Biochemistry : Macromolecule Fundamentals

Study concepts, example questions & explanations for Biochemistry

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Example Questions

Example Question #461 : Biochemistry

What is the general name for a tightly bound, specific polypeptide unit required for the biological function of some proteins?

Possible Answers:

Heme group

Chaperonin

Alpha helix

Prosthetic group

Correct answer:

Prosthetic group

Explanation:

A prosthetic group fits the definition listed in the question. These groups help specific proteins carry out their functions. Prosthetic groups can be inorganic (e.g. a metal ion) or organic (e.g. a vitamin, lipid, or sugar). Heme is an example of a prosthetic group (for the hemoglobin protein), but would be the wrong answer because the question asks for the general name of the defined structure. An alpha helix is a common secondary structure of proteins and has nothing to do with the function of prosthetic groups. Chaperonins are proteins that provide optimal conditions for folding of other proteins, ensuring that proteins fold correctly. These also have nothing to do with prosthetic groups.

Example Question #42 : Amino Acids And Proteins

Which of the following is not a feature of all amino acids?

Possible Answers:

A carboxyl group

An amino group

Nitrogen within the side chain

A variable R-group

All of these choices are features of all amino acids

Correct answer:

Nitrogen within the side chain

Explanation:

All twenty amino acids contain the same backbone, which includes an alpha amino and alpha carboxyl group (). All amino acids also contain a variable R-group (also known as a "side chain"), and it is this group that distinguishes one amino acid from another. Therefore, the correct answer is that not all amino acids contain nitrogen in their side chains. While all 20 amino acids contain nitrogen within their backbone, only seven have nitrogen within the side chain.

Example Question #43 : Amino Acids And Proteins

Which amino acid contains neither sulfur nor nitrogen in its side chain?

Possible Answers:

Asparagine

Tyrosine

Arginine

Cysteine

Methionine

Correct answer:

Tyrosine

Explanation:

Within the side chain of tyrosine, there is a phenol group. However, a phenol group contains neither sulfur nor nitrogen. Methionine and cysteine are the only two amino acids that contain sulfur, which is worth memorizing. Seven amino acids contain nitrogen, including arginine and asparagine.

Example Question #44 : Amino Acids And Proteins

Which of the following is not a nonpolar amino acid?

Possible Answers:

Leucine

Glycine

Tryptophan

Isoleucine

All choices are nonpolar

Correct answer:

All choices are nonpolar

Explanation:

Typically, nonpolar amino acids have side chains containing only carbons and hydrogens. The side chain on glycine contains only a hydrogen, and is nonpolar. The side chains on leucine and isoleucine contain nothing but carbons and hydrogens, so they are also nonpolar. Finally, the side chain on tryptophan does contain a nitrogen. However, tryptophan is large enough and contains enough carbons to balance out the increased electronegativity of the nitrogen within the side chain. Therefore, tryptophan, along with the rest of the answer choices, is nonpolar.

Example Question #45 : Amino Acids And Proteins

Where do hydrophobic amino acids have a tendency to cluster within a protein?

Possible Answers:

Away from water only

The interior of a protein only

Both the interior of a protein and away from water

Near water only

The exterior of a protein only

Correct answer:

Both the interior of a protein and away from water

Explanation:

The word hydrophobic means "water fearing". Knowing this, you can eliminate the answer choice "near water". Typically, the exterior of a protein is surrounded by water, so we can also eliminate that answer choice. It is true that hydrophobic amino acids will cluster away from water. The interior of a protein typically is away from water, so the correct answer is "Both the interior of a protein and away from water."

Example Question #462 : Biochemistry

The "kinks" formed by proline residues in a chain of amino acids is an example of what degree of amino acid structure?

