Carbohydrate Catabolism Flashcards Preview

ESA 1 > Carbohydrate Catabolism > Flashcards

Flashcards in Carbohydrate Catabolism Deck (26)
Loading flashcards...
1
Q

What is the general formula for carbohydrates?

A

(CH20)n

2
Q

What are the general features of monosaccharides?

A
3-9 carbon atoms mostly trisoe, pentose or hexose.
Hydrophilic
Partially oxidised
Aldose= aldehyde group
Ketose= ketone group
3
Q

What are disaccharides?

A

The condensation of 2 monosaccharides to form a glycosidicidic bond and water
E.g. Lactose, sucrose and maltose

4
Q

Describe the structure of glycogen?

A

Glucose polymer
Highly branched
a1,4 and a1,6 bonds

5
Q

Describe the structure of starch?

A

Glucose polymer
From plants
Amylase (a1,4) and amylopectin (a1,4 and a1,6)

6
Q

Describe the structure of cellulose?

Why can’t humans digest it?

A

Structural polymer in plants
B 1,4 links
Humans do not have enzymes to hydrolyse b1,4 linkages

7
Q

Describe how dietary carbohydrates are digested and absorbed.

A

Polysaccharide digestion: mouth (salivary amylase) duodenum (pancreatic amylase)
Disaccharides digestion: glycosidase enzymes on brush border of epithelial cells
Monosaccharide absorption: active transport or facilitated diffusion

8
Q

Why must blood glucose be kept at a constant level?

A

Some tissues have an absolute requirement for glucose
The rate of uptake is dependent on blood concentration
E.g. RBCs, WBCs, lens of eye, kidney medulla absolute
CNS preferential
Some for specialised functions e.g. TAG synthesis in adipose

9
Q

What are the key features of glycolysis?

A

10 enzyme catalysed steps
Cytoplasm of cells
Generate ATP by substrate level phosphorylation
2 ATP in, 4 out, net gain 2 ATP
Reduces NAD+ to NADH
Produces building block molecules that anabolism
No loss of CO2
Exergonic
Operates anaerobically with one additional enzyme

10
Q

Which three steps of glycolysis are irreversible?

A

Step one: Glucose –> Glucose-6-phosphate. Requires ATP and hexokinase
Step three: Fructose 6 phosphate –> Fructose 1,6 bisphosphate. Requires ATP and phosphofructokinase
Step 10: Phosphoenol pyruvate –> Pyruvate. Generates ATP. Requires pyruvate kinase.

11
Q

Describe anaerobic respiration?

A

Inadequate oxygen supply or no mitochondria
Pyruvate reduced lactate by lactate dehydrogenase
LDR regenerates NAD+ without oxygen, allowing glycolysis to proceed

12
Q

How is blood concentration of lactate controlled?

A

Lactate converted to pyruvate then CO2 or glucose
Lactate produced equals lactate used
If concentration exceeds real threshold buffering capacity is affected causing lactic acidosis

13
Q

What is the cause of lactose intolerance?

A

Low activity of lactase enzyme

Lactose is not digested

14
Q

Describe galactose metabolism in the liver.

A

Galactose to galactose 1 phosphate using galactokinase
Galactose 1 phosphate to glucose 1 phosphate using galactose 1PU transferase
Glucose 1 phosphate to glucose-6-phosphate using phosphoglucomutase
Enters glycolysis

15
Q

What causes galactosaemia?

A

Galactokinase deficiency
Galactose 1PU transferase deficiency
Galactose and galactose 1 phosphate accumulates in tissues (only transferase)

16
Q

What is the consequences of galactose accumulation in tissues?

A

Reduced to galactitol by aldose reductase
Depletes tissues of NADH
Allows SS bond formation causing cataracts, glaucoma and blindness

17
Q

What is the consequence of galactose 1 phosphate in tissues?

A

Liver kidney and brain damage

Withholds Pi meaning it is unavailable for ATP synthesis

18
Q

What are the functions of the pentose phosphate pathway?

A
Produced NADPH (reducing power, maintain free SH groups and used in detoxification)
Produced C5 ribose (Nucleotide synthesis)
19
Q

Describe the pentose phosphate pathway?

A

Phase 1: Oxidative decarboxylation using glucose 6P dehydrogenase
Phase 2: C5 sugar phosphates –> glycolysis intermediates

20
Q

Describe glucose 6P dehydrogenase deficiency.

A
Point mutation in X linked gene
Reduced enzyme activity
Low levels of NADPH
Disulphide bridges in red blood cells
Heinz bodies
Premature red blood cell destruction
21
Q

What is the function of pyruvate dehydrogenate?

A

It converts pyruvate to acetyl~coA so that it can enter the TCA cycle
It is an irreversible reaction which produces CO2

22
Q

How is pyruvate dehydrogenase regulated?

A

Acetyl~CoA inhibits PDH allosterically
Energy sensitive ATP/NADH inhibit, ADP promotes, allosterically
Insulin activates enzyme by promoting it’s dephosphorylation (Indicates plenty of glucose to be catabolised)

23
Q

What are the functions of the TCA cycle?

A

Central pathway in sugar, fatty acid, ketone body, alcohol and amino acid metabolism
It is oxidative and it occurs in the mitochondria
Reduces NAD+ and FAD
Produces intermediary metabolites for anabolism

24
Q

How is the TCA cycle regulated?

A

ADP/ATP ratio, ATP Inhibits
NADH/NAD+ ratio, NADH inhibits
Isocitrate dehydrogenase, NADH inhibits and ADP activates allosterically

25
Q

What is happened by the end of stage III catabolism?

A

All C-C bonds broken. All C oxidised to CO2
All CH bonds broken. All H transferred to NAD+ and FAD
All energy from bonds stored in ATP/GTP formation and all chemical bond energy of electrons stored in NADH and FAD2H

26
Q

What is oxidative phosphorylation?

A

High energy electrons are transferred to oxygen by carrier molecules releasing large amounts of free energy
This energy is used to drive ATP synthesis