5. Carbohydrate Metabolism (1)

Question 1

Nutrition vs metabolism

Answer 1

Question 2

In chemistry:

Answer 2

Question 3

In metabolism:

Answer 3

Question 4

What is a) Catabolic processes (catabolism)? (3)

Answer 4

Question 5

Overview of catabolic processes in metabolism. (3)

Answer 5

Question 6

What are the catabolic pathways in carbohydrates? (4)

Answer 6

a) glycolysis
b) tricarboxylic acid (TCA or Krebs’ or citric acid) cycle
c) oxidative phosphorylation\
d) glycogenolysis

Question 7

What are the catabolic pathways in lipids (fats)? (2)

Answer 7

Question 8

What are the catabolic pathways in proteins? (2)

Answer 8

a) proteolysis, deamination
b) oxidation of amino acids

Question 9

What are anabolic processes?

Answer 9

Question 10

The major anabolic pathways include: (5)

Answer 10

o glycogen synthesis
o gluconeogenesis
o fatty acid synthesis
o lipogenesis
o protein synthesis

Question 11

Fill in the rest of the diagram and identify the catabolic and anabolic processes.

Answer 11

Question 12

What is the function of ATP? (3)

Answer 12

• ATP is the key energy source
  – nitrogenous base, ribose sugar and phosphate
  – may be other nucleotide triphosphates such as uridine
  – two high-energy bonds that provide energy
• for anabolic processes
• energy-consuming processes (e.g. muscle contraction)
• atpase pumps in cell walls (insulin is required to produce ATP)

Question 13

What are the 3 adenosine molecules?

Answer 13

Question 14

What are the other nucleotide energy-containing nucleosides? (3)

Answer 14

Question 15

What are the ATP storage molecules?

Answer 15

Question 16

What are Electron carriers? (2)

Answer 16

• Energy packets in the form of NADH and FADH2 contain energy but require an additional pathway to release ATP.
  – Redox reactions and electron carriers are used to couple energy released from food molecules to synthesis of ATP.
• Vitamins are critical for complete utilization of the energy in food.
  – Vitamins B1, B2 and B3 are critical as co-enzymes in the carbohydrate metabolism pathways

Question 17

What are Reduction-oxidation (redox) reactions in metabolism?

Answer 17

Question 18

Enzyme =
The electrons released when substances are _______ have potential energy.
This potential energy is used to synthesise ATP in the electron transport chain (ETC) in the _________.

Answer 18

lactate dehydrogenase (LDH))
oxidised
mitochondria

Question 19

What happens to the electrons?

Answer 19

Question 20

Answer 20

NADH is transported
into the mitochondrion
and transfers electrons
to the electron transport
chain (ETC)

All of the electron carriers are co-enzymes made from vitamins.

Question 21

Other electron carriers: (3)

Answer 21

Question 22

Why are vitamins critical? (3)

Answer 22

• Vitamins are critical for complete utilization of the
  energy in food.
  – B1 - co-enzyme for pyruvate dehydrogenase (PDH)
  – B2 – Riboflavin for FAD+ production
  – B3 - Niacin (nicotinomide) for NAD+ production

Question 23

What is the function of CoA?

Answer 23

Question 24

What are acyl groups?

Answer 24

Question 25

What is Acetyl CoA?

Answer 25

Question 26

What is the regulation of blood glucose?

Answer 26

Question 27

Hormonal Regulation:

• Regulation of blood glucose and energy
  production is a critical component of _______.
• Blood glucose is maintained in a very narrow
  range ____mmol/l to ____ mmol/l
• If an imbalance occurs there are two
  _________ mechanisms to counteract either
  – increase
  – decrease

Answer 27

homeostasis
4.1mmol/l
5.9mmol/l
physiological

Question 28

Dietary sources of carbohydrate: (4)

Answer 28

• Sugar, sweets, chocolate, fruit, honey
• Starchy vegetables, potato, pumpkin, squash, sweet
  potato, butternut, chips.
• Grains and grain products, wheat, maize, rice, bread,
  porridge/pap, pasta, cake, biscuits,
• glycogen in meat

Question 29

Recommended daily intake of carbohydrate:

Answer 29

• Dietary guidelines USDA/NHS - 200-300 g, 45-65% of
  energy
• Less processed starchy foods are recommended –
  eg.whole grains, legumes and root vegetables,
• Eat less refined starches and sugars
• Brain - 130 g/day

Question 30

Dietary fibre
Dietary fibre is indigestible carbohydrate e.g. cellulose.
* Increases intestinal ____ = the microbiome.
* Adds bulk to faeces, retains water in the GIT, speeds intestinal transit – eases passage of faeces.
* May prevent ______ and hemorrhoids.
* Slows digestion and absorption – slower blood glucose change in ______ lower cholesterol.

