Degradation of Amino Acids

Question 1

BUN in pregnancy

Answer 1

decreased

Question 2

other sources of alanine besides the muscle

Answer 2

kidney and intestines

Question 3

CPSI deficiency

Answer 3

Type I hyperammonemia

Question 4

the second step of urea cycle

Answer 4

citrulline synthesis

Question 5

Aspartate + citrulline +ATP —> argininosuccinateWhat happes to the nitrogen of aspartate?

Answer 5

gets incorporated into urea

Question 6

an alternative to low protein diet aimed at reducing the ammonia load on the urea cycle

Answer 6

scavenger drugs

Question 7

BUN in liver damage

Answer 7

decreased

Question 8

high levels of N-acetyl glutamate leads to

Answer 8

increased CPSI activity

Question 9

blood citrulline level in type I and type II

Answer 9

low for both

Question 10

Glutamate directly provides nitrogen (NH4+) to urea cycle through

Answer 10

deamination by glutamate dehydrogenase

Question 11

The only place that urea cycle takes place in

Answer 11

liver

Question 12

The two precursors of argininosuccinate

Answer 12

citrulline and aspartate

Question 13

the reaction catalyzed by carbamoyl phosphate synthetase I

Answer 13

CO2 + NH4+ – 2ATP —> carbamoyl phosphate

Question 14

Glutaminase

Answer 14

the enzyme in the kidney that forms NH4+ and glutamate from glutamine

Question 15

ALT

Answer 15

alanine aminotransferase(Alanine/ a-ketoglutrate) and (pyruvate/ glutamate)

Question 16

the amino acids that can undergo deamination

Answer 16

glutamate, glycine, serine, threonine, histidine

Question 17

the product of the step of urea cycle is transported into the cytosol

Answer 17

second step. citrulline gets transported to cytosol

Question 18

two methods for carbamoyl phosphate synthesis

Answer 18

1- Mitochondria- urea cycle and CPSI2- from glutamine and CO2 by CPSII in cytosol (–> pyrimidine synthesis)

Question 19

when to provide arginine as urea cycle intermediate

Answer 19

if argininosuccinate lyase is defecient.

Question 20

ALT level 36hours after ingestion of toxic mushroom

Answer 20

ALT reaches 20X its normal level after 36 hours.Indicates liver cell necrosis- liver as the site for toxic removal

Question 21

the deficiency of argininosuccinate lyase cased

Answer 21

argininosuccinyl acidemia

Question 22

the first step in urea synthesis

Answer 22

CO2 + NH4+ – 2ATP —> carbamoyl phosphate

Question 23

function of glutamate dehydrogenase in other tissues , EXCEPT the liver and kidney

Answer 23

formation of glutamate and water from a-ketoglutarate and NADP+

Question 24

argininemia is caused by

Answer 24

the deficiency of arginase which catalyzes the cleavage of arginine

Question 25

main detoxification reaction in brain is catalyzed by this enzymeHint: 1/3 enzymes that fixes free ammonia

Answer 25

glutamine synthetase

Question 26

the coenzyme of transaminase

Answer 26

PLP- pyridoxal phosphate

Question 27

deamidation

Answer 27

removal of amide group from glutamine and asparagine as NH4+

Question 28

BUN and blood ammonia in liver damage

Answer 28

BUN decreased in liver damage But blood ammonia increased during liver damage

Question 29

importance and the enzyme deamidation of glutamine in kidney

Answer 29

important in kidneyprovides most of the NH4+ in the urineNH3 aids the secretion of protons into the urine and indirectly helps to balance blood PH.Glutaminase is the enzyme

Question 30

the fate of fumarate as a by product of arginine synthesis (argininosuccinate lyase)

Answer 30

enters the TCA cycle and regenerate oxaloacetate and then aspartate.

Question 31

carbamoyl phosphate synthesis of urea cycle takes place in

Answer 31

mitochondria

Question 32

blood nitrogen metabolites

Answer 32

blood urea nitrogen (BUN)creatinine uric acidammonia

Question 33

The impact of high levels of arginine production on urea production

Answer 33

increased urea production though1- high n-acetyl glutamate –> increased CPSI –> increased urea production2- increased ornithine production –> increased urea production

