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Example Questions
Example Question #2 : Secondary Structure
Which of the following best describes a characteristic of a protein motif?
A commonly occurring arrangement made up of multiple secondary structures
A unique arrangement made up of tertiary structures found only in a single protein
A unique arrangement made up of secondary structures found only in a single protein
A family of proteins with similar functions
A commonly occurring arrangement made up of tertiary structures
A commonly occurring arrangement made up of multiple secondary structures
A protein motif (aka supersecondary structure) is a defined arrangement of secondary structures within a protein. It is commonly occurring enough to have an identified structure. An example would be the beta-alpha-beta loop. While the arrangement is made up of secondary structure, the overall motif itself can be considered supersecondary or possibly even tertiary, though its components are secondary structures. Motif's do not necessarily have a defined function across different proteins. Protein domains on the other hand, do.
Example Question #2 : Secondary Structure
What type of bonds are the "backbone" of secondary protein structure?
Peptide bonds
Van der Waals interactions
Amide bonds
Amino acid bonds
Hydrogen bonds
Hydrogen bonds
Hydrogen bonds stabilize interactions among the amide and carboxyl groups in the main chain of the polypeptide. These interactions may induce the formation of alpha-helices and/or beta-pleated sheets.
Example Question #2 : Secondary Structure
Which of the following amino acids is least likely to be found in the middle of an alpha helix?
Glutamic acid
Serine
Methionine
Proline
Proline
Proline is bound to two alkyl groups thus giving it a planar configuration, giving the nitrogen only the ability to accept hydrogen bonds not donate them. While this is not a problem at the beginning of an alpha helix this can disturb the bonds if place further down the chain. Thus proline is often referred to as the "alpha helix buster."
Example Question #1 : Secondary Structure
The stabilization of secondary structure in polypeptides is conferred by which of the following?
The amino acid backbones
The R-groups of the amino acids
Disulfide bonds
Metal cations
The phosphate groups
The amino acid backbones
Alpha helices and beta sheet, the dominant secondary structural motifs in polypeptides are formed by hydrogen bonds between the carbonyl and amino groups of the amino acid backbone.
Example Question #1 : Secondary Structure
Why are antiparallel beta sheets more stable than parallel beta sheets?
The hydrogen bond angle is 150 degrees
The antiparallel sheets are composed of more stable amino acids
There are more covalent interactions between its amino acids
The hydrogen bonding angle is optimized by antiparallel sheets
There are more hydrophobic interactions between its amino acids
The hydrogen bonding angle is optimized by antiparallel sheets
In an antiparallel beta sheet, the hydrogen bonding angle is 180 degrees and optimal; this is the most stable angle. In parallel sheets, it is a less stable 150 degrees. Whether a sheet is parallel or antiparallel does not tell us anything about what amino acids it is composed of, so each of the other answers is incorrect.
Example Question #2 : Secondary Structure
In a sequence of amino acids within an alpha helix, between which amino acids in the sequence does hydrogen bonding occur (i.e. every how many amino acids)?
1 and 6, so every 4 amino acids
1 and 6, so every 6 amino acids
1 and 3, so every 3 amino acids
1 and 5, so every 5 amino acids
1 and 4, so every 4 amino acids
1 and 4, so every 4 amino acids
In an alpha helix, hydrogen bonding occurs every four amino acids, starting from the 1st binding to the 4th in the sequence; the 2nd amino acid binds to the 6th, the 3rd to the 7th, and so on.
Example Question #1 : Secondary Structure
With respect to proteins, alpha structures are __________ and beta structures are __________.
helices . . . pleated sheets
left . . . right
primary . . . secondary
parallel . . . antiparallel
L . . . D
helices . . . pleated sheets
Alpha helices and beta pleated sheets are two forms of secondary structure. Alpha helices can be either right handed (counterclockwise) or left handed (clockwise). Beta pleated sheets can be either parallel (amino and carbonyl groups do not line up) or anti parallel (amino and carbonyl groups line up).
Example Question #1 : Secondary Structure
Which of the following amino acids is found in beta turns?
Histidine
Proline
Cysteine
Methionine
Glutamine
Proline
Glycine and proline are the two amino acids that are found in beta turns. These 180 degree turns are composed of four total amino acids.
Example Question #1 : Secondary Structure
A(n) __________ is formed by antiparallel beta sheets, where the first and last strands are connected via hydrogen bonding.
Rossman fold
alpha domain
beta barrel
helix-turn-helix
beta barrel
All the answer choices are different examples of protein supersecondary structures. Beta barrels are commonly found in transmembrane porin proteins.
Example Question #11 : Protein Folding
What is the only level of protein structure that does not involve covalent bonding?
Quaternary structure
Secondary structure
Primary structure
Tertiary structure
Secondary structure
Covalent bonding is when two nonmetals share electrons in order to form a bond. This type of bonding can be observed in the primary (peptide bonds), tertiary (disulfide bonds), and quaternary (disulfide bonds) levels of protein structure. The secondary structure of proteins only uses hydrogen bonding as the folding force.
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