Answer 30

flora
diverticulitis
diabetes

Question 31

Dietary sources of fibre: (2)

Answer 31

• Vegetables (green), cabbage, broccoli, lettuce, mushrooms, peppers,
  beans, legumes, nuts, seeds
• Whole grains – brown bread, brown rice, samp, etc., bran

Question 32

What are Carbohydrates?

Answer 32

Question 33

Three chemical classes of carbohydrates: (3)

Answer 33

1. Monosaccharides
2. Disaccharides
3. Dietary polysaccharides (glucose polymers)

Question 34

1. Monosaccharides
   Vary from 3 (triose) to 9 (nonose) carbons
   _______ (6-carbon sugars)
   Used as fuel and for synthesis of metabolic _______
   * Glucose (sweets)
   * Fructose (from fruit)
   * Galactose (derived from milk)

Answer 34

Hexoses
intermediates

Question 35

What are hexose sugars?

Answer 35

Question 36

1 Monosaccharides - Pentoses (5-carbon sugars)
Most common are _____ and _______e
Components of nucleic acids and ATP, GTP etc.
Synthesised in body.

Question 37

Disaccharides
Each contain 2 __________ subunits
*Sucrose (table sugar)
*Maltose (breakdown product of starch and glycogen)
*Lactose (milk sugar)

Answer 37

monosaccharide

Question 38

Glucose storage polysaccharides –
_______ in animals
Starch in plants
Plant structural polysaccharides
________

Answer 38

Glycogen
Cellulose

Question 39

What is the general structure of starch and glycogen?

Answer 39

Question 40

___ 1-6 (branches) and ____ 1-4 (chains) glycosidic bonds can be _________ digested by humans.

Therefore, glycogen and starch are digestible

Answer 40

Question 41

General structure of cellulose:

Answer 41

Question 42

Digestion of starch and glycogen
Enzyme α–amylase (produced by salivary glands and pancreas) cleaves large starch molecules into:

Answer 42

Question 43

Digestion and absorption of mono-/disaccharides and α-limit _____

Glucose carrier = Sodium-dependent ______ transporter (SGLT)

Answer 43

dextrin
glucose

Question 44

Absorption of carbohydrates”

Monosaccharides are transported in bloodstream
via the ______ _______ circulation
Taken up into cells.
* Used immediately for energy
_________
or
* Stored as glycogen in muscles and liver
____________
or
* Converted into fatty acids (liver) and stored (adipose tissue)

Answer 44

portal vein
GLYCOLYSIS
GLYCOGENESIS

Question 45

Remedy:

Answer 45

• Avoid dairy products or use lactose-free dairy products
• Yoghurt is tolerated better than unfermented dairy products

Question 46

Excess carbohydrate intake:

Answer 46

Question 47

Blood glucose homeostasis
INSULIN - REGULATORY HORMONE
Pathways of glucose metabolism after ________ of carbohydrate
* Glucose uptake into cells
– Critical for the production of ATP
– ATPase pumps
* in the _______ of the cell
– Catabolic
* Glycolysis
– ________
* Pentose __________ pathway
* Glycogenesis (Glycogen synthesis)

Answer 47

ingestion
cytosol
Anabolic
phosphate

Question 48

Why is insulin increased?

Answer 48

Insulin is increased
1. Glycolysis – pathway in cytosol to extract the
energy from glucose.
2. Glycogenesis – pathway to store glucose as
glycogen for use when fasting
3. Ribose - Pentose Phosphate pathway

Question 49

How is glucose taken up into the cells?

Answer 49

Question 50

1. Regulation of glycolysis

What are the 2 enzymes?

