Metabolism

Question 1

What is anabolism?

Answer 1

synthesis of biopolymers

Question 2

What is catabolism?

Answer 2

degradation of biopolymers

Question 3

What is a metabolic pathway?

Answer 3

sum of all steps in the synthesis or breakdown of a product

Question 4

What are the types of metabolic pathways?

Answer 4

linear, cyclic, branched converging, branched diverging, spiral

Question 5

What are intermediates? What is another name for them?

Answer 5

a compound that isn’t the intial reactant or final product

metabolites

Question 6

What is associated with catabolism?

Answer 6

breakdown of biomolecules, overall chemical oxidation that leads to reduced cofactors (NADH, NADPH, FADH2), releases energy for ATP, convergence of pathways

Question 7

What is assocaited with anabolism?

Answer 7

synthesis of biomolecules, overall chemical reduction that leads to reduced cofactors (NAD+, FAD, NADP+), requires ATP, divergence of pathways

Question 8

What is the most vs the least reduced form of carbon?

Answer 8

CH4 is most and CO2 is least

Question 9

What enzymes carry out standard redox reactions?

Answer 9

dehydrogenases

Question 10

For the reaction AH2 + B <–> A + BH2 what is AH2 and B?

Answer 10

AH2 is the reducing agent and B is the oxidizing agent

Question 11

What is the major electron acceptor during the oxidiation of metabolites vs the major electron donor during the reduction of metabolites?

Answer 11

NAD+ vs NADPH

Question 12

What are the chemical reactions involved in metabolism?

Answer 12

redox reactions, group transfer, hydrolysis, non-hydrolytic cleavage, isomerizations, bond formation coupled with ATP

Question 13

What is a common example of a group transfer reaction?

Answer 13

transfer of PO3 group from ATP, trasnfer of acyl from carboylic acid derivative to SH group of CoA

Question 14

What are hydrolysis reactions?

Answer 14

adding water to break up a covalent bond

Question 15

Why is ATP so energetic?

Answer 15

1. more resonance structures for ADP and Pi than ATP so they have less energy
2. lot of negative charges cause charge repulsion, relieving this gives off energy
3. products of atp hydrolysis are easily solvated
4. icnrease in disorder

Question 16

How can you get a reaction with a positive delta G to happen?

Answer 16

couple it with a reactiom with a negative delta G

Question 17

What equation can be used to calculate Keq when given standard Gibbs and temperature?

Answer 17

deltaG=RTlnKeq

Question 18

What are the two main phases of glycolysis?

Answer 18

preparatory phase and payoff phase

Question 19

What is the first reaction of glycolysis? What is involved?

Answer 19

glucose to glucose-6-phosphate, uses hexokinase, uses one atp

Question 20

What is the structure of glucose-6-phosphate?

Answer 20

normal 6 carbon ring (glucose) with a phosphate group attachted to the 6th carbon

Question 21

What is the second reaction of glycolysis? What is involved?

Answer 21

glucose-6-phosphate to fructose-6-phosphate, uses phosphohexoisomerase (rearranged structure)

Question 22

What is the third reaction of glycolysis? What is involved?

Answer 22

fructose-6-phosphate to fructose1,6-bisphospahte, uses phosphofructokinase, also uses another ATP

Question 23

What is the priming steps in glycolysis?

Answer 23

1st, and 3rd, steps that activate the substrate for the enxt reaction

Question 24

What is the fourth step of glycolysis?

Answer 24

fructose 1,6 bisphosphate is broken down into dihydroxyacetone phosphate and glyceraldehyde 3-phosphate

Question 25

What is the fifth reaction of glycolysis? Why does this reaction happen even though its endergonic?

Answer 25

converting dihydroxyacetone phosphate to glyceraldehyde 3-phospahte

in cells its closer to 0 and there is constant depletion of GAP which moves the reaction to the right

Question 26

What is the sixth reaction of glycolysis?

Answer 26

glyceraldehyde 3 phosphate is oxidzed into 1,3 bisphosphoglycerate, NADH is produced

Question 27

What is the seventh reaction of glycolysis?

