Amino Acid Building Blocks

Question 1

Key regulatory molecules that control homeostasis, response to growth signals, initiate the ‘flight-or-fight’ response, and control circadian rhythms and movement

Answer 1

Neurotransmitters

Question 2

There are three general classes of neurotransmitters, what are they?

Answer 2

Protein-based, steroid derived, and amino acid derived

Question 3

The turnover of proteins yields amino acids, energy, nitrogen for various metabolites (porphyrins), and building blocks for the synthesis of

Answer 3

Neurotransmitters and nucleic acids

Question 4

What is the chain reaction in Parkinson’s disease?

Answer 4

Loss of dopamine –> loss of norepinephrine –> loss of epinephrine –> loss of serotonin

Question 5

Can result from reduced levels of dopamine

Answer 5

Schizophrenia

Question 6

Seizures can be caused by deficiency of

Answer 6

GABA and dopamine

Question 7

Causes hypersensitivity to sunlight, and increased incidence of retinal damage

Answer 7

Lack of Melanin

Question 8

Neurotransmitters/regulators that are protein-based include

Answer 8

Insulin, growth hormone and endomorphins

Question 9

The steroid-based neurotransmitters are

Answer 9

Estrogens and Androgens

Question 10

Neurotransmitters that are synthesized from amino acids and related precursors include

Answer 10

Thyroxin, dopamine, norepi, and epi

Question 11

Serotonin, melatonin and acetylcholine are also derivatives of

Answer 11

Amino acids

Question 12

Catecholamine’s describe a set of neurotransmitters that are synthesized from

Answer 12

Tyrosine

Question 13

A thyroid hormone that regulates metabolism and thermoregulation

Answer 13

Thyroxine

Question 14

Higher levels of thyroxine increase

Answer 14

Protein synthesis

Question 15

Three enzymes that facilitate thyroixine reactions all contain

Answer 15

Selenium

Question 16

Which 4 neurotransmitters are derived from phenylalanine (with cofactor tetrahydrobiopterin)?

Answer 16

Thyroxine, dopamine, norepinephrine, and epinephrine

Question 17

Regulates movement and promotes ‘reward-stimulating’ behavior.

-It stimulates the primary appetitive behaviors including feeding, fighting, fleeing and sexual function

Answer 17

Dopamine

Question 18

Deficiency in dopamine synthesis can lead to

Answer 18

Parkinson’s Disease

Question 19

There is evidence that ADD might also be associated with reduced levels of

Answer 19

Dopamine

Question 20

In contrast, elevated levels of dopamine can cause schizophrenia. The key drugs that are used to treat schizophrenia depress

Answer 20

Dopamine levels

Question 21

Important for stress-response. Synthesized and released from the adrenal medulla and plays a critical role in sympathetic neurons

Answer 21

Norepinephrine

Question 22

It functions in the ‘fight-or-flight’ response by triggering glucose release and acceleration of heart rate

Answer 22

Norepinephrine

Question 23

Norepinephrine is used as a vasopressor medication for treatment of

Answer 23

Hypotension

Question 24

Low levels of norepinephrine can cause

Answer 24

Lethargy and depression

Question 25

Conversion of norepinephrine –> epinephrine requires

Answer 25

SAM

Question 26

Synthesized and released from the adrenal medulla. High levels are detected in the circulation following myocardial infarction

Answer 26

Epinephrine

Question 27

Administered to treat cardiac arrest and anaphylaxis

Answer 27

Epinephrine

Question 28

All contain two hydroxyls on the phenyl ring

Answer 28

Catecholamines

Question 29

Tryptophan is an important amino acid for the synthesis of

Answer 29

Seratonin and melatonin

Question 30

What is the co-factor for tryptophan?

Answer 30

Tetrahydrobiopterin

Question 31

Important for thermoregulation and pain perception

Answer 31

Seratonin

Question 32

When seratonin levels are misregulated, we can observe

Answer 32

Bipolar effects

Question 33

Regulates the sleep/wake circadian cycle

Answer 33

Melatonin

Question 34

Needed for synthesis of melanin pigment, which protects against sunlight induced UV damage

Answer 34

Tyrosine

Question 35

Involved in the synthesis of prophyrin

Answer 35

Glycine

Question 36

A co-factor in reactions leading from glycine –> prophyrin

Answer 36

Pyridoxial phosphate (Vit. B6)

Question 37

Key component of creatine and porphyrin. Also required in the synthesis of creatine and glutathione

Answer 37

Glycine

Question 38

Controls the primary inhibitory mechanisms in the brain

-synthesized from glutamic acid

Answer 38

GABA

Question 39

Serves the primary role of attenuating neuronal function

Answer 39

GABA

Question 40

Required for glutathione synthesis

Answer 40

Glutamate

Question 41

Which 3 amino acids combine to make glutathione?

Answer 41

Glutamate, Cysteine, and Glycine

Question 42

A free radical gas that can dilate blood vessels and lower blood pressure

Answer 42

Nitric Oxide (NO)

Question 43

Which two things require arginine for synthesis?

