SAT II Biology M : DNA, RNA, and Proteins

Study concepts, example questions & explanations for SAT II Biology M

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Example Questions

Example Question #1 : Enzymes

Which of the following enzymes is directly associated with polypeptide formation, and has the function of binding amino acids to each other at the ribosome?

Possible Answers:

ATP synthase

Topoisomerase

Peptidyl transferase

Ligase

tRNA synthetase

Correct answer:

Peptidyl transferase

Explanation:

Peptidyl transferase is the enzyme that works in conjunction with tRNA molecules to extend a growing polypeptide chain at the ribosome during translation. Ligase is not used at all in translation, nor is topoisomerase or ATP synthase. tRNA synthetase is used to bind the correct amino acids to corresponding tRNA molecules, but it is not used to extend the polypeptide at the ribosome.

Example Question #2 : Enzymes

Which of the following enzymes performs the critical function of removing RNA primers from DNA in DNA replication, and replacing the RNA with DNA?

Possible Answers:

DNA polymerase I

DNA polymerase III

DNA polymerase II

Ligase

DNA primase

Correct answer:

DNA polymerase I

Explanation:

While all the answer choices are important in DNA replication, only DNA Polymerase I performs this particular function. Ligase helps bind the newly replaced DNA nucleotides to the rest of the DNA strand. DNA polymerase III is the main synthesizing enzyme of DNA replication, and creates the majority of the DNA strand. DNA polymerase II is less well known than I and III, but it is believed to perform as a repair enzyme which removes incorrectly paired segments of DNA (which can then be filled back in by DNA polymerase I).

Example Question #2 : Enzymes

Many enzymes have sites on them where the binding of specific molecules will increase or decrease the activity of the enzyme. What is the name of this type of site?

Possible Answers:

Allosteric site

Catalytic site

Cofactor site

Active site

Binding site

Correct answer:

Allosteric site

Explanation:

The correct answer is "allosteric site." A molecule that binds to an enzyme's allosteric site induces a conformational change in the enzyme, decreasing or increasing the affinity of the enzyme’s binding sites to the substrate. The binding site binds and orients the substrate. The catalytic site lowers the activation energy of the reaction. The binding site and the catalytic site together make up the active site. Cofactors are parts of certain enzymes and are required for those enzymes to function.

Example Question #2 : Enzymes

If enzymes stop working, they have __________.

Possible Answers:

reached their optimal pH

turned into a substrate 

denatured

reached their optimal temperature

Correct answer:

denatured

Explanation:

Denature means to destroy the properties of a protein or other biological macromolecule. If an enzyme (which is a protein) stops working, it has denatured.

Example Question #1 : Dna Structure And Function

If a structural gene in an organism's genome is comprised of 29% guanine nucleotides, what percentage of the gene is comprised of cytosine nucleotides?

Possible Answers:

21%

19%

42%

29%

It cannot be determined from the given information.

Correct answer:

29%

Explanation:

This question is designed to catch a) students who are not reading the question carefully, and b) students unsure of which nucleotides pair with which.

The correct answer is 29%, because cytosine pairs with guanine in a 1:1 ratio. If you answered 21%, then you likely thought the question was more complex than it was.

Example Question #41 : Molecular Biology

There is a certain type of chemical bonding between the paired nucleotides on each strand of DNA which helps maintain the double-helix structure of DNA by attracting each strand to the other. What type of bonding is responsible for this?

Possible Answers:

Covalent

Ionic

Phosphodiester

Hydrogen

Peptide

Correct answer:

Hydrogen

Explanation:

The correct answer is hydrogen bonding, and each nucleotide attracts its pairing mate because they have corresponding number of hydrogen bonds. Adenine is attracted to thymine to create two hydrogen bonds, and cytosine is attracted to guanine to form three hydrogen bonds. While phosphodiester bonds are very important in creating the strand of DNA, they are not the bond that keeps the two strands in the double helix structure.

Example Question #42 : Molecular Biology

With respect to DNA, the terms 3' and 5' (pronounced 3-prime and 5-prime, respectively) are used in order to refer to one strand or the other. What do these two terms signify?

Possible Answers:

3' refers to the unbound hydroxyl group and 5' refers to the unbound phosphate group at the end of each DNA strand.

3' refers to the unbound sulfhydral group and 5' refers to the unbound phosphate group at the end of each DNA strand.

