Block 3

Question 1

how does a nucleoside differ from a nucleotide

Answer 1

nucleoside- sugar+base
nucleotide- sugar+base+phosphate

Question 2

where are new nucleotides made

Answer 2

liver cytoplasm

Question 3

how are new nucleotides transported

Answer 3

by RBC

Question 4

what is the starting molecule for nucleotide synthesis

Answer 4

ribose 5-phosphate

Question 5

how does purine synthesis differ from pyrimidine synthesis

Answer 5

purine- create base then add sugar
pyrimidine- make sugar then build base

Question 6

what is the first step of purine synthesis

Answer 6

addition of 2 phosphates from ATP to ribose 5-phosphate to make PRPP (phospho ribosyl pyro phosphate)

Question 7

what enzyme catalyzes the first step of purine synthesis, adding 2 phosphates from ATP to ribose 5-phosphate

Answer 7

PRPP synthetase (phospho ribosyl pyro phosphate

Question 8

PRPP synthetase in purine synthesis is inhibited by what molecules

Answer 8

GDP and ADP

Question 9

what enzyme is involved in the second step of purine synthesis, adding amine from glutamine to PPRP

Answer 9

phosphoribosyl amido transferase

Question 10

what is glutamine phosphoribosyl amino transferase (PRAT) of purine synthesis inhibited by

Answer 10

IMP, GxP, AxP

Question 11

allopurinol is an indirect target of __ but a direct target of __

Answer 11

indirect- PRAT
direct- xanthine oxidase

Question 12

what 3 amino acids are involved in purine production

Answer 12

glycine, glutamine, asparatate

Question 13

how does methotrexate act as an anticancer drug

Answer 13

inhibits DHFR and tetrahydrofolate production, preventing addition of carbons to the purine ring, inhibiting cell growth

Question 14

in purine synthesis, what is the common molecule before the branchpoint into ATP and GTP

Answer 14

IMP

Question 15

what enzyme converts IMP to GMP

Answer 15

IMP dehydrogenase

Question 16

what reversibly inhibits IMP dehydrogenase, inhibiting IMP to GMP

Answer 16

mycophenolic acid

Question 17

IMP+___= AMP

Answer 17

asparatate

Question 18

IMP+___= GMP

Answer 18

glutamine

Question 19

what are the 2 products of the purine nucleotide cycle

Answer 19

NH3 (to urea cycle)
fumarate (to TCA cycle)

Question 20

what accounts for maintaining balance between AMP and GMP production

Answer 20

IMP+GTP+aspartate= AMP
IMP+ATP+glutamine= GMP

*production of one type of nucleotide requires the other type as an energy source

Question 21

what does adenylosuccinate synthetase of purine synthesis do

Answer 21

makes AMP from IMP

Question 22

what is adenylosuccinate synthetase inhibited by

Answer 22

AMP

Question 23

what does IMP dehydrogenase of purine synthesis do

Answer 23

make GMP from IMP

Question 24

what is IMP dehydrogenase of purine synthesis inhibited by

Answer 24

GMP

Question 25

regulation of purine production in liver cells is inhibited by ___

Answer 25

high levels of ATP and GTP

Question 26

for DNA synthesis, we need ___ nucleotides

Answer 26

deoxy-ribose

Question 27

what enzyme converts nucleotides to deoxynucleotide which are needed for DNA synthesis

Answer 27

ribonucleotide reductase

Question 28

what activates ribonucleotide reductase, the enzyme needed to convert nucleotides to deoxynucleotides

what inhibits it

Answer 28

ATP

dATP (deoxyATP)

Question 29

what is an alternative way to make purines, instead of synthesis in liver cells

Answer 29

salvage them from the diet

Question 30

AMP is degraded to __
GMP is degraded to __

Answer 30

hypoxanthine
guanine

*both are released into blood

Question 31

if ingested nucleotides are not salvaged from the diet and converted to nucleosides, they are converted to __

Answer 31

uric acid

Question 32

since uric acid is not very water soluble, it is released into the blood and forms __

Answer 32

crystal

Question 33

excessive uric acid in the blood can lead to __

Answer 33

gout

Question 34

what is the effect of allopurinol inhibiting xanthine oxidase

Answer 34

decreased uric acid, buildup of hypoxanthine= increased A and G= inhibit purine synthesis

Question 35

what is the effect of APRT (adenosine phosphoribosyl transferase) deficiency

Answer 35

increase adenosine= increased crystallization= increased kidney/urinary stones

Question 36

what is the effect of adenosine deaminase deficiency

Answer 36

deficiency of B and T cells= SCIDS (severe combined immunodeficiency)
causes pyrimidine starvation

Question 37

what is the effect of HGPRT (hypoxanthine guanine phosphoribosyltransferase) deficiency

Answer 37

guanine isn’t converted to GMP+IMP= no guanine recycling= 100% excretion as uric acid= Lesch-Nyhan disease

Question 38

what are the 3 starting molecules for pyrimidine synthesis

Answer 38

glutamine, CO2, ATP

Question 39

the first step of pyrimidine synthesis which converts glutamine to carbamoyl phosphate is achieved by what enzyme

Answer 39

carbamoyl phosphate synthetase II

Question 40

carbamoyl phosphate + ____ –>orotate (orotic acid)

Answer 40

aspartate

Question 41

orotate is converted to UMP through the addition of __

Answer 41

PRPP

Question 42

what is the result of deficiency of the enzyme that converts orotate to UMP in pyrimidine synthesis