Question 34

BUN in kidney damage

Answer 34

increased

Question 35

how to reduce ammonia load on the urea cycle

Answer 35

low protein diet, avoid fasting - to limit amino acid degradation

Question 36

Nitrogen is carried to the liver by

Answer 36

alanine and glutamine

Question 37

activates CPSI

Answer 37

N-acetyl glutamate

Question 38

The two amino acids that undergo deamidation

Answer 38

glutamine and asparagine

Question 39

name at least three condition in which plasma ALT And AST are elevated

Answer 39

cirrhosishepatitisliver toxicity

Question 40

Glutamine —?—> glutamate —?–> a-KGLIVER

Answer 40

GlutaminaseGDH

Question 41

cleavage of arginine into urea and ornithine is catalyzed by

Answer 41

arginase

Question 42

the only way arginie is produced in human body

Answer 42

arginine synthesis via argininosuccinate lyase in cytosolArgininosucccinate —> fumarate + arginine

Question 43

arginase cleaves argininie into

Answer 43

urea and ornithine

Question 44

conversion of glutamine to alanine

Answer 44

glutamine first to glutamate- E: glutaminaseGlutamate to alanine- E- ALLT

Question 45

the central role of glutamate in nitrogen removal

Answer 45

transamination - collect nitrogendeamination- provides nitrogen to the urea cycle by glutamate dehydrogenasetransaminating oxaloacetate into asparte- provides nitrogen indirectly to the urea cycle. Aspartate then provides an amino group to ureaprecursor for the allosteric activator of the urea cycle

Question 46

high levels of arginine leads to

Answer 46

high levels of N-acetyl-glutamateIncreased ornithine production

Question 47

the energy requirement of argininosuccinate synthesis

Answer 47

1 ATP

Question 48

the energetics of the urea cycle

Answer 48

aspartate + NH3 + CO2 +3ATP –> Urea + fumarate + 2ATP + 2P + PP + 3H2o

Question 49

Increased CPSI activity leads to

Answer 49

Increased urea production

Question 50

energy requirement of carbamoyl phosphate synthesis for urea cycle

Answer 50

2ATP

Question 51

Increased ornithine production leads to

Answer 51

increased urea production

Question 52

The allosteric regulator of CPSI

Answer 52

N-acetyl-glutamate

Question 53

how to limit amino acid degradation

Answer 53

low protein diet and avoid fasting

Question 54

CPSI or N-acetylglutamate synthase deficiency causes

Answer 54

Type I hyperammonemia

Question 55

the only X-linked recessive primary hyperammonemias

Answer 55

type II hyperamoonemia- ornithine transcarbamoylase

Question 56

argininosuccinate synthesis takes place in

Answer 56

cytosol

Question 57

after citrulline synthesis, it is transported to the

Answer 57

cytosol

Question 58

Urine orotate for type I a nd type II

Answer 58

type I - lowType II- HighThe only differentiating factors. Other values are identical for the two.

Question 59

ornithine transcarbamoylase catalyzes the synthesis of ——– in ——.

Answer 59

citrulline in mitochondria

Question 60

amino acid degradation takes place in all tissues. How does nitrogen gets to the liver?

Answer 60

Nitrogen is carried to the liver by ALANINCE and GLUTAMINE

Question 61

defeciency in ornithine transcarbamoylase

Answer 61

type II hyperammonemia

Question 62

aminotransferase

Answer 62

transaminase- an enzyme for the reversible reaction of transamination.

Question 63

activates the synthesis of N-Acetylglutamate

Answer 63

HIGH levels of arginine

Question 64

as the utilization of amino acids decreases, urea production ——

Answer 64

decreases

Question 65

deamination

Answer 65

removal of a-amino group from certain amino acids as NH4+glutamate, glycine, serine, threonine, histidine

Question 66

net glutamine producers

Answer 66

muscle and brain

Question 67

PLP

Answer 67

pyridoxal phosphate

Question 68

The role of glutamate in the following reactionGlutamate + Acetyl-CoA –> N-acetyl Glutamate

Answer 68

1- allosteric activator2- provides nitrogen

Question 69

blood ammonia in urea cycle disorders

Answer 69

increased

Question 70

how many high energy phosphate bonds are broken and what does it mean for the urea cycle

Answer 70

4 high energy bonds are broken, which makes the cycle irreversible

Question 71

how can part of the used energy in urea cycle be recovered?

