Study Guide And Solutions Manual For Genetic Analysis: An Integrated Approach
3rd Edition
ISBN: 9780134832258
Author: Mark F. Sanders, John L. Bowman, Peter Mirabito
Publisher: PEARSON
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Chapter 12, Problem 27P
Two different mutations affect
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Describe the fate of the λ phage during the infection process with mutants in the following genes:
CI
CII
CIII
N
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att
Q
Describe the fate of the λ phage during the infection process with mutants in the following areas:
OR1
OR3
PL
PR
PRE
PRM
tL1
tR1
Strain ROFL4 has a premature stop mutation in the lacZ gene, resulting in a nonfunctional b-galactosidase. Otherwise all other parts of the operon are functional.
Circle the least number of components for an F' plasmid that will restore normal regulation and function of the lac operon in the resulting partial diploid. (may need more than one)
(a) lacI+ (b) lacO+ (c) lacP+ (d) lacZ+ (e) None, cannot be restored.
Why is it important that NEB express I^q cells do not have endonuclease? What could happen if they did?
Chapter 12 Solutions
Study Guide And Solutions Manual For Genetic Analysis: An Integrated Approach
Ch. 12 - 12.1 Bacterial genomes frequently contain groups...Ch. 12 - Transcriptional regulation of operon gene...Ch. 12 - Why is it essential that bacterial cells be able...Ch. 12 - Identify similarities and differences between an...Ch. 12 - The transcription of -galactosidase and permease...Ch. 12 - 12.6 Is attenuation the product of an allosteric...Ch. 12 - The trpL region contains four repeated DNA...Ch. 12 - The CAP binding site in the lac promoter is the...Ch. 12 - What role does cAMP play in transcription of lac...Ch. 12 - How would a cap- mutation that produces an...
Ch. 12 - Explain the circumstances under which attenuation...Ch. 12 - Consider the transcription of genes of the...Ch. 12 - Describe the lytic and lysogenic life cycles of ...Ch. 12 - 12.14 Define antisense RNA, and describe how it...Ch. 12 - 12.15 Attenuation of trp operon transcription is...Ch. 12 - 12.16 In the lac operon, what are the likely...Ch. 12 - Identify which of the following lac operon haploid...Ch. 12 - Prob. 18PCh. 12 - 12.19 List possible genotypes for lac operon...Ch. 12 - Suppose each of the genotypes you listed in parts...Ch. 12 - 12.21 Four independent mutants (mutants A to D)...Ch. 12 - Suppose the lac operon partial diploid...Ch. 12 - What is a riboswitch? Describe the riboswitch...Ch. 12 - 12.24 A repressible operon system, like the trp...Ch. 12 - 12.25 What is the likely effect of each of the...Ch. 12 - 12.26 Suppose that base substitution mutations...Ch. 12 - 12.27 Two different mutations affect. Mutant...Ch. 12 - How would mutations that inactivate each of the...Ch. 12 - The bacterial insertion sequence IS 10 uses...Ch. 12 - For an E. coli strain with the lac operongenotype...Ch. 12 - 12.31 How could antisense RNA be used as an...Ch. 12 - 12.32 Section describes the function of tRNA...Ch. 12 - The following hypothetical genotypes have genes A,...Ch. 12 - 12.34 Northern blot analysis is performed on...Ch. 12 - Prob. 35PCh. 12 - Prob. 36PCh. 12 - 12.37 The electrophoresis gel shown in part (a) is...
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- Brenner’s m mutant phages (m1–m6) described inFig. 8.8 were suppressed when grown in suppressor(su−) mutant bacteria; they produced full-length Mproteins that functioned like wild-type M protein.a. What gene do you think was mutant in the su−bacteria?b. When the m− phages were propagated in the su−bacterial strain, not all of the proteins made by themutant m alleles were identical to wild-type Mprotein. How did some of them differ?arrow_forwardStrain X-23 has a mutation in the lacI gene resulting in a lacI protein that cannot bind DNA. Otherwise all other parts of the operon are functional. Circle the least number of components for an F' plasmid that will restore normal regulation and function of the lacoperon in the resulting partial diploid. (may need more than one) (a) lacI+ (b) lacO+ (c) lacP+ (d) lacZ+ (e) None, cannot be restoredarrow_forwardAn ade+ arg+ cys+ his+ leu+ pro+ bacterial strain is knownto be lysogenic for a newly discovered phage, but the siteof the prophage is not known. The bacterial map isleucysarghisadeproThe lysogenic strain is used as a source of the phage, andthe phages are added to a bacterial strain of genotypeade- arg- cys- his- leu- pro-. After a short incubation,samples of these bacteria are plated on six differentmedia, with the supplementations indicated in thefollowing table. The table also shows whether colonieswere observed on the various media.PresenceMedium Ade Arg Cys His Leu Pro of colonies1 - + + + + + N2 + - + + + + N3 + + - + + + C4 + + + - + + N5 + + + + - + C6 + + + + + - NNutrient supplementation in medium(In this table, a plus sign indicates the presence of anutrient supplement, a minus sign indicates that asupplement is not present, N indicates no colonies, and Cindicates colonies present.)a. What genetic process is at work here?b. What is the approximate locus of the prophage?arrow_forward
