic pathway converts glucose to pyruvate?

Answer 9

glycolysis

Question 10

How many steps are there in glycolysis?

Answer 10

10 steps

Question 11

What are the net products of glycolysis?

Answer 11

1 glucose molecule= 2 NADH and 2 ATP

Question 12

What are the 2 rate limiting steps in stage 1 of glycolysis?

Answer 12

step 1 and 3

Question 13

What are the 3 rate limiting steps in glycolysis?

Answer 13

step 1, 3, and 10

Question 14

What type of reaction is step 1 of glycolysis?

Answer 14

phosphorylation reaction

Question 15

What energy is invested during stage 1 of glycolysis?

Answer 15

2 ATP

1 ATP during step 1 and another during step 3 of glycolysis

Question 16

What enzyme converts glucose to G6P in step 1 of glycolysis?

Answer 16

HK or GK

Question 17

What type of reaction is step 2 of glycolysis?

Answer 17

isomerization reaction

Question 18

What enzyme converts G6P to F6P during step 2 of glycolysis?

Answer 18

phosphogluco-isomerase (PGI)

Question 19

What type of reaction is step 3 of glycolysis?

Answer 19

phosphorylation reaction

Question 20

Which enzyme converts F6P to fructose 1,6 biphosphate?

Answer 20

phospho-fructokinase 1 (PFK1)

note: PFK2 also exists and would move the phosphate to C2, but this is not in glycolysis…. to be continued

Question 21

Stage 2 of glycolysis is where “glucose” gets split into 2 molecules. This is step 4 and 5 of glycolysis. What happens here?

Answer 21

-fructose 1,6 BP gets split into 2 trioses
-the 2 trioses are glyceraldehyde 3 phosphate (GAP) and dihydroxyacetone 3 phosphate (DHAP)
-this step is catalyzed by an aldolase
-DHAP and GAP are isomers and can easily be interchanged with triose phosphate isomerase
-only GAP enters into stage 3 of glycolysis, so DHAP will have to convert to GAP, and 2 GAPs will enter the next stage

Question 22

What enzyme converts GAP to 1, 3 biphosphoglycerate (1, 3 BPG)?

Answer 22

GAP dehydrogenase

note: NADH is made in this step!!!

Question 23

What type of reaction is step 6 of glycolysis?

Answer 23

oxidation reaction

the aldehyde (GAP) is oxidized to carboxylate and a phosphate (1, 3 BPG)

note: 1,3 BPG is a high energy molecule because it has an O-P bond

Question 24

Which enzyme converts 1,3 BPG to 3 phosphoglycerate in step 7 of glycolysis?

Answer 24

phosphoglycerate kinase

note: 1,3 BPG is a high energy phosphate molecule and is used to make the first ATP in glycolysis with substrate level phosphorylation

Question 25

What steps of glycolysis undergo substrate level phosphorylation?

Answer 25

step 7 and 10

Question 26

What enzymes in glycolysis can do substrate level phosphorylation?

Answer 26

phosphoglycerate kinase in step 7 pyruvate kinase in step 10

Question 27

Which enzyme converts 3 phosphoglycerate to 2 phosphoglycerate in step 8 of glycolysis?

Answer 27

phosphoglycerate mutase

Question 28

Which enzyme converts 2 phosphoglycerate to phosphoenolpyruvate (PEP) in step 9 of glycolysis?

Answer 28

enolase

Question 29

What type of a reaction is step 4 of glycolysis?

Answer 29

lyase reaction

Question 30

What type of reaction is step 9 of glycolysis?

Answer 30

dehydration reaction (remove water) note: PEP (end product of step 9) is a high energy phosphate molecule

Question 31

What enzyme converts PEP to pyruvate in step 10 of glycolysis?

Answer 31

pyruvate kinase

Question 32

The 2NADH created in glycolysis will go to the ETC which is in the....

Answer 32

inner mitochondrial membrane

Question 33

What happens to NADH if theres no oxygen present?

Answer 33

it will be converted to NAD+ by donating H to pyruvate, and pyruvate will become lactate

Question 34

What has more energy- pyruvate or lactate?

Answer 34

lactate because it has more H bonds

Question 35

What is the net product of anaerobic glycolysis?

Answer 35

1 glucose molecule= 2 ATP, 0 NADH

Question 36

Accumulation of lactic acid ________________ pH

Answer 36

decreases

Question 37

What is the Cori cycle?

