7) Enzymes

Question 1

3 general properties of enzymes

Answer 1

1. not altered or consumed during rxn
2. reused; only small amounts needed
3. accelerate the speed of a rxn without altering equilibrium constant

Question 2

heat-labile protein portion of enzyme

Answer 2

apoenzyme

Question 3

a tightly bound coenzyme

Answer 3

prosthetic group

Question 4

Apoenzyme and cofactor or coenzyme that form the catalytically active unit

Answer 4

holoenzyme

Question 5

Organic or inorganic compounds that are required for enzyme function

Answer 5

cofactors

Question 6

Organic cofactors that commonly have a structure related to vitamins

Answer 6

coenzymes

Question 7

Enzymes that contain metal ions in their structures

Answer 7

metalloenzymes

Question 8

4 types of enzyme specificity

Answer 8

1. absolute specificity
2. group specificity
3. bond specificity
4. stereospecificity

Question 9

energy of activation

Answer 9

Amount of energy required to energize one mole of the substrate to form the activated complex.

Question 10

decreased by enzymes

Answer 10

energy of activation

Question 11

1 IU/L

Answer 11

Amount of enzyme that produces 1 𝜇mol of product per minute under standardized conditions of temperature, pH, substrate, and activators

Question 12

3 phases of enzyme action

Answer 12

1. lag phase
2. linear phase (zero order)
3. substrate depletion phase (first order)

Question 13

explain zero order kinetics

Answer 13

Substrate is in excess (rate of enzyme reaction is independent of substrate concentration)

Rx ≠ [S]

Question 14

Amount of product produced per unit of time is constant.

Answer 14

linear phase
zero order

Question 15

explain first order kinetics

Answer 15

The velocity is directly proportional to the substrate concentration. Period of reduced velocity as substrate no longer in excess.

Rx = [S]

Question 16

enzyme activity is measured during…

Answer 16

linear phase/zero order kinetics

Question 17

Michaelis-Menten axes

Answer 17

velocity of rxn (y-axis)
substrate concentration (x-axis)

Question 18

what is considered a given for each MM curve?

Answer 18

enzyme concentration

Question 19

MM equation

Answer 19

V = Vmax[S]/Km + [S]

Question 20

——– order kinetics occurs at Vmax

Answer 20

zero

Question 21

Km

Answer 21

[S] at ½ Vmax

Question 22

Vmax

Answer 22

When the substrate concentration is high enough that all enzyme molecules are bound to the substrate and all active sites are engaged.

Question 23

—- Km = —- Enzyme affinity

Answer 23

↑ Km = ↓ Enzyme affinity

Question 24

double reciprocal plot of MM curve

Answer 24

Lineweaver-Burk plot

Question 25

Lineweaver-burk equation
define y, m, x, b

Answer 25

1/V = (Km/Vmax[S]) + (1/Vmax)

y = 1/V
m = Km/Vmax
x = 1/[S]
b = 1/Vmax

Question 26

LB x-int

Answer 26

-1/Km

Question 27

For each —– increase, the rate of reaction is doubled

Answer 27

10° C

Question 28

Substance is similar to the normal substrate and competes with the substrate for the binding or active site of the enzyme.

Answer 28

competitive inhibition

Question 29

When an inhibitor binds to the E S complex to form an enzyme-substrate inhibiting complex that does not yield product.

Answer 29

uncompetitive inhibition

Question 30

Inhibitor is structurally different than the substrate and binds to an allosteric site on the enzyme molecule, which is far removed from the active site.

Answer 30

noncompetitive inhibition

Question 31

The addition of more substrate will actually increase the inhibition

Answer 31

uncompetitive

Question 32

Vmax unchanged
Km decreased

LB: same y-int, different slopes

Answer 32

competitive inhibition

Question 33

Vmax decreased
Km unchanged

LB: same x-int, different slopes

Answer 33

noncompetitive inhibition

Question 34

both Vmax and Km decreased

LB: same slopes, different intercepts

Answer 34

uncompetitive inhibition

Question 35

Enzyme measurements are…

Answer 35

Product formation or substrate depletion

Question 36

Multiple forms of an enzyme that can catalyze the reaction

Answer 36

Isoenzymes

Question 37

A cytoplasmic and mitochondrial enzyme that catalyzes the reversible phosphorylation of creatinine by ATP

Answer 37

Creatine kinase
CK

Question 38

CK important to ———— tissue

Answer 38

Muscle

Question 39

CK found in….

Answer 39

Muscle
Brain
Heart

Question 40

3 types of CK

Answer 40

CK-1, or BB—brain and CNS
CK-2, or MB—cardiac muscle
CK-3, or MM—skeletal or cardiac muscle

Question 41

Elevations of C K are found primarily in conditions affecting…

Answer 41

brain
muscle
cardiac muscle

Question 42

most common CK methodology, proceeds faster

Answer 42

reverse (PCr→ Cr)

Question 43

3 methods of measuring CK isoenzymes

Answer 43

immunoinhibition, mass assay, and electrophoresis

Question 44

Sandwich technique is used with two antibodies
One against the M subunit (anti-M)
One against the B subunit (anti-B)

Answer 44

mass assay for CK isoenzyme

Question 45

Can be performed on agarose or cellulose acetate.

Answer 45

CK electrophoresis

Question 46

C K—– migrates most rapidly toward the anode or positive pole.
C K—– migrates midway.
C K—– remains near the point of origin

Answer 46

BB
MB
MM

Question 47

CK relative index

Answer 47

RI = (CKMB/total CK)(100)

RR: <3%

Question 48

CK index <5%
CK index >5%

Answer 48

crush injury
heart attack/cardiac source

Question 49

A hydrogen transfer enzyme that catalyzes the oxidation of L-lactate to pyruvate with N A D+ as a hydrogen acceptor

Answer 49

lactate dehydrogenase

Question 50

Elevations of —- without any other information is nonspecific for any disease or disorder.

Answer 50

LD

Question 51

In healthy individuals, the concentration of L D isoenzymes are…

Answer 51

LD-2 > LD-1 > LD-3 > LD-4 > LD-5

Question 52

LD from heart, rbcs, and kidney

Answer 52

LD-1
LD-2

Question 53

LD from spleen, lungs, many tissues

Answer 53

LD-3

Question 54

LD from liver and skeletal muscle

Answer 54

LD-4
LD-5

Question 55

MI effect on LD

Answer 55

LD-1 > LD-2

Question 56

highest levels of LD

Answer 56

pernicious anemia

Question 57

Most current methods measure the interconversion of NAD+ to NADH at 340 nm.

Wacker procedure

Answer 57

LD methodology

Question 58

Wroblewski and LaDue reverse rxn

Answer 58

LD methodology

Question 59

falsely elevates LD

Answer 59

hemolysis

Question 60

store sample at room temp

Answer 60

LD sample

Question 61

CK peak
CK-MB peak

Answer 61

24 hours
12-20 hours

Question 62

tumor-associated CK

Answer 62

CK-BB

Question 63

3 liver enzymes

Answer 63

Aspartate aminotransferase (AST)
Alanine aminotransferase (ALT)
Alkaline phosphatase (ALP)

Question 64

Marked elevations of —– and —- are associated with hepatocellular disease or damage to hepatocytes.

Answer 64

AST
ALT

Question 65

Marked elevation of —- is associated with hepatobiliary disease or obstructive liver disease.

Answer 65

ALP

Question 66

Catalyzes the interconversion of amino acids and α-oxoacids by the transfer of amino groups

Answer 66

AST

Question 67

Now generally accepted —– is of little value due to lack of tissue specificity

Answer 67

AST

Question 68

measured using a modification of the Karmen method with the addition of coenzyme P-5-P to ensure full catalytic activity.

Answer 68

AST

Question 69

Malate dehydrogenase is the indicator reaction measuring the decrease in absorbance at 340 nm as NADH is oxidized to NAD+

Answer 69

AST

Question 70

An aminotransferase that catalyzes the deamination of alanine

Answer 70

ALT

Question 71

highest ALT elevation

Answer 71

acute viral hepatitis
toxic hepatitis

Question 72

De Ritis Ratio (AST/ALT)
- alcoholic liver disease, cirrhosis
- Viral hepatitis, acute inflammatory disease and obstructive liver disease
- alcoholism or alcoholic hepatitis

Answer 72

• > 1.0
• < 1.0
• > 2.0

Question 73

Wroblewski and LaDue
Uses lactate dehydrogenase (L D) as the indicator reaction.

Answer 73

ALT methodology

Question 74

Generic name for a group of enzymes with maximum activity in p H range of 9.0 to 10.0.

Answer 74

ALP

Question 75

frees inorganic phosphate from an organic phosphate monoester, resulting in the production of an alcohol at an optimal p H of 10.

Answer 75

ALP

Question 76

ALP richest source

Answer 76

cell membranes of hepatocytes lining the sinusoidal border of the parenchymal cells and the bile canaliculi

osteoblasts in the bone

Question 77

ALP elevations because of osteoblastic activity are associated with …

Answer 77

Paget’s disease (osteitis deformans)

Question 78

normal ALP elevations

Answer 78

Healing bone fractures (osteoblastic activity)
Pregnancy (placental ALP)
Infants and children (growth spurts)

Question 79

Diet may induce elevations in ALP activity of…

Answer 79

blood group B and O individuals who are secretors

Values may be 25% higher following ingestion of a high-fat meal

Question 80

Bowers and McComb procedure

4-nitrophenol phosphate (4-N P P) [formerly Ρ-nitrophenylphosphate (Ρ-N P P)] is the substrate, and the yellow product, 4-nitrophenoxide, is measured at 405 nm.

Answer 80

ALP methodology

Question 81

Transfers the γ-glutamyl group from glutathione and other γ-glutamyl peptides to amino acids or small peptides to form the γ amino acids and cysteinyl-glycine.

Answer 81

Gamma Glutamyl Transferase (GGT)

Question 82

used to evaluate liver function, especially hepatobiliary tract disorders

Most sensitive indicator of alcoholic liver disease

Answer 82

GGT

Question 83

used to differentiate liver disease from bone disease

Answer 83

GGT

not elevated in bone disease as ALP is

Question 84

Hydrolyzes the phosphate group from nucleoside-5’-phosphates

Answer 84

5’-Nucleotidase (5’-NT, NTP)

Question 85

Useful with A L P and G G T results in determining whether A L P elevation is from bone or liver disease.

Answer 85

5’NT/NTP

Question 86

Predominantly elevated in diseases of the biliary tract where presence of bile salts stimulates its release from hepatocytes.

Answer 86

5’NT/NTP

Question 87

Two most common substrates are:
AMP
Inosine-5’-phosphate (I N P)

Answer 87

5’NT methodology

Question 88

2 pancreatic screening enzymes

Answer 88

Amylase
Lipase

Question 89

A hydrolase that catalyzes the hydrolysis of complex carbohydrates including starch, amylopectin, glycogen, and their partially hydrolyzed products.

Answer 89

Amylase (AMY)

Question 90

increased in acute pancreatitis, obstructive liver disease, acute alcoholism, ectopic pregnancy, and other conditions that affect the pancreas.

Answer 90

AMY

Question 91

acute pancreatitis AMY peak

Answer 91

24 hours

Question 92

non-pancreatic AMY elevation

Answer 92

salivary glands

especially mumps

Question 93

Artifactual increase in serum AMY found in 1% to 2% of the population

Urine AMY?