Answer 27

phosphate group is removed from 1,3 bisphosphoglycerate and added to ADP, makes ATP and 3-phosphoglycerate

Question 28

What is the eight reaction of glycolysis?

Answer 28

3-phosphoglycerate gets rearranged to 2-phosphoglycerate

Question 29

What is the ninth reaction of glycolysis? (After 2-phosphoglycerate is made)

Answer 29

2-phosphoglycerate converted to phosphoenolpyruvate (PEP) through a dehydration reaction

Question 30

What is the tenth reaction of glycolysis? (After PEP)

Answer 30

phosphate group from phosphoenolpyruvate to ADP, making pyruvate and ATP

Question 31

What are the net products of glycolysis?

Answer 31

2 atp, 2 nadh, 2 pyruvate

Question 32

What determines what happens to pyruvate after glycosis?

Answer 32

whether there are anaerobic vs aerobic conditions

Question 33

What is gluconeogenesis? Where does it happen?

Answer 33

synthesis of glucose from pyruvate or lactate

mostly in liver cells

Question 34

How is PEP made in gluconeogenesis?

Answer 34

using pyruvate or lactate, combines with bicarbonate to make oxaloacetate using pyruvate carboxylase (uses atp)

then using gtp its converted into PEP (phosphoenolpyruvate) by PEP carboxykinase

Question 35

What cofactor is almost always involved when adding or removing a carbon?

Answer 35

biotin

Question 36

What enzymes are a major point of regulation for glycolysis/gluconeogenesis?

Answer 36

phosphofructokinase (PRK-1) and fructose-1,6-bisphosphotase

Question 37

What favours glycolysis vs gluconeogenesis? Why?

Answer 37

high atp favours gluconeogenesis (high energy levels) high amp favours glycolysis (low energy levels)

Question 38

How does Fructose 2,6-bisphosphate mediate glucose metabolism?

Answer 38

activates PFK1 which activates glycolysis

Question 39

The enzymes involved in the citric acid cycle are often associated in functional units called metabolons, what does this allow for?

Answer 39

substrate channelling

Question 40

What is the oxidation of pyruvate to acetyl CoA performed by?

Answer 40

pyruvate dehydrogenase which is a multienzyme compelx

Question 41

What is the first step of the pyruvate dehydrogenase cycle?

Answer 41

pyruvate is linked to pyruvate decarboxylase and then decarboxylates, remaining hydroxylethyl group bind to coenxyme TPP

Question 42

What is the second step of the pyruvate dehydrogenase cycle?

Answer 42

the C2 of the hydroxethyl is oxidized into an acetyl group, this is done by reducing the disulfide bond of the lipoamide group of the second enzyme, this transfers the acyl group to the enzyme

Question 43

What is the third step of the pyruvate dehydrogenase cycle?

Answer 43

acetyl coa is formed by trasnfering the acetyl group to the thiol group of pantothenic acid which contains coenzyme A

Question 44

What is the fourth step of the pyruvate dehydrogenase cycle?

Answer 44

the lipoamide needs to be reoxidized, to do this FAD is reduced to FADH2

Question 45

What is the fifth step of the pyruvate dehydrogenase cycle?

Answer 45

to regenerate FAD, FADH2 reduces NAD+ to make NADH

Question 46

What are the names and functions of the enzymes in pyruvate dehydrogenase complex?

Answer 46

pyruvate dehydrogenase (decarboxylates pyruvate), dihydrolipoyl transacetylase (transfer of acetyl group to CoASH), dihydrolipoyl dehydrogenase (reoxidizes dihydrolipoamide)

Question 47

What is the sum of the reaction of pyruvate dehydrogenase?

Answer 47

products are acetyl CoA, CO2, NADH, H2

Question 48

What is the first step of the citric acid cycle?

Answer 48

acetyl group of acetyl CoA is added to oxaloacetate to make citrate, releases CoA and uses water

Question 49

Why does the first step of the kreb’s cycle happen even though the concentration of oxaloacetate is very low?

