AP Biology : AP Biology

Study concepts, example questions & explanations for AP Biology

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Example Questions

Example Question #2 : Understanding Amino Acids

What are the components of an amino acid?

Possible Answers:

An “R” group, an amine, and a hydrogen atom

An “R” group, an amine, a carboxylic acid, and a sulfhydryl group

An “R” group, an amine, a carboxylic acid, and a hydrogen atom

An “R” group, an amine, a carboxylic acid, and a methyl group

Correct answer:

An “R” group, an amine, a carboxylic acid, and a hydrogen atom

Explanation:

Amino acids consist of an amine, a carboxylic acid, a hydrogen atom and a side chain (often simply referred to as an “R group”). Differences between these side chains are what differentiate amino acids from one another. These four components are bound to a central carbon atom, giving each amino acid a stereocenter. Amino acids form peptide bonds through condensation reactions between the carboxyl group of one residue and the amino group of another.

Example Question #2 : Understanding Amino Acids

What type of bonds are used to link amino acids into a chain?

Possible Answers:

Peptide bonds

Glycosidic bonds

Hydrogen bonds

Ionic bonds

Correct answer:

Peptide bonds

Explanation:

Peptide bonds are the uniquely named form of covalent bonds that hold together amino acids. These bonds are formed when the carboxylic acid of one amino acids reacts with the amino group of another amino acid. The result is a peptide polymer, known as a polypeptide, and a water molecule.

Glycosidic linkages are seen in sugars, and are used to bind monosaccharides. Hydrogen and ionic bonds are more general intermolecular forces. Hydrogen bonding helps shape the secondary and tertiary structure of proteins, but does not help in the formation of an amino acid chain.

Example Question #31 : Proteins

What is a similarity between all amino acids in the body?

Possible Answers:

All contain amino and carboxyl groups

All contain side chains

All can be used as the first amino acid in a protein structure

All fit into the alpha-helix structure

All are used in every protein in the body

Correct answer:

All contain amino and carboxyl groups

Explanation:

The amino acids, as denoted by the name, contain amino and carboxyl groups. Each amino acid has the amine group connected to a central carbon, which is then connected to a carboxyl group.

Amino acids may contain R-groups on the central carbon, and all amino acids have a specific R-group except for glycine, which is the simplest amino acid. Glycine is bound to an extra hydrogen atom in place of an R-group. Only methionine can start a protein structure; methionine is coded by the start codon on an mRNA sequence. Some amino acids are capable of forming alpha-helices, while others are capable of disrupting and breaking alpha-helices. Proline, for example, frequently disrupts this secondary structure. Each protein is coded by a specific sequence of amino acids; not all proteins will contain every amino acid.

Example Question #4 : Understanding Amino Acids

The genetic code consists of three base pairs per codon and allows for 64 unique amino acid combinations. If instead the genetic code were to contain four base pairs per codon, what would be the maximum number of amino acids that could be formed from this code?

Possible Answers:

Correct answer:

Explanation:

The number of codons can be found by raising the number of nitrogenous bases to the power of the codon length. In the genetic code, there are four bases and codons are three bases in length.

If codons were four bases in length, then the number of possible bases would be raised to the fourth power.

Example Question #791 : Ap Biology

Which of the following is not found on the central carbon of every amino acid?

Possible Answers:

All of these are found in every amino acid

An amino group

A methyl group

A hydrogen

A carboxyl group

Correct answer:

A methyl group

Explanation:

Every amino acid has a central carbon with an amino terminus and a carboxyl terminus. There is also a hydrogen attached to the central carbon. The last substituent varies between amino acids and determines how the particular amino acid will be used in proteins. This variable group is known as the "R-group." Only one amino acid, alanine, has a methyl group attached in the "R-group" position.

Example Question #792 : Ap Biology

Which of the following choices best characterizes the primary components of an amino acid?

Possible Answers:

Amine group, carboxylic acid group, and variable side chain 

Carboxylic acid group, alcohol group, and citric acid group 

Amine group, alcohol group, and variable side chain

Amine group, citric acid group, and variable side chain 

Correct answer:

Amine group, carboxylic acid group, and variable side chain 

Explanation:

Amino acids are compounds that make up proteins and polypeptide chains. They are made up of an amine group , a carboxylic acid group , and a variable side chain. The amine group is called the “N terminus” and the carboxylic acid group is called the “C terminus”. The N terminus of one amino acid and the C terminus of another amino acid can form a peptide bond through a condensation reaction.

Example Question #2 : Understanding Amino Acids

An amino acid typically contains which of the following functional groups?

Possible Answers:

Alcohol and amine

Carboxylic acid and amine

Carboxylic acid and aldehyde

Carboxylic acid and alcohol

Aldehyde and amine

Correct answer:

Carboxylic acid and amine

Explanation:

Amino acids are the building blocks of proteins. The general structure of an amino acid consists of a carboxylic acid and an amine group bonded to a carbon that contains. The carbon contains an R group that varies depending on the amino acid.

Example Question #1 : Understanding Amino Acids

What special bond is formed when two cysteine residues come together in a protein?

Possible Answers:

A covalent bond

An ionic bond

A hydrogen bond

A dipole-dipole interaction

A disulfide bridge

Correct answer:

A disulfide bridge

Explanation:

Cysteine is an amino acid that contain a sulfhydryl group . When two sulfhydryl groups come together and get oxidized they form a  bond, which is referred to as a disulfide bond or a disulfide bridge.

Example Question #32 : Proteins

Point mutations can have different effects on translation. When a point mutation changes a codon, but it does not change which amino acid is inserted into a protein, it is referred to as a __________ mutation.

Possible Answers:

nonsense

silent

missense

neutral

virulent

Correct answer:

silent

Explanation:

The effects of point mutations vary by type. For example, leucine has 6 different codons. If the codon UUA is changed to UUG, the resulting amino acid inserted into the protein is not changed; it is still leucine. This is referred to as a silent mutation. 

Example Question #33 : Proteins

There are 3 types of RNA. Which type is is responsible for binding to amino acids and bringing them to the ribosome during translation?

Possible Answers:

tRNA

rRNA

miRNA

siRNA

mRNA

Correct answer:

tRNA

Explanation:

tRNA, or transfer RNA, is responsible for binding amino acids and delivering them to the ribosome during translation. tRNA binds amino acids with its anticodon. The anticodon is a sequence of 3 nucleotides that are complimentary to the codon of a specific amino acid. Anticodons can only bind to codons that are complementary in sequence; this ensures that the correct amino acids are chosen.

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