Answer 42

orotic aciduria

Question 43

in pyrimidine synthesis, UDP can be converted to __ or __

Answer 43

UTP
dUDP

Question 44

in pyrimidine synthesis, UTP is converted to CTP through the addition of what amino acid

Answer 44

glutamine

Question 45

dUMP is converted to dTMP by what enzyme in pyrimidine synthesis

Answer 45

thymidylate synthase

Question 46

what enzyme converts UDP to dUDP in pyrimidine synthesis

Answer 46

ribonucleotide reductase

Question 47

what molecule is needed to convert dUMP to dTMP in pyrimidine synthesis

Answer 47

folate

Question 48

FH2–>FH4 for dUMP–>dTMP in pyrimidine synthesis involves what enzyme

Answer 48

dihydrofolate reductase (DHFR)

Question 49

what amino acids contribute CH3 needed for folate synthesis

Answer 49

serine or glycine

Question 50

the nitrogen atoms of a pyrimidine ring come from what 2 amino acids

Answer 50

glutamine
aspartate

Question 51

methotrexate targets what enzyme

Answer 51

dihydrofolate reductase

Question 52

5-fluro-uracil targets what enzyme of pyrimidine synthesis

Answer 52

thymidylate synthase

Question 53

ribonucleotide reductase is targeted by what anti-cancer drug

Answer 53

hydroxyurea

Question 54

carbamoyl phosphate synthase II of pyrimidine synthesis is activated by ___

Answer 54

PRPP

Question 55

carbamoyl phosphate synthase II of pyrimidine synthesis is inhibited by ___

Answer 55

UTP

Question 56

orotic aciduria can be caused by OTC deficiency in the uric acid pathway or by pyrimidine synthesis malfunction. how do you differentiate which it was caused by

Answer 56

high orotic acid+normal N= pyrimidine synthesis malfunction
high orotic acid+low N= OTC deficiency

Question 57

what are 8 peptide hormones that use Gs of GPCR

Answer 57

Angiotensin II

FSH
LH
ACTH
TSH

Catecholamines (beta receptors)
ADH (vasopressin II)
PTH

Question 58

what are 4 peptide hormones that use Gq of GPCR

Answer 58

vasopressin I
oxytocin
catecholamines (alpha-1 receptor)
angiotensin II

Question 59

what are 2 peptide hormones that use RTK/MAP kinase pathway

Answer 59

insulin
insulin-like growth factor (IGF-1)

Question 60

what are 3 peptide hormones that use RTK/JAK-STAT pathway

Answer 60

growth hormone
prolactin
cytokines

Question 61

what are 2 peptide hormones that use guanyl cyclase pathway

Answer 61

brain natriuretic peptide (BNP)
atrial natriuretic peptide (ANP)

NO also uses this pathway

Question 62

steroids use what receptor type

Answer 62

intracellular cytoplasmic

Question 63

thyroid hormone, vitamin A, vitamin D, and fatty acids use what receptor type

Answer 63

intracellular nuclear

Question 64

Cholera toxin is a ___ activator

Answer 64

cAMP

Question 65

pertussis toxin is a ___ activator

Answer 65

PKA

Question 66

how does cholera toxin work

Answer 66

locks Gs in its GTP form, keeping Cl- channels open (efflux of Cl/Na/H2O)

Question 67

how does pertussis toxin work

Answer 67

inhibits activity of Gi, keeping PKA active

Question 68

how do antihypertensive drugs work

Answer 68

increase cGMP, leading to vasodilation

Question 69

where are steroid hormones synthesized

Answer 69

mitochondria/SER

Question 70

what are the 5 releasing hormones released by the hypothalamus

Answer 70

TRH
CRH
GnRH
GHRH
MS-RH (melanocyte stimulating release hormone)

Question 71

what are the 3 inhibitory hormones released by the hypothalamus

Answer 71

GHIH (somatostatin)
dopamine
MIH

Question 72

what is the difference between tropic and nontropic hormones

Answer 72

tropic- stimulate other glands to secreter hormones
nontropic- directly affect the target cell

Question 73

what are the 4 tropic hormones released by the anterior pituitary

Answer 73

ACTH
TSH
LH
FSH

Question 74

what are the 3 nontropic hormones released by the anterior pituitary

Answer 74

GH
MSH
prolactin

Question 75

growth hormone increases __ utilization and __ synthesis, and decreases __ utilization

Answer 75

fat utilization
protein synthesis
carbohydrate utilization

Question 76

what are the 2 hormones released by the posterior pituitary

Answer 76

oxytocin
ADH

Question 77

what is the main function of ADH

Answer 77

reabsorb H2O from urine

Question 78

besides water balance, ADH also functions to maintain __

Answer 78

blood pressure through vasoconstriction

Question 79

neurogenic/central diabetes insipidus occurs due to __, while nephrogenic diabetes insipidus occurs due to __

Answer 79

neurogenic/central= decrease in ADH secretion–>high plasma osmolarity

nephrogenic= defective ADH receptors–>high plasma osmolarity

Question 80

is T3 or T4 metabolically active

Answer 80

T3

Question 81

is T4 converted to T3, or is T3 converted to T4

Answer 81

T4–>T3

Question 82

does thyroid hormone increase or decrease lipolysis

Answer 82

increase

Question 83

thyroid hormone upregulates metabolism of what

Answer 83

carbs
fats
proteins

Question 84

what enzymes convert free T4–>active and inactive T3

Answer 84

deiodinases

Question 85

what causes gigantism

Answer 85

increase in GH prior to adolescence

Question 86

what is the effect of gigantism

Answer 86

increase in longitudinal bone growth
hyperglycemia

Question 87

what causes acromegaly

Answer 87

an increase in GH and IGF after puberty

Question 88

what is the effect of acromegaly

Answer 88

large gaping teeth
large hands/feet
kyphosis
transverse bone growth

Question 89

what causes African pygmies or Levi Lorain dwarves

Answer 89

defective GH receptor–>deficiency in IGF-1

Question 90

what causes diabetes insipidus

Answer 90

Decreased ADH production–>high plasma osmolarity/dilute urine

In diabetes insipidus, the lack of production of ADH means the kidneys cannot make enough concentrated urine and too much water is passed from the body

Question 91

what are the symptoms of neurogenic/central diabetes insipidus

Answer 91

excessive thirst
dilute urine
hypotension

Question 92

what is the result of neurogenic/central diabetes insipidus in terms of ADH

Answer 92

decrease in ADH secretion

Question 93

what causes neurogenic diabetes insipidus

Answer 93

decreased ADH secretion due to decreased osmoreceptor function

Question 94

syndrome of inappropriate ADH is causes by an increase or decrease in ADH secretion

Answer 94

increase

Question 95

what are the symptoms of syndrome of inappropriate ADH

Answer 95

edema
vasoconstriction
hypertension
congestive heart failure

Question 96

primary hypothyroidism results from __

Answer 96

loss of thyroid tissue

Question 97

what is the effect of primary hypothyroidism

Answer 97

low T3/T4
high TSH
high TRH

Question 98

secondary hypothyroidism results from __

Answer 98

reduced TSH secretion from the anterior pituitary

Question 99

what is the effect of secondary hypothyroidism

Answer 99

low T3/T4
low TSH
high TRH

Question 100

tertiary hypothyroidism results from __

Answer 100

low TRH from the hypothalamus

Question 101

what is the effect of tertiary hypothyroidism

Answer 101

low T3/T4
low TSH
low TRH

Question 102

what is myxedema

Answer 102

severe hypothyroidism

Question 103

what are the symptoms of myxedema

Answer 103

painless goiter
hypoxia
hypoventilation
fluid/electrolyte inbalance
hypothermia
shock/death

Question 104

what is Hashimoto’s thyroiditis

Answer 104

autoimmune disorder with loss of thyroid tissue due to anti-thyroperoxidase antibodies

Question 105

congenital thyroid insufficiency is hypothyroidism in infants that can result from absence leading to __ and __ or low thyroid leading to __

Answer 105

absence–>hypotonia–>floppy baby syndrome
low thyroid–>dwarfism/mental disability

Question 106

what causes cretinism seen in children

Answer 106

lack of dietary iodine–>decreased T3/T3–> increased TSH

Question 107

what are the symptoms of cretinism

Answer 107

goiter
enlarged longue
reduced skeletal growth

Question 108

what causes endemic colloid goiter

Answer 108

lack of dietary iodine in adults–>decreased T4/T3–>high TSH

Question 109

hyperthyroidism leads to hyper__ and hypo__

Answer 109

hyperlipidemia
hypocholesterolemia

Question 110

what is Grave’s disease

Answer 110

hyperthyroidism
the patient’s immune system makes a thyroid-stimulating immunoglobulin (TSI) antibody that attaches to the thyroid cells. TSI acts like thyroid-stimulating hormone (TSH), causing the thyroid to make too much thyroid hormone

Question 111

what are the symptoms of Grave’s disease

Answer 111

bilateral exopthalmos
orange peel skin
non-pitting pretibial myxedema
goiter

Question 112

what is the effect of multinodular toxic goiter

Answer 112

malignant thyroid nodules overproducing T3/T4

Question 113

what is the difference between a hot and cold nodule produced with goiters

Answer 113

hot= can trap iodine
cold= can’t trap iodine

Question 114

what causes goiters

Answer 114

increased TSH receptor stimulation

Question 115

hyperthyroidism causes a __ in serum glucose
hypothyroidism causes a __ in serum glucose

Answer 115

hyper= increase
hypo= decrease

Question 116

each gram of fat contains how many calories

Answer 116

9

Question 117

each gram of carbohydrate contains how many calories

Answer 117

4

Question 118

each gram of protein contains how many calories

Answer 118

4

Question 119

what are the building blocks of muscle mass

Answer 119

protein

Question 120

when do we have a positive nitrogen balance

Answer 120

when demands of protein are high

ex: growing children
pregnancy
recovery from illness
body building

Question 121

when do we have a negative nitrogen balance

Answer 121

when nitrogen (protein) output is greater than nitrogen (protein) intake

ex: burns
trauma
illness
starvation
poorly controlled diabetes mellitus
surgery
cancer

Question 122

___ are the favored energy source for burn patients

Answer 122

carbohydrates

Question 123

why are carbohydrates (glucose) the favored energy source for burn patients

Answer 123

carbs promote wound healing and impart a protein sparing effect

Question 124

what does it mean in saying carbohydrates promote a protein sparing effect

Answer 124

proteins are spared from gluconeogenesis in order to help rebuild muscle

Question 125

following a burn, intravenous infusions of what increase nitrogen balance and muscle growth

Answer 125

glucose+amino acids (protein)

Question 126

what state upregulates ubiquitin dependent proteolysis

Answer 126

starvation

Question 127

what 3 things are given to a burn patient through IV

Answer 127

protein
glucose(can also say carbs) to spare proteins from gluconeogenesis towards muscle building
insulin (maintains blood sugar)