Answer 49

first step is very exergonic

Question 50

What is the second step of the citric acid cycle?

Answer 50

citrate is isomerized to form isocitrate, involves a dehydration and then a rehydration

Question 51

What is the third step of the citric acid cycle?

Answer 51

isocitrate is oxidized to make a-ketoglutarate, releases a CO2 and reduces NAD+ to make NADH

Question 52

What is the fourth step of the citric acid cycle?

Answer 52

a-ketoglutarate is oxidized to succinyl CoA by ketoglutarate dehydrogenase complex, releases a CO2 and reduces NAD+ to make NADH

Question 53

What is the a-ketoglutarate complex similar to?

Answer 53

pyruvate dehydrogenase complex (almsot identical chemcial reaction with same cofactors)

Question 54

What is the fifth step of the ctric acid cycle?

Answer 54

succinyl CoA is converted to succinate, releases CoA and makes GTP

Question 55

WHat is the sixth step of the citric acid cycle?

Answer 55

succinate is oxidized to fumarate, reduces one FAD to FADH2

Question 56

What is the seventh step of the citric acid cycle?

Answer 56

fumarate is converted to malate by fumarase using a water moelucle

Question 57

What is the eigth step of the citric acid cycle?

Answer 57

malate is oxidized and turned into oxaloacetate, also NAD+ is reduced to NADH

Question 58

Why does the last step of the kreb’s cycle happen even though its energetically unfavoured?

Answer 58

because the first step is so favoured it happens anyway

Question 59

What inhibits pyruvate oxidation?

Answer 59

ATP, acetyl CoA, NADH, fatty acids

Question 60

What stops the first step of the citric acid cycle?

Answer 60

NADH, citrate, succinyl CoA, ATP

Question 61

Where is the electron transport chain found?

Answer 61

inner mitochondrial membrane

Question 62

What equation can be used to relate standard reduction potentials to standard gibbs?

Answer 62

deltaG=-nFdeltaE

n=# of e- and F is faraday constant (96485 C/mol)

Question 63

How can you calculate standard reduction potential?

Answer 63

Eacceptor-Edonor

Question 64

Where does NADH and FADH2 enter the ETC?

Answer 64

NADH enters at complex I and FADH2 enters at complex II

Question 65

How does complex I pass on electrons?

Answer 65

NADH gives 2e- to flavin mononucleotide (FMN) which then passes those electrons onto an iron-sulfur and then onto coenzyme Q

Question 66

What is another function of compelx I aside from passing on electrons?

Answer 66

moves 4 H+ into intermembrane space against concentration gradient

Question 67

What are the types of Coenzyme Q?

Answer 67

ubiquinone (Q, fully oxidized), semiquinone (*QH, half reduced), ubiquinol (QH2, fully reduced)

Question 68

How does complex II pass on electrons?

Answer 68

takes electrons from succinate via FADH2, passes onto iron-sulfur cluster and then onto coenzyme Q

Question 69

Does complex II move protons into intermembrane space?

Answer 69

no

Question 70

How does complex III receive electrons?

Answer 70

iron-sulfur clusters containing cytochromes receive e- from CoQ

Question 71

Why does the Q cycle exist?

Answer 71

cyt c1 only takes 1 e- but CoQ has 2e-

Question 72

How does the Q cycle work?

Answer 72

ubiquinol gives 1 e- to uniquinone which becomes semiquinone and the other to cyctochrome c

the other electron is given to semiquinone to make ubiquinol and other goes to cyt c

Question 73

What do the iron-sulfur clusters in cytochromes resemble?

Answer 73

heme groups

Question 74

What is the function of complex IV?

Answer 74

transfers electrons from cyt c to O2 via cyt a and a3 (also pumps 2 H+)

Question 75

What are some examples of chemicals that can stop the ETC?

Answer 75

cyanide, carbon monoxide, rotenone, antimycin A

Question 76

How many protons do each complex pump?

Answer 76

1- 4 H+
2- none
3- 4 H+
4- 2 H+

Question 77

What does protons moving through the pore of atp synthase cause?

