Essentials of Genetics (9th Edition) - Standalone book
9th Edition
ISBN: 9780134047799
Author: William S. Klug, Michael R. Cummings, Charlotte A. Spencer, Michael A. Palladino
Publisher: PEARSON
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Textbook Question
Chapter 15, Problem 5PDQ
Both attenuation and riboswitches rely on changes in the secondary structure of the leader regions of mRNA to regulate gene expression. Compare and contrast the specific mechanisms in these two types of regulation.
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Match each of the following descriptions to the type of regulatory RNA affecting a "target"
gene (aka, the gene the regulatory RNA is regulating). Use each answer once.
This regulatory RNA may increase
siRNA
transcription of the target gene by
recruiting activator proteins.
secondary structures on RNA can
become...
IncRNA
these regulatory RNAs regulate gene
miRNA
expression post transcriptionally
generally by binding to the 3'-UTR
regions of their target RNAs
>
>
Provide one mechanism by which changes in mRNA levels are not always matched by changes in the protein product of that mRNA.
Explain how the expression of a single gene can be quickly,efficiently,and specifically shut down at the transcriptional,posttranscriptional,and posttranslational stages through thecoordinated expression of a transcriptional repressor, an miRNA,and a ubiquitin ligase.
Chapter 15 Solutions
Essentials of Genetics (9th Edition) - Standalone book
Ch. 15 -
CASE STUDY | A mysterious muscular dystrophy
A...Ch. 15 -
CASE STUDY |A mysterious muscular dystrophy
A...Ch. 15 -
CASE STUDY |A mysterious muscular dystrophy
A...Ch. 15 -
HOW DO WE KNOW?
1. In this chapter, we have...Ch. 15 -
2. Review the Chapter Concepts list on p. 280....Ch. 15 - Describe which enzymes are required for lactose...Ch. 15 - Contrast positive versus negative regulation of...Ch. 15 -
5. Both attenuation and riboswitches rely on...Ch. 15 - For the lac genotypes shown in the accompanying...Ch. 15 -
7. For the genotypes and conditions (lactose...
Ch. 15 -
8. The locations of numerous lacI– and lacIs...Ch. 15 - Explain why catabolite repression is used in...Ch. 15 - Describe experiments that would confirm whether or...Ch. 15 - Predict the level of genetic activity of the lac...Ch. 15 - Predict the effect on the inducibility of the lac...Ch. 15 -
13. Describe the role of attenuation in the...Ch. 15 -
14. In a theoretical operon, genes A, B, C, and D...Ch. 15 - A bacterial operon is responsible for production...Ch. 15 - A marine bacterium is isolated and is shown to...Ch. 15 -
17. Why is gene regulation more complex in a...Ch. 15 -
18. List and define the levels of eukaryotic gene...Ch. 15 -
19. Distinguish between the cis-acting regulatory...Ch. 15 - Prob. 20PDQCh. 15 - Compare the control of gene regulation in...Ch. 15 - Many eukaryotic promoter regions contain CAAT...Ch. 15 -
23. What is RNA-induced gene silencing in...Ch. 15 - Although it is customary to consider...Ch. 15 - DNA methylation is commonly associated with a...Ch. 15 - The interphase nucleus appears to be a highly...Ch. 15 - It has been estimated that at least two-thirds of...
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- . One mechanism by which antisense RNAs act as negative regulators of gene expression is by base pairingwith the ribosome binding site on the sense mRNA toblock translation. In a second, alternative mechanism,the act of transcribing an antisense RNA can somehow prevent RNA polymerase from recognizing thesense promoter for the same gene. Design an experimental approach that would enable you to distinguishbetween these two modes of action at a specific gene.(Hint: What would be the outcome in each case ifhigh levels of the antisense RNA were transcribedfrom a gene on a plasmid?)arrow_forwardDiscuss how the expression of a protein can be regulated post transcription in eukaryotic cells through, using the following key terms: Degradation of mRNA (two ways) Blocking translation Degradation of the proteinarrow_forwardHere is the model for TfR mRNA regulation (see Fig.), for your convenience. Orange protein (IRP or IREBP), when bound to RNA, protects mRNA from degradation. When Fe is bound to the protein, it cannot bind the mRNA. If you made a radioactive DNA probe specific to TfR mRNA and performed a Northern blot analysis (to detect mRNA) from cells treated with high iron (Fe) concentration what would you expect to see? (a) Low iron RNase A (b) High iron O High levels of RNase O Low levels of TfR mRNA Fe RNase O The result would be the same as untreated cells Degradation O High levels of IRP (or IREBP - iron responsive element binding protein) O High levels of TfR mRNAarrow_forward
- What does it mean to study the subcellular localization of a protein? What are two techniques that could be used to study the subcellular localization of a protein? Then specify how each of these techniques could be used to study a transcription factor in liver cellsarrow_forwardThe Iron Response Factor (IRF) protein regulates production of both the iron transport protein transferrin, which imports iron into a cell, and the iron storage protein ferritin, which stores iron when the cell has more iron than in needs. IRF is an RNA binding protein, which binds to a specific RNA sequence, the Iron Response Element (IRE). When the IRF protein binds to the IRE sequence in the mRNA that codes for transferrin, what effect does this have on the expression of transferrin? Briefly explain why this effect is observed.arrow_forwardCompare the control of gene regulation in eukaryotes and prokaryotes at the level of initiation of transcription. How do the regulatory mechanisms work? What are the similarities and differences in these two types of organisms in terms of the specific components of the regulatory mechanisms? Address how the differences or similarities relate to the biological context of the control of gene expression.arrow_forward
- Discuss the role of GTP in the functioning of translational factorsarrow_forwardRegulation can occur at many steps in the pathway of gene expression. Briefly describe at least one example of a regulator at the level of: a) transcriptional initiation b) protein stability c) posttranslational protein modificationarrow_forwardOutline the essential features of the three basic phases of transcription. How might each of them be targeted to regulate gene expression? Which of the three phases is the most common target of regulatory mechanisms?arrow_forward
- RNA silencing can be accomplished by specific MRNA degradation or by preventing its translation of the encoded protein. What specifically determines which of these two pathways will be followed? OIt depends on whether Drosha is involved in the process. It depends on whether Dicer is associated with single- or double-stranded RNA. It depends on whether the single-stranded RNA, associated with RISC, base-pairs perfectly or imperfectly with the target mRNA. It depends on whether the RITS or the RISC complex associates with double-stranded RNA. It depends on whether RISC initially binds to single- or double-stranded RNA. OOOarrow_forwardDescribe the mechanism by which cAMP receptorprotein (CRP), the regulatory protein for catabolite repression, functions. Use the lactose operon as an example.arrow_forwardHemophilia in the Russian royal family was caused by defective protein involved in blood clotting (factor IX). This defective protein was caused by a mutation that altered the splicing of the exons. This genetic change in the splicing pattern created a new stop codon in the mRNA for factor IX. Give an example of how a mutation that altered the splicing sites in the pre-mRNA might lead to a premature stop codon in the gene.arrow_forward
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