Question 128

what nonenergy-dependent degradative enzymes perform protein degradation in the lysosomes

Answer 128

acid hydrolases

Question 129

after proteosome activity, proteolysis occurs to break peptide fragments to amino acids. once the amino group is removed, what remains is called the ___

Answer 129

carbon skeleton

Question 130

impairment of the ubiquitin-proteasome system can contribute to the development of what 2 neurogenerative disorders

Answer 130

Parkinson’s
Alzheimer’s disease

Question 131

mutation in what 3 genes is associated with Parkinson’s disease

Answer 131

Parkin
PINK1
DJ-1

Question 132

the first point of breakdown of exogenous proteins occurs where, by what enzyme

Answer 132

stomach with pepsin+HCl

Question 133

what is the function of HCl in the stomach in regards to protein degradation

Answer 133

allows for activity of pepsin to denature proteins to their primary structure (breaks H binds, not peptide), allowing for a more linear structure for proteases to act on

Question 134

what are zymogens

Answer 134

inactive forms of an enzyme

Question 135

what makes zymogens inactive

Answer 135

they contain an extra amino acid in their sequence, preventing proper folding, therefore making them inactive

Question 136

what allows for a zymogen to become active

Answer 136

removal of amino acids to permit for proper protein folding

Question 137

what suffix indicates a zymogen

Answer 137

-ogen

Question 138

where in the protein structure does pepsin hydrolyze proteins

Answer 138

bonds adjacent to aromatic amino acid residues (phenylalanine, tyrosine, tryptophan)

Question 139

the next enzyme to act on proteins after pepsin activity is __ in the __

Answer 139

trypsin
small intestine

Question 140

where in the protein structure does trypsin hydrolyze proteins

Answer 140

bonds adjacent to arginine or lysine (basic amino acids)

Question 141

the release and activation of pancreatic zymogens is mediated by the secretion of __ by __ cells of the ___ in response to ___

Answer 141

cholecystokinin
I cells
duodenum and jejunum
ingestion of AA and FA

Question 142

the final step of protein degradation is the release of free AA and smaller peptides due to the activity of what enzyme located in the luminal surface of the intestine

Answer 142

aminopeptidase

Question 143

what allows for the uptake of free amino acids in the enterocytes

Answer 143

Na+ linked secondary transport

Question 144

dipeptides and tripeptides can cross the luminal surface into the intestinal cell, however on __ can cross into the blood

Answer 144

amino acids

Question 145

cystinuria is a genetic disorder that affects the transmembrane transport of what amino acids

Answer 145

basic

cysteine
ornithine
arginine
lysine

Question 146

cystinuria is due to a defect in what type of amino acid absorption

Answer 146

absorption of basic amino acids

Question 147

what is the main amino acid that causes cystinuria

Answer 147

cysteine

Question 148

since basic amino acids aren’t easily absorbed from proximal convoluted tubule, they can accumulate and lead to ___

Answer 148

calculi (kidney stones)

Question 149

what causes nephrolithiasis in regards to protein/AA transport

Answer 149

increase in cysteine due to the inability to be absorbed leads to recurrent stones in urine

Question 150

what are 3 main symptoms of cystinuria

Answer 150

flank pain
hematuria
stones

Question 151

Hartnup disease is caused by impaired transport of what amino acids

Answer 151

neutral, especially tryptophan

Question 152

Hartnup disease is caused by impaired transport of tryptophan in what 2 body sites

Answer 152

small intestine
proximal convoluted tubule of kidney

Question 153

tryptophan can be converted into what 3 molecules

Answer 153

melatonin
serotonin
niacin

Question 154

pellagra is a condition similar to Hartnup disease based on presentation and cause. how can they be differentiated

Answer 154

pellagra does not cause a buildup of tryptophan in the urine

hartnup disease causes an increase in tryptophan (neutral amino acids) to be excreted in urine due to impairment of it’s reabsorption transporter

Question 155

what are the 4 main symptoms of Hartnup disease

Answer 155

pellagra-like rash
neurological symptoms (dementia)
diarrhea
neutral aminoaciduria

Question 156

what is the treatment of Hartnup disease

Answer 156

high protein diet with daily niacin (high protein diet/tryptophan rich diet with neutral AA+niacin)

Question 157

in amino acid degradation, the amino group is used in what process

Answer 157

urea cycle

Question 158

in amino acid degradation, the carbon skeleton is used for __ and __

Answer 158

gluconeogenesis
oxidation in Krebs cycle

Question 159

what is the first step in AA degradation

Answer 159

removal of nitrogen (amino group)

Question 160

alpha-keto… means it is an amino acid without what group

Answer 160

NH3

Question 161

what occurs in transamination

Answer 161

transfer of -NH3 from one amino acid to another

Question 162

most excess nitrogen is converted to __ in the __

Answer 162

urea
liver

Question 163

before being excreted, excess nitrogen is converted to urea in the liver and through the blood to the ___

Answer 163

kidneys

Question 164

what enzyme removes -NH3 from amino acids

Answer 164

aminotransferases

Question 165

aminotransferases, which transfer the -NH3 group of an amino acid, use what as a coenzyme

Answer 165

B6 (pyridoxal phosphate)

Question 166

in amino acid breakdown, the effect of transamination reactions is to collect the amino groups from different amino acids in the form of _____

