Tutorial - Week 10 - Carbohydrate Metabolism

Question 1

Define Pathways:

Answer 1

consecutive reactions catalysed by enzymes
The products of one reaction become the reactants of
the next one

Question 2

Define Catabolic pathways:

Answer 2

pathways that degrade nutrients/biomolecules into simpler end products
to extract chemical energy and convert it into a form useful to the cell (e.g. ATP, NADH, NADPH, FADH2)

• These processes are often oxidative (i.e. substrates are oxidised, lose electrons),
  electrons are transferred to electron carriers (e.g. NADH is obtained)
• These processes are energy releasing and drive synthesis of ATP (i.e. energy
  stored in chemical bonds of nutrients is transferred/captured as ATP

Question 3

Define Anabolic pathways:

Answer 3

pathways that start with small precursor molecules and convert them
into more complex molecules (e.g. glycogen, proteins, lipids) and store energy in the chemical
bonds of these molecules. These require the use of energy.

• these processes are often reductive (i.e. substrates are reduced), they use electrons from
  electron carriers, which become oxidised (e.g. NAD(P)H is converted to NAD(P) + )
• These processes are energy requiring, they use ATP (i.e. ATP is converted to ADP or AMP

Question 4

Define Metabolism:

Answer 4

the overall network of enzyme catalysed pathways
(anabolic & catabolic)

It is convenient to divide metabolic processes into “pathways”, but such
separation does not exist in the living cell. Pathways occur simultaneously
in living organisms

• Catabolic pathways: degradation of complex macromolecules into
  smaller molecules, releasing energy
• Anabolic pathways: synthesis of complex macromolecules, using
  energy

Question 5

ATP is…?

NADH/NADPH/FADH are…?

Answer 5

the universal currency of energy in biological systems

electron carriers, they provide reducing power

Question 6

How does ATP store energy?

What can ADP be hydrolysed into?

Answer 6

ATP, adenosine triphosphate: chemical energy stored in bonds
* breakage of a phopshoanhydre bond generates ADP + Phosphate ion (Pi), very exergonic reaction that is normally coupled to endergonic reactions in cells

• ADP can also be hydrolysed to AMP + Pi to obtain energy

Question 7

What is NADH

Answer 7

nicotinamide adenine dinucleotide: reducing power, electron carrier

• Donate electrons in processes that generate ATP (e.g. in respiratory chain)

Question 8

What is NADPH

Answer 8

nicotinamide adenine dinucleotide phosphate: reducing power, electron carrier

• Drive reductive steps in biosynthetic (anabolic) pathways

Question 9

Metabolic pathways maintain the levels of…?

Answer 9

key metabolites, such as ATP and NADH in cells and glucose in the blood.

Question 10

The rate of metabolic pathways is regulated by ____________, which can be regulated in different ways:

Answer 10

enzyme activity

See image for different ways

Question 11

Regulation of the amount or the activity of an enzyme:

Define course control - describe both answers

Answer 11

• long term control of enzymes, it can take hours, or days
• it normally relates to changing the amount of enzyme
  available

See image for explanations

Question 12

Regulation of the amount or the activity of an enzyme:

Define fine control - describe all answers

Answer 12

• short term control, it can take milliseconds up to min
• it normally relates to a direct effect on the catalytic
  activity of existing enzyme

See image for explanations

Question 13

Define Control of the amount of certain enzymes

Answer 13

• Extracellular signals (e.g. hormones such as insulin) (1)
• Transcription of genes (2)
• mRNA processing or degradation (3)
• mRNA translation & posttranslational modification (4)
• Enzyme stability (turnover: synthesis vs. degradation) (5)

Question 14

Define control by spacial segregation

Answer 14

• Multienzyme complexes that require assembly of subunits
• Compartmentation: enzymes and substrates locate in
  different compartments/organelles (6)

Question 15

Define Control of catalytic activity of existing enzyme molecules

Answer 15

• Changes in substrate concentration (7)
• Allosteric regulations (e.g. non-competitive uncompetitive inhibition (8)

Question 16

Define Control by the energy status and availability of reducing power

Answer 16

• NAD(P)+/NAD(P)H ratios (8)
• ATP/ADP ratios (energy change) (8)

Question 17

Define Control via allosteric regulation

Answer 17

• feedback inhibition

Question 18

Define Control via covalent modification

Answer 18

• phosphorylation/dephosphorylation (reversible) (9)
• proteolytic activation: zymogens (irreversible)

Question 19

This catabolic process is often subdivided into three pathways:

What are they?

Answer 19

Question 20

Anaerobic processes:

When do they occur? In the presence or absence of?

Where do they occur in the cell?

Inefficient…?

Where in the body does this occur?

Answer 20

Anaerobic processes (AKA as fermentation or anaerobic respiration):

• occur in the absence of oxygen: glycolysis
• occur in the cytoplasm
• Inefficient energy yield: 2ATP/glucose molecule

Occurs in red blood cells (no mitochondria)
and anaerobic microorganisms (e.g. yeast)

Question 21

Aerobic processes:

When does it occur (in the presence of what)/what is this process called?

