Chapter 16 Questions

Question 1

During Griffith’s experiments with Streptococcus pneumoniae in mice, material from _____ bacteria transformed _____ bacteria.

Answer 1

heat-killed virulent … living nonvirulent

Question 2

Avery and his colleagues’ 1944 experiment showed that DNA _____.

Answer 2

was the substance that transformed the bacteria in Griffith’s experiment

Question 3

A scientist assembles a bacteriophage with the protein coat of phage T2 and the DNA of phage T4. If this composite phage were allowed to infect a bacterium, the phages produced in the host cell would have _____.

Answer 3

the protein and DNA of T4

Question 4

In an important experiment, a radioactively labeled bacteriophage was allowed to infect bacteria. In a first trial, the phage contained radioactive DNA, and radioactivity was detected inside the bacteria. Next, phage containing radioactive protein was used, and the radioactivity was not detected inside the bacteria. These experiments led to the conclusion that _____.

Answer 4

the genetic material of the phage is DNA

Question 5

Up until Hershey and Chase showed that DNA was the genetic molecule, what molecule was considered the best candidate for carrying genetic information and why?

Answer 5

proteins because they were thought to be the only molecule with both the variety and specificity of function to account for the array of heritable traits observed

-Many scientists believed that proteins must be the chemical carriers of genetic information.

Question 6

Monomers for the synthesis of DNA are called _____.

Answer 6

nucleotides

Question 7

Chargaff found that for DNA _____.

Answer 7

the ratio of A to T is close to 1:1 and the ratio of G to C is close to 1:1

-This is a result of specific base pairing and of DNA’s double-helical structure.

Question 8

What technique was most helpful to Watson and Crick in developing their model for the structure of DNA?

Answer 8

X-ray crystallography

-Watson and Crick based their model of DNA on insights they were able to gain from Franklin’s X-ray diffraction photo.

Question 9

In DNA, the two purines are _____, and the two pyrimidines are _____.

Answer 9

adenine and guanine … cytosine and thymine

Question 10

Which of the following is correct?

Answer 10

Adenine forms two hydrogen bonds with thymine; guanine forms three hydrogen bonds with cytosine.

Question 11

The two sugar-phosphate strands that form the rungs of a DNA double helix are joined to each other through _____.

Answer 11

hydrogen bonds between nucleotide bases

-The two sugar-phosphate strands of a DNA molecule are held together by hydrogen bonding between the nitrogenous bases, which are paired in the interior of the helix.

Question 12

The information in DNA is contained in _____.

Answer 12

the sequence of nucleotides along the length of the two strands of the DNA molecule

Question 13

Who is credited with explaining the structure of the DNA double helix?

Answer 13

Watson and Crick

Question 14

Which of the following attributes of DNA is most crucial to its accurate duplication?

Answer 14

its specific base pairing and hydrogen bonding

Question 15

During the replication of DNA, _____.

Answer 15

both strands of a molecule act as templates

Question 16

The experiments of Meselson and Stahl showed that DNA _____.

Answer 16

replicates in a semiconservative fashion

-In the semiconservative model of DNA replication, the two strands of the parental molecule separate. Each functions as a template for the synthesis of a new complementary strand.

Question 17

The DNA structures of prokaryotes and eukaryotes are different in several ways, but one way in which they are the same is that _____.

Answer 17

both have a sugar-phosphate backbone

Question 18

Which of the following statements about replication origins is correct?

Answer 18

• In bacteria, the DNA sequence at the origin is recognized by specific proteins that then bind to the origin.
• Bacterial chromosomes have a single origin, but eukaryotic chromosomes have many origins.
• In both prokaryotes and eukaryotes, replication proceeds in both directions from each origin.
• The two strands of DNA at the origin are separated, allowing the formation of a replication bubble.

Question 19

At each end of a DNA replication bubble is _____.

Answer 19

a replication fork

Question 20

The role of DNA polymerases in DNA replication is to _____.

Answer 20

attach free nucleotides to the new DNA strand

Question 21

The rate of elongation in prokaryotes is _____ the rate in eukaryotes.

Answer 21

much faster than

Question 22

The two strands of a DNA double helix are antiparallel. This means that _____.

Answer 22

one strand runs in the 5’ to 3’ direction, and the other runs in the 3’ to 5’ direction

Question 23

One strand of a DNA molecule has the base sequence 5′-ATAGGT-3′. The complementary base sequence on the other strand of DNA will be 3′-_____-5′.

Answer 23

TATCCA

-A always pairs with T, and G with C.

Question 24

DNA polymerase adds nucleotides to the _____ of the leading strands, and to the _____ of the lagging strands (Okazaki fragments).

Answer 24

3′ end … 3′ end

Question 25

What enzyme joins Okazaki fragments?

Answer 25

DNA ligase

Question 26

After the formation of a replication bubble, which of the following is the correct sequence of enzymes used for the synthesis of the lagging DNA strand?

Answer 26

helicases, primase, DNA polymerases, ligase

Question 27

Which of the following components is required for DNA replication?

Answer 27

RNA primer

Question 28

The removal of the RNA primer and addition of DNA nucleotides to the 3’ end of Okazaki fragments in its place is carried out by _____.

Answer 28

DNA polymerase I

Question 29

The unwinding of DNA at the replication fork causes twisting and strain in the DNA ahead of the fork, which is relieved by an enzyme called _____.

Answer 29

topoisomerase

Question 30

Once the DNA at the replication fork is unwound by helicases, what prevents the two strands from coming back together to re-form a double helix?

Answer 30

Single-strand binding proteins bind the unwound DNA and prevent the double helix from re-forming.

Question 31

Which description of DNA replication is correct?