Answer 43

NO and creatine

Question 44

Histamine is a cyclic amine that is derived from

Answer 44

Histidine

Question 45

Can regulate sleep; cause irritation of respiratory tract, and is released following tissue injury

Answer 45

Histamine

Question 46

Histidine decarboxylase requires

Answer 46

Pyridoxal phosphate (Vit. B6)

Question 47

Porphyria includes a number of disorders characterized by a defect in

Answer 47

Heme synthesis

Question 48

Defects can arise from the transport and incorporation of iron, and in the synthesis of the

Answer 48

Porphyrin ring

Question 49

Symptoms include photosensitivity, neurosensitivity, and a range of psychiatric conditions

Answer 49

Porphyrin deficiency

Question 50

Heme synthesis initiates in a reaction that condenses Succinyl-CoA to

Answer 50

Glycine

Question 51

Synthesis of heme begins in the mitochondria, continues in the cytosol, and is completed in the

Answer 51

Mitochondria

Question 52

Phenylalanine –> Tyrosine is mediated by

-requires tetrahydrobiopterin as a cofactor

Answer 52

Phenylalanine hydroxylase

Question 53

Tetrahydrobiopterin is restored by

Answer 53

Dihydropteridine reductase

Question 54

Tyrosine –> DOPA is mediated by

-requires tetrahydrobiopterin as a cofactor

Answer 54

Tyrosine hydroxylase

Question 55

DOPA –> Dopamine is simply a

-Requires B6

Answer 55

Decarboxylation of DOPA

Question 56

The primary excitatory signal in the brain

Answer 56

Glutamate

Question 57

A precursor for the synthesis of Glutathione, which is composed of a tripeptide (glutamate + cysteine + glycine), with a reactive sulfhydral group

Answer 57

Glutamate

Question 58

A major antioxidant that is important for protecting RBC’s from oxidative damage

Answer 58

Glutathione

Question 59

The RBC has a strongly oxidative environment and proteins that are damaged can precipitate into aggregates called

Answer 59

Heinz Bodies

Question 60

Also plays an important role as a co-factor in the formation of accurate protein disulfide bonds

Answer 60

Glutathione

Question 61

Uses NADPH to reduce and restore the levels of reduced glutathione

Answer 61

Glutathione Peroxidase

Question 62

This enzyme is unusual in that it contains a modified amino acid, selenium, in its active site (selenocystine)

Answer 62

Glutathioneperoxidase

Question 63

In erythrocytes the pentose-phosphate cycle keeps gluathione proxidase active by maintaining adequate supply of

Answer 63

NADPH

Question 64

Also required for the movement of amino acids across membranes (termed the y-glutamyl cycle)

Answer 64

Glutathione

Question 65

The recovery of amino acids by renal epithelial cells requires the

Answer 65

y-Glutamyl cycle

Question 66

Movement of the amino acid results in the breakdown of glutathione into its amino acid constitutents (glutamate; cysteine; glycine), and therefore glutathione needs to be resynthesized in a mechanism that requires

Answer 66

ATP

Question 67

The levels of glutathione are altered following prolonged oxidative stress and in

Answer 67

Diabetes

Question 68

A storage form of high energy phosphate in tissues with high ATP requirements (muscle; brain)

Answer 68

Creatine

Question 69

Creatine is synthesized from

Answer 69

Arginine and glycine

Question 70

Creatine is synthesized from arginine and glycine and receives a methyl group from

Answer 70

SAM

Question 71

Are highly cationic and can bind DNA. They are thought to mediate DNA specific reactions

Answer 71

Polyamines

Question 72

Key messenger molecule (a reactive free radical), whose level is often altered in disease

Answer 72

NO

Question 73

Synthesized from arginine in a reaction requiring NADPH and O2

Answer 73

NO

Question 74

NO is generated by immune cells to induce macrophage-specific killing. NO also activates

Answer 74

Guanylate cyclase

Question 75

Required in multiple reactions involving neurotransmitter synthesis

Answer 75

Tetrahydropterin

Question 76

Recall that in PKU phenylalanine is not efficiently converted to tyrosine. This reaction requires the enzyme phenylalanine hydroxylase, and the co-factor

Answer 76

Tetrahydropterin

Question 77

A product of this reaction is the synthesis of dihydrobiopterin, which must be converted back to tetrahydrobiopterin in a step that requires

Answer 77

GTP

Question 78

This reaction is catalyzed by

-Requires NADH

Answer 78

Dihydropterin reductase

Question 79

A progressive neurodegenerative disease with no cure. It results from the loss of dopamine producing cells (primarily the substantia nigra), which results in movement disorders, tremor and rigidity

Answer 79

Parkinson’s Disease

Question 80

The disruption in dopamine synthesis is accompanied by deficiency in production of other

Answer 80

Catecholamines

Question 81

The nigrostriatal pathway (extending from the substantia nigra to the striatum) produces about 75% of the brain’s

Answer 81

Dopamine

Question 82

In PD as much as 80% of the dopamine producing cells degenerate before we see

Answer 82

Symptoms

Question 83

What do we use to treat Parkinson’s?

Answer 83

L-DOPA

Question 84

Its efficacy diminishes over time

Answer 84

L-DOPA

Question 85

In the substantia nigra DOPA is converted to

Answer 85

Dopamine

Question 86

Norepinephrine and epinephrine are broken down by the enzymes

Answer 86

Catecholamine O-methyltransferase (COMT) and by monoamine oxidase (MAO)

Question 87

Can provide a way to increase the levels of these neurotransmitters for the treatment of clinical depression

Answer 87

COMT and MAO inhibitors

Question 88

Lack of tyrosine reduces levels of

Answer 88

Catecholamne neurotransmitters

Question 89

The high level of phenylalanine is converted to phenylacetate which combines with glutamine in the liver in

Answer 89

PKU

Question 90

The resulting phenylacetylglutamine is directly excreted in the urine, and provides a method to eliminate two

Answer 90

Two nitrogens

Question 91

Results from a deficiency in the conversion of tyrosine to melanin

Answer 91

Albinism