Answer 93

Macroamylasemia

Urine AMY would be decreased (too big to pass through nephron)

Question 94

Saccharogenic methods
Amyloclastic methods
Chromogenic assay
Enzymatic
Maltotetraose reaction

Answer 94

AMY methodologies

Question 95

ACCR is elevated in …….., because the renal clearance of AMY is greater than that of CR, but returns to normal levels after the AMY is cleared from the serum.

Answer 95

acute pancreatitis (>8%)

Question 96

Amylase Creatinine Clearance Ratio (ACCR)

Answer 96

ACCR = (urine AMY)(serum creatinine)/(serum AMY)(urine creatinine)

Question 97

In macroamylasemia, the ACCR is…

Answer 97

<2%

Question 98

Hydrolyzes glycerol esters of long-chain fatty acids (triglycerides) to produce alcohol and fatty acids

Answer 98

lipase (LPS)

Question 99

LPS is less affected by ————– described under AMY, making it more specific for ————- but less sensitive.

Answer 99

intraabdominal conditions
acute pancreatitis

Question 100

——– → Glycerol kinase → L-α-glycerophosphate kinase → Peroxidase

Answer 100

LPS methodology

Question 101

inhibits LPS activity

Answer 101

hemolysis

Question 102

Proteinase that hydrolyzes the peptide bonds formed by the carboxyl groups of lysine or arginine with other amino acids

Answer 102

trypsin (TRY)

Question 103

Important in screening for cystic fibrosis and chronic pancreatitis

Answer 103

TRY

Question 104

Serine proteinase that hydrolyzes peptide bonds connecting the hydroxyl group of tryptophan, leucine, tyrosine, or phenylalanine

Answer 104

chymotrypsin (CHY)

Question 105

used to Investigate chronic pancreatic insufficiency

Answer 105

CHY

Question 106

Enzyme of choice for detecting pancreatic enzymes in the feces

Answer 106

CHY

Question 107

Group of hydrolases similar to alkaline phosphatases

Major difference is the pH of the reaction.

Answer 107

Acid Phosphatase (ACP)

Question 108

tissue richest in ACP

Answer 108

prostate

Question 109

Benign prostate hypertrophy (BPH) and prostate surgery.

Was also used in forensics in the investigation of rape

Bone disease is a third category of elevation

Answer 109

ACP

Question 110

unstable at room temperature and requires immediate freezing or buffering

Answer 110

ACP

Question 111

Catalyzes the cleavage of D-fructose-1,6-diphosphate to D-glyceraldehyde-3-phosphate (G L A P) and dihydroxyacetone phosphate (D A P)

Answer 111

aldolase (ALD)

Question 112

Aldolase A is clinically significant for determining the primary pathology between…

Answer 112

muscular versus neurological myopathy

Question 113

ALD main clinical significance

Answer 113

Diagnosing and monitoring skeletal muscle diseases

Question 114

Catalyzes the hydrolysis of choline esters to form choline and the corresponding fatty acid.

neurotransmitter

Answer 114

Cholinesterase (CHE)

Question 115

2 types of CHE

Answer 115

Acetylcholinesterase (true cholinesterase)
Pseudocholinesterase (acylcholine)

Question 116

Pesticide poisoning
Liver function test
Abnormal genetic variants

Answer 116

CHE

Question 117

Chronic exposure to ———- by inhalation or through the skin results in a decrease of both acetylcholinesterase and pseudocholinesterase.

Answer 117

organophosphates

Question 118

This enzyme’s reaction is the first step in the pentose-phosphate shunt of glucose metabolism and produces NADPH

Answer 118

Glucose-6-Phosphate Dehydrogenase (G6PD)

Question 119

clinically significant because reaction is necessary to make NADPH, required for RBC integrity

Answer 119

G6PD

Question 120

Inherited sex-linked trait (X-chromosome)

administered antimalarial drugs or primaquine
infections
after ingestion of fava beans

Answer 120

G6PD deficiency

Question 121

Seen in heart attacks and megaloblastic anemias

Answer 121

increased G6PD