Answer 37

-in times of anaerobic glycolysis, later lactate will need to be broken down -lactate produced by the muscle enters the liver -in the liver, lactate will be converted back to glucose -anything that helps blood flow like light cool down post workout, stretching, massage gun, etc will help Cori cycle and reduce soreness -soreness happens when muscles cannot process lactate and Cori cycle is delayed (like when you workout and just stop without cool down)

Question 38

Which enzyme converts pyruvate to lactate, or lactate to pyruvate?

Answer 38

lactate dehydrogenase (LDH)

Question 39

What are 4 reasons anaerobic glycolysis occurs?

Answer 39

1) fast contracting muscles during exercise 2) acute or chronic medical conditions that affect oxygen like anemia, any lung condition, or any cardiovascular disease 3) hepatic diseases because the liver is the only location for ALL of the glycogen and carb metabolism 4) RBCs do not have mitochondria so there is no ETC

Question 40

T/F: 2, 3 BPG and 1,3 BPG are isomers

Answer 40

true

Question 41

_____________ makes 1,3 BPG, whereas __________ make 2,3 BPG

Answer 41

Glycolysis, RBCs

Question 42

in RBCs, glucose gets converted to GAP. GAP will convert to 1,3 biphosphoglycerate with what enzyme?

Answer 42

GAP DH

Question 43

In RBCs, glucose gets converted to GAP. GAP will convert to 1,3 biphosphoglycerate with GAP DH. At this point it can go 1 of 2 ways. 1,3 biphosphoglycerate can be converted to 3 phosphoglycerate and then pyruvate. What enzyme does this and what reaction is this?

Answer 43

phosphoglycerate kinase converts 1,3 BPG to 3 phosphoglycerate and makes ATP through substrate level phosphorylation

Question 44

In RBCs, glucose gets converted to GAP. GAP will convert to 1,3 biphosphoglycerate with GAP DH. At this point it can go 1 of 2 ways. 1,3 BPG can be converted to 2,3 BPG when there is low oxygen in RBCs. What enzyme does this?

Answer 44

biphosphoglycerate mutase

Question 45

In RBCs, glucose gets converted to GAP. GAP will convert to 1,3 biphosphoglycerate with GAP DH. At this point it can go 1 of 2 ways. 1,3 BPG can be converted to 2,3 BPG when there is low oxygen in RBCs with biphosphoglycerate mutase. Then once the body no longer needs 2,3 BPG, it will be converted to 3 phosphoglycerate and then pyruvate. Which enzyme converts 2,3 BPG to 3 phosphoglycerate?

Answer 45

2,3 biphosphoglycerate phosphatase

Question 46

Where does ATP come from in RBCs?

Answer 46

substrate level phosphorylation

Question 47

When would we see a right shift in the hemoglobin oxygen binding curve?

Answer 47

-Hb-oxygen binding affinity decreases -tissues will have more oxygen -high levels of 2,3 BPG causes a R shift -2,3 BPG is created in RBCs -acidic/low pH with lactic acid present (Bohr's effect) -lactic acid is created in muscles -2,3 BPG binds to hemoglobin

Question 48

T/F: the inner membrane of the mitochondria is very selective and only VIP molecules can make it inside without a shuttle

Answer 48

true

Question 49

In the malate shuttle process, where does NADH come from?

Answer 49

NADH generating step of glycolysis (step 6)

Question 50

In the malate shuttle process, NADH donates a H to who?

Answer 50

OAA which will become malate

Question 51

What are the 2 VIP molecules related to the malate shuttle that dont need a shuttle to get into the inner membrane of the mitochondria?

Answer 51

malate and aspartate

Question 52

Once malate gets into the inner membrane of the mitochondria through the malate shuttle, what does it get converted to?

Answer 52

Malate donates H back to NAD+ and NAD+ will become NADH which will go to the ETC and generate 3 ATP the malate in this process will be converted back to OAA

Question 53

After the malate shuttle transported malate inside and was converted to OAA, what was the next conversion?

Answer 53

OAA was converted to aspartate aspartate is a VIP molecule and can easily go in and out an amino group was removed from OAA to make aspartate

Question 54

After the malate shuttle, once the aspartate makes it back to the cytoplasm what does it become?

Answer 54

OAA when an amino group is added

Question 55

Which mitochondrial shuttle produces more ATP- malate shuttle or glycerol 3 phosphate shuttle?