Answer 50

Question 51

Glucose uptake into cells from
blood
* Glucose uptake into most tissues is controlled by _______.
* Glucose transporter in peripheral tissues, ______ (glucose
transporter 4) - increased by insulin.
* Glucose uptake into liver, brain, red blood cells and
pancreas is not regulated by insulin. It depends on blood ______ concentration.
– Results in ________ of the cells – primarily seen in red blood cells (HB1aC)
* Insulin-independent cells have different insulin-
independent glucose transporters (GLUT-2).
– _______ receptors – SGLT2 antagonist drugs prevent glucose reabsorbtion in the nephrons of the kidney
* Glucose phosphorylation reaction is irreversible and
________-_______ cannot cross cell membranes.
* Glucokinase activity is increased by cellular glucose &
induced by insulin.

Answer 51

insulin.
GLUT-4
glucose
SGLT
glucose-6-phosphate

Question 52

1. Glycolysis: energy investment and splitting (5)

Answer 52

Question 53

2. Glycolysis: energy production/yield steps
   Aerobic conditions (6)

Answer 53

Question 54

1. Glycolysis: Overall reaction from glucose to pyruvate
   (aerobic glycolysis)

Answer 54

Question 55

Glycolysis: energy production/yield steps
Anaerobic conditions (6)

Answer 55

Question 56

2. Glycolysis: OVERALL reaction from glucose to lactate
   (anaerobic glycolysis)

Answer 56

Question 57

Tissue dependence on glycolysis for energy production:
Red blood cells:
Muscle:
Brain:
Adipose tissue:

Answer 57

Red blood cells – Totally dependent on anaerobic glycolysis (no mitochondria).

Muscle – Very dependent on glycolysis both aerobically and anaerobically.

Brain – Prefers aerobic glycolysis.

Adipose tissue – Glycolysis needed for lipid synthesis and cell

Question 58

2. Regulation of glycolysis cont…..
   Phosphofructokinase-1 (PFK-1) (fructose-1P + ATP → fructose-1,6-bisP + ADP)

Enzyme activity stimulated by: (3)

Answer 58

• increased AMP concentration
• increased concentration of glycolytic substrates
• insulin (indirectly)

Question 59

2. Regulation of glycolysis cont…..
   Phosphofructokinase-1 (PFK-1) (fructose-1P + ATP → fructose-1,6-bisP + ADP)

Enzyme activity inhibited by: (3)

Answer 59

• increased ATP concentration
• increased citrate concentration
• Also glucagon, adrenaline (indirectly)

Question 60

3. Regulation of glycolysis cont…..
   Pyruvate kinase (phosphoenolpyruvate + ADP → pyruvate + ATP)
   Activity stimulated by: (2)

Activity inhibited by: (2)

Answer 60

Fructose-1,6-bisphosphate
Insulin

ATP
glucagon

Question 61

Lactate dehydrogenase (pyruvate + NADH → lactate + NAD+)

Activity stimulated by: (3)

Answer 61

increased pyruvate
increased NADH
decreased NAD+

Question 62

What are the fates of glucose-6-phosphate?

Answer 62

Question 63

What is the pentose phosphate pathway (hexose monophosphate shunt)? (6)

Answer 63

Question 64

What is the Synthesis of glycogen (glycogenesis) from glucose-6-phosphate? (8)

Answer 64

Question 65

Whole body view of blood glucose homeostasis:

Answer 65

Question 66

Blood glucose homeostasis
Glucose homeostasis is aimed at:

Answer 66

• Maintaining blood glucose concentration at 4.1 – 5.9 mmol/l

Question 67

Excess blood glucose
* glucose is removed from the blood when it is in ______
* stored as ______ (in liver and muscle)
* stored as fat

Answer 67

excess
glycogen

Question 68

The primary organ of glucose homeostasis when glucose concentration is decreased is the ______.

Answer 68

liver

Question 69

Decreased blood glucose concentration
* liver glycogen stores are utilised
* the synthesis of glucose occurs
* _______ fat instead of glucose when little/no carbohydrate is eaten

Answer 69

catabolism

Question 70

What is the process of the regulation of glycogen synthesis (glycogenesis? (9)

Answer 70