Genetic Analysis: An Integrated Approach (3rd Edition)
3rd Edition
ISBN: 9780134605173
Author: Mark F. Sanders, John L. Bowman
Publisher: PEARSON
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Textbook Question
Chapter 8, Problem 9P
Describe the two types of transcription termination found in bacterial genes. How does transcription termination differ for eukaryotic genes?
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What is the complementarity rule that governs the synthesis of an RNA molecule during transcription? An RNA transcript has the following sequence: 5′–GGCAUGCAUUACGGCAUCACACUAGGGAUC–3′
What is the sequence of the template and coding strands of the DNA that encodes this RNA? On which side (5′ or 3′) of the template strand is the promoter located?
Microbiologists describe the processes of transcription and translation as “coupled” in bacteria. This term indicates that bacterial mRNA can be undergoing transcription at the same moment it is also undergoing translation.
How is coupling possible in bacteria?
Is coupling of transcription and translation possible in single-celled eukaryotes, such as yeast? Why or why not?
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 eukaryotic genes. If you wanted to inhibit the transcription of a bacterial gene with antisense RNA, what sequences might the antisense RNA contain?
Chapter 8 Solutions
Genetic Analysis: An Integrated Approach (3rd Edition)
Ch. 8 - Prob. 1PCh. 8 - 8.2 In one to two sentences each, describe the...Ch. 8 - 8.3 Answer these questions concerning...Ch. 8 - 8.4 The diagram below shows a DNA duplex. The...Ch. 8 - The following is a portion of an mRNA sequence:...Ch. 8 - Compare and contrast the properties of DNA...Ch. 8 - The DNA sequences shown below are from the...Ch. 8 - Bacterial and eukaryotic gene transcripts can...Ch. 8 - Describe the two types of transcription...Ch. 8 - What is the role of enhancer sequences in...
Ch. 8 - Prob. 11PCh. 8 - Draw a bacterial promoter and label its consensus...Ch. 8 - For a eukaryotic gene whose transcription require...Ch. 8 - Three genes identified in the diagram as A, B and...Ch. 8 - Prob. 15PCh. 8 - 8.16 The segment of the bacterial gene involved in...Ch. 8 - Prob. 17PCh. 8 - Prob. 18PCh. 8 - 8.19 A DNA fragment from the end of the mouse...Ch. 8 - 8.20 Wild-type E. coli grow best at but can grow...Ch. 8 - A mutant strain of Salmonella bacteria carries a...Ch. 8 - 8.22 The human wild-type allele and a certain...Ch. 8 - Prob. 23PCh. 8 - A full-length eukaryotic gene is inserted into a...Ch. 8 - The accompanying illustration shows a portion of a...Ch. 8 - DNA footprint protection (described in Research...Ch. 8 - Suppose you have a 1-kb segment of cloned DNA that...Ch. 8 - Assume that a mutation affects the gene for each...Ch. 8 - 8.29 The DNA sequence below gives the first base...Ch. 8 - 8.30 Genomic DNA from a mouse is isolated,...Ch. 8 - 8.31 A portion of a human gene is isolated from...
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- Why is transcription a particularly important level of gene regulation in both bacteria and eukaryotes?arrow_forwardConsider the Rho-dependent terminator sequence 5’CCCAGCCCGCCUAAUGAGCGGCCUUUUUUUU-3’. What affect would a point mutation at any one of the bolded and underlined nucleotides disrupt termination of transcription? Group of answer choices Mutation in one of these nucleotides would disrupt base pairing, preventing the formation of the hairpin and disrupting termination. Mutation in one of these nucleotides would have no affect on base pairing, so the termination hairpin is formed and termination proceeds. Mutation in one of these nucleotides would not disrupt base pairing, but would prevent the formation of the hairpin and disrupt termination. Mutation in one of these nucleotides would disrupt base pairing, but not affect the formation of the hairpin and termination proceeds.arrow_forwardWhat type of structures lead to transcription termination?arrow_forward
- This is a double-stranded DNA sequence—with no introns—that codes for a small protein (this is a hypothetical example: real genes are much longer and have introns). Transcription begins at the Transcription Start Site, which is the G/C base pair indicated by “TSS” and gold shading. Transcription stops at the A/T base pair marked with the arrow. (shown in image 1) 1)Which strand is the template strand for transcription? a)top b) bottom 2)What elements allowed you to identify the template strand? (Select all that apply) a)An ATG toward the 5' end ("upstream"} from the TSS b)The template strand has the 3' end on the left side. c) An ATG toward the 3' ("downstream") from the TSS d) The template strand is "read" by the polymerase from its 3' to 5' end. 3)What is the sequence of the mRNA transcribed from this gene? a) 5’GACAGACGAUGACAUCAUGCAAAUAAGAAUUUA3’ b) 5’CUGUCUGCUACUGUAGUACGUUUAUUCUUAAAU3’ c) 3’GACAGACGAUGACAUCAUGCAAAUAAGAAUUUA5’ d) 3’CUGUCUGCUACUGUAGUACGUUUAUUCUUAAAU5’ 4) Write the…arrow_forwardExplain the process of transcription in prokaryotes, including the following: promoter region, RNA polymerase, 5’-3’ direction, free nucleoside triphosphates, complementary base pairing, terminator region.arrow_forwardWhat are the specific steps of eukaryotic transcription? Be sure in your discussion that you include the following terms: template strand, non-template strand, initiation, elongation, termination, promoter region, RNA polymerase, termination signal.arrow_forward
- What is the concept of universality of the genetic code? What are the exceptions to this universality?arrow_forwardWhat are the functions of transcriptional activator proteins and repressor proteins? Explain how they work at the molecular level.arrow_forwardWhat is the meaning of the term consensus sequence? Give an example. Describe the locations of consensus sequences within bacterial promoters. What are their functions?arrow_forward
- For each of the following, identify whether that sequence or feature of a typical protein-coding gene would be recognizable in the specified molecule in a typical prokaryotic cell. 5' UTR in DNA? 5' UTR in mRNA? Shine-Dalgarno in DNA? Shine-Dalgarno in polypeptide? Promoter in RNA? Promoter in polypeptide sequence? Stop codon in mRNA? Stop codon in the polypeptide sequence? [Choose ] [Choose ] [Choose ] [Choose ] [Choose ] [Choose ] [Choose ] [Choose ] > <arrow_forwardThe 5′ region of the TPP riboswitch in Bacillus subtilis is very similar to the TPP riboswitch in E. coli. Even so, the riboswitch in B. subtilis regulates transcription, whereas the one in E. coli regulates translation. What is the role of the 5′ region in both riboswitches? How can one riboswitch regulate transcription while the other regulates translation?arrow_forwardA full-length eukaryotic gene is inserted into a bacterial chromosome. The gene contains a complete promoter sequence and a functional polyadenylation sequence, and it has wild-type nucleotides throughout the transcribed region. However, the gene fails to produce a functional protein. a)List at least 3 possible reasons why this eukaryotic gene is not expressed in bacteria. b)What changes would you recommend to permit expression of this eukaryotic gene in a bacterial cell?arrow_forward
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