Answer 71

if fumarate enters the TCA cycleFumarate –> Malate _> Oxaloacertate–> Aspartate and 1 NADH ~ 2.5 ATP through oxidative phosphorylation

Question 72

CPSI

Answer 72

carbomyl phosphate synthetase I catalyzes the carbamoyl phosphate synthesis- The rate limiting and committed step of urea cycle

Question 73

three enzymes that can fix free ammonia into organic molecules

Answer 73

glutamate dehydrogenaseglutamine synthetasecarbamoyl phosphate synthetaseI

Question 74

The reason for decreased level of nitrogen metabolites during pregnancy

Answer 74

increased GFR

Question 75

Glutamine –?–> glutamate —?–> alanine

Answer 75

glutaminase, ALT

Question 76

The main pathway of amino acid nitrogen removal is

Answer 76

transamination

Question 77

Citrulliunuria type I

Answer 77

deficiency of argininosuccinate synthase

Question 78

the benefit of limiting amino acid degradation

Answer 78

reducing the ammonia load in the urea cycle

Question 79

the autosomal recessive primary hyperammonemias

Answer 79

type I, citrullinuria type I, argininosuccinic acidemiaargininemia

Question 80

arginine synthesis is catalyzed by

Answer 80

argininosuccinate lyase

Question 81

the rate limiting and committing step of the urea cycle is

Answer 81

carbamoyl phosphate synthesis

Question 82

transamination

Answer 82

transfer of an a-amino group from an amino acid to an a-keto acid

Question 83

is a precursor for the allosteric activator of the urea cycle

Answer 83

glutamate

Question 84

the role of citrulline suppliment in type I and II hyperammonemia

Answer 84

to capture aspartate so at least one nitrogen can be excreted

Question 85

deficiency causes citrullinuria type I

Answer 85

argininosuccinate synthetase

Question 86

1—- + 2—- –(GDH)—> NADP+ + Glutamatemuscle and peripheral tissues

Answer 86

a-KG + NH4+required for glutamine transport

Question 87

during transamination, the amino acid nitrogen is generally collected on

Answer 87

glutamate

Question 88

main glutamine users

Answer 88

kidney, gut, immune cells and liver

Question 89

Three ways to supply the amino acid pool

Answer 89

1- degradation of bodies own protein (endogenous)2- degradation of dietary protein (exogenous)3- synth. of non-essential aa from other pathways

Question 90

glutamate indirectly provides nitrogen to urea by

Answer 90

transaminating oxaloacetate into aspartate. Aspartate then provides an amino group to urea.

Question 91

high levels of ALT and AST in plasma indicates

Answer 91

liver damage

Question 92

the reaction catalyzed by glutamate dehydrogenase

Answer 92

a-ketoglu + NH4+ glutamate

Question 93

blood arginine level for type I and type II

Answer 93

both low

Question 94

blood NH3 level for type I and type II

Answer 94

both high

Question 95

starvation and the brain

Answer 95

during starvation the brain switches from glucose to ketone bodies (MAINLY FROM FATTY ACIDS) as energy source.

Question 96

glutamate dehydrogenaseresults in the formation of these compound in the kidney and liver

Answer 96

NADPH, a-ketoflutarate, NH4+ and H+Substrate: Glutamate and HOH

Question 97

Urea is transported to the —— and excreted in ——–. some urea leaves through the —–, too.

Answer 97

urea transported to the kidney and excreted in urine.some urea leaves through intestine

Question 98

the transamination reaction is —— and ——- catalyzes the reaction.

Answer 98

reversible, transaminase (aminotransferase)

Question 99

citrulline and aspartate form argininosuccinate. what is the source of aspartate?

Answer 99

aspartate is produced by transamination of oxaloacetate (AST) and the aspartate nitrogen will incorporate into urea

Question 100

fasting and muscle proteins

Answer 100

during fasting muscle proteins are degraded and amino acids are transported to the liver and converted to glucose.And the Nitrogen of the used amino are converted to urea.

Question 101

scavenger drug for glycine

Answer 101

benzoate + glycine –> hippuric acid –> excretion

Question 102

pyridoxine

Answer 102

B6

Question 103

treatment of urea cycle disorders

Answer 103

a- reduce the ammonia load on the urea cycleb- provide urea cycle intermediates

Question 104

cleavage of arginine into urea and ornithine takes place in

Answer 104

the cytosol

Question 105

the first step in urea synthesis is catalyzed by

Answer 105

carbamoyl phosphate synthetase I

Question 106

blood ammonia in liver damage

Answer 106

increased

Question 107

NAME?

