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Genetics: A Conceptual Approach

Benjamin Pierce

Chapter 16

Control of Gene Expression in Bacteria - all with Video Answers

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Chapter Questions

02:43

Problem 1

Why is gene regulation important for bacterial cells?

Jennifer Stoner
Jennifer Stoner
Numerade Educator
03:06

Problem 2

Name six different levels at which gene expression might be cont miled.

Marco Antonio
Marco Antonio
Numerade Educator
02:47

Problem 3

Draw a picture illustrating the general structure of an operon and ident ify its parts.

Marco Antonio
Marco Antonio
Numerade Educator
03:19

Problem 4

What is the difference between positive and negative control? What is the difference between inducible and repressible operons?

Dennis Howard
Dennis Howard
Numerade Educator
05:49

Problem 5

Briefly describe the lac operon and how it controls the metabolism of lactose

Dennis Howard
Dennis Howard
Numerade Educator
02:54

Problem 6

What is catabolite repression? How does it allow a bacterial cell to use glucose in preference to other sugars?

Dennis Howard
Dennis Howard
Numerade Educator
04:18

Problem 7

What is attenuation? What are the mechanisms by which the attenuat or forms when tryptophan Ievels are high and the antiterminator forms when tryptophan levels are low?

SG
Stephen Greiman
Numerade Educator
02:37

Problem 8

What is antisense RNA? How does it control gene expression?

Dennis Howard
Dennis Howard
Numerade Educator
02:05

Problem 9

What are riboswitches? How do they control gene expression? How do riboswitches differ from RNA-mediated repression?

Dennis Howard
Dennis Howard
Numerade Educator
00:45

Problem 10

Examine Figure $16.2 \mathrm{b}$. Why do you think the motif of the DNA binding protein shown is called a zinc finger protein?

Rabeya Zahid
Rabeya Zahid
Numerade Educator
02:53

Problem 11

For each of the following types of transcriptional control, indicate whether the protein produced by the regulator gene will be synthesized init ially as an active repressor, inactive repressor, active activator, or inactive activator.
a. Negative control in a repressible operon
b. Positive control in a repressible operon
c. Negative control in an inducible operon
d. Positive control in an inducible operon

Marco Antonio
Marco Antonio
Numerade Educator
05:00

Problem 12

A mutation at the operator site prevents the regulator protein from binding. What effect will this mutation have in the following types of operons?
a. Regulator protein is a repressor in a repressible operon.
b. Regulator protein is a repressor in an inducible operon.

Matt Borglin
Matt Borglin
Numerade Educator
02:22

Problem 13

The blob operon produces enzymes that convert compound A into compound B. The operon is controlled by a regulatory gene $S$. Normally, the enzymes are synthesized only in the absence of compound B. If gene $S$ is mutated, the enzymes are synthesized in the presence and in the absence of compound B. Does gene $S$ produce a repressor or an activator? Is this operon inducible or repressible?

Dennis Howard
Dennis Howard
Numerade Educator
01:56

Problem 14

A mutation prevents the catabolite activator protein (CAP) from binding to the promoter in the lac operon. What will the effect of this mutation be on the transcription of the operon?

Dennis Howard
Dennis Howard
Numerade Educator
01:58

Problem 15

Transformation is a process in which bacteria take up new DNA released by dead cells and integrate it into their own genomes (see p. 247 in Chapter 9 ). In Streptococcus pneumonia (which causes many cases of pneumonia, inner-ear infections, and meningitis) the ability to carry out transformation requires from 105 to 124 genes, collectively termed the com regulon. The com regulon is activated in response to a protein called competence-stimulating peptide (CSP), which is produced by bacteria and is exported into the surrounding medium. When enough CSP accumulates, it attaches to a receptor on the bacterial cell membrane, which then activates a regulator protein that stimulates the transcription of genes within the com regulon and sets in motion a series of reactions that ultimately results in transformation. The com regulon in Streptococcus pneumoniae appears to be controlled through which type of gene regulation? Explain your answer.
a. Negative inducible
b. Negative repressible
c. Positive inducible
d. Positive repressible

Dennis Howard
Dennis Howard
Numerade Educator
05:01

Problem 16

Under which of the following conditions would a lac operon produce the greatest amount of $\beta$ -glactosidase? The least? Explain your reasoning.
$$\begin{array}{lcc}
& \text { Lactose present } & \text { Glucose present } \\
\text { Condition 1 } & \text { Yes } & \text { No } \\
\text { Condition 2 } & \text { No } & \text { Yes } \\
\text { Condition 3 } & \text { Yes } & \text { Yes } \\
\text { Condition 4 } & \text { No } & \text { No }
\end{array}$$

SG
Stephen Greiman
Numerade Educator
01:28

Problem 17

A mutant strain of $E .$ coli produces $\beta$ -galactosidase in both the presence and the absence of lactose. Where in the operon might the mutation in this strain occur?

Marco Antonio
Marco Antonio
Numerade Educator
02:01

Problem 18

Examine Figure $16.8 .$ What would be the effect of a drug that altered the structure of allolactose so that it was unable to bind to the regulator protein?

Dennis Howard
Dennis Howard
Numerade Educator
01:52

Problem 19

For $E .$ coli strains with the lac genotypes shown on the next page use a plus sign $(+)$ to indicate the synthesis of
$\beta$ -gatactosidase and permease and a minus sign $(-)$ to indicate no synthesis of the proteins.

Rabeya Zahid
Rabeya Zahid
Numerade Educator
04:43

Problem 20

Give all possible genotypes of a lac operon that produces $\beta$ -galactosidase and permease under the following conditions. Do not give partial diploid genotypes.