Possible Answers:

Tertiary

Auxiliary

Quaternary

Primary

Secondary

Correct answer:

Secondary

Explanation:

Because of the unique structure of proline (its side chain is actually attached to its amino backbone group), it forms kinks within a chain of amino acids. These kinks are due to a lack of hydrogen bonding in comparison to other amino acids. Therefore, this is an example of the secondary structure of a protein being disrupted. Secondary structure is the term used to describe folding of the polypeptide chain due to hydrogen bonding between the backbone amino and carboxyl groups. Primary structure refers to the amino acid order itself. Tertiary relates to R-group interactions between residues that are farther apart in the chain. Finally, quaternary structure occurs at the most "macro" level, and refers to interactions between subunits of a protein.

Example Question #47 : Macromolecule Fundamentals

How many distinct tetrapeptides can be made from one unit each of Asp, Trp, Phe, and Arg?

Possible Answers:

Correct answer:

Explanation:

"Asp" refers to aspartic acid; "Trp" refers to tryptophan; "Phe" refers to phenylalanine; and "Arg" refers to arginine. 

A peptide bond is made from joining the amino group of one amino acid to the carboxyl group of another. A tetrapeptide is a peptide consisting of four amino acids, which are connected via peptide bonds. There are several ways in which these four amino acids could be joined. Any of the four could be located at the first position; any of the remaining three could be located at the second position; either of the remaining two at the third position, etc. Thus, there are  possible tetrapeptides.

Asp-Trp-Phe-Arg

Asp-Trp-Arg-Phe

Asp-Arg-Phe-Trp

Asp-Arg-Trp-Phe

Asp-Phe-Trp-Arg

Asp-Phe-Arg-Trp

 

Phe-Asp-Trp-Arg

Phe-Asp-Arg-Trp

Phe-Trp-Asp-Arg

Phe-Trp-Arg-Asp

Phe-Arg-Trp-Asp

Phe-Arg-Asp-Trp

 

Trp-Asp-Phe-Arg

Trp-Asp-Arg-Phe

Trp-Phe-Arg-Asp

Trp-Phe-Asp-Arg

Trp-Arg-Phe-Asp

Trp-Arg-Asp-Phe

 

Arg-Asp-Phe-Trp

Arg-Asp-Trp-Phe

Arg-Phe-Trp-Asp

Arg-Phe-Asp-Trp

Arg-Trp-Phe-Asp

Arg-Trp-Asp-Phe

Example Question #47 : Amino Acids And Proteins

Which of the following treatments can result in protein denaturation?

Possible Answers:

pH extremes

All of these

Heat

Detergents

Correct answer:

All of these

Explanation:

Different proteins have different optimal temperature and pH ranges, values at which they function best. Outside of these ranges, they can become denatured. Thus, treatments of heat, low pH, or high pH can cause proteins to denature. 

Detergents denature proteins in a different way. Detergents are amphipathic, meaning that they have both hydrophobic and hydrophilic regions. Because all membrane proteins are also amphipathic (they must be in order to remain anchored in the lipid bilayer), the detergent can be attracted to these regions and force the membrane proteins apart.

Example Question #48 : Amino Acids And Proteins

Which of these amino acids is not found in proteins?

Possible Answers:

Isoleucine

Ornithine

Proline

Asparagine

Correct answer:

Ornithine

Explanation:

Non-proteinogenic amino acids are those which are not found in the genetic code of any organism. These are also called "unnatural" amino acids, as compared to "natural" amino acids which are found in the genetic code. Isoleucine, proline, and asparagine are three of approximately one hundred and forty "natural" amino acids. Ornithine is a non-proteinogenic amino acid that has a role in the urea cycle.

Example Question #44 : Amino Acids And Proteins

Which type of DNA mutation is characterized by a base change that results in an early stop codon instead of the intended amino acid?

Possible Answers:

Frameshift mutation

Nonsense mutation

Missense mutation

Silent mutation

Correct answer:

Nonsense mutation

Explanation:

Stop the nonsense! When a base change occurs but results in the same amino acid being read, this is considered a silent mutation. When a base change results into a different amino acid (concervative-new amino acid is similar in chemical structure), this is a missense mutation. When a Frame shift mutation occurs, the change results in misreading of all nucleotides downstream, usually resulting in a nonfunctional protein. 

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