Where do they occur in the cell?

Energy yield efficiency?

Where in the body do they occur?

Answer 21

Aerobic processes (AKA as aerobic respiration, cellular respiration) :

• occur in the presence of oxygen: oxidative phosphorylation
• occur in the mitochondria
• efficient energy yield: 32ATP/glucose molecule

Occurs in cells/tissues with mitochondria

Question 22

What does glycolysis mean?

Answer 22

Lysis of glucose

Question 23

Glycolysis:

Does it occur in most cells?

1 molecule of glucose is degraded in…?

Some of the energy released from glucose is conserved in the form of…?

Answer 23

Yes

a series of enzyme-
catalysed reactions to obtain 2 molecules of pyruvate (2 x C3

ATP and NADH

Question 24

What are the three stages glycolysis is subdivided into?

Answer 24

Question 25

Glycolysis uses ________ and generates ________; the balance is 2 ATP molecules

Answer 25

2 ATP

4 ATP

Question 26

_________ of _________ is degraded in a series of _______________
reactions to yield ___ molecules of _________

Answer 26

1 molecule

glucose

10 enzyme-catalysed

2

pyruvate

Question 27

In the sequential reactions of glycolysis, three types of chemical transformations are particularly relevant:

What are they?

Answer 27

(1) degradation of the carbon skeleton of glucose to yield pyruvate;
(2) phosphorylation of ADP to ATP;
(3) transfer of electrons to NAD+, forming NADH.

Question 28

There are three regulatory enzymes, which catalyse irreversible reactions:

What are they?

Answer 28

1. Hexokinase (reaction 1): inhibited by the products
2. Phosphofructokinase-1 (PFK-1; reaction 3)
3. Pyruvate kinase (reaction 10, last step): inhibited by ATP & acetyl-CoA

Question 29

is the key enzyme in the control of glycolysis
(it catalyses the phosphorylation of fructose-6-phosphate to fructose-1,6-biphosphate)

Answer 29

Phosphofructokinase-1

Question 30

__________ allosterically inhibits PFK-1 (it reduces its affinity for the substrate)

__________ allosterically activates PFK-1 (it increases its affinity for the substrate)

Answer 30

High [ATP]

High [AMP]

Question 31

High [ATP]/[AMP] ___________, decreases glycolysis

________________ PFK-1 activity, and increases glycolysis

Answer 31

decreases PFK-1 activity

Low [ATP]/[AMP] increases

Question 32

T/F: Pyruvate can be an intermediary in anabolic pathways

How?

Answer 32

Question 33

Pyruvate can be an intermediary in…?

How?

Answer 33

other catabolic pathways, to obtain more energy:

Question 34

___________ is the metabolite that links two central catabolic pathways: ____________ and the ____________

Answer 34

Pyruvate

glycolysis and the TCA cycle

Question 35

________________ (“new formation of sugar”), converts pyruvate and related three-
and four-carbon compounds to glucose.

Answer 35

Glucogenesis

Question 36

Why is glucogenesis important?

Answer 36

Important when glucose levels are low:

• The brain alone requires about 120 g of glucose each day — more than
  half of all the glucose stored as glycogen in muscle and liver.
• Between meals and during longer fasts, or after vigorous exercise,
  glycogen is depleted.
• When the glycogen is depleted, organisms need a method for
  synthesizing glucose from noncarbohydrate

Question 37

n gluconeogenesis: the three ____________ steps are bypassed by a separate
set of enzymes, they catalyze reactions that are sufficiently exergonic to be
effectively irreversible in the direction of glucose synthesis

Answer 37

irreversible

Question 38

What is the result of the glucogenesis reaction?

Answer 38

1 Glucose is formed
2 pyruvate, 4ATP, 2GTP and 2NADH are consumed

Question 39

What is meant by the Reciprocal regulation of glycolysis and glucogenesis?

Answer 39

One pathway is relatively inactive, while the other is highly active

Question 40

Molecules that induce reciprocal regulation by allosteric control on the enzymes that differ in
the two pathways:

What are they?

Answer 40

Question 41

What is the most tightly regulated enzyme in glycolysis?

Answer 41

Phosphofructokinase-1:

Question 42

What is the most tightly regulated enzyme in gluconeogenesis

Answer 42

Fructose 1,6 biphosphatase-1

Question 43

What is the major allosteric regulator factor of the
two pathways (it activates glycolysis, and inhibits gluconeogenesis)

Answer 43

Fructose 2,6-biphosphate (F26BP)

Question 44

What is this reaction catalysed by?

What is the reaction responsible for?

Answer 44

Reaction catalysed by Pyruvate dehydrogenase complex (PDH)
(it occurs in the mitochondrial matrix)

Pyruvate + CoA + NAD + —> Acetyl-CoA + CO2 + NADH + H

Responsible for catalysing the synthesis of acetyl-CoA
(i.e. activated acetate)

Question 45

Activity of pyruvate dehydrogenase is tightly regulated:

What is it activated and inhibited by?