Answer 31

Helicases separate the two strands of the double helix, and DNA polymerases then construct two new strands using each of the original strands as templates.

Question 32

In what way(s) is our traditional representation of DNA polymerase molecules moving like locomotives along a track inaccurate?

Answer 32

• The proteins involved in replication do not move; instead, DNA is drawn through the complex.
• DNA polymerase acts as part of a large complex of proteins, not like a single locomotive.

Question 33

The overall error rate in the completed DNA molecule is approximately _____.

Answer 33

1 error per 10,000,000,000 nucleotides

-The rate of initial pairing errors during replication is about 1 in 100,000. This level of accuracy is then dramatically enhanced by the different proofreading mechanisms discussed in the chapter.

Question 34

The incorporation of an incorrect base into the DNA during replication _____.

Answer 34

can be repaired by the mismatch repair system

Question 35

Which set of enzymes is involved in nucleotide excision repair?

Answer 35

nuclease, DNA polymerase, and ligase

Question 36

Individuals with the disorder xeroderma pigmentosum _____.

Answer 36

• often have inherited defects in the nucleotide excision repair system
• have high rates of skin cancer
• have difficulty repairing thymine dimers
• are hypersensitive to sunlight

Question 37

Unlike prokaryotic DNA replication, replication of eukaryotic chromosomes _____.

Answer 37

cannot be completed by DNA polymerase

-Prokaryotic DNA replication has a single origin; eukaryotic DNA replication has multiple origins.

Question 38

Telomeres _____.

Answer 38

get shorter with continued cell division

Question 39

Telomerase _____.

Answer 39

is an enzyme that lengthens telomeres

• In fact, telomerase appears to slow cell aging, and is present mostly only in germ cells and cancer cells.

Question 40

Which of the following best illustrates the importance of altered DNA nucleotides in evolutionary processes?

Answer 40

In a temporally variable environment, a population of bacteria with an elevated rate in replication error can have a selective advantage over other populations with lower rates in replication error.

Question 41

In a comparison between asexually reproducing bacteria and sexually reproducing multicellular eukaryotes, uncorrected errors in replication are more likely to be transmitted to subsequent generations in bacteria than in multicellular eukaryotes. Which of the following provides the best evidence-based explanation for this difference?

Answer 41

Being asexual and single-celled, all uncorrected errors of replication in bacteria are transmitted to subsequent generations. Multicellular eukaryotes typically reproduce sexually, so uncorrected errors are transmitted only if they occur in germ cells that meiotically divide to produce gametes.

Question 42

What is the major difference between bacterial chromosomes and eukaryotic chromosomes?

Answer 42

Bacteria have a single circular chromosome whereas eukaryotes have several linear chromosomes.

Question 43

Put the following DNA-containing entities in order according to the amount of DNA found in their genomes.

Answer 43

virus, bacteria, eukaryote

Question 44

Why were many of the early experiments on DNA carried out on viruses and bacteria?

Answer 44

• Their chromosomes have a simpler structure.
• They can interact with each other.
• They have relatively small genomes.
• They have short generation times.

Question 45

The “beads on a string” seen in interphase chromatin are _____.

Answer 45

nucleosomes

Question 46

In his work with pneumonia-causing bacteria and mice, Griffith found that

Answer 46

some substance from pathogenic cells was transferred to nonpathogenic cells, making them pathogenic

Question 47

What is the basis for the difference in how the leading and lagging strands of DNA molecules are synthesized?

Answer 47

DNA polymerase can join new nucleotides only to the 3’ end of a growing strand

Question 48

In analyzing the number of different bases in a DNA sample, which result would be consistent with the base-pairing rules?

Answer 48

A + G = C + T

Question 49

The elongation of the leading strand during DNA synthesis

Answer 49

depends on the action of DNA polymerase

Question 50

In a nucleosome, the DNA is wrapped around

Answer 50

histones

Question 51

E. Coli cells grown on ^15 N medium are transferred to ^14N medium and allowed to grow for two more generations (two rounds of DNA replication). DNA extracted from these cells is centrifuged. What density distribution of DNA would you expect in this experiment?

Answer 51

one low-density and one intermediate-density band

Question 52

A biochemist isolates, purifies, and combines in a test tube a variety of molecules needed for DNA replication. When she adds some DNA to the mixture, replication occurs, but each DNA molecule consists of a normal strand paired with numerous segments of DNA a few hundred nucleotides long. What has she probably left out of the mixture?

Answer 52

DNA ligase

Question 53

The spontaneous loss of amino groups from adenine in DNA results in hypoxanthine, an uncommon base, opposite thymine. What combination of proteins could repair such damage?

Answer 53

nuclease, DNA polymerase, DNA ligase

Question 54

Helicase Function

Answer 54

unwinds parental double helix at replication forks

Question 55

Single-strand binding protein Function

Answer 55

binds to and stabilizes single-stranded DNA until it can be used as a template

Question 56

Topoisomerase Function

Answer 56

relieves “overwinding” strain ahead of replication forks by breaking, swiveling, and rejoining DNA strands

Question 57

Primase Function

Answer 57

synthesizes an RNA primer at 5’ end of leading strand and at 5’ end of each Okazaki fragment of lagging strand

Question 58

DNA pol III Function

Answer 58

using parental DNA as a template, synthesizes new DNA strand by covalently adding nucleotides to 3’ end of a pre-existing DNA strand or RNA primer

Question 59

DNA pol I Function

Answer 59

removes RNA nucleotides of primer from 5’ end and replaces them with DNA nucleotides

Question 60

DNA ligase

Answer 60

joins 3’ end of DNA that replaces primer to rest of leading strand and joins Okazaki fragments of lagging strand