Answer 107

N-acetylglutamate

Question 108

amino acid degradation takes place in

Answer 108

all tissues

Question 109

deficiency of arginase causes

Answer 109

argininemia

Question 110

argininosuccinate synthesis is catalyzed by

Answer 110

argininosuccinate synthetase

Question 111

arginine as a reactant for nitric oxide synthesis

Answer 111

Arginine +NADPH + O2 –> citrulline +NO + NADP+ + H2O

Question 112

it can provide nitrogen both directly and indirectly to the urea cycle

Answer 112

glutamate

Question 113

citrulline synthesis is catalyzed by

Answer 113

ornithine transcarbamoylase

Question 114

the precursors of N-acetyl glutamate

Answer 114

glutamate and Acetyl CoA

Question 115

The role of Arginine in the following reaction:Glutamate + Acetyl-CoA –> N-acetyl Glutamate

Answer 115

Arginine is + (activator)

Question 116

ALT specificity vs AST

Answer 116

ALT is more specific

Question 117

CPSII

Answer 117

the enzyme for carbanmoyl phosphate synthesis in the cytosol from glutamine and CO2

Question 118

BUN and blood creatinine in kidney damage

Answer 118

increased

Question 119

the first two intermediates of the urea cycles which are made in the mitochondria

Answer 119

carbamoyl phosphate and citrulline

Question 120

urea cycle starts in —– and is completed in the —–.

Answer 120

starts in mitochondria and completed in cytosol.

Question 121

the major reaction in the muscles that constitute the main source of alanine

Answer 121

protein degradation and transamination

Question 122

AST

Answer 122

aspartate aminotransferase(Oxaloacetate/glutamate) and (Aspartate/a-ketoglutrate)

Question 123

scavenger drug for glutamine

Answer 123

Phenylbutyrate

Question 124

BUN, blood creatinine and blood uric acid level during pregnancy

Answer 124

decreased

Question 125

its deficiency causes argininosuccynyl acidemia

Answer 125

argininosuccinate lyase

Question 126

sources of alanine- alanine transport to the liver: Glucose/Alanine Cycle

Answer 126

main: muscle (result of protein degradation and transamination)Other: kidney and intestine (conversion of glutamine to alanine)

Question 127

Blood creatinine in kidney damage

Answer 127

increased

Question 128

scavenger drugs

Answer 128

conjugate amino acids and target them for urinary excretion

Question 129

this vitamin is required for PLP formation

Answer 129

Vitamin B6- pyridoxine

Question 130

The third step of urea cycle

Answer 130

argininoscuccinate synthesis

Question 131

transports ornithine into the mitochondria from the cytosol

Answer 131

ornithine translocase

Question 132

ornithine translocase

Answer 132

transports ornithine into the mitochondria from the cytosol

Question 133

blood uric acid in pregnancy

Answer 133

decreased

Question 134

conditions that resemble fasting as well as high protein diet and excessive degradation ——– urea synthesis and —— synthesis of urea cycle enzymes.

Answer 134

increase, increase

Question 135

arginine —> urea and ornithineE: arginasethe fate of the arginine and ornithine

Answer 135

arginine cab be used by other pathways: protein synthesis and nitric oxide synthesisornithine moves back to mitochondria and reacts with another molecule of carbamoyl phosphate

Question 136

the reactions that lead to the formation of alanine in kidney and intestine

Answer 136

conversion of glutamine to alanine

Question 137

the reaction catalyzed by glutamine synthetase

Answer 137

Glutamate + NH4+ —– ATP —> glutamine

Question 138

the product of transamination of oxaloacetate (AST)

Answer 138

aspartate

Question 139

arginine synthesis takes place in

Answer 139

cytosol

Question 140

blood uric acid in gout

Answer 140

increased

Question 141

diagnostic tool for primary hyperammonemias

Answer 141

metabolites before the deficiency accumulates in blood/ urine.Metabolites after the deficiency have much lower levels.

Question 142

The central role of glutamate in nitrogen removal- 3 general descriptions

Answer 142

precursor for allosteric activatorProvides nitrogen in two different wayscollects nitrogen

Question 143

when to provide citrulline supplement as urea cycle intermediate

Answer 143

In type I and II hyperammonemia.it captures aspartate, so at least one nitrogen can be excreted

Question 144

Three general ways to deplete amino acid pool

Answer 144

1- protein synthesis for the body2- consumption of aa as precursor for small nitrogen containing molecules3- conversion of amino acids to glucose, glycogen, a-Kbodies, and fatty acid oroxidation to Co2 and H2o

Question 145

regulation of the urea cycle

Answer 145

N-acetylglutamate (allosteric activator)High arginine levelHigh protein diet and excessive degradationand the concentration of substrate and intermediates

Question 146

Blood creatinine in pregnancy

Answer 146

decreased

Question 147

arginine supplement for argininosuccinate lyase deficiency

Answer 147

it generates more ornithine for urea cycle to continue.also, catalyzes the production of N-acetylglutamate so acceelerates CPSI

Question 148

The two main purposes for the transport of alanine to the liver

Answer 148

1- removal of nitrogen through the urea cycle2- glucogeogenesis

Question 149

1—- + 2—– -(glutamine synthetase)–> glutamine + ADP Muscle and peripheral tissue

Answer 149

glutamineRequired fro glutamine transport

Question 150

objFate of carbon core of amino acid depends on the nutritional state of the body.Fate of Carbon core of aa in the fed state:

Answer 150

Energy storageThe carbon of the excess amino acids will be converted to:1- glucose –> Glycogen2-acetylCoa –> TAG

Question 151

objFate of carbon core of amino acid depends on the nutritional state of the body.Fate of Carbon core of aa in the fasting state

Answer 151

Energy productionCo2pyruvateTCA int.Acetyl CoA- Acetoacetate

Question 152

What is common to both the fed and fasting states with respect to the fate of the carbon core of aa:

Answer 152

In both, amino acids are constantly used for the synthesis of physiologically important metabolites - proteins and hormones

Question 153

obj ketogenic amino acids

Answer 153

leucine, lysine

Question 154

objglucogenic aa

Answer 154

non essentialsAlaArgAsnAspCysGluGlnGlyPro Seress. aa.HisMetThrVal

Question 155

Objnoess. aa.

Answer 155

AlaArgAsnAspCysGluGlnGlyPro SerTyrosine ( glucogenic and ketogenic)The rest are glucogenic

Question 156

objthe glucogenic noess. aa.

Answer 156

AlaArgAsnAspCysGluGlnGlyPro Ser

Question 157

objthe glucogenic and ketogenic noess aa.

Answer 157

tyr

Question 158

objthe glucogenic and ketogenic ess.aa.

Answer 158

ThrIsoPheTrp

Question 159

objconditionally ess. aa.

Answer 159

tyr, Arg, Cys

Question 160

objThe surplus of cystine (cond. ess. aa.) comes from

Answer 160

met (ess, glucogenic)

Question 161

objTyr (cond. ess. aa./ glucogenic and ketogenic) is produced from

Answer 161

phenyl-alanince (gluco-ketogenic)

Question 162

objConditionally essential Arg

Answer 162

Arg is not ess. for adults, byt it is ess. for children

Question 163

the aa that is ess for only children

Answer 163

Arg

Question 164

Tyr production

Answer 164

Tyr is produced by the hydroxylation of phenyl-alanine

Question 165

the source for carbon cores of 10-essentional aa.

Answer 165

glucose

Question 166

ObjThe 10 ess. aa

Answer 166

Glucogenic: His, Met, Thr, Val.Gluco/Keto: Thr, ILe, Phe, TrpKet: leu, Lys

Question 167

All the ketogenic aa. are

Answer 167

essentionalLeu, Lys

Question 168

aa. syn. f. glycolysis int.

Answer 168

Cys, Gly, Ser, Ala

Question 169

aa syn. f. OxA

Answer 169

Asp, Asn

Question 170

aa. syn. f. a-ketoglutrate

Answer 170

Glu, Gln, Pro, Arg

Question 171

The lonely aa.(an amino acid that is not produced via any three common pathways: f. OxA, F. a-ketoglutrjate and f. gly int.)

Answer 171

tyrosine, which is produced by the hydroxylation of phenylalanine.

Question 172

Coenz. fo. transamination (TA) and deamination (DA)

Answer 172

pyridoxal-phosphate (B6)

Question 173

B6

Answer 173

pyridoxal phosphate- a conenzyme for deamination and transamination

Question 174

Coenz. fo. metabolism of Ser, Gly, Met, His

Answer 174

Tetrahydrofolate (folate)

Question 175

Tetrahydrofolate

Answer 175

coenzyme fo. metabolism of gly, his, met, ser

Question 176

cobalamins

Answer 176

B12 (Met metabolism conezyme)

Question 177

B12 as a conenzyme

Answer 177

B12- Cobalamins is a conezyme for methionine metabolism

Question 178

BH4

Answer 178

tetra-hydro.biopterin

Question 179

tetrahydrobipterin is synthesized from

Answer 179

GTP

Question 180

Tetrahydrobiopterine (BH4) is a conezyme for

Answer 180

hydroxylation of phenylalanine, tyr and trp

Question 181

Hydroxylation of Phe, Tyr, Trp iis assisted by this coenzyme

Answer 181

BH4- tetrahydrobioptrein

Question 182

The coenzyme for oxidative decarboxylation of BCAA

Answer 182

Thiamine-Pyrophosphate (B1) and lipoate

Question 183

Thiamine-pyrophosphate and lipoate are common coenzymes for

Answer 183

oxidative decarboxylation of BCAA.thiamine-pyrophosphate is B1

Question 184

Other names for B1, B6 and B12

Answer 184

B1- thiaminepyrophosphateB6- pyridoxal phosphateB12 cobalamins