Answer 45

Question 46

What do all these molecules get turned into?

Answer 46

Question 47

What are the 8 steps, roughly, of the TCA cycle?

Answer 47

Question 48

What is the TCA cycle also known as?

It is a ________ pathway

Where does it occur?

Central pathway in…?

1 ________ enters the cycle, 2 _______ leave the cycle

It includes 8 _____________

It is a source of…?

It converts chemical energy from…?

Answer 48

Question 49

Describe TCA cycle regulation

Answer 49

Question 50

What is Isocitrate dehydrogenase?

Answer 50

is the key regulatory enzyme in the TCA cycle and
responds to levels of ATP, ADP and NADH in the cell:

• if ATP and NADH are high, TCA cycle is inhibited
• If ADP levels are high, TCA cycle is activated

Question 51

There are two ways to obtain ATP in cells: What are they? Describe them

Answer 51

See image

Question 52

• Oxidative phosphorylation is the culmination of…?
• All the oxidative steps in the degradation of _________________ converge to
  this pathway to synthesise ATP
• It occurs in…?

Answer 52

catabolism in aerobic organisms

sugars, fats and proteins

the inner mitochondrial membrane

Question 53

Oxidative phosphorilation:

• electron flow?
• The free energy, G, from _____________ is…?
• The flow of protons back down provides…?

Answer 53

1. Electrons flow from electron carriers (NADH and FADH2 generated in TCA cycle) through a chain of membrane-bound carriers to a final electron acceptor (O2 )
2. The free energy, G, from exergonic electron flow is coupled with
   transport of protons (H + ) across a proton-pump in the membrane
   (electron transport chain)
3. The flow of protons back down provides free energy for synthesis
   of ATP, catalysed by a membrane protein complex: ATP synthase

Question 54

Cellular respiration occurs in the mitochondria and refers to?

Answer 54

Question 55

(LEARN) What are the four parts to carbohydrate catabolism? Explain each step

Answer 55

Question 56

Complete oxidation of _____ molecule of glucose to CO2 using ________________
yields ____________ molecules

Answer 56

1

oxidative phosphorylation

30 or 32 ATP

Question 57

The catabolic pathways that allow for carbohydrate catabolism to occur are regulated by cellular energy status (2 points)

Answer 57

• High [ADP] increases the pathways
• High [ATP] decreases them

Question 58

Key concept:

Catabolism vs anabolism & basic strategies of metabolism (3 points)

Answer 58

1. Catabolic pathways degrade nutrients/biomolecules into simpler end products to extract chemical energy
   and convert it into a form useful to the cell (e.g. ATP, NADH)
2. Anabolic pathways start with small precursor molecules and convert them into more complex molecules (e.g. glycogen, proteins, lipids) and store energy in the chemical bonds of these molecules.
3. Nucleotides are used to store energy, enzymes control the rate of the reactions,

Question 59

Key concept:

Regulation of metabolic regulation: coarse control and fine control strategies: (2 points)

Answer 59

• Coarse control: long term control of enzymes, it can take hours, or days; it normally relates to
  changing the amount of enzyme available
• Fine control: short term it can take milliseconds up to min; it normally relates to a direct effect on
  the catalytic activity of existing enzyme

Question 60

Key concept:

Overview of glycolysis pathway (1 point)

Answer 60

1 molecule of glucose is degraded in a series of 10 enzyme-catalysed reactions to yield 2 molecules of pyruvate, 2
molecules of ATP, 2 molecules of NADH. It occurs in the cytoplasm

Question 61

Key concept:

Overview of gluconeogenesis pathway (2 points)

Answer 61

1. Synthesis of glucose molecules; it converts pyruvate and related three- and four-carbon compounds
   into glucose: 1 Glucose is formed; 2 pyruvate, 4 ATP, 2 GTP and 2 NADH are consumed.
2. Reciprocal regulation of glycolysis and glucogenesis

Question 62

Key concept:

Overview of TCA cycle (3 points)

Answer 62

1. It is a central pathway in the catabolism of sugars, fats and proteins; it uses compounds derived from
   the breakdown of carbohydrates, lipids and proteins), which are converted to CO2
2. 1 Acetyl-CoA enters the cycle, 2 CO2 leave the cycle
3. 3 NADH, 1 FADH 2 , 1 ATP (or 1GTP)

Question 63

Key concept:

Overview of oxidative phosphorylation (4 points)

Answer 63

1. All the oxidative steps in the degradation of sugars, fats and proteins converge to this
   pathway to synthesise ATP
2. ATP is generated using electron flow from electron carriers (NADH and FADH2
   generated in TCA cycle) to O2
3. The protons gradient provides free energy for synthesis of ATP
4. Complete oxidation of 1 molecule of glucose to CO2 yields 30 or 32 ATP molecules