Answer 166

L-glutamate

Question 167

in __, glutamate is transported from the cytosol into the mitochondria where it undergoes oxidative deamination

Answer 167

hepatocytes

Question 168

what enzyme performes oxidative deamination in AA degradation

Answer 168

L-glutamate dehydrogenase

Question 169

where is L-glutamate dehydrogenase found

Answer 169

hepatocyte mitochondrial matrix

Question 170

what is the only enzyme that can use either NAD+ or NADP+

Answer 170

L-glutamate dehydrogenase

Question 171

the common collector amino acid for -NH3 everywhere is __

the common collector amino acid for -NH3 in muscle is ___

Answer 171

everywhere= glutamate

muscle= alanine

Question 172

the Cori cycle is used for what 2 processes

Answer 172

gluconeogenesis
AA salvage

Question 173

the common collector amino acid for NH3 is ___

Answer 173

glutamate

Question 174

what amino acid transports NH3 in cases of hyperammonemia

Answer 174

glutamine

Question 175

what pair of enzymes is involved in detoxifying/capturing/deaminating ammonia

Answer 175

glutamate dehydrogenase
glutamine synthetase

Question 176

what enzyme protects neurons from ammonia toxicity

Answer 176

glutamine synthase

Question 177

elevated ammonia during hyperammonemia has the most toxic effects on what organ

Answer 177

brain

Question 178

what are the 2 main functions of glutamine

Answer 178

protection from hyperammonemia
maintain acid/base balance through the kidney bicarbonate buffer system

Question 179

under acidic conditions, the liver diverts glutamine to the __ in order to maintain the pH of blood

Answer 179

kidneys

Question 180

during metabolic acidosis, H+ combines with NH3 to form __ which is ultimately excreted in the urine

Answer 180

NH4+

Question 181

ammoniagenesis involves formation of what

Answer 181

glutamine

Question 182

what enzyme is found in the kidneys that allows it to deaminate glutamine to produce NH3+ and glutamate

Answer 182

glutaminase

Question 183

what induces the action of glutaminase in the kidney

Answer 183

chronic acidosis

Question 184

altered levels of AST and ALT indicate disfunction of what organ

Answer 184

liver

Question 185

what is the main end product of protein (nitrogen) catabolism

Answer 185

urea (blood urea nitogen)

Question 186

what is the main end product of purine catabolism

Answer 186

uric acid (urate)

Question 187

what is the main end product of heme catabolism

Answer 187

bilirubin

Question 188

what is the function of the urea cycle

Answer 188

convert toxic nitrogen to urea for excretion in the kidneys

Question 189

the first 2 reactions of the urea cycle occur in the ___, while the rest of the steps occur in the ___

Answer 189

mitochondrial
cytosol

Question 190

carbamoyl phosphate synthetase I is involved in ___, while carbamoyl phosphate synthetase II is involved in __

Answer 190

urea

pyrimidine

Question 191

carbamoyl phosphate synthetase I is found in ___, while carbamoyl transferase II is found in __

Answer 191

I= mitochondrial matrix
II= cytosol

Question 192

transport of ornithine into the mitochondria and citrulline out into the cytosol is performed by what mechanism

Answer 192

antiporter

Question 193

the urea cycles requires the input of how many ATP molecules

Answer 193

3

Question 194

urea is composed of how many nitrogen

Answer 194

2

Question 195

where do the 2 nitrogen of urea come from

Answer 195

1 from free NH3 that was captured
1 from aspartate

Question 196

what acts as an additional activator of N-acetylglutamate in the urea cycle

Answer 196

arginine

Question 197

what molecule acts as an allosteric activator of carbamoyl phosphate synthetase I

Answer 197

N-acetylglutamate

Question 198

what is the rate limiting enzyme of the urea cycle

Answer 198

carbamoyl phosphate synthetase I

Question 199

what activates carbamoyl phosphate synthetase I of the urea cycle

Answer 199

N-acetylglutamate (NAG)

Question 200

what are the 2 main symptoms of hyperammonemia

Answer 200

flopping tremors (asterixis)
cerebral edema

Question 201

what enzyme is deficient in congenital hyperammonemia type I

Answer 201

carbamoyl phosphate synthetase 1

Question 202

what are the 3 symptoms of carbamoyl phosphate synthetase I

Answer 202

increase NH3
decreased BUN (urea)
increased glutamine

Question 203

what enzyme is deficient in congenital hyperammonemia type II

Answer 203

ornithine transcarbamoylase (OTC)

Question 204

what are the lab findings of ornithine transcarbamoylase deficiency

Answer 204

increased carbamoyl phosphate
orotic aciduria

Question 205

what enzyme is deficient in citrullinemia

Answer 205

arginosuccinate synthase

Question 206

what enzyme is deficient in arginosuccinic aciduria

Answer 206

arginosuccinase

Question 207

what enzyme is deficient in hyperargininemia

Answer 207

arginase

Question 208

what are the 3 main reasons why ammonia is toxic

Answer 208

glutamine is osmotically active= cerebral swelling
decrease in glutamate= decrease in neurotransmitters
inhibition of TCA cycle reduced production of ATP by brain

Question 209

what is the main first line treatment for urea cycle disorders

Answer 209

protein restriction

Question 210

how does lactulose help treat hepatic encephalopathy

Answer 210

it acts in GIT to capture NH3+ to make it insoluble to NH4, allowing for excretion in stool

Question 211

how does lactulose help treat hepatic encephalopathy

Answer 211

it acts in GIT to capture NH3+ to make it insoluble to NH4, allowing for excretion in stool

