Genetic Analysis: An Integrated Approach (3rd Edition)
3rd Edition
ISBN: 9780134605173
Author: Mark F. Sanders, John L. Bowman
Publisher: PEARSON
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Chapter 13, Problem 8P
Most biologists argue that the regulation of gene expression is considerably more complex in eukaryotes than in bacteria. List and describe the four factors that in your view make the largest contribution to this perception.
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Students have asked these similar questions
Transcriptional repressor proteins (e.g., lac repressor), antisense RNA, and feedback inhibition are three different mechanisms that turn off the expression of genes and gene products. Which of these three mechanisms will be most effective in each of the following situations?
A. Shutting down the synthesis of a polypeptide
B. Shutting down the synthesis of mRNA
C. Shutting off the function of a protein For your answers to parts A–C that list more than one mechanism, which mechanism will be the fastest or the most efficient?
Given the following schematic for a gene and its associated regulatory regions, answer the following questions by placing the correct letter in the provided blanks
please put in the correct letter for the questions
What region would provide cell type-specific expression of genes? region
What site would significantly increase gene expression rates? = region
What region or regions of this gene’s coding sequence are expressed as amino acids = region
You are teaching a class on the regulation of eukaryotic gene expression. In order to demonstrate this complex process, you decide to draw for the class a typical eukaryotic gene/transcription unit with its major regions, such as the promoter regions, where the RNA polymerase II and transcription factors would bind
From the list given - choose all components that you think are part of a typical eukaryotic gene
From the list given - choose all the regulatory sequences that you think would control the expression of this eukaryotic gene
From the list given - choose all of the regulatory proteins that would bind the eukaryotic gene to control its expression
Chapter 13 Solutions
Genetic Analysis: An Integrated Approach (3rd Edition)
Ch. 13 - 13.1 Devoting a few sentences to each, describes...Ch. 13 - 13.2 Describe and give an example (real or...Ch. 13 - What is meant by the term chromatin remodeling?...Ch. 13 - 13.4 What general role does acetylation of histone...Ch. 13 - 13.5 Describe the roles of writers, readers, and...Ch. 13 - Outline the roles of RNA in eukaryotic gene...Ch. 13 - 13.7 What are the roles of the Polycomb and...Ch. 13 - Most biologists argue that the regulation of gene...Ch. 13 - Compare and contrast the transcriptional...Ch. 13 - The term heterochromatin refers to heavily...
Ch. 13 - 13.11 Compare and contrast promoters and enhancers...Ch. 13 - 13.12 What are the different chromatin...Ch. 13 - 13.13 Define epigenetics, and provide examples...Ch. 13 - What is one proposed role for lncRNAs?Ch. 13 - 13.15 What are the sources of dsRNA? Diagram the...Ch. 13 - How does dsRNA lead to posttranscriptional gene...Ch. 13 - 13.17 A hereditary disease is inherited as an...Ch. 13 - Prob. 18PCh. 13 - Prob. 19PCh. 13 - 13.20 A muscle enzyme called ME is produced by...Ch. 13 - Using the components in the accompanying diagram,...Ch. 13 - 13.22 The majority of this chapter focused on gene...
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Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, biology and related others by exploring similar questions and additional content below.Similar questions
- Many aspects of gene function can be nicely explained with the one-gene-one-enzyme hypothesis, which states that a gene controls the production of an enzyme. Which of the following findings about gene expression, though, requires an expansion of this simple concept? Choose an answer below: Non-enzyme proteins are made from genes too. Some genes code for RNA molecules only. Enzymes composed of different polypeptides are coded for by more than one gene. a and c, but not b a, b, and carrow_forwardChoose all of the statements that describe the benefits of combinatorial control of transcription in a eukaryotic multi-cellular organism. An operon is able to initiate transcription. RNA polymerase has selective access to specific genes for tissue specific effects. RNA reverts to DNA prior to transcription. mRNA synthesis occurs at an accelerated rate.arrow_forwardMany aspects of gene function can be nicely explained with the one- gene-one-enzyme hypothesis, which states that a gene controls the production of an enzyme. Which of the following findings about gene expression, though, requires an expansion of this simple concept? Non-enzyme proteins are made from genes too. Some genes code for RNA molecules only. Enzymes composed of different polypeptides are coded for by more than one gene. a and c, but not b a, b, and carrow_forward
- name TWO mechanisms of control of gene expression that are only used by eukaryotes and discuss why each of those mechanisms wouldn’t be possible in prokaryotes.arrow_forwardWe know that eukaryote gene regulation can occur at any point in the process of gene expression. (a) What is the final step where gene expression control may occur in the process of protein expression ? (b) Is this a cellular energy efficient or inefficient mechanism of gene regulation? Explain.arrow_forwardWhich of the following is not a general description of the gene expression regulation mechanisms that operate in eukaryotic organisms? transcriptional-level control processing-level control translational level-control replication-level controlsarrow_forward
- Compare 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_forwardWhich of the following scenario will result in greater consequences in terms of gene expression? insertion or deletion of one nucleotide insertion or deletion of three nucleotides Explain why.arrow_forwardSelect four items that are involved in or related to transcriptional control of gene expression (in either pro- or eu-karyotes). -Slide nucleosomes around -control membrane hydrophobicity -methylate DNA -protein denaturation -TFIID and its friends -control mRNA stability -control protein stability -operator/repressor -dynamic instabilityarrow_forward
- The amino acid asparagine is synthesized from aspartic acid by the enzyme asparagine synthetase (AS). In the previous problem you proposed a model for how this gene could be regulated. Suppose that you carry out an experiment to test your model. To do this you cut out the regulatory sequences upstream of the gene and fuse it to a gene for green fluorescent protein (GFP). Now you can visually observe when the gene is activated. You insert this engineered gene into a host cell and look for GFP expression. You discover some mutants that have different expression levels of GFP and call them GFP1- and GFP2-. The expression levels of GFP are given below. Cell GFP expression Wild type 100 GFP1- 50 GFP2- 0 Propose an explanation for these results based on your model. In other words, what was mutated and how? This answer should include whether the mutation is (view links for more information): dominant or recessive https://www.ncbi.nlm.nih.gov/books/NBK21578/#A1877 in a cis…arrow_forwardThe amino acid asparagine is synthesized from aspartic acid by the enzyme asparagine synthetase (AS). In the previous problem you proposed a model for how this gene could be regulated. Suppose that you carry out an experiment to test your model. To do this you cut out the regulatory sequences upstream of the gene and fuse it to a gene for green fluorescent protein (GFP). Now you can visually observe when the gene is activated. You insert this engineered gene into a host cell and look for GFP expression. You discover some mutants that have different expression levels of GFP and call them GFP1- and GFP2-. The expression levels of GFP are given below. Cell GFP expression Wild type 100 GFP1- 50 GFP2- 0 Propose an explanation for these results based on your model. In other words, what was mutated and how? Your answer should include whether the mutation is (see links for more information): dominant or recessive https://www.ncbi.nlm.nih.gov/books/NBK21578/#A1877…arrow_forwardWHAT ELSE CAN I ADD TO THIS DISCUSSION In general, what is gene regulationand what are the consequences if this process goes awry? Gene regulation is the process used to control the timing, location and amount of genes expressed. The process is carried out by a variety of mechanisms, including regulatory proteins and chemical modification of DNA. It’s key to the ability of an organism to respond to environmental changes. If the gene regulation process goes awry, these alterations are called mutations and can accumulate over a lifetime. Errors in genes that control cell division can cause cancer and other genetic mutations to take place.arrow_forward
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