3' refers to the unbound hydroxyl group and 5' refers to the unbound carboxyl group at the end of each DNA strand.

3' refers to the unbound methyl group and 5' refers to the unbound hydroxyl group at the end of each DNA strand.

3' refers to the unbound phosphate group and 5' refers to the unbound hydroxyl group at the end of each DNA strand.

Correct answer:

3' refers to the unbound hydroxyl group and 5' refers to the unbound phosphate group at the end of each DNA strand.

Explanation:

When nucleotides bond together and form DNA strands, the first and last nucleotides in the strand have slightly different structures than the rest of the nucleotides between them. On one end of the strand, the nucleotide has an exposed hydroxyl group bound to the third carbon in the carbon ring: this end of the strand is thus called 3'. On the opposite end of the strand, the nucleotide has a phosphate group attached to the 5' carbon in the carbon ring, and is thus called the 5' end. These two groups are exposed because they are used in the bonding of nucleotides to one another to form the strand, but each strand ends with one nucleotide that only is bound on one side: thus, leaving either the hydroxyl or phosphate group exposed (depending on which end you are observing).

These terms are useful because they allow us to discuss the directionality of DNA-related events- if we didn't have terms for directionality the concept would be much more confusing. Example: "DNA polymerase synthesizes the new DNA strand in the 5'-3' direction." Without 3'/5' how would we determine which way the reaction occurs?

Example Question #1 : Dna Structure And Function

If a structural gene in an organism's genome is comprised of 33% adenine nucleotides, what percentage of the gene is comprised of cytosine nucleotides?

Possible Answers:

34%

It cannot be determined from the given information.

22%

17%

33%

Correct answer:

17%

Explanation:

According to Chargaff's rule, DNA nucleotides pair in a 1:1 ratio. Therefore, if we know how much of the particular gene is made up of one nucleotide, we can extrapolate that known variable to find the other three unknown variables.

To do so, you must remember that adenine pairs with thymine, and cytosine pairs with guanine (A-T, C-G), and that since the ratio between each pair is 1:1 then a gene with 33% adenine must also have 33% thymine. Combine these numbers and subtract from 100: the number leftover is the % of total cytosine and guanine in the gene.

100% - 66% = 34%

Finally, since we know that 34% of the DNA is both C and G, and that the ratio between C-G is 1:1, C and G must both be 17%.

Example Question #21 : Dna, Rna, And Proteins

Which type of bond makes up the backbone of DNA strands by linking together adjacent nucleotides?

Possible Answers:

Hydrogen bond

Glycosidic bond

Ester bond

Peptide bond

Phosphodiester bond

Correct answer:

Phosphodiester bond

Explanation:

DNA and RNA nucleotides are linked together through phosphodiester bonds. A strong covalent bond (ester bond) forms between the 3' carbon atom of the sugar pentose of one nucleotide and a phosphate group, and a second ester bond forms between the phosphate group and the 5' carbon atom of the sugar pentose of another nucleotide. This alternation of sugar and phosphate groups forms a strong backbone and is also the reason why DNA is antiparallel and forms in the 5' to 3' direction.

Example Question #2 : Dna Structure And Function

When synthesizing a strand of double-stranded DNA, which of the following could be a plausible combination of nitrogen bases?

Possible Answers:

28% Adenine, 22% cytosine, 22% guanine, 28% thymine

48% Adenine, 52% cytosine, 52% guanine, 48% thymine

None of these

23% Adenine, 23% cytosine, 27% guanine, 27% uracil

24% Adenine, 24% cytosine, 26% guanine, 26% thymine

Correct answer:

28% Adenine, 22% cytosine, 22% guanine, 28% thymine

Explanation:

DNA nucleotides all contain one of four possible nitrogen bases: adenine (A), thymine (T), cytosine (C), or guanine (G). In forming base pairs, an A must always pair with a T and a C must always pair with a G: [A-T], [C-G]. This means that for any DNA composition, the percent of adenine (A) must be equal to the percent of thymine (T) and, likewise, the percent of cytosine (C) must be equal to the percent of guanine (G). Looking across the answer choices, there is only one choice that satisfies this condition while also correctly summing to 100%. The choice with uracil can be eliminated immediately, since uracil only replaces thymine in RNA and is not present in DNA. 

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