- The cI protein in bacteriophage l (lambda) is a transcriptional regulator - name the promoters in the phage genome that are regulated by this protein, and give the effect of the cI protein on each promoter you name (i.e. is the cI protein an activator or a repressor for that promoter).arrow_forwardIn E. coli, the gene bioD+ encodes an enzyme involved in biotin synthesis, and galK+ encodes an enzyme involved in galactose utilization. An E. coli strain that contained wild-type versions of both genes was infected with P1 phage, and then a P1 lysate was obtained. This lysate was used totransduce (infect) a strain that was bioD− and galK−. The cellswere plated on a medium containing galactose as the sole carbonsource for growth to select for transduction of the galK+ gene.This medium also was supplemented with biotin. The resultingcolonies were then restreaked on a medium that lacked biotin tosee if the bioD+ gene had been cotransduced. The following resultswere obtained:What information do you know based onthe question and your understanding of the topic?arrow_forwardIn E. coli, the gene bioD+ encodes an enzyme involved in biotin synthesis, and galK+ encodes an enzyme involved in galactose utilization. An E. coli strain that contained wild-type versions of both genes was infected with P1 phage, and then a P1 lysate was obtained. This lysate was used totransduce (infect) a strain that was bioD− and galK−. The cellswere plated on a medium containing galactose as the sole carbonsource for growth to select for transduction of the galK+ gene.This medium also was supplemented with biotin. The resultingcolonies were then restreaked on a medium that lacked biotin tosee if the bioD+ gene had been cotransduced. The following resultswere obtained:What topic in genetics does this question address?arrow_forward
- Strain P77 has a mutation in the lacO that prevents it from being bound by the lacI protein. Otherwise all other parts of the operon are functional. Circle the least number of components for an F' plasmid that will restore normal regulation and function of the lacoperon in the resulting partial diploid. (may need more than one) (a) lacI+ (b) lacO+ (c) lacP+ (d) lacZ+ (e) None, cannot be restored.arrow_forwardThe following diagram describes the mRNA sequenceof part of the A gene and the beginning of the B geneof phage ϕX174. In this phage, some genes are read inoverlapping reading frames. For example, the code forthe A gene is used for part of the B gene, but the readingframe is displaced by one base. Shown here is the singlemRNA with the codons for proteins A and B indicated.aa# 5 6 7 8 9 10 11 12 13 14 15 16A AlaLysGluTrpAsnAsnSerLeuLysThrLysLeumRNA GCUAAAGAAUGGAACAACUCACUAAAAACCAAGCUGB MetGluGlnLeuThrLysAsnGlnAlaaa# 1 2 3 4 5 6 7 8 9Given the following amino acid (aa) changes, indicatethe base change that occurred in the mRNA and theconsequences for the other protein sequence.a. Asn at position 10 in protein A is changed to Tyr.b. Leu at position 12 in protein A is changed to Pro.c. Gln at position 8 in protein B is changed to Leu.d. The occurrence of overlapping reading frames isvery rare in nature. When it does occur, the extentof the overlap is…arrow_forwardA pure culture of an unknown bacterium was streaked onto plates of a variety of media. You notice that the colony morphologyis strikingly different on plates of minimal media with glucose compared to that seen on trypticase soy agar plates. How can you explain these differences in colony morphology? Also, describe what happens when a nonsense mutation is introduced into the gene encoding transposase within a transposon and why is it more likely that insertions or deletions will be more detrimental to a cell than point mutations?arrow_forward
- You manipulate the cro and cI/lambda repressor proteins so that they end up with swapped DNA binding domains (cI now has cro’s DNA binding domain, and cro now has cIs). This mutant bacteriophage then infects a happy, healthy population of bacterial cells. How will this modified cro protein interact with the three OR sites, and how would cro expression be affected? Include a drawing if possible.arrow_forwardWe are utilizing BL21 DE3 bacterial cells for the expression of the ADA protein via autoinduction. Create a schematic/figure showing the biological mechanism for expressing our desired protein in this cell line. We use the DE3 lysogen for expressing T7 polymerase and our plasmid has kanamycin resistance (not ampicillin).Create a schematic of this expression.arrow_forwardBacteriophage λ, after infecting a cell, can integrateinto the chromosome of the cell if the repressor protein, cI, binds to and shuts down phage transcriptionimmediately. (A strain containing a bacteriophageDNA integrated into the chromosome is called a lysogen.) The alternative fate is the production of manymore viruses and lysis of the cell. In a mating, a donor strain that is a lysogen was crossed with a lysogenic recipient cell, and no phages were produced.However, when the lysogen donor strain transferredits DNA to a nonlysogenic recipient cell, the recipientcell burst, releasing a new generation of phages. a. Why did the mating with a nonlysogenic recipientresult in phage growth and release, but the infectionof a lysogenic recipient did not?arrow_forward
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