Question 212

what is phenylbutyrate used in treatment of

Answer 212

hyperammonemia

Question 213

how does phenylbutyrate used for hyperammonemia work

Answer 213

it decreases the osmotic effect on the brain and allows for N secretion in the urine

Question 214

hyperammonemia can be acquired through disease/failure of what 2 organs

Answer 214

liver (NH3 formation site) or kidneys (NH# secretion site)

Question 215

how is it that recent GI bleeding causes an increase in nitrogen absorption in the gut

Answer 215

blood protein breaks down into amino acids which further break down in to NH3+ and C skeleton

the NH3+ typically is converted to urea, however with hepatic disease, the NH3+ is not converted to urea

Question 216

what are the 2 ketogentic AA

Answer 216

leucine and lysine

Question 217

what enzyme deficiency causes type I hyperprolinemia

Answer 217

proline dehydrogenase

Question 218

what enzyme deficient causes type II hyperprolinemia

Answer 218

glutamate gamma semialdehyde dehydrogenase

Question 219

what symptom does a deficiency in an arginine catabolism enzyme lead to

Answer 219

atrophy of retina

Question 220

what 7 amino acids enter the TCA cycle as acetyl CoA

Answer 220

tryptophan
lysine
phenylalanine
tyrosine
leucine
isoleucine
threonine

Question 221

what amino acid loading is used to diagnose a deficiency in vit B6

Answer 221

tryptophan

Question 222

what enzyme of tryptophan catabolism requires vit B6

Answer 222

kynureninase

Question 223

when there is a deficiency in vit B6, tryptophan does not broken down to enter the TCA cycle. Instead, what does it form

Answer 223

xanthurenate

Question 224

before phenylalanine is converted to fumarate (an intermediate of the TCA cycle), what amino acid does it form

Answer 224

tyrosine

Question 225

what enzyme is deficient in phenylketonuria (PKU)

Answer 225

phenylalanine hydroxylase

Question 226

phenylalanine is toxic to what organ

Answer 226

brain

Question 227

what are the symptoms of phenylketonuria

Answer 227

musty body and urine odor

Question 228

phenylketonuria results in an elevated concentration of what

Answer 228

phenylalanine

Question 229

the musty odor that occurs in phenylketouria results from production of what

Answer 229

phenylpyruvic acid

Question 230

the production of melanin produced by tyrosine through tyrosinase is inhibited by what

Answer 230

phenylketouria (excess phenylalanine)

Question 231

what are the symptoms of phenylketouria

Answer 231

hypopigmentation of external and internal features (basal ganglie, substantia nigra, locus ceruleus)

seizures

musty body and urine odor

Question 232

what are 2 screening/diagnosis methods for phenylketouria

Answer 232

enzyme function test

blood/urine phenylalanine test 24-48 hours after birth

Question 233

what is the treatment for phenylketouria

Answer 233

restriction of phenylalanine diet
supplementation of tyrosine

Question 234

if standard treatment for phenylketouria does not work, it may be suspected that there is a deficiency in what enzyme

Answer 234

dihydrobiopterin reductase

Question 235

what are the lab findings of dihydrobiopterin reductase deficiency

Answer 235

high phenylalanine
low dopamine (leads to neurological deterioration)
high prolactin

Question 236

is phenylalanine crossing the placenta beneficial to the fetus

Answer 236

no, phenylalanine acts as a teratogen

Question 237

what is the effect of children born to mothers with untreated phenylketouria

Answer 237

they have symptoms of PKU even through they may be heterozygous for the PKU gene

Question 238

what enzyme deficiency causes alkaptouria

Answer 238

homogentisate oxidase

Question 239

what is the main symptom of alkaptoura

Answer 239

urine turns a dark brown/black color when exposed to air

Question 240

in alkaptorura, what is produced in large amounts that is excreted, allowing for the production of dark urine when exposed to air

Answer 240

homogentisate (alkapton)

Question 241

what are the symptoms of alkaptourina that are seen late in the disease

Answer 241

arthritis
black tissue pigmentation (ochronosis)

Question 242

since urine has to be exposed to air for appoximately 2 hours before turning black to diagnose alkaptouria, what may be added to the urine to speed up the reaction

Answer 242

ferric chloride

Question 243

in methionine salvage, what are used as cofactors

Answer 243

B12
folate

Question 244

in methionine breakdown, what is used as a cofactor

Answer 244

vit B6

Question 245

what is the function of vit B12 in regards to folate

Answer 245

B12 activates folate to THF for use in our cells

Question 246

in methionine recycling, what molecule acts as a methyl group donor

Answer 246

s-adenosyl methionine (SAM)

Question 247

deficiency in what enzyme causes homocystinuria

Answer 247

cystathionine synthase

Question 248

what accumulates with cystathionine synthase deficiency (homocystinuria)

Answer 248

homocysteine
methionine

Question 249

what is the treatment for homocystinuia

Answer 249

remove methionine and homocysteine from the diet
supplement cysteine and B6

Question 250

what are the 3 presentations of homocystinuria

Answer 250

marfanoid habitus
lens subluxation
thromboembolic events

Question 251

marfans can present similar to homocystinuria, however __ presents at a younger age, __ patients eyes point downwards and inward, and __ presents with hyperextensible joints

Answer 251

homocystinuria= younger age
homocystinuria= downward and inward
marfan= hyperextensible joints

Question 252

what is the treatment for homocystinuria

Answer 252

increase vit B6 and cysteine
restrict methionine

Question 253

branched chain amino acids (leucine, isoleucine, and valine) use what enzyme complex

Answer 253

branched chain alpha-keto acid dehydrogenase complex

Question 254

maple syrup disease is a deficiency in what enzyme

Answer 254

alpha-keto acid dehydrogenase complex

Question 255

what causes maple syrup disease

Answer 255

the branched chain amino acids are not broken down so they are increased in the urine

Question 256

what are the symptoms of maple syrup urine disease

Answer 256

sweet, burnt smelling urine

Question 257

in maple syrup urine disease, what is used as a cofactor

Answer 257

vit B1 (thiamine)

Question 258

what 2 amino acids enter the TCA cycle as fumarate

Answer 258

phenylalanine
tyrosine

Question 259

leucine enters the TCA cycle as what

Answer 259

acetyl CoA

Question 260

threonine, methionine, valine, and isoleucine enter the TCA cycle as __

Answer 260

succinyl CoA

Question 261

propionic acid is converted to methylmalonic acid by what process

Answer 261

biotin dependent carboxylation

Question 262

methylmalonyl CoA goes through what process to form succinyl CoA

Answer 262

isomerization

Question 263

propionic acidemia is caused by a deficiency in what enzyme

Answer 263

propionyl CoA carboxylase

Question 264

what occurs in the absence of propionic acid or methylmalonyl CoA

Answer 264

metabolic acidosis

Question 265

what diet is needed for a patient with propionic acidemia

Answer 265

minimal valine, isoleucine, methionine, and threonine

Question 266

what enzyme is deficient in methylmalonic acidemia

Answer 266

methylmalonyl CoA mutase/isomerase

Question 267

what are the 4 main symptoms of methylmalonic or propionyl acidemia

Answer 267

metabolic acidosis
hypoglycemia
ketones
hyperammonemia

Question 268

what is the urine finding for propionic acidemia

Answer 268

no methylmalonic acid
increased propionic acid

Question 269

what is the urine lab finding for methylmalonic acidemia

Answer 269

increased methylmalonic acid
increased propionic acid

Question 270

if vit B12 is deficient molecule in the urine is the most indication will be present in the urine

Answer 270

methylmalonyl CoA

Question 271

if biotin is deficient, what molecule will be present in urine

Answer 271

propionyl CoA

Question 272

patients with what clinical features are highly suggestive of vit B12 deficiency

Answer 272

amenia with associated neurological deficits (disruption of myelin synthesis)

Question 273

if folate is deficient, what molecule will be present in the urine

Answer 273

homocysteine

Question 274

vit B12 deficiency results in the greatest deficit to what cells

Answer 274

rapidly dividing such as RBC

THF is needed for folate synthesis for DNA synthesis

Question 275

albinism is caused by a deficiency in what amino acid

Answer 275

tyrosine

Question 276

albinism occurs due to a deficiency in what production

Answer 276

melanin

Question 277

what are the 2 main symptoms of albinism

Answer 277

visual defects and photophobia
skin cancer

Question 278

what is ceramide produced from

Answer 278

serine and palmitoyl-CoA

Question 279

the production of serotonin and dopamine from tryptophan occurs through what type of reaction

Answer 279

decarboxylation

Question 280

what are 5 molecules produced from tyrosine

Answer 280

dopamine, epinephrine, norepinephrine, melanin, thyroid hormone

Question 281

what 2 molecules produce heme

Answer 281

glycine
succinyl CoA

Question 282

what 3 molecules form creatine

Answer 282

glycine
arginine
SAM (methyl group donor)

Question 283

how does creatine (muscle protein) become creatine phosphate, which eventually becomes creatinine which is secreted in the urine

Answer 283

creatine kinase phosphorylates creatine

creatine phosphate spontaneously forms creatine

Question 284

in creatine/creatinine, what molecule provides a reservoir of high energy phosphate

Answer 284

creatine phosphate

Question 285

the rate of what molecule formation and secretion can be used to measure glomerular filtration rate

Answer 285

creatine

Question 286

in diabetes induced nephropathy, is the ability to excrete creatine low or high

Answer 286

low

Question 287

GABA is formed by what type of reaction

Answer 287

decarboxylation with vit B6

Question 288

GABA is formed by decarboxylation of what amino acid

Answer 288

glutamate

Question 289

histamine is formed by ___ of histidine (what type of reaction)

Answer 289

decarboxylation

Question 290

histamine causes vaso___ and broncho___

Answer 290

vasodilation
bronchoconstriction

Question 291

is glutamate excitatory or inhibitory

Answer 291

excitatory

Question 292

what is the glutamine activated calcium receptor of excitatory synapses

Answer 292

NMDA

Question 293

is GABA excitatory or inhibitory

Answer 293

inhibitory

Question 294

GABA is produced by __ through ___

Answer 294

glutamate
decarboxylation

Question 295

is glycine an inhibitory or excitatory neurotransmitter

Answer 295

inhibitory

Question 296

what are the 3 catecholamines

Answer 296

dopamine
norepinephrine
epinephrine

Question 297

serotonin is formed by what amino acid

Answer 297

tryptophan

Question 298

catecholamines are formed by what amino acid

Answer 298

phenylalanine
tyrosine

Question 299

DOPA is the precursor to what molecule

Answer 299

dopamine

Question 300

dopamine is the precursor to what neurotransmitter

Answer 300

norepinephrine

Question 301

norepinephrine is the precursor to what neurotransmitter

Answer 301

epinephrine

Question 302

in production of catecholamines, what enzyme and step requires Vit B6

Answer 302

dopa decarboxylase

dopa–>dopamine

Question 303

in production of catecholamines, what enzyme and step requires vitamin C

Answer 303

dopamine beta hydroxylase

dopamine–>norepinephrine

Question 304

in production of catecholamines, what enzyme and step requires SAM

Answer 304

phenylethanolamine N-methyltransferase

norepinephrine–>epinephrine

Question 305

what type of reactions involve tetrahydrobiopterin

Answer 305

hydroxylation

Question 306

what type of reaction in neurotransmitter synthesis involves B6

Answer 306

decarboxylation

Question 307

in Parkinsons, dopamine level is __
in Huntinntons, dopamine level is __

(increased or decreased)

Answer 307

Parkinsons- decreased
Huntingtons- increased

Question 308

what is the pharmacological treatment for Parkinsons

Answer 308

L-Dopa with a peripheral decarboxylase inhibitor (ex: Carbidopa)

Question 309

there are 2 categories of dopa receptors, D1 like and D2 like. D1 like include D_, while D2 like include D_

Answer 309

D1= D1, D5
D2= D2, D3, D4

Question 310

how do D1 like dopamine receptors differ from D2 like in terms of their signaling activity

Answer 310

D1= Gs coupled (increases cAMP)
D2= Gi/G0 coupled (decreases cAMP)

Question 311

what 3 conditions have to do with dopmine

Answer 311

parkinsons
huntingtons
schizophrenia

Question 312

the hydroxylation reaction of dopamine to norepinephrine involves use of what 2 cofactors

Answer 312

copper and vitamin C

Question 313

in the methylation step of neurotransmitter synthesis to produce epinephrine from norepinephrine uses what as a cofactor

Answer 313

SAM

Question 314

what enzyme converts norepinephrine to epinephrine

Answer 314

phenylethanolamine-N-methyltransferase (PNMT)

Question 315

what is the main symptoms of pheochromocytomas

Answer 315

hypertension

Question 316

at what step in the neurotransmitter pathway from phenylalanine to epinephrine do neurons end at

Answer 316

norepinephrine

Question 317

at what step in the neurotransmitter pathway from phenylalanine to epinephrine does the adrenal medulla end at

Answer 317

epinephrine (whole path)

Question 318

what are the steps involved in converting tyrosine to melanin in melanocytes

Answer 318

tyrosine–>dope by tyrosine hydroxylase+Cu2+

Dopa–>melanin

Question 319

what is the impact of cortisol on epinephrine production

Answer 319

cortisol increases gene expression of PNMT, lowing for greater conversion of norepinephrine to epinephrine

Question 320

how is cortisol able to interact in the medulla with PNMT

Answer 320

cortisol from venous drainage goes through adrenal medulla

Question 321

catecholamines are what type of receptor type

Answer 321

adrenergic

Question 322

epinephrine acts mainly through what type of signal transduction

Answer 322

PKA (adenyl cyclase)

Question 323

catecholamines are inactivated by what 2 enzymes

Answer 323

monoamine oxidase (MAO)
catecholamine O-methyltransferase (COMT)

Question 324

what does monoamine oxidase produce

Answer 324

NH4+

Question 325

what is the effect of catecholamine O-methyltransferase

Answer 325

methylate norepinephrine and epinephrine

Question 326

what is the end product of epinephrine and norepinephrine inactivation

Answer 326

vanillylmandelic acid (VMA)

Question 327

what condition can be determined by high VMA in urine

Answer 327

pheochromocytoma (high epinephrine and norepinephrine)

Question 328

what is the end product of dopamine inactivation

Answer 328

homovanillic acid (HVA)

Question 329

what does high level of HVA indicate

Answer 329

huntingtons (high dopamine)

Question 330

in the formation of serotonin, tryptophan is first __, then there is a ___

(what type of reaction)

Answer 330

hydroxylation
decarboxylation

Question 331

what is the parent molecule that forms melatonin in the pineal gland

Answer 331

seratonin

Question 332

melatonin comes from the amino acid ___
melanin comes from the amino acid __

Answer 332

melatonin= tryptophan
melanin= tyrosine

Question 333

melatonin is found in the __
melanin is found in __

Answer 333

melatonin= pineal gland
melanin= melanocytes

Question 334

what is the final product of serotonin inactivation

Answer 334

5-hydroxindole acetic acid (5-HIAA)

Question 335

serotonin mainly uses what type of receptors

Answer 335

GPCR

Question 336

the exception of serotonin not using a GPCR is with the receptor __ which is __

Answer 336

5-HT3
ligand gates

Question 337

what are the 3 clinical correlations with serotonin

Answer 337

depression
migraines
chemotherapy induced emesis

Question 338

nitric oxide is made from what amino acid

Answer 338

arginine

Question 339

what is the effect of using nitroglycerine tablets with patients with angine

Answer 339

it produced NO which acts as a vasodilator through the cGMP guanyl cyclase pathway

Question 340

in purine production, what amino acids contribute N

Answer 340

glutamine, glycine, aspartate

Question 341

in purine production what amino acid contributes C

Answer 341

glycine

Question 342

in pyrimidine production what amino acid contributes C

Answer 342

aspartate

Question 343

in pyrimidine production what amino acids contribute N

Answer 343

glutamine
aspartate

Question 344

can kidney stones form from purine or pyrimidine degradation

Answer 344

purine