Biological Science (7th Edition)
7th Edition
ISBN: 9780134678320
Author: Scott Freeman, Kim Quillin, Lizabeth Allison, Michael Black, Greg Podgorski, Emily Taylor, Jeff Carmichael
Publisher: PEARSON
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Chapter 15, Problem 12PIAT
Summary Introduction
To review:
Construct a diagram for representing the
Introduction:
Ciprofloxacin belongs to the class of fluoroquinolone bactericidal drug. It is the first generation bactericidal, which is potent against the bacteria. It is a DNA synthesis inhibitor and it acts on the replication machinery of the bacteria.
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An article entitled “Nucleosome Positioning at the Replication Fork” states: “both the ‘old’ randomly segregated nucleosomes as well as the ‘new’ assembled histone octamers rapidly position themselves (within seconds) on the newly replicated DNA strands” [Lucchini et al. (2002)]. Given this statement, how would one compare the distribution of nucleosomes and DNA in newly replicated chromatin? How could one experimentally test the distribution of nucleosomes on newly replicated chromosomes?
a. Propose three different mutations to prevent initiation, elongation, and termination of bacterial
DNA replication, respectively. Explain how/why each mutation would prevent its respective step.
(Hint: mutations can be in genes that encode proteins or regulatory DNA sequences)
b. In the early 1900s, Avery, MacLeod, and McCarty performed an experiment in bacterial cells to
determine whether DNA, RNA, or protein functions as the 'transforming molecule' (i.e. the genetic
material). In your own words, how did their experiment (depicted in the figure below) help to
answer that question?
All known DNA polymerases catalyze synthesis only in the 5' → 3' direction. Nevertheless, during semiconservative DNA replication in the cell, they are able to catalyze the synthesis of both daughter chains, which would appear to require synthesis in the 3' → 5' direction on one strand. Explain the process that occurs in the cell that allows for synthesis of both daughter chains by DNA polymerase
Chapter 15 Solutions
Biological Science (7th Edition)
Ch. 15 - 1. Which of the following is not a property of DNA...Ch. 15 - 2. What is the function of primase?
a. synthesis...Ch. 15 - 3. How are Okazaki fragments synthesized?
a. using...Ch. 15 - Prob. 4TYKCh. 15 - PROCESS OF SCIENCE Researchers design experiments...Ch. 15 - 7. How does telomerase prevent linear chromosomes...Ch. 15 - Prob. 8TYUCh. 15 - Prob. 11PIATCh. 15 - Prob. 12PIATCh. 15 - Prob. 14PIAT
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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
- Oxidative deamination of adenine produces hypoxanthine (the base of inosine), which can base pair with cytosine. (a) If no repair takes place, describe the makeup of the DNA in the two daughter cells following cell division. (b) Describe the makeup of the DNA in the four daughter cells following a second round of cell division.arrow_forwardA). Briefly describe the function of telomerase. B). How does the structure of telomerase allow it to complete the function you described?arrow_forwardMatching Type Choose the directionality of the given process. (4 points) What is the directionality of the given process? * 4 points 3'-5' 5'-3' Exonuclease activity Complementary strand of the continuous strand Addition of nucleotides going to the replication fork Addition of nucleotides away from the replication forkarrow_forward
- Explain how DNA polymerase and topoisomerase 2 contribute to replication in E.coli and what is the role of the role of the metal ions in the polymerase activity. B)How does the use of an RNA primer rather than a DNA primer affect the fidelity of DNA replication in E.coli?arrow_forwardIn relation to central dogma of molecular biology answer the following questions: A- Give two reasons why the DNA replication is asymmetrical process (i.e. the DNA replication outcome is different between the leading and lagging strands)? B-The following segment of DNA is part of the transcription unit of a gene. You know already that RNA polymerase moves in a specific direction along this piece of DNA to convert one of the DNA strands into a single strand RNA transcript so that this entire region of DNA is made into RNA. 5′-GGCATGGCAATATTGTAGTA-3′ 3′-CCGTACCGTTATAACATCAT-5′ Given this information, a student claims that the RNA produced from this DNA is: 3′-GGCATGGCAATATTGTAGTA-5′ Give two reasons why this answer is incorrect. C- Imagine that the mRNA codons consisted of only two nucleotides instead of three nucleotides. Would there be a sufficient number of codons for all twenty amino acids? Explain your answer. D- The length of a particular gene in human DNA,…arrow_forwardDNA ligase has the ability to relax supercoiled circular DNA in the presence of AