MCAT Biology : Organic Chemistry, Biochemistry, and Metabolism

Study concepts, example questions & explanations for MCAT Biology

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Example Questions

Example Question #41 : Proteins

You are given the amino acid sequence Ala-Gly-His-Tyr. This is an example of which level of protein structure?

Possible Answers:

Tertiary

Secondary

None of the other answers are correct

Quaternary

Primary

Correct answer:

Primary

Explanation:

Primary protein structure refers to the linear sequence of amino acids, which is the information given in this question. Secondary structure includes interactions between nearby parts of the linear chain, and includes the common examples of alpha-helices and beta-pleated sheets. Tertiary structure is the protein's three-dimensional shape, and quaternary structure refers to interactions between tertiary subunits.

Example Question #211 : Organic Chemistry, Biochemistry, And Metabolism

The term "denaturation," when used in conjunction with proteins or nucleic acids, refers to a change in structural characteristics primarily due to __________.

Possible Answers:

the disruption of covalent bonds

the disruption of non-covalent bonds

the binding of toxic compounds

changes in primary structure

Correct answer:

the disruption of non-covalent bonds

Explanation:

The denaturation of proteins and nucleic acids occurs due to the disruption of non-covalent bonds, especially hydrogen bonds. In the case of nucleic acids, covalent bonds can be disrupted by specific enzymes, but this is not a form of denaturation. Changes in the primary structure of nucleic acids and proteins simply result in the net production of different proteins due to sequential changes of amino acids and nucleotides, not denaturation. Toxic compounds can interfere with nucleic acid and protein formation, but they do so by interrupting the non-covalent forces of each, such as hydrophobic forces and hydrogen bonding. Thus, the correct answer is the disruption of non-covalent bonds.

Example Question #21 : Protein Structure

Nuclear transport is a very important concept of study in modern cellular biology. Transport of proteins into the nucleus of an organism requires energy in the form of GTP, which is attached to a protein called Ras-related Nuclear protein (RAN).

RAN is a monomeric G protein found in both the cytosol as well as the nucleus and its phosphorylation state plays an important role in the movement of proteins into and out of the nucleus. Specifically, RAN-GTP and RAN-GDP binds to nuclear import and export receptors and carries them into or out of the nucleus. They also play a role in dropping off cargo that import and export receptors hold onto. RAN's functions are controlled by two other proteins: RAN guanine exchange factor (RAN-GEF) and RAN GTPase activating protein (GAP). RAN-GEF binds a GTP onto RAN, while RAN-GAP hydrolyzes GTP into GDP. As a result, there is a RAN-GTP and RAN-GDP concentration gradient that forms between the cytosol and nucleus.

One of the main roles of RAN is to bind to nuclear import and export receptors and carry them into or out of the nucleus. Given that import and export receptors are proteins, what can we say about the cooperativity displayed by RAN when it comes to binding to import and export proteins? 

Possible Answers:

Positive cooperativity

There is not enough information to determine what type of cooperativity exists

Negative cooperativity

Both negative and positive cooperativity

No cooperativity

Correct answer:

No cooperativity

Explanation:

Binding cooperativity occurs when binding of one substrate increases or decreases the affinity for the other substrates. For cooperativity to work, the protein in question must have multiple subunits, therefore being at least a dimer. RAN is a monomer, and therefore cannot show any cooperativity. 

Example Question #1 : Enzymes And Enzyme Inhibition

Among the most important pH buffer systems in humans is the bicarbonate buffer, which keeps the blood at a remarkably precise 7.42 pH. The bicarbonate buffer system uses a series of important compounds and enzymes to make the system function. Figure 1 depicts the key reactions that take place.

Untitled

The activity of this buffer system is mainly controlled by the renal and respiratory systems. The renal system excretes bicarbonate in the urine, while the respiratory system “blows off” carbon dioxide as needed. By balancing these two systems as needed, blood pH is maintained in such a narrow range.

Carbonic anhydrase is an organic enzyme. Which of the following is true of carbonic anhydrase? Assume no CO2 or bicarbonate is lost in the reaction.

I. It lowers the activation energy for the conversion of carbon dioxide to carbonic acid

II. It shifts the equilibrium toward carbon dioxide in experimental conditions

III. It modifies chemical species at its allosteric site

Possible Answers:

I and III

I, only

I, II, and III

I and II

III, only

Correct answer:

I, only

Explanation:

Only choice I is correct. Carbonic anhydrase lowers the activation energy of a chemical reaction, as does any catalyst. Thermodynamics, including equilibria, are not modified by catalysts, so choice II is incorrect. Choice III is also incorrect, as an allosteric site is typically used to bind regulators of enzymes to induce conformational changes, while an active site would be where the actual catalysis takes place.

Example Question #2 : Enzymes And Enzyme Inhibition

Hemoglobin is the principal oxygen-carrying protein in humans. It exists within erythrocytes, and binds up to four diatomic oxygen molecules simultaneously. Hemoglobin functions to maximize oxygen delivery to tissues, while simultaneously maximizing oxygen absorption in the lungs. Hemoglobin thus has a fundamentally contradictory set of goals. It must at once be optimized to absorb oxygen, and to offload oxygen. Natural selection has overcome this apparent contradiction by making hemoglobin exquisitely sensitive to conditions in its microenvironment.

One way in which hemoglobin accomplishes its goals is through the phenomenon of cooperativity. Cooperativity refers to the ability of hemoglobin to change its oxygen binding behavior as a function of how many other oxygen atoms are bound to the molecule. 

Fetal hemoglobin shows a similar pattern of cooperativity, but has unique binding characteristics relative to adult hemoglobin. Fetal hemoglobin reaches higher saturation at lower oxygen partial pressure.

Because of cooperativity, adult and fetal oxygen-hemoglobin dissociation curves appear as follows.

Untitled

Beyond its ability to carry oxygen, hemoglobin is also effective as a blood buffer. The general reaction for the blood buffer system of hemoglobin is given below.

H+ + HbO2 ←→ H+Hb + O2

The observed cooperativity of oxygen binding to hemoglobin can be explained by changes in shape to the hemoglobin molecule upon oxygen attachment. What kind of change would this be considered?

Possible Answers:

Competitive

Uncompetitive

Primary

Allosteric

Noncompetitive

Correct answer:

Allosteric

Explanation:

Hemoglobin reacts with an allosteric change to oxygen binding, because the shape of the molecule changes. In fact, oxygen is considered a "homotropic" allosteric regulator because it is the normal substrate for hemoglobin, and affects its changes on that molecule by binding to its active site.

Example Question #1 : Enzymes And Enzyme Inhibition

Cryptosporidium is a genus of gastrointestinal parasite that infects the intestinal epithelium of mammals. Cryptosporidium is water-borne, and is an apicomplexan parasite. This phylum also includes Plasmodium, Babesia, and Toxoplasma. 

Apicomplexans are unique due to their apicoplast, an apical organelle that helps penetrate mammalian epithelium. In the case of cryptosporidium, there is an interaction between the surface proteins of mammalian epithelial tissue and those of the apical portion of the cryptosporidium infective stage, or oocyst. A scientist is conducting an experiment to test the hypothesis that the oocyst secretes a peptide compound that neutralizes intestinal defense cells. These defense cells are resident in the intestinal epithelium, and defend the tissue by phagocytizing the oocysts. 

She sets up the following experiment:

As the neutralizing compound was believed to be secreted by the oocyst, the scientist collected oocysts onto growth media. The oocysts were grown among intestinal epithelial cells, and then the media was collected. The media was then added to another plate where Toxoplasma gondii was growing with intestinal epithelial cells. A second plate of Toxoplasma gondii was grown with the same type of intestinal epithelium, but no oocyst-sourced media was added.

Where is the likely site of the neutralizing toxin synthesis in cryptosporidium cells?

Possible Answers:

Smooth endoplasmic reticulum

Mitochondria

Nucleus

Nucleolus

Ribosomes

Correct answer:

Ribosomes

Explanation:

The passage specifies that the neutralizing agent is a peptide. Ribosomes synthesize peptides. Nuceloulus may have been a tempting answer, but is where ribosomes are synthesized, not peptides.

Example Question #1 : Enzymes And Enzyme Inhibition

Of the following statements, which is true regarding the change in free energy (ΔG) of a reaction?

Possible Answers:

Two of these answers are correct.

ΔG predicts the rate of a reaction.

When ΔG is zero, the system is at equilibrium.

ΔG is a measure of whether a reaction is spontaneous.

Correct answer:

Two of these answers are correct.

Explanation:

Gibbs Free Energy (G) is a measure of the capacity of a system to do useful work as it proceeds to equilibrium. ΔG measures the spontaneity of a reaction; a negative value for ΔG indicates a spontaneous reaction, a positive value indicates a non-spontaneous reaction, and a value of zero indicates a reaction at equilibrium. ΔG does not predict enzyme kinetics; it only predicts thermodynamics, thus, two of the answers are correct.

Example Question #2 : Enzymes And Enzyme Inhibition

Drain cleaners a common household staple, used to open clogged drains in bathtubs and sinks. Human hair is a common culprit that clogs pipes, and hair is made predominately of protein. Drain cleaners are effective at breaking down proteins that have accumulated in plumbing. Drain cleaners can be either acidic or basic, and are also effective at breaking down fats that have accumulated with proteins.

A typical reaction—reaction 1—which would be expected for a drain cleaner on contact with human hair, would be as follows in an aqueous solution:

Pic_1

Another reaction that may occur, reaction 2, would take place as follows in an aqueous solution:

Pic_2

Protein that forms the hair discussed in the preceeding passage is considered strucutral protein. Functional proteins, such as enzymes, are the other major class. Which of the following is true of enzymes?

Possible Answers:

They lower activation energy by changing the equilibrium position of a reaction.

They lower activation energy by providing an alternate reaction mechanism.

They raise activaiton energy to prevent the reverse reaction from occuring as quickly.

They lower activation energy by changing the products of a reaction.

They only lower activation energy of the original reaction mechanism.

Correct answer:

They lower activation energy by providing an alternate reaction mechanism.

Explanation:

Enzymes are biological catalysts that function to lower activation energy via an alternative reaction pathway. They never alter the equilibrium of the reaction they impact.

Example Question #3 : Enzymes And Enzyme Inhibition

Drain cleaners a common household staple, used to open clogged drains in bathtubs and sinks. Human hair is a common culprit that clogs pipes, and hair is made predominately of protein. Drain cleaners are effective at breaking down proteins that have accumulated in plumbing. Drain cleaners can be either acidic or basic, and are also effective at breaking down fats that have accumulated with proteins.

A typical reaction—reaction 1—which would be expected for a drain cleaner on contact with human hair, would be as follows in an aqueous solution:

Pic_1

Another reaction that may occur, reaction 2, would take place as follows in an aqueous solution:

Pic_2

Protein that forms the hair discussed in the preceeding passage is considered strucutral protein.  Functional proteins, such as enzymes, are the other major class. Which of the following is expected in an enzymatic biological reaction?

I. Faster rate than non-enzymatic reaction

II. Enzymatic coupling to hydrolysis reactions

III. More product generation relative to amount of reactant than non-enzymatic reaction

Possible Answers:

I and II

II, only

I, II, and III

I, only

I and III, only

Correct answer:

I and II

Explanation:

Enzymatic reactions will always proceed faster than if there was no enzyme present. They will also often be coupled to hydrolysis reactions to drive them forward thermodynamically, such as ATP hyrodlysis to make an otherwise unfavorable reaction proceed. The equilibrium constant of an enzymatic reaction is never different than the constant for the same reaction without enyzme, however, and thus choice III is incorrect.

Example Question #1 : Enzymes And Enzyme Inhibition

A student observes an enzymatic chemical reaction that normally takes place in human blood. She performs an experiment to see how certain conditions affect the reaction with the enzyme fully saturated with substrate. What should she do to speed the reaction up?

Possible Answers:

Increase the enzyme concentration

Increase the temperature to 40 degrees Celsius

Make the pH 7.0

Add more substrate

Remove some of the enzyme

Correct answer:

Increase the enzyme concentration

Explanation:

Adding more enzyme is the only way to make this reaction proceed faster. Since this is a reaction that takes place in the blood, the optimal conditions are 37 degrees Celsius and a pH of 7.4. Adding more substrate could help in certain conditions, but we know from the question that there is no free enzyme in the reaction so adding more would not help. Removing enzyme would obviously sow the reaction down.

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