Answer 55

malate shuttle

Question 56

How do you know which shuttle will be used in the mitochondria?

Answer 56

it depends on what is available- enzymes and AAs

Question 57

T/F: NADH needs a shuttle to get into the mitochondria

Answer 57

true!!!! theres 2 different shuttles that can do this

Question 58

T/F: there is only one ETC in each mitochondria

Answer 58

false- theres multiple in each mitochondria

Question 59

How many ATP are generated from the malate shuttle?

Answer 59

1 NADH= 3 ATP

Question 60

During glycolysis, DHAP is generated and will undergo reaction with NADH to be converted to glycerol 3 phosphate. What enzyme converts glycerol 3 phosphate to allow the molecule through the shuttle and produce FADH2 as a result?

Answer 60

glycerol 3 phosphate DH

Question 61

How many ATP are generate with the glycerol 3 phosphate shuttle?

Answer 61

1 NADH= 2 ATP 2 NADH= 4 ATP

Question 62

How many ATP are generated per glucose in aerobic glycolysis?

Answer 62

6-8 ATP, 0 NADH (2 were used to make ATP), 0 CO2 (not generated here) 6 ATP come from ETC, 2 ATP come from substrate level phosphorylation (so the max is 8) if she tries to trick you------ -if theres 2 ATP, then there is still 2 NADH available to make MORE ATP (hasn't gone through ETC yet)

Question 63

How many ATP are generated per glucose in anaerobic glycolysis?

Answer 63

2 ATP (they came from substrate level phosphorylation)

Question 64

The rate limiting steps in glycolysis are step 1, 3, and 10, so these steps need to be _______________

Answer 64

regulated

Question 65

HK and GK are the rate limiting enzymes of step 1 of glycolysis. What is the allosteric inhibitor for each one?

Answer 65

HK allosteric inhibitor= G6P GK allosteric inhibitor= F6P

Question 66

PFK1 is the rate limiting enzyme in step 3 of glycolysis. It has 4 different allosteric regulators. Who are the activators?

Answer 66

high ADP or AMP or fructose 2,6 biphosphate (Increased levels of ADP and AMP infer reduced levels of ATP suggesting a need for glucose catabolism to generate more ATP) (F 2,6 BP is a regulatory molecule responsive to the blood sugar hormones, glucagon, and insulin)

Question 67

PFK1 is the rate limiting enzyme in step 3 of glycolysis. It has 4 different allosteric regulators. Who are the inhibitors?

Answer 67

high ATP or high citrate (high ATP levels indicate sufficient energy levels and a reduced demand for glucose catabolism) (citrate is generated in the TCA cycle. Excess citrate infers a sufficient supply of TCA cycle intermediates and no demand for additional glucose catabolism)

Question 68

What hormones regulate PFK2?

Answer 68

insulin and glucagon

Question 69

Are PFK2 and PFK1 activated at the same time?

Answer 69

yes

Question 70

Which enzyme of glycolysis pathway is sensitive to raising insulin levels?

Answer 70

PFK2

Question 71

T/F: the product of PFK2 regulates PFK1

Answer 71

true- the product is F 2, 6 BP

Question 72

Which allosteric activator will turn on PFK1?

Answer 72

F 2, 6 BP this is the strongest activator of PFK1!!!!! Even if ATP was inhibiting PFK1, F2,6BP can overpower it when needed

Question 73

Pyruvate kinase is the RLE in step 10 of glycolysis. Pyruvate kinase is inhibited by....

Answer 73

ATP and acetyl coA high acetyl coA= inhibit PDH AND pyruvate kinase

Question 74

In RBCs, the NADH from glycolysis donates electrons to _______________ which produces __________ additional ATP

Answer 74

pyruvate, 0 (only substrate level phosphorylation or ETC can make ATP)

Question 75

In a yeast cell under aerobic conditions, pyruvate is oxidized to acetyl CoA, which enters the ________________. NADH donates electrons to a protein of the ETC. The total ATP/glucose produced from these processes and glycolysis is _______

Answer 75

citric acid cycle, ~36

Question 76

In the process of glycolysis, one mole of glucose is oxidized to form 2 moles of pyruvate, and?

Answer 76

2 moles of NADH and 2 moles of ATP

Question 77

Glucose is the sole energy source for the following (dependent on glucose to function properly):

Answer 77

1) RBCs 2) adrenal medulla 3) CNS 4) gamates