Biochemistry

Question 1

Which hydrophobic amino acid is susceptible to oxidation due to sulfur groups?

Answer 1

Cysteine

Question 2

Which type of amino acids are the only ones found in proteins?

Answer 2

L-amino acids

Question 3

Protein folding is hierarchical and occurs in a certain order. When would disulfide bonding occur, before or after folding is complete?

Answer 3

Can occur before OR after - Disulfide bonds are not required for early determinants of folding.

Question 4

What are the 3 primary conditions that can affect protein denaturation?

Answer 4

Heat
pH extremes
Agitation

Question 5

Describe the structure of hemoglobin

Answer 5

Tetramer made up of 4 globin chains, makes a porphyrin ring with iron

Question 6

If you see 2,3-BPG on the exam, what biological molecule are we dealing with?

Answer 6

Hemoglobin

Question 7

What class of enzymes participates in group transfer reactions?

Answer 7

Transferases (i.e., NMP kinase)

Question 8

Which class of enzyme participates in the transfer of functional groups to water?

Answer 8

Hydrolases (i.e., chymotrypsin)

Question 9

What does it mean to have a negative value for the Gibbs free energy of activation?

Answer 9

The reaction is favorable and will likely occur spontaneously

Question 10

In _____________ inhibition, when the inhibitor is present, the substrate cannot bind to the EI complex

Answer 10

Competitive

Question 11

In ____________ inhibition, the inhibitor binds to free and substrate-bound enzyme

Answer 11

Noncompetitive

Question 12

Describe the effects of noncompetitive inhibitors on enzyme kinetics. Specifically Vmax, Km, and the effect of increasing [S]

Answer 12

Vmax = lowered
Km = unchanged

Increasing [S] will not allow the substrate to outcompete the inhibitor

Question 13

Describe the effects of competitive inhibitors on enzyme kinetics. Specifically Vmax, Km, and the effect of increasing [S]

Answer 13

Vmax = unchanged
Km = increased

If [I] is fixed, increasing [S] would allow the substrate to outcompete the inhibitor

Question 14

Between glucose and fructose, which one is a ketose and which one is an aldose?

Answer 14

Glucose = aldose
Fructose = ketose

Question 15

When glucose folds into a 6-membered ring structure, it is referred to as a ________

Answer 15

Pyran

Question 16

When fructose folds into a 5-membered ring structure, it is referred to as a ________

Answer 16

Furan

Question 17

Name 2 disaccharides

Answer 17

Sucrose

Lactose

Question 18

Name 3 monosaccharides

Answer 18

Glucose
Fructose
Galactose

Question 19

Which of the following disaccharides would be involved in a hydrolase reaction?

A. Glucose
B. Fructose
C. Lactose
D. Galactose

Answer 19

C. Lactose

Question 20

Glycosidic bonds determine polysaccharide structure. A _________ polysaccharide is unbranched, or has one branch every 30. A __________ polysaccharide has a branch every 10.

Answer 20

Starch

Glycogen

Question 21

Starch/glycogen polysaccharides are not broken down the same as cellulose. What is different about the bonding pattern between the two?

Answer 21

Cellulose has beta bonding pattern

Starch/glycogen has alph bonding pattern

Question 22

Which is more stable, a glycosylated protein (glycoprotein) or unglycosylated protein?

Answer 22

Glycosylated is more stable

Question 23

Name the 3 essential fatty acids

Answer 23

Linoleic
Linolenic
Arachidonic

Question 24

The 3 main forms of modified fatty acids in the lipid bilayer are phospholipids, glycolipids, and cholesterol. Of those 3, which is most important for fluidity of the membrane?

Answer 24

Cholesterol

Question 25

Which ion is in highest concentration in the ECF? What about ICF?

Answer 25

Highest in ECF = sodium

Highest in ICF = potassium

Question 26

A calcium channel opening when a ligand binds would be what type of transport?

A sodium/potassium exchanger would be what type of transport?

Answer 26

Primary

Secondary

Question 27

What membrane transport system involves the flow of ions down a gradient, and provides facilitated transport via passive diffusion?

Answer 27

Ion channels

Question 28

What membrane transport system involves the flow of ions against a gradient and is coupled to an energy source, where a chemical reaction in a protein leads to conformational changes?

Answer 28

Primary transporters

Question 29

What membrane transport system derives energy from existing ion gradients to transport a second molecule?

Answer 29

Secondary transporters

Question 30

Which one has a 2-ring structure, purines or pyrimidines?

Answer 30

Purines

Question 31

Is IMP a precursor to a purine or pyrimidine?

Answer 31

Purine

Question 32

Is PRPP necessary for the activation of purine or pyrimidine synthesis?

Answer 32

Both!

Question 33

Is UMP a precursor for purines or pyrimidines?

Answer 33

Pyrimidines

Question 34

What enzyme is responsible for the formation of uric acid from xanthine in purine nucleotide catabolism?

Answer 34

Xanthine oxidase

Question 35

True or false: gout results from excess production of xanthine oxidase, which forms excess uric acid in joint spaces

Answer 35

FALSE, gout is not a problem with xanthine oxidase!!

Question 36

Which enzyme would be a good target for gout in the purine nucleotide salvage pathway?

Answer 36

HGPRT

Question 37

An elevated lactate level in the blood indicates that the body is in what state?

Answer 37

Fasting, we are burning glucose an anaerobic conditions like a sprint, resulting in lactic acid buildup

Question 38

Pyruvate and lactate can be salvaged by being resynthesized into glucose in the metabolic process of _________________

Answer 38

Gluconeogenesis

Question 39

What metabolic state is the body in if you have increased levels of glucose-1-phosphate?

Answer 39

Glycogenolysis - generating glucose from glycogen stores for use by other tissues

[you also have glucose-1P in glycogenesis]

Question 40

What is the main glucose transporter in the liver? Does it have high or low affinity for glucose?

Answer 40

GLUT2, low affinity with no regulation

Question 41

What is the main glucose transporter in skeletal muscle, heart, and adipose tissue? What is this transporter dependent on?

Answer 41

GLUT4, dependent on insulin

Question 42

Is the GLUT4 transporter found in the liver?

Answer 42

NO, the only glucose transporter found in the liver is GLUT2

Question 43

What enzyme is the primary regulator of glycolysis in terms of a fed vs. fasting state?

Answer 43

PFK

Question 44

What is the main 3-carbon sugar that gets turned to fat?

Answer 44

DHAP

Question 45

________________ is an especially important metabolic process during a longer period of fasting, starvation, or exercise. You burn through your free glucose in seconds and need to make more to send to the brain. This requires ____________ which you can get from fatty acids

Answer 45

Gluconeogenesis; pyruvate

Question 46

The pentose phosphate pathway is an alternate pathway for the oxidation of glucose. What are 2 main products of the PPP?

Answer 46

Riboses and NADPH

Question 47

When glycogen is broken down during glycogenolysis, what is the first thing it becomes? What enzyme does this require?

Answer 47

Glucose-1-phosphate, requires glycogen phosphorylase

Question 48

What enzyme is responsible for breaking the glycosidic bonds during glycogenolysis?

Answer 48

Debranching enzyme (alpha-1,6-glucosidase)

Question 49

During glycogenesis, what is the first thing that glucose is converted to?

Answer 49

Glucose-6-phosphate, then to glucose-1-phosphate

[note that in glycogen breakdown, the FIRST product is glucose-1-phosphate)

Question 50

The conversion of glucose-1-phosphate to UDP-glucose occurs in what metabolic process? Does this require ATP?

Answer 50

Glycogen synthesis; yes requires ATP

Question 51

What is the status of glycogen metabolism in conditions of increased glucagon or epinephrine?

Answer 51

Glycogenolysis (glycogen breakdown), so you will be utilizing glycogen phosphorylase

Question 52

In what cellular compartment would you find pyruvate dehydrogenase (PDH)?

Answer 52

Mitochondria

Question 53

From the following list of cofactors, which is NOT involved in the PDH complex?

A. FAD
B. Lipoamide
C. TPP
D. NADH

Answer 53

D. NADH

Question 54

Which of the following is responsible for inhibiting E2 of the PDH?

A. NADH
B. NADPH
C. FAD
D. Acetyl CoA

Answer 54

D. Acetyl CoA

Question 55

Of the four complexes involved in the electron transport chain, which one involves the utilization of oxygen and electron release?

A. Complex I
B. Complex II
C. Complex III
D. Complex IV

Answer 55

D. Complex IV

Question 56

Of the four complexes involved in the electron transport chain, which one utilizes coenzyme Q?

A. Complex I
B. Complex II
C. Complex III
D. Complex IV

Answer 56

B. Complex II

Question 57

Of the four complexes involved in the electron transport chain, which on utilizes cytochrome C?

A. Complex I
B. Complex II
C. Complex III
D. Complex IV

Answer 57

C. Complex III

Question 58

Of the four complexes involved in the electron transport chain, which one utilizes NADH?

A. Complex I
B. Complex II
C. Complex III
D. Complex IV

Answer 58

A. Complex I

Question 59

Of the four complexes involved in the electron transport chain, which one involves the utilization of FADH2?

A. Complex I
B. Complex II
C. Complex III
D. Complex IV

Answer 59

B. Complex II

Question 60

Of the four complexes involved in the electron transport chain, which one does NOT involve the transport of protons?

A. Complex I
B. Complex II
C. Complex III
D. Complex IV

Answer 60

B. Complex II

Question 61

Triacylglycerols (TAGs) are the major lipids present in the human diet. What are the 2 ways that energy can be harvested from TAGs?

Answer 61

Fatty acids can be utilized in beta oxidation

Glycerol backbone can be directly fed into glycolysis

Question 62

True or false: fatty acids can be utilized in glycolysis

Answer 62

False, glycerol can. Fatty acids are utilized in beta oxidation

Question 63

If you see acyl CoA dehydrogenase, is the body in a fasting or fed state?

Answer 63

Fasting, we need the energy! This enzyme is utilized in beta oxidation (catabolism), fatty acids are being broken down for energy

Question 64

The formation of __________ __________ such as acetoacetate, D-3-hydroxybutyrate, and acetone are associated with a state of starvation. This may also occur in a disease state, such as ___________

Answer 64

Ketone bodies; diabetes (untreated)

Question 65

When ketone bodies are synthesized in a fasting diabetic, oxaloacetate may be formed intermediate to the TCA cycle. What role does this have in metabolism?

Answer 65

Feeds into ability to make glucose from fatty acids (beta oxidation to gluconeogenesis)

–Oxaloacetate is essential for acetyl coA oxidation. Oxaloacetate is used for glucose synthesis, therefore OAA is depleted during fasting or diabetes. The liver produces more acetyl coA than can be oxidized in TCA.

Question 66

Fatty acid synthesis occurs in conditions of excess energy. It occurs primarily in the _________, but also occurs in the brain, kidneys, and ___________ tissue. The components of fatty acid synthesis are located in the cytoplasm, including enzymes, _________ carrier proteins, co-factors, reducing power, and ___________.

Answer 66

Liver
Adipose
Acyl
Energy (ATP)

Question 67

The rate limiting step in fatty acid biosynthesis is the conversion of acetyl coA to ______________, which is catalyzed by _________.

Answer 67

Malonyl CoA

Acetyl CoA Carboxylase (ACC)

Question 68

Describe fatty acid biosynthesis regulation in terms of hormones like insulin.

Answer 68

Acetyl CoA is dependent on insulin signaling. Insulin causes the DEPHOSPHORYLATION of acetyl coA

Question 69

Plasma lipoproteins have different functions. ___________ serves as the carrier for TAGs. ____________ is the highest in cholesterol.

Answer 69

Chylomicrons

LDL

Question 70

What enzyme is the target for regulation of intracellular cholesterol by statin drugs?

Answer 70

HMG CoA Reductase

Question 71

Amino acids generated by protein breakdown in the proteosome are eventually converted to urea, which requires what enzyme?

Answer 71

Aminotransferases (like ALT and AST)

Question 72

What amino acid is the key to starting the urea cycle?

Answer 72

Glutamate, which then becomes NH4

Question 73

Where does the urea cycle occur?

Answer 73

The liver

Question 74

Ornithine is combined with what other product (made up of carbon dioxide and ammonia) to produce citrulline?

Answer 74

Carbamoyl phosphate

Question 75

What type of enzymes help to funnel nitrogens into the urea cycle?

Answer 75

Aminotransferases

Question 76

Of all the amino acids, which 2 are strictly ketogenic?

Answer 76

Leucine and lysine

Question 77

Inosine 5’monophosphate (IMP) is the initial product of purine nucleotide anabolism. Which nucleotides are subsequently synthesized from IMP, after additional enzymatic steps?

A. AMP and CMP
B. TMP and CMP
C. AMP and GMP
D. None of the above

Answer 77

C. AMP and GMP

Question 78

Which of the following is not an intermediate in the glycolytic pathway by which glucose is oxidized to pyruvate?

A. Glucose 6-phosphate
B. Glucose 1-phosphate
C. Fructose 6-phosphate
D. Fructose 1,6-bisphosphate

Answer 78

B. Glucose 1-phosphate

Question 79

Which of the following enzymes is most likely to be deficient in gout (caused by an excess of uric acid)?

A. Hypoxanthine-guanine phosphoribosyl transferase (HGPRT)
B. Xanthine oxidase
C. PRPP
D. Hypoxanthine phosphatase

Answer 79

A. HGPRT