AP Biology : AP Biology

Study concepts, example questions & explanations for AP Biology

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Example Questions

Example Question #2521 : Ap Biology

Which of the following are made of protein? 

Possible Answers:

Starch

Enzymes

Cholesterol 

Steroids

Triacylglycerols

Correct answer:

Enzymes

Explanation:

Steroids fall into the lipid category, characterized by a carbon skeleton composed of four fused rings  Cholesterol is a type of steroid; it is synthesized in the liver, and is necessary for the production of sex hormones. Triacylglycerol is also a type of lipid, composed of three fatty acid molecules and a glycerol (also known as a triglyceride). Starch is a polymer of glucose monomers. Its primary function is to store energy. A protein is a molecule that is composed of polypeptides, folded into a 3D structure. Each protein is composed of a combination of amino acids. Proteins make up over 50% of dry mass of a cell and have many different functions like speeding up chemical reactions, defense, storage, transport, cellular communication, movement, and structural support. Enzymes are types of proteins that speed up chemical reactions, and are never consumed during reactions.

Example Question #104 : Macromolecules

Proteins consist of a primary, secondary, tertiary, and sometimes a quaternary structure. The primary structure describes the protein’s amino acid sequences bonded together via peptide bonds. The secondary structure describes the protein’s folding pattern dictated by the hydrogen bonds. In the secondary structure, the two common formations are in the alpha or beta comfirmation. The tertiary structure describes the three dimensional structure of the protein that is formed by the following interactions: hydrogen bonding, hydrophobic interactions, van der Waal’s interactions, and electrostatic interactions between the R groups of the amino acids. These various interactions allow the protein to fold into a globular formation. Finally, the quaternary structure describes how multiple globular proteins can interact with each other to form a multi-subunit protein.

Drug X is able to disrupt the amino acids sequence. Which of the following protein structures will be altered by Drug X?

Possible Answers:

Only the primary structure will be disrupted

All four levels of protein structure will be disrupted

Only the quaternary structure will be disrupted

Only the secondary structure will be disrupted

Only the tertiary structure will be disrupted

Correct answer:

All four levels of protein structure will be disrupted

Explanation:

All of the protein structures will be altered and disrupted. Drug X disrupts the amino acid sequences in the primary structure of the protein. The primary structure acts as the protein’s blueprint. It can be concluded that if the primary sequence is altered, all of the subsequent structures will be disrupted as well. The sequence of amino acids encode for the protein’s particular shape and function; disrupting the code will change the shape and function of the primary, secondary, tertiary, and quaternary structures of the protein.

Example Question #71 : Identify Structure And Purpose Of Carbohydrates, Lipids, Proteins, And Nucleic Acids

Which of these does not give rise to the versatility of protein functions found in nature?

Possible Answers:

Quaternary structure

None of these

Primary structure

Properties of side chains of each amino acid

Secondary structure

Correct answer:

None of these

Explanation:

All of these affect protein function and give rise to the many functions of proteins. The order in which the individual residues (amino acids) are bonded contributes to the overall shape of a protein due to interactions between each amino acid side chain. This order matters so that the proper side chains can interact. The secondary structure of a protein consists of alpha helices and beta pleated sheets. Both of which play widely different roles structurally in cells. The quaternary structure categorizes interactions between different subunits of protein. Several subunits come together to perform a function they otherwise could not.

The different properties of the amino acid side chains are perhaps the most important aspect of protein function. Some are hydrophobic which are found in the centers of proteins (when the protein is globular). Others are hydrophilic and are found on the exterior of proteins. Yet are others are protonated or unprotonated in certain pH ranges. All of these give rise to incredibly diverse protein functions. As an example, there are pores in cell membranes called aquaporins that resemble hollow barrels or cylinders. These barrels are beta pleated sheets and the interior (the hole the membrane) is coated with hydrophilic amino acids while the exterior (which is hidden in the lipid bilayer of the cell membrane) consists of hydrophobic amino acids.

Example Question #102 : Macromolecules

Polymers of amino acids are called __________.

Possible Answers:

carbohydrates

nucleic acids

ribosomes

polypeptides

Correct answer:

polypeptides

Explanation:

Polymers of amino acids are called polypeptides. A protein is made up of one or more polypeptide chains that has folded and coiled in specific 3D configurations. Nucleic acids are polymers of nucleotides. Examples of nucleic acids are RNA and DNA. Ribosomes are the site of protein synthesis and are made of rRNA and protein.

Example Question #103 : Macromolecules

How many naturally occurring amino acids are there?

Possible Answers:

It depends on the length of the polypeptide

Correct answer:

Explanation:

All proteins are made up of amino acids. Even though proteins are highly diverse they all can be built from the same set of 20 amino acids. Thus, the order in which these amino acids are linked together (primary structure, which is directly determined by the DNA sequence) determines its structure and function.

Example Question #104 : Macromolecules

Amino acids possess both __________ and __________.

Possible Answers:

glycerol . . . carbonyl groups

glycerol . . . amino groups

carboxyl . . . amino groups

hydroxyl . . . amino groups

Correct answer:

carboxyl . . . amino groups

Explanation:

Amino acids are made up of carboxyl and amino groups. Hence their name, amino acids describes the functional groups found in all proteins, regardless of their R-groups. Carboxyl groups are also known as carboxylic acid groups. Glycerol is found in lipids, specifically fats where it is linked to fatty acid chains. Hydroxyl groups are also known as alcohol groups and are not present in all amino acids, although, some R-groups contain hydroxyl functional groups. 

Example Question #105 : Macromolecules

The covalent bond that links two amino acids together is called __________.

Possible Answers:

an amino linkage

a phosphodiester bond

a peptide bond

an ester bond

Correct answer:

a peptide bond

Explanation:

The covalent bond between two amino acids is called a peptide bond. This is formed by positioning two amino acids so the carboxyl group of one is adjacent to the amino group of another. An enzyme then joins the two via a dehydration synthesis reaction. Ester bonds link fatty acids to glycerol heads, and phosphodiester bonds are formed between the sugar and phosphate backbone of a nucleic acid.

Example Question #2522 : Ap Biology

The unique sequence of amino acids in a protein is its __________.

Possible Answers:

quaternary structure

tertiary structure

secondary structure

primary structure

Correct answer:

primary structure

Explanation:

The primary structure of a protein is its amino acid sequence. The coils and folds of a protein are its secondary structure. Irregular contortions in the protein structure due to interactions between amino acid side chains is the tertiary structure. The overall structure when two or more polypeptides aggregated is the quaternary structure.  

Example Question #2523 : Ap Biology

The unique three-dimensional shape of a protein is called its __________.

Possible Answers:

primary structure

sequence

molecular weight

conformation

peptide configuration

Correct answer:

conformation

Explanation:

Conformation is the the term for the three dimensional structure of proteins. Though the types of proteins are incredibly diverse they are all polymers made up of the same set of 20 amino acids. A protein's molecular weight involves the sum of all the atoms and their abundances, molecular weight is often used to approximate the size of a protein when determining if it will pass through a pore or channel in a membrane. The amino acid sequence is the primary structure, and is held together by peptide bonds.

Example Question #111 : Macromolecules

Disulfide bonds may be formed in a protein's __________.

Possible Answers:

Two of these.

quaternary structure

secondary structure

tertiary structure

Correct answer:

Two of these.

Explanation:

Disulfide bonds may be formed in both tertiary and/or quaternary structures of a protein. These bonds result from the oxidation of the R-group (side chain) of the amino acid cysteine.

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