Dennis Howard
Dennis Howard
Numerade Educator
01:03

Problem 21

Explain why mutations in the lad gene are trans in their effects, but mutations in the lado gene are cis in their effects.

Rabeya Zahid
Rabeya Zahid
Numerade Educator
01:14

Problem 22

Which strand of DNA (upper or lower) in Figure 16.9 is the template strand? Explain your reasoning.

Rabeya Zahid
Rabeya Zahid
Numerade Educator
06:06

Problem 23

The mmm operon, which has sequences $A, B, C,$ and $D$ (which may be structural genes or regulatory sequences), encodes enzymes 1 and 2 . Mutations in sequences $A, B$, $C,$ and $D$ have the following effects, where a plus sign $(+)$ indicates that the enzyme is synthesized and a minus sign $(-)$ indicates that the enzyme is not synthesized.
a. Is the mmm operon inducible or repressible?
b. Indicate which sequence $(A, B, C, \text { or } D)$ is part of the following components of the operon:

Caroline Jones
Caroline Jones
Numerade Educator
03:46

Problem 24

Ellis Engelsberg and his coworkers examined the regulation of genes taking part in the metabolism of arabinose, a sugar (E. Engelsberg et al. 1965. Journal of Bacteriology $90: 946-957$ ). Four structural genes encode enzymes that help metabolize arabinose (genes $A, B, D,$ and $E$ ). An add it ional gene $C$ is linked to genes $A, B,$ and $D$. These genes are in the order $D-A-B-C$ Gene $E$ is distant from the other genes. Engelsberg and his colleagues isolated mutations at the $C$ gene that affected the expression of structural genes $A, B, D,$ and $E .$ In one set of experiments, they created various genotypes at the $A$ and $C$ loci and determined whether arabinose isomerase (the enzyme encoded by gene $A$ ) was produced in the presence or absence of arabinose (the substrate of arabinose isomerase). Results from this experiment are shown in the following table, where a plus sign $(+)$ indicates that the arabinose isomerase was synthesized and a minus sign $(-)$ indicates that the enzyme was not synthesized.
a. On the basis of the results of these experiments, is the C gene an operator or a regulator gene? Explain your reasoning.
b. Do these experiments suggest that the arabinose operon is negatively or positively controlled? Explain your reasoning.
c. What type of mutation is $C ?$

Dennis Howard
Dennis Howard
Numerade Educator
06:20

Problem 25

In $E$ coli, three structural genes $(A, D, \text { and } E)$ encode enzymes $A, D,$ and $E$ respectively. Gene $O$ is an operator. The genes are in the order $O-A-D-E$ on the chromosome. These enzymes catalyze the biosynthesis of valine. Mutations were isolated at the $A, D, E,$ and
O genes to study the production of enzymes $A, D$, and
E when cellular levels of valine were low
(T. Ramakrishnan and E. A. Adelberg. 1965. Journal of Bacteriology $89: 654-660$ ). Levels of the enzymes produced by part ial-diploid $E .$ coli with various combinations of mutations are shown in the following table.
a. Is the regulator protein that binds to the operator of this operon a repressor (negative control) or an activator (positive control)? Explain your reasoning.
b. Are genes $A, D,$ and $E$ all under the control of operator
O? Explain your reasoning.
c. Propose an explanation for the low level of enzyme $\mathrm{E}$ produced in genotype $3 .$

Niamat Khuda
Niamat Khuda
Numerade Educator
02:42

Problem 26

At which level of gene regulation shown in Figure 16.1 does attenuation occur?

Dennis Howard
Dennis Howard
Numerade Educator
02:07

Problem 27

Listed in parts $a$ through $g$ are some mutations that were found in the $5^{\prime}$ UTR region of the trp operon of E coli. What will the most likely effect of each of these mutations be on the transcription of the trp structural genes?
a. A mutation that prevents the bind ing of the ribosome to the $5^{\prime}$ end of the mRNA $5^{\prime}$ UTR
b. A mutation that changes the tryptophan codons in region 1 of the mRNA $5^{\prime}$ UTR into codons for alanine
c. A mutation that creates a stop codon early in region 1 of the mRNA $5^{\prime}$ UTR
d. Deletions in region 2 of the mRNA $5^{\prime}$ UTR
e. Ddetions in region 3 of the mRNA $5^{\prime}$ UTR
f. Deletions in region 4 of the mRNA $5^{\prime}$ UTR
g. Dcletion of the string of adenine nudeotides that follows region 4 in the $5^{\prime}$ UTR

Rabeya Zahid
Rabeya Zahid
Numerade Educator
01:07

Problem 28

Some mutations in the $\operatorname{tr} p$ 5' UTR region increase termination by the attenuator. Where might these mutations occur and how might they affect the attenuator?

Rabeya Zahid
Rabeya Zahid
Numerade Educator
00:42

Problem 29

Some of the mutations mentioned in Problem 28 have an interesting property. They prevent the formation of the antiterminator that normally takes place when the tryptophan level is low. In one of the mutations, the AUG start codon for the $5^{\prime}$ UTR peptide has been deleted. How might this mutation prevent antitemination from taking place?

Rabeya Zahid
Rabeya Zahid
Numerade Educator
01:16

Problem 30

Several examples of antisense RNA regulating translation in bacterial cells have been discovered.
Molecular geneticists have also used antisense RNA to artificially control transcription in both bacterial and eukaryot ic genes. If you wanted to inhibit the transcription of a bacterial gene with antisense RNA, what sequences might the antisense RNA contain?

Rabeya Zahid
Rabeya Zahid
Numerade Educator
01:42

Problem 31

Would you expect to see attenuation in the lac operon and other operons that control the metabolism of sugars? Why or why not?

Dennis Howard
Dennis Howard
Numerade Educator