Metabolism 04- Gluconeogenesis

Question 1

Two pathways that form free glucose

Answer 1

Glycogenolysis and gluconeogenesis

Question 2

Tissues that supply the major gluconeogenic precursors

Answer 2

Muscle (alanine), red blood cells
RBCs: Lactate
Muscle: Alanine

Question 3

Why do even number fatty acids not lead to an increase in net synthesis of glucose

Answer 3

Because you need to generate 3 carbon molecules to get proprionyl coA –> oxaloacetate –> pyruvate

Question 4

Consequences of glycolysis and gluconeogenesis occurring simultaneously in same cell

Answer 4

no net energy gain for tissues that need it

Question 5

What tissues will likely utilize much of the glucose formed by gluconeogenesis during a prolonged fast / exercise?

Answer 5

Brain during prolonged fast, as well as RBCs. The skeletal muscle will also use a lot during exercise

Question 6

Substrate whose oxidation provides much ATP needed for gluconeogenesis

Answer 6

Fatty acids

Question 7

Relationship between gluconeogenesis from amino acids and ureagenesis

Answer 7

Breakdown of amino acids like alanine generates ammonia, which is toxic and needs to be disposed of. To get rid of it, the liver puts it through the urea cycle so it can be safely disposed of – this in itself is energy costly meaning glucose from alanine requires 10ATP, not 6.

Question 8

4 enzymes that catalyze the three irreversible steps of gluconeogenesis

Answer 8

Pyruvate carboxylase
PEP carboxykinase
Fructose 1,6 Bisphosphatase
Glucose - 6 - phosphatase

Question 9

Allosteric regulation of glycolysis and gluconeogenesis comparison: Glucokinase/hexokinase vs glucose 6 phosphatase

Answer 9

glucokinase/hexokinase is activated by glucose and insulin

Glucose 6 phosphatase is inactivated by glucose and insulin, activated by glucagon

Question 10

Allosteric regulation of glycoloysis and gluconeogenesis: PFK1 and Fructose 1,6 bisphosphatase

Answer 10

PFK1 : inhibited by ATP and citrate, activated by AMP and F26BP
Fructose 1,6 bisphosphatase: Inactivated by AMP and F26BP

Question 11

Allosteric regulation of glycolysis and gluconeogenesis: Pyruvate kinase vs PEP carboxykinase and Pyruvate carboxylase

Answer 11

Pyruvate kinase: Inhibited by glucagon and ATP
PEP carboxykinse (PEPCK): glucagon promotes, insulin inhibits
Pyruvate carboxylase: Acetyl Co-A promotes

Question 12

Specific response element that likely mediates effects of glucagon on gene transcription

Answer 12

CREB

Question 13

How does ethanol metabolism reduce the concentration of 2 intermediates in gluconeogenesis

Answer 13

Ethanol metabolism changes NADH/NAD+ ratio

Moreover ethanol uses pyruvate and oxaloacetate in its degradation

Question 14

Two tissues with highest concentration of glycogen

Answer 14

Muscle, liver