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Example Questions
Example Question #19 : Identifying Monomers And Dimers
How many water molecules are produced upon synthesis of myoglobin, a 154-amino acid protein?
1
0
153
154
153
Amino acid polymerization (translation) involves condensation, or the production of free water. For each peptide bond that is formed, one molecule of water is also formed. Myoglobin contains 154 amino acids, thus contains 153 peptide bonds and 153 molecules of water produced per protein synthesized.
Example Question #21 : Identifying Biochemical Molecules
Neurotransmitters such as monoamines are essential for proper neuronal functioning. Monoamines come from precursor aromatic amino acids. Knowing this information alone, which of the following amino acids could be precursors to monoamines?
I. Histidine
II. Tryptophan
III. Tyrosine
I, II, and III
I and II
II only
II and III
I, II, and III
The question states that monoamines are synthesized from aromatic amino acids. Aromatic amino acids are defined as those that have one or more aromatic rings in their structure. There are three main aromatic amino acids: histidine, tryptophan and tyrosine. Tyrosine is the precursor for many of the catecholamines (such as norepinephrine, epinephrine and dopamine) whereas histidine is the precursor for histamine. Tryptophan is the precursor for tyrosine; therefore, a lack of tryptophan will result in decreased catecholamine synthesis.
Example Question #22 : Identifying Biochemical Molecules
After being placed in an acidic solution, the net charge on an amino acid is observed to be positive. Which of the following could be the identity of the amino acid?
I. Arginine
II. Lysine
III. Leucine
II and III
II only
III only
I and II
I and II
The question states that the amino acid is placed in an acidic solution. This means that the amino groups and the carboxylic acid groups on the amino acids will be protonated (due to the excess hydrogen ions found in an acidic environment). When they become protonated, basic groups like amines become positively charged whereas acidic groups like carboxylic acids become neutral. Basic amino acids have extra basic groups (like amino groups) whereas acidic amino acids have extra acidic groups (like carboxylic acids). Of the listed amino acids, arginine and lysine are basic amino acids and will have a positive charge (due to the protonated basic groups). There are three basic amino acids (arginine, lysine and histidine) whereas there two acidic amino acids (aspartic acid and glutamic acid). Leucine is neither acidic nor basic.
Example Question #23 : Identifying Biochemical Molecules
Which of the following amino acids has a side chain that is capable of forming a hydrogen bond?
Valine
Isoleucine
Glycine
Glutamate
Leucine
Glutamate
For this question, we need to identify which amino acid has a side group that is capable of forming hydrogen bonds. To do this, it is important to be familiar with all of the amino acids, and to be able to recognize their important characteristics.
From the answer choices, the amino acid glycine has a side chain that is simply just a hydrogen atom. Moreover, the amino acids leucine, isoleucine and valine have aliphatic side chains that are hydrophobic. All of these amino acids are incapable of forming hydrogen bonds with their side chain.
That brings us to the amino acid glutamate, which has a side chain with a carboxyl group. Due to this carboxyl group, glutamate's side chain is capable of forming hydrogen bonds.
Example Question #24 : Identifying Amino Acids
Consider the following peptide.
At physiological pH (), what is the expected charge on the peptide?
In this question, we're presented with the sequence of amino acids in a polypeptide at a given pH, and we're asked to determine what the charge of this peptide would be.
To begin, we can see that the peptide is given to us in terms of single letter amino acid abbreviations. Thus, these abbreviations need to be known in order to answer this question. The amino acid and its corresponding abbreviation for the ones shown in the question stem are as follows.
K - Lysine
T - Threonine
W - Tryptophan
D - Aspartate
G - Glycine
M - Methionine
R - Arginine
V - Valine
P - Proline
A - Alanine
Next, since we need to determine the overall charge of this peptide, we'll need to be familiar with which amino acids have a side group that is capable of carrying a charge.
The amino acids that are capable of having a negatively charged side chain are aspartate and glutamate.
The amino acids that are capable of having a positively charged side chain are lysine, arginine, and histidine.
Thus, we need to go through the amino acids given to us in the question stem, and first spot which ones would have a negative charge. Then, we do the same thing for positive charge. Next, we consider the C-terminus and the N-terminus. Finally, we sum these all together to obtain our answer.
Looking through the residues in the peptide, only aspartate can carry a negative charge. Thus, there is one negatively charged residue.
Again, looking through the residues in the peptide, we can see that lysine and arginine are capable of carrying a positive charge. This means that we have two positively charged residues.
Next, let's consider the two ends of the peptide. At the C-terminal end is the alpha-carboxy group, which will carry a negative charge at physiological pH. Also, at the N-terminal end is the alpha-amino group, which will carry a positive charge at physiological pH.
Finally, we can sum everything together.
Thus, the net charge of our peptide is expected to be .
Example Question #24 : Identifying Biochemical Molecules
Which of the following amino acids is negatively charged in a solution with pH 9.0?
Tyrosine
Lysine
Methionine
Glutamic acid
Arginine
Glutamic acid
This problem tests knowledge of amino acid pKa values. Because the R-group of glutamic acid has a very low pKa of 4.25, which is less than the solution pH of 9.0, it will be negatively charged. Lysine and arginine are both positively charged at this pH, whereas tyrosine and methionine are both neutral.
Example Question #25 : Identifying Biochemical Molecules
Which of the following amino acids is positively charged in a solution with pH 7.0?
Tyrosine
More than one of these
Serine
None of these
Arginine
Arginine
The guanidino group of arginine is protonated in solutions with pH at or below the pKa of 12.5. It is a positively charged basic side chain that becomes neutral at a pH 12.5 or greater.
Serine and tyrosine both have uncharged polar side chains with one hydroxyl group, but only tyrosine has a pKa value for its side chain of 10.5. This indicates that tyrosine will lose its proton above pH 10.5 and is therefore neutral at pH 7.0.
Example Question #26 : Identifying Biochemical Molecules
Which of the amino acids has a second asymmetric carbon?
Histidine
More than one of these
Isoleucine
Leucine
Threonine
More than one of these
All the amino acids (except glycine) are chiral, but threonine and isoleucine are the only two with a second asymmetric carbon. As a result, they give two pairs of enantiomers that have different physical properties.
Example Question #27 : Identifying Amino Acids
Which of the amino acids strongly absorb UV light?
G, A, M
F, Y, W
None of these; amino acids do not absorb UV light.
S, T, M
Y, H, I
F, Y, W
Phenylalanine (F), tyrosine (Y), and tryptophan (W) all contain bulky aromatic side groups that cause proteins to absorb UV light at 280 nm.
Example Question #27 : Identifying Biochemical Molecules
Which of the following describes amino acids with aromatic R-roups?
Phenylalanine, tyrosine, and tryptophan
Can absorb ultraviolet light
Nonpolar
All other answers
Hydrophobic
All other answers
Phenylalanine, tyrosine, and tryptophan are amino acids with an aromatic (benzene) ring that are relatively nonpolar aand participate in hydrophobic interactions.
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