Answer 77

rotation of the y subunit, this causes conformational changes in the beta subunits that drive atp synthesis

Question 78

How does NADH from glycolysis get into the mitochondria?

Answer 78

malate-aspartate shuttle

Question 79

How does the malate-aspartate shuttle work?

Answer 79

NADH is used to reduce oxaloacetate to malate, malate enters matrix in exchange for a-ketoglutaraete, malate is oxidized to oxaloacetate and forms NADH, oxaloacetate is converted to aspartate which flows out in exchange for glutamate

Question 80

How many ATP per glucose?

Answer 80

30-32

Question 81

What is the differnce between saturated and unsaturated fats?

Answer 81

saturated have no double bonds and unsaturated do

Question 82

What are triglycerols broken down by/into?

Answer 82

by lipases into glycerol and fatty acids

Question 83

What are some sources of fatty acids for energy metabolism?

Answer 83

dietary triacyclglycerols, triacyclglycerols synthesized in the liver, triacyclglycerols stored in adipocytes

Question 84

How are triacyclglycerols absorbed by small intestine?

Answer 84

they are broken down into fatty acids and absorbed by the mucosa, which are remade into triacyclglycerols and combined with lipoproteins and cholesterol into chylomicrons which are distributed to cells

Question 85

After chlymicrons are distributed to cells what happens?

Answer 85

broken back down by lipoprotein lipase and fatty acids are used for energy or storage

Question 86

How are fatty acids marked to be catabolized in the mictochondria?

Answer 86

they are activated by a thioester linkage to CoA, making acyl-CoA

Question 87

What allows for the passage of fatty acid through the inner mitochondrial membrane?

Answer 87

linkage to carnitine via carnitine acyltransferase I, once inside caritine acyltransferase II reverses the reaction making acyl CoA again

Question 88

What is the beta oxidation spiral? What are the products for each turn?

Answer 88

break down of fatty acids, two carbons from acyl CoA are removed at a time

each turn makes an acetyl CoA, NADH, and a FADH2

Question 89

Can beta oxidation happen with a fatty acid with an odd number of carbons?

Answer 89

yes

Question 90

What is the substrate for fatty acid syntehsis? What is this syntehsis performed by?

Answer 90

malonyl CoA

fatty acid synthase

Question 91

Are fatty acids made in the cytoplasm are what?

Answer 91

palmitate (palmitic acid)

Question 92

What are chlyomicrons?

Answer 92

made in intestinal mucosa, transport triacyclglycerols to tissues

Question 93

WHat is VLDL?

Answer 93

very low density lipoprotein, made in liver and deliver liver synthesize triacyclglycerols to adipose tissue

Question 94

What is LDL?

Answer 94

low density lipoprotein, major cholesterol carrier, moves from liver to tisse

Question 95

What is HDL?

Answer 95

high density lipoprotein, highest protein content, moves cholestreol from tissue to lvier

Question 96

Can N2 gas be reduced to NH3 enzymatically?

Answer 96

yes only by certain species, for example rhizobium which forms nodes in roots of legumes

Question 97

What do all nitrogen fixing enzymes contain?

Answer 97

nitrogenase complex, made up of a Fe-S that contains dinitrogenase reductase and a molybdenum-iron cofactor which has a protein called dinitrogenase

Question 98

How much atp is used to fixate 1 n2?

Answer 98

16

Question 99

NH4 cannot be free flowing in system, so how does it exist in our bodies?

Answer 99

glutamate is aminated to make glutamine

Question 100

What is alpha-ketoglutarate the carbon skeleton of?

Answer 100

glutamate, glutamine, proline, arginine

Question 101

What is pyruvate the carbon skeleton of?

Answer 101

alanine, valine, leucine, isoleucine

Question 102

What is oxaloacetate the carbon skeleton for?

Answer 102

aspartate, asparagine, methionine, threonine, lysine

Question 103

What is 3-phosphoglycerate the carbon skeleton of?

Answer 103

serine, glycine,cysteine