MCAT BIOCHEM Part 2

Question 1

__ is the substrate concentration at which the reaction velocity is half its maximum

Answer 1

Michaelis constant Km

Question 2

If an enzyme-substrate pair has a low Km ___

Answer 2

it means that not very much substrate is required to get the reaction rate to half the maximum rate, the enzyme has high affinity for the substrate

Question 3

An enzyme inhibitor that competes with substrate for binding at the active site of the enzyme. When the inhibitor is bound no product can be made

Answer 3

Competitive inhibitor

Question 4

An enzyme inhibitor that can bind to the enzyme either in its free form or as enzyme-substrate complex

Answer 4

Mixed-type inhibition

Question 5

An enzyme inhibitor that binds at a site other than the active site of an enzyme (binds to the allosteric site). This changes the three-dimensional shape of the enzyme such that it can no longer catalyze the reaction

Answer 5

Noncompetitive inhibitor

Question 6

An enzyme inhibitor that can bind to the enzyme only after its substrate has bound. __appear to increase the affinity an enzyme has for its substrate because it effectively locks the two together

Answer 6

Uncompetitive inhibition

Question 7

How can competitive inhibition be overcome?

Answer 7

Adding more substrate!!

Question 8

How does adding more substrate overcome competitive inhibitors?

Answer 8

If the substrate concentration is high enough, the substrate can outcompete the inhibitor

Question 9

Is Vmax affected by competitive inhibitor?

Answer 9

No the reaction just needs alot more substrate to get there

Question 10

___ bind at an allosteric site, not the active site

Answer 10

Noncompetitive inhibitors

Question 11

If the enzyme is only able to bind to the enzyme-substrate complex, it is referred to as an __

Answer 11

uncompetitive inhibitor

Question 12

For competitive inhibitirion Vmax___ and Km____

Answer 12

Vmax is NOT CHANGED

Km increases

Question 13

For noncompetitive inhibition Vmax___ and Km___

Answer 13

Vmax DECREASES

Km NO CHANGE

Question 14

For uncompetitive inhibition Vmax___ and Km__

Answer 14

Vmax DECREASES

Km DECREASES

Question 15

For mixed-type inhibition Vmax__ and Km__

Answer 15

Vmax DECREASES

Km varies in its change

Question 16

The slope of a graph using lineweaver burk plot =

Answer 16

Km/Vmax

Question 17

The y-intercept of a graph using lineweaver burk plot is

Answer 17

1/Vmax

Question 18

The x-intercept using lineweaver burk plot is_

Answer 18

-1/Km

Question 19

The first substrate in the Krebs cycle is__

Answer 19

Acetyl-CoA

Question 20

___ is produced primarily from the oxidation of pyruvate by the pyruvate dehydrogenas complex

Answer 20

Acetyl-Coa

Question 21

__ is produced during fatty acid oxidation and protein catabolism along with the Krebs cycle

Answer 21

Acetyl-Coa

Question 22

A protein complex found in the inner membrane of the mitochondria that is essentially a channel that allows H+ ions to flow down from the intermembrane space to the matrix; as this occurs ATP is synthesized from ADP and Pi

Answer 22

ATP synthase

Question 23

A small non-protein electron carrier in the electron transport chain

Answer 23

Coenzyme Q (ubiquinone)

Question 24

The folds of the inner membrane of the mitochondrion

Answer 24

Cristae

Question 25

A small iron-containing protein in the electron transport chain

Answer 25

Cytochrome C

Question 26

A series of enzyme complexes found along the inner mitochondrial membrane. NADH and FADH2 are oxidized by these enzymes; the electrons are shuttled down the chain and are ultimately passed to oxygen to produce water. The electron energy is used to pump H+ out of the mitochondrial matrix; the resulting H+ gradient is subsequently used to drive the production of ATP

Answer 26

Electron transport chain

Question 27

The reduction of pyruvate to either ethanol or lactate in order to regenerate NAD+ from NADH. ___ occurs in the absence of oxygen and allows glycolysis to continue under these conditions

Answer 27

Fermentation

Question 28

A protein associated with FAD that is commonly involved in redox reactions

Answer 28

Flavoproteins

Question 29

___ dephosphorylates fru-1,6-bisP in gluconeogenesis

Answer 29

fructose- 1,6- bisphosphatase

Question 30

The simultaneous activation of metabolic pathways with opposing roles e.g. running glycolysis and gluconeogenesis at the same time. The tight regulation of metabolic pathways exists to prevent ___

Answer 30

futile cycling

Question 31

A peptide hormone produced and secreted by the alpha cells of the pancreas__

Answer 31

glucagon

Question 32

___ targets primarily the liver, stimulating the breakdown of glycogen, thus increasing blood glucose levels

Answer 32

Glucagon

Question 33

A metabolic pathway that synthesizes glucose from non-carbohydrate precursors.

Answer 33

Gluconeogenesis

Question 34

__occurs in the liver when dietary stores of glucose are unavailable and the liver has depleted its stores of glycogen and glucose

Answer 34

Gluconeogenesis

Question 35

The enzyme that catalyzes the first step in the oxidative phase of the pentose phosphate pathway

Answer 35

glucose-6-phosphate dehydrogenase (G6PDH)

Question 36

____ decarboxylates glucose-6-P to form ribulose-5-P and forms NADPH in the process

Answer 36

Glucose-6-phosphate dehydrogenase

Question 37

The enzyme that decarboxylates glu-6-P in gluconeogenesis. This step is important so that glucose can exit the liver cell and enter the bloodstream

Answer 37

Glucose-6-phosphatase

Question 38

The enzyme that catalyzes the phosphorylation and subsequent removal of one glucose monomer at the end of a glycogen polymer

Answer 38

Glycogen phosphorylase

Question 39

The enzyme that catalyzes the addition of glucose monomers to the glycogen polymer

Answer 39

Glycogen synthase

Question 40

The anaerobic splitting of a glucose molecule into 2 pyruvic acid molecules, producing two net ATP molecules and two NADH molecules.

Answer 40

Glycolysis

Question 41

This is the first step in cellular respiration

Answer 41

Glycolysis

Question 42

The bond holding two monosaccharides together

Answer 42

Glycosidic linkage

Question 43

The enzyme that catalyzes the phosphorylation of glucose to form glucose-6-phosphate in the first step of glycolysis

Answer 43

Hexokinase

Question 44

___ is feedback inhibited by glucose-6-P

Answer 44

Hexokinase

Question 45

A peptide hormone produced and secreted by the B-cells of the pancreas

Answer 45

Insulin

Question 46

__targets all cells in the body,especially the liver and muscle, and allows them to take glucose out of the blood (lowering blood glucose levels)

Answer 46

Insulin

Question 47

The third stage of cellular respiration, in which acetyl-CoA is combined with oxaloacetate to form citric acid.

Answer 47

Krebs Cycle

Question 48

What are the byproducts of Krebs cycle?

Answer 48

3 molceuls of NADH, 1 molecule of FADH2, and 1 molecule of GTP

Question 49

The interior of a mitochondrion (the region bounded by the inner membrane).

Answer 49

Matrix

Question 50

The __ is the site of action of the pyruvate dehydrogenase complex and the Krebs cycle

Answer 50

Matrix

Question 51

This is the most common electron carrier in cellular respiration

Answer 51

NADH

Question 52

A four-carbon molecule that binds with the two-carbon acetyl unit of acetyl-CoA to form citric acid in the first step of the Krebs cycle

Answer 52

Oxaloacetate

Question 53

The oxidation of high energy electron carriers (NADH and FADH2) coupled to the phosphorylation of ADP, producing ATP. In eukaryotes this occurs in the mitochondria

Answer 53

Oxidative phosphorylation

Question 54

A metabolic pathway that diverts glucose-6-P from glycolysis in order to form ribose-5-P, which can be used to synthesize nucleotides. It also produces NADPH, which can be used as reducing power in fatty acid synthesis

Answer 54

Pentose phosphate pathway

Question 55

Decarboxylates and phosphorylates oxaloacetate to form phosphoenolpyruvate in the second step of gluconeogenesis

Answer 55

PEPCK Phosphpoenolpyruvate carboxykinase

Question 56

The enzyme that catalyzes the phosphorylation of fructose-6 phosphate to form fructose-1-6-bisphosphate in the third step of glycolysis. This is the main regulatory step of glycolysis.

Answer 56

Phosphofructokinas (PFK)

Question 57

Phosphofructokinase (PFK) is feedback-inhibited by __

Answer 57

ATP

Question 58

A non-protein, but organic molecule (such as a vitamin) that is covalently bound to an enzyme as part of the active site

Answer 58

Prosthetic group

Question 59

A group of three enzymes that decarboxylates pyruvate, creating an acetyl group and carbon dioxide

Answer 59

Pyruvate dehydrogenase complex

Question 60

The ___is the second stage of cellular respiration

Answer 60

Pyruvate dehydrogenase complex

Question 61

Catalyzes the final step in glycolysis, the conversion of PEP into pyruvate

Answer 61

`Pyruvate kinase

Question 62

The product of glycolysis 2 of these are produced from a single glucose molecule

Answer 62

Pyruvic acid

Question 63

Inb the absence of oxygen __ undergoes fermentation and is reduced to either lactic acid or ethanol

Answer 63

Pyruvic acid

Question 64

In the presence of oxygen, ___ is oxidized to produce acetyl-CoA, which can enter the Krebs cycle

Answer 64

Pyruvic acid

Question 65

The tight regulatory control exerted over opposing metabolic pathways in order to avoid futile cycling

Answer 65

Reciprocal control

Question 66

The four steps in order for glucose oxidation to produce CO2 and ATP

Answer 66

1. Glycolysis 2. Pyruvate dehydrogenase complex (PDC) 3. the Krebs cycle 4. Electron trasport/oxidative phosphorylation

Question 67

Glycolysis occurs in the __ and does NOT require oxygen

Answer 67

Cytoplasm

Question 68

During this stage pyruvate produced in glycolysis is decarbozylated to form an acetyl group that is then attached to coenzyme A (Acetyl-CoA)

Answer 68

Pyruvate dehydrogenase complex

Question 69

During pyruvate dehydrogenase a small amount of __ is produced

Answer 69

NADH

Question 70

During ___ and____ can only occur when oxygen is available, but neither use OXYGEN directly

Answer 70

Krebs cucle or PDC

Question 71

KRebs cycle and PDC occur in the __

Answer 71

innermost compartment of the mitochondria: the matrix

Question 72

During this stage the high energy electrons carried by NADH and FADH2 are oxidized to produce ATP

Answer 72

Electron transport/oxidative phosphorylation

Question 73

The ETC is in the __

Answer 73

inner mitochondrial membrane

Question 74

The final stage in ETC is the __

Answer 74

reduction of oxygen to H20

Question 75

__is the universal first step in glucose metabolism

Answer 75

Glycolysis

Question 76

All cells from ALL DOMAINS possess the enzymes of this pathway

Answer 76

Glycolysis

Question 77

What are the products of glycolysis?

Answer 77

``` 2 Pyruvate 2ATP 2NADH 2H20 2 H+ ```

Question 78

___ is the key biochemical valve controlling the flow of substrate to product in glycolysis

Answer 78

Phosphofructokinase becasue its catalysis in the third step of glycolsis is very thermodynamically favorable

Question 79

In oxidartive decarboxylation, pyruvate is changed from a 3-carbon molecule to a ___ while____is given off and ___ is produced

Answer 79

pyruvate is converted to a 2-carbon molecule, CO2 is given off, and NADH is made from NAD+

Question 80

Citric acid is the first intermediate in the Krebs cycle formed from ___ and ___

Answer 80

Oxaloacetate (4 carbons) | Acetyl-CoA (2 carbons)