glycolysis and Gluconeogenesis

Question 1

The equation for glycolysis

Answer 1

glucose—-> two molecules of pyruvate + 2ATP

Question 2

is glycolysis anaerobic or aerobic

Answer 2

anaerobic

Question 3

Where does glycolysis occur

Answer 3

The cytoplasm

Question 4

In mammals what is the only fuel that the brain uses under nonstarvation conditions

Answer 4

glucose

Question 5

In mammals what is the ONLY fuel that red blood cells can use

Answer 5

Glucose

Question 6

Pyruvate and lactate can be salvaged by being resynthesizes to glucose in the metabolic process of

Answer 6

gluconeogenesis

Question 7

Sources of glucose in the diet

Answer 7

Starch, Glycogen, Disaccharides (especially sucrose and lactose)

Question 8

GLUT 1 has a _____ affinity for glucose and is mostly found where

Answer 8

high, RBCs

Question 9

GLUT2 is the main transporter of glucose in the

Answer 9

Liver

Question 10

GLUT2 has a _____ affinity with ____ regulation

Answer 10

low affinity, No regulation

Question 11

GLUT3 is the main glucose transporter in

Answer 11

Neurons

Question 12

GLUT4 is mostly found in

Answer 12

skeletal muscle, heart, adipose

Question 13

GLUT4 are dependent on

Answer 13

Insulin

Question 14

Glycolysis occurs in the

Answer 14

Cytosol

Question 15

What is the purpose of Stage 1 of glycolysis

Answer 15

Trapping and preparation phase

Question 16

How many ATP are produced in stage 1 of glycolysis

Answer 16

none. 2 ATP are actually consumed

Question 17

What is the final product of stage 1 of glycolysis

Answer 17

Fructose 1,6 Biphosphate

Question 18

Stage 1 of glycolysis consists of how many steps

Answer 18

3: A phosphorylation, an isomerization, and a second phosphorylation reaction

Question 19

What is the principle strategy of stage 1 of glycolysis

Answer 19

to trap the glucose in the cell and form a compound that can be readily cleaved into 2 phosphorylated 3 carbon units

Question 20

What are the two irreversible enzymes used in stage 1 of glycolysis

Answer 20

step one- Hexokinase/Glucokinase (in the liver)

step 3: Phosphofructose kinase (PFK) (committed step)

Question 21

what are some differences between hexokinase and glucokinase

Answer 21

Glucokinase is in the liver and pancreas B cells while hexokinase is in all other tissues
Hexokinase is readily inhibited by Glucose 6-Phosphate; Glucokinase is not
Glucokinase is has positive feeback from glucose, fructose 1-phosphate, and insulin)
Glucokinase has negative feeback from Glucagon and fructose 6-phosphate

Question 22

What is PFK inhibited by

Answer 22

ATP and Citrate

Question 23

What is AMP induced by

Answer 23

AMP, Fructose 2,6 Biphosphate

Question 24

Hexokinase like all other kinases requires what for activity

Answer 24

Magnesium or another divalent metal ion

Question 25

The isomerization of glucose 6-phosphate to fructose 6-phosphate is a conversion of an ____ into a _____

Answer 25

aldose into a ketose

Question 26

What is the allosteric enzyme that sets the pace of glycolysis

Answer 26

PFK

Question 27

aldolase converts F-1,6 BP into

Answer 27

DHAP and GAP

Question 28

what is the only glycolytic enzymopathy that is lethal

Answer 28

Triose phosphate isomerase deficiency

Question 29

When there is high ATP, high NAD+, and low NADH

DHAP is favored over GAP and converted to

Answer 29

Glycerol 3-phosphate—–> triacylglycerols—> fat

Question 30

Stage 3 of glycolysis is started by oxidative phosphorylation fo GAP to form _____ (and the reduction of ___ to ____)

Answer 30

1,3 BPG ( and the reduction fo NAD+ to NADH)

Question 31

In stage 3 of glycolysis ADP is phosphorylated to ATP by enzyme ______ and 3-PG is formed via _____

Answer 31

Phosphoglycerate kinase, via substrate transfer

Question 32

What does phosphoglycerate mutase do in glycolysis

Answer 32

it moves the phosphate on 3-phosphoglycerate to the 2 carbon thus forming (2-phosphoglycerate)

Question 33

What does Enolase do in glycolysis

Answer 33

Dehydration of 2-PG forms PEP (phosphoenolpyruvate), an enol with high phosphoryl-transfer potential (unstable)

Question 34

What does pyruvate kinase do in glycolysis

Answer 34

transfers phosphoryl group form PEP to ADP to form ATP

PEP is converted from unstable enol to pyruvate, a stable ketone

Question 35

What are the three enzymes in glycolysis that are irreversible

Answer 35

Hexokinase/glucokinase
PFK (phosphofructokinase)
pyruvate kinase

Question 36

In aerobic environment pyruvate goes to the

Answer 36

TCA cycle

Question 37

In an anaerobic environment pyruvate is converted to ____ by _____ and ____

Answer 37

lactate, lactate dehyrogenase and NADH

Question 38

Pyruvate kinase is induced by

Answer 38

insulin

fructose 1,6 BP

Question 39

Pyruvate kinase is inhibited by

Answer 39

Alanine
ATP
Glucagon

Question 40

Pyruvate can be converted into what three things

Answer 40

Ethanol, lactate, and Acetyl CoA

Question 41

Alcoholic fermentation and lactate production have no net oxidation-reduction why

Answer 41

The NADH formed in the oxidation of glyceraldehyde 3-phosphate is consumed in the reduction of pyruvate

Question 42

Fructose from the liver can enter the glycolysis pathway as

Answer 42

DHAP and GAP

Question 43

Fructose can enter as _____ from most most tissue other than the liver

Answer 43

Fructose-6P (F-6P)

Question 44

Galactose enters the glycolysis pathway as

Answer 44

Glucose-6P (G-6P)

Question 45

In the liver F-2,6-BP has what regulatory effect

Answer 45

Activates PFK

Question 46

What effect does citrate have on PFK

Answer 46

it inhibits it in the liver

Question 47

Pyruvate kinase is regulated by

Answer 47

allosteric effectors and covalent modification

Question 48

High levels of glucagon and low levels of insulin leads to what

Answer 48

increase in cAMP pathway and thus increase in protein kinase A this leads to an increase in Fructose 6-Phosphate. Also leads to an inhibition of pyruvate kinase. This means an increase in gluconeogenisis and an inhibition of glycolysis

Question 49

The brain depends on what as its primary fuel source

Answer 49

glucose

Question 50

what is RBCs only fuel source

Answer 50

Glucose

Question 51

The daily glucose requirement of the brain is about

Answer 51

120g

Question 52

What is the whole bodies daily glucose need

Answer 52

160g

Question 53

How much glucose is present in body fluids

Answer 53

about 20grams

Question 54

how much glucose is readily available from glycogen

Answer 54

190grams

Question 55

How long are direct glucose reserves sufficient to meet glucose needs

Answer 55

for about a day

Question 56

Neurotransmitters in the brain (Glutamate, Glutamine, GABA) are formed form intermediates of

Answer 56

The TCA cycle in the brain (more specifically alpha-ketoglutarate)

Question 57

What are the major precursors of gluconeogenesis

Answer 57

Lactate, amino acids, and glycerol (but not fatty acids)

Question 58

What is the purpose of gluconeogenesis

Answer 58

converts pyruvate into glucose

Question 59

What are the four enzymes that are present in the gluconeogensis pathway but not in glycolysis

Answer 59

pyruvate carboxylase—- converts pyruvate (with ATP, and HCO3) to oxaloacetate ( ADP and Phosphate released)

phosphoenolpyruvate carboxykinase- converted with GTP converts oxaloacetate to phosphoenolpyruvate (GDP and CO2 released)

Fructose 1,6-bisphosphatase- converts fructose 1,6 diphosphate with H2O (Phosphate released)

Glucose 6-phosphatase- with H2O converts glucose 6-phosphate to glucose (phosphate released)

Question 60

what is the mitochondrial enzyme in gluconeogensis

Answer 60

Pyruvate carboxylase

Question 61

What happens to oxaloacetate before further gluconeogensis

Answer 61

it is transported to the cytoplasm via the malate shuttle

Question 62

Where is glucose 6-phosphatase located

Answer 62

in the lumen of the ER

Question 63

Glycolysis _____ ATP, Gluconeogenesis _____ ATP

Answer 63

generates, consumes

Question 64

F-2,6 BP and AMP activates

Answer 64

glycolysis, more specifically PFK and the converion of fructose 6-phosphate to fructose 1,6 diphosphate

Question 65

fructose 2,6-BP and AMP inhibit

Answer 65

Gluconeogenesis, more specifically inhibit fructose 1,6 biphosphatase and the conversion of Fructose 1,6-BP to fructose 6-phosphate

Question 66

ATP inhibits

Answer 66

PFK and Pyruvate kinase

Question 67

Alanine inhibits

Answer 67

Pyruvate kinase

Question 68

Fructose 1,6 BP activates

Answer 68

glycolysis and more specifically pyruvate kinase

Question 69

AMP regulatory effects

Answer 69

inhibits gluconeogensis and more specifically fructose 1,6 bisphosphatase

Question 70

What regulatory effect does H+ have

Answer 70

inhibits PFK and thus inhibits glycolysis

Question 71

What regulatory effect does ADP have

Answer 71

inhibits phosphoenol pyruvate carboxykinase and thus gluconeogensis

Question 72

What regulatory effect does alanine have

Answer 72

inhibits pyruvate kinase and thus glycolysis

Question 73

what regulatory effect does acetyl CoA have

Answer 73

activates pyruvate carboxylase thus activates gluconeogenesis

Question 74

what is the regulatory effect of ADP

Answer 74

inhibits pyruvate carboxylase thus inhibits gluconeogensis

Question 75

tissue location of gluconeogenesis

Answer 75

liver (mostly), kidneys, small intestines

Question 76

Favoring conditions for gluconeogensis

Answer 76

when blood (glucose) levels are low and glycogen stores are depleted

Question 77

Favoring conditions for glycolysis

Answer 77

Favored when blood (insulin) is high

Question 78

Tissue location for glycolysis

Answer 78

RBCs, exercising tissues, brain, etc.

Question 79

Subcellular location of glycolysis

Answer 79

in the cytosol

Question 80

Subcellualr location of gluconeogensis

Answer 80

cytosol and mitochondria

Question 81

Postive regulators of glycolysis

Answer 81

Glucose, insulin, AMP, Fructose 2,6-BP, fructose 1,6-BP

Question 82

Postive regulators of gluconeogenesis

Answer 82

glucagon, citrate, cortisol, thyroxine, acetyl CoA

Question 83

negative regulators of glycolysis

Answer 83

Glucagon, ATP, Citrate, Glucose-6 phosphate, fructose 6-phosphate, alanine

Question 84

negative regulators of gluconeogenesis

Answer 84

ADP, AMP, Fructose 2,6-BP

Question 85

energy use and yield of glycolysis

Answer 85

uses: 2 ATP
Yield: 4 ATP
Net yield: 2 ATP/glucose oxidized (also produces 2 NADH)

Question 86

energy use and yield of gluconeogensis

Answer 86

Uses: 4 ATP, 2 GTP
Yield: 0
Net use: 6 ATP equivalents/ glucose synthesized

Question 87

Sucrose is a disaccharide of

Answer 87

glucose and fructose

Question 88

Lactose is a disaccharide of

Answer 88

glucose and galactose

Question 89

Fructose and galactose are converted into glycolytic

Answer 89

intermediates

Question 90

Fructose is quickly turned to fat in times of

Answer 90

high energy

Question 91

Fructose from the liver enters the glycolytic pathway where

Answer 91

DHAP/GAP

Question 92

Fructose form adipose tissue enters the glycolytic pathway where

Answer 92

Fructose -6P

Question 93

Galactose enters the glycolytic pathway where

Answer 93

Glucose-6P

Question 94

Glycogen enters the glycolytic pathway where

Answer 94

Glucose-6P

Question 95

In the liver what is the main activator (s) for glucokinase

Answer 95

Glucose, Fructose 1-P, insulin

Question 96

In the liver what is the main inhibitor (s) for glucokinase

Answer 96

glucagon, fructose 6-P

Question 97

In the liver what is the main inhibitor of PFK

Answer 97

Citrate

Question 98

What is the main activator for PFK in the liver

Answer 98

Fructose 2,6-BP

Question 99

In the liver pyruvate kinase is largely regulated by

Answer 99

allosteric effectors and covalent modification

Meaning ATP and alanine inhibit and Fructose 1,6-BP induce

Question 100

Pyruvate can be oxidized aerobically via the citric acid cycle after first undergoing

Answer 100

an oxidative decarboxylation to form acetyl CoA

Question 101

Glucose 6-phosphatase is only found in

Answer 101

liver, kidneys, pancreatic Beta cells

Question 102

Cortisol increases the activity of what two enzymes

Answer 102

Fructose 1,6 bisphosphatase, glucose 6-Phosphatase thus leading to increase in gluconeogenesis

Question 103

Pyruvate carboxylase is a _____ enzyme

Answer 103

mitochondrial

Question 104

What is the purpose of the conversion of pyruvate to oxaloacetate

Answer 104

so it can be transported from the mitochondria to the cytoplasm via the malate shuttle

Question 105

Where is glucose 6-phospatase located

Answer 105

in the lumen of the ER of liver, kidneys, and pancreatic Beta Cells