Carbohydrates 2.0

Question 1

Define glycolysis

Answer 1

Cellular reaction splitting glucose to produce ATP without requiring oxygen

Question 2

Products of glycolysis

Answer 2

Pyruvate
or
Lactic acid
ATP

Question 3

Whats doe glycolysis do

Answer 3

substrate level phosphorylation

Question 4

Gylcolysis is essential for what

Answer 4

Red blood cells

and vigorously exercising muscle

Question 5

Whats is the two phases to glycolysis

Answer 5

preparation phase

pay of phase

Question 6

For 1 Glc passing through the preparatory phase what is formed

Answer 6

2 molecules of G-3-P

Question 7

Whats is needed at preparatory phase of glycolysis

Answer 7

2 ATP

Question 8

How much ATP is gained at payoff phase of glycolysis

Answer 8

4ATP

Question 9

What is the NET gain of glycolysis

Answer 9

2 ATP

Question 10

What causes phosphorylation of glucose

Answer 10

hexokinase

Question 11

phosphohexose isomerase catalyses what

Answer 11

G6P - fructose 6 phosphate

Question 12

When is glycolysis fixed

Answer 12

when fructose 1 6 biphosphate is produced as only needed for glycolysis

Question 13

what causes cleavage in glycolysis

Answer 13

highly symmetrical arranged energised molecule that makes it easy to split and from isomers

Question 14

After cleavage what is doubled and can only participate in glycolysis

Answer 14

glyceraldehyde 3 phosphate

Question 15

preparation phase ends when

Answer 15

after cleavage

Question 16

After cleavage end products are all

Answer 16

Doubled

Question 17

oxidation of glyceraldehyde 3 phosphate produces what

Answer 17

2 NADH

Question 18

phosphoglycerate kinase and pyruvate kinase catalyses what reaction in glycolysis and produces

Answer 18

substrate-level phosphorylation reaction

ATP

Question 19

why does NAD+ need to be regenerated

Answer 19

limited supply in cell

Question 20

the pyruvate to lactate reaction allows

Answer 20

regeneration of NAD+

Question 21

what is the redox balance

Answer 21

NAD+ produced at end of glycolysis transported back to the top, always replenished

Question 22

NO NAD

Answer 22

NO GLYCOLYSIS

Question 23

where does limited NAD+ in the cell come from

Answer 23

niacin

Question 24

what is the role of NAD+

Answer 24

reduction of intermediate metabolites

Question 25

NADH—-> NAD+ is

Answer 25

dehydrogenase

Question 26

Pyruvate can be dehydrogenased to

Answer 26

ethanol

lactate

Question 27

When is pyruvate converted to lactate

Answer 27

cells lacking O2
Vigorously exercising muscle
RBC’s – lack mitochondria

Question 28

Two enzymes catalysing pyruvate to ethanol

Answer 28

Pyruvate decarboxylase

Alcohol dehydrogenase

Question 29

when pyruvate is converted to lactate what is oxidised

Answer 29

NADH

Question 30

when muscles don’t receive O2 fast enough how is ATP produced

Answer 30

substrate-level phosphorylation

Question 31

what are the product of substrate-level phosphorylation,

Answer 31

lactate

Question 32

Lactate in converted to glucose by what process

Answer 32

gluconeogensis

Question 33

The interaction between the liver and the muscle to produce ATP and lactate is called the

Answer 33

Cori cycle

Question 34

Whats repays the oxygen debt to the muscles

Answer 34

the liver

Question 35

In the presence of oxygen what is pyruvate oxidised to

Answer 35

acetyl coA

Question 36

Where is pyruvate oxidised

Answer 36

mitochondria

Question 37

Whats happens to the NADH when pyruvate is oxidised

Answer 37

later gives up Hion to respiratory chain

Question 38

how many glycolysis reactions are reversible

Answer 38

7

Question 39

Whats do irreversibel reactions have

Answer 39

large –ve ΔG

Question 40

What is Gluconeogenesis

Answer 40

glucose can be generated from other non-carbohydrate molecules

Question 41

what does Gluconeogenesis respond to

Answer 41

Hormone controls

Question 42

Gluconeogenesis is not reverse glycolysis because

Answer 42

irreversible reactions in glycolysis is bypassed

Question 43

Irreversible reaction in glycolysis are

Answer 43

DePhosphorylation and Phosphorylation reactions
G + ATP —> G6P
F6P + ATP —->
phosphoenoylpyruvate +ADP —> pyruvate and ATP

Question 44

Glucogenesis occurs when

Answer 44

ATP conc is high and acetyl coA is low

Question 45

In glucognesis pyruvate carboxylase synthesises what

Answer 45

pyruvate acid to oxaloacetate

Question 46

how is oxaloacetate settled out of mitochondria

Answer 46

by malate

Question 47

Muscle tissues difference in Gluconeogenesis is

Answer 47

lactate dehyrogenased to pyruvate first

Question 48

what happens to G-6-P and F-1,6-bisP in Glucoeogenesis can’t be phosphorylated as is energetically unfavourable

Answer 48

hydrolysed

Question 49

Catalyst of bypass reactions in Glucoeogenesis

Answer 49

Glucose 6-phosphatase
Fructose 1,6-bisphosphatase
pyruvate carboxylase

Question 50

What is the end product of Glucoeogenesis and why

Answer 50

Glucose 6-phosphatase as traps glucose in cells

Question 51

Where does the final step to make free glucose occur

Answer 51

the lumen

Question 52

Whats happens after G-6-P is shuttled into the lumen

Answer 52

glucose is shuttled back into cytoplasm

Question 53

where is most fructose metabolised

Answer 53

liver

Question 54

fructose catabolised by

Answer 54

adipose tissue

Question 55

what does the pentose phosphate pathway produce for all organisms

Answer 55

NADPH

Question 56

pentose phosphate pathway

Answer 56

Converts G-6-P to a pentose phosphate (5C)

Question 57

pentose phosphate is a precursor to

Answer 57

ATP, RNA and DNA

Question 58

Whats the two parts to pentose phosphate pathway

Answer 58

oxidative irreversible

non-oxidative reversible

Question 59

When is non oxidative phase of pentose phosphate pathway required

Answer 59

when lots of NADPH is needed

adipocytes generate alot of FA

Question 60

Non oxidative phase is circular as

Answer 60

G-6-P can convert pentose phosphate then back to G6P

Question 61

non reversibel oxidative phase of pentose phosphate pathway required when

Answer 61

Molecules need to be broken down

lots of nucleotides are required e.g. rapid cell division

Question 62

When is NADP+ used for

Answer 62

anabolism from simple precursors 
inhibits oxygen (antioxidant)

Question 63

When is NAD+ used

Answer 63

glycolysis and the citric acid cycle

Question 64

is NADP+ used for metabolism?

Answer 64

No

Question 65

Etahnol reduces glycogenesis because

Answer 65

uses livers supply of NAD+

Question 66

what is Ethanol broken down to

Answer 66

acetly coA

Question 67

inhibits gluconeogenesis leads to

Answer 67

lacticacidaemia (increased [blood lactate])

hypoglycaemia (decreased [blood Glc])

Question 68

Black water fever is due to G-6-P dehydrogenase deficiency what does this cause

Answer 68

low RBC NADPH levels

damaging free radicals and H2O2 to build up so damages the RBC membranes

Question 69

Overproduction of PEP is called

Answer 69

PEPCK

Question 70

what does PEPCK cause

Answer 70

produces an overload of energy

Question 71

what is the common metabolic pathway for all “fuel” molecules

Answer 71

Citric acid cycle

Question 72

where does citric acid cycle occur

Answer 72

mitochondria

Question 73

Does citric acid cycle produce ATP directly

Answer 73

No

Question 74

What is the point of citric acid cycle

Answer 74

It removes e-’s and passes them on to form NADH and FADH2

Question 75

What is acetyl coA oxidised from

Answer 75

pyruvate from glycolysis or fatty acids

Question 76

Series of reactions of 3 subunit pyruvate dehydrogenase enzyme to form acetyl coA

Answer 76

decarboxylation of the pyruvate molecule,
oxidation,
transfer of the CoA

Question 77

Pyruvate to acetly coA also produces

Answer 77

2 electrons through NADH intermediates

Question 78

How many subunits does pyruvate dehydrogenase

Answer 78

three

Question 79

what do the intermediate molecules that make up the citric cycle

Answer 79

constant

Question 80

How many turn of the citric cycle per molecule

Answer 80

two

Question 81

what is pyruvate dehydrogenase regulated by

Answer 81

ATP

Question 82

To much ATP inhibits what

Answer 82

pyruvate dehydrogenase

Question 83

what enzymes control the re-direction of cellular resources

Answer 83

α-ketoglutarate

isocitrate dehydrogenase

Question 84

what happens when isocitrate dehydrogenase is inhibited as a control point in the citric cycle

Answer 84

there is build up citrate that is shuttled back into cytoplasm activating phosphofructokinase to stop glycolysis

Question 85

what is the result of deactivating α-ketoglutarate in citric cycle

Answer 85

build up ketoglutarate which is then used for the production of amino acids

Question 86

what pathway is citric acid

Answer 86

amphibolic pathway

Question 87

what is amphibolic

Answer 87

serves both catabolic and anabolic processes

Question 88

what happens when energy needs are met through citric acid cycle

Answer 88

intermediates produce the building blocks of nucleotide bases, heme groups and proteins

Question 89

Build up of acetly CoA triggers what reaction

Answer 89

Pyruvate carboxylase converting pyruvate to oxalocaetate

Question 90

What is there an increased concentration of when energy demands are met

Answer 90

Acetly coA

Question 91

Over production of ATP cause what pathway

Answer 91

pyruvate to oxalocaetate to produce glucose

Question 92

what is anaplerotic reactions

Answer 92

form the intermediates of a metabolic pathway

Question 93

pyruvate to oxalocaetate to produce glucose is an example of what reaction

Answer 93

anaplerotic reaction