Biochemistry of Metabolism

Question 1

what is an overview of metabolism?

Answer 1

change energy form
create pyruvate
acetyl coA
feeds into the citric acid cycle
liberates 8e- attached to an e- receptor

Question 2

what is ATP?

Answer 2

the primary cellular energy carrier through triphosphate group
free energy donor

essential for all bioenergetic functions
energy rich as 2 phosphoanhydride bonds

Question 3

what is ATP a free energy donor to the processes of?

Answer 3

anabolism / biosynthesis
mechanical work / movement
active molecular transport

Question 4

atp hydrolysis

Answer 4

atp + h2o –> adp + Pi + H+

atp + h2o –> amp + PPi + H+

Question 5

what are metabolic pathways divided into?

Answer 5

anabolic reactions
catabolic reactions

combination of both fundamental for function

Question 6

what are anabolic pathways?

Answer 6

biosynthetic
reductive

require an energy source, reducing equivalent and precursor molecules

Question 7

what are catabolic pathways?

Answer 7

degrade
oxidative

provide energy, reducing equivalents and precursors
break things down so are oxidative

Question 8

what is an energy balance?

Answer 8

have to have the right balance of energy
healthy diet comes into play

diet + products of anabolic pathways must be balanced by catabolic pathways

Question 9

what is an energy imbalance?

Answer 9

anabolic process greater
can lead to metabolism type disorders

Question 10

how can energy balance be regulated?

Answer 10

diet
exercise

loss leads to obesity and type 2 diabetes

Question 11

what are the fates of each dietary component?

Answer 11

oxidation for energy (catabolism)
storage then release
conversion into something more useful

Question 12

equations for conversion of glucose

Answer 12

lactose —> galactose + glucose
sucrose —> fructose + glucose

Question 13

key points about aerobic glucose metabolism

Answer 13

intermediates taken off for storage
utilises the e- transport chain and oxidative phosphorylation
carried out in cytoplasm and mitochondria
produce majority of ATP

Question 14

key points anaerobic glucose metabolism

Answer 14

allows production of atp in cells without mitochondria
production in absence of oxygen
lactic acid

pyruvate converted to lactate
lactate causes muscle fatigue

Question 15

what is glycolysis?

Answer 15

conversion of glucose to pyruvate
glucose —> pyruvate + 2ATP

provides rapid energy source
small yield of ATP produced

have to pay lactate back through oxidate phosphorylation

Question 16

what are the stages of glycolysis?

Answer 16

1: investment stage
- energy consumes to convert glucose into 2 3C sugar phosphates

2: investment stage continued
oxidation of glyceraldehyde 3-phospahte

3: energy generation stage
every reaction happens twice

Question 17

explain stage 1 of glycoslysis

Answer 17

1. glucose receives phosphate group from ATP
2. glucose 6- phosphate isomerism
3. fructose.-6- phosphate is phosphorylated

uses 2 molecules of ATP
first reaction commits glucose to the pathway
second reaction changes structure
third reactions uses phosphate

Question 18

stage 1 glycolysis

Answer 18

glucose —> glucose-6-phosphate —> fructose-6-phosphate —> fructose -1, 6- bisphosphate

Question 19

explain stage 2 of glycolysis

Answer 19

fructose 1,6-bisphosphate cleaved into 2 x 3C molecules
isomers
cleaved by aldolase to give 2 compounds

dihydroxyacetone phosphate is dead end product
glyceraldehyde 3-phosphate will continue

Question 20

stage 2 glycolysis

Answer 20

fructose -1, 6-bisphosphate —> glyceraldehyde 3-phosphate + dihydroxyacetone phosphate

Question 21

explain stage 3 glycolysis

Answer 21

generation of physophorylated 1,3-bisphosglycerate via oxidation of the aldehyde group
phosphorylation group shifted from 3C to 2C position

reaction happens twice
creates 4 ATP, but 2 already used so only net gain of 2ATP

Question 22

stage 3 glycolysis

Answer 22

1,3-bisphosphoglycerate —-> 3-phosphoglycerate —> 2-phosphoglycerate —> phosphoenolpyruvate —> pyruvate

Question 23

glucose + ATP —> glucose-6-phosphate +ADP

Answer 23

6C ring converted to 5C
generates fructose

catalysed by hexokinase
traps glucose
uses ATP
irreversible

Question 24

fructose-6-phosphate + ATP —> fructose-1,6-bisphosphate + ADP

Answer 24

uses ATP
creates ADP
rate limiting step

catalysed by phosphofructokinase
irreversible
uses ATP
rate limiting control point

Question 25

glyceraldehyde-3-phosphate + NAD+ + Pi —> 1,3-bisphosphoglycerate + NADH + H+

Answer 25

NAH reduced to NADH
important in e- transfer

catalysed by G-3-P dehydrogenase
reversible reaction
oxidation reaction

Question 26

what’s the overall equation for glycolysis?

Answer 26

glucose + 2Pi + 2ADP + 2NAD+
|
2pyruvate + 2ATP + 2NADH + 2H+ + 2h2o

free energy released is 197 kJ.mol
NAD used
ATP produced

Question 27

ADP regenerated

Answer 27

as a result go numerous reactions that utilise ATP
continuously regernated

Question 28

NAD+ regenerated

Answer 28

via either
- lactate dehydrogenase (anaerobic)
- oxidative phosphorylation (aerobic)

Question 29

what enzymes control metabolism?

Answer 29

Irreversible enzymes
start of a pathway or a branch point
rate limiting enzymes

Question 30

how are enzymes controlled?

Answer 30

altering levels of synthesis of key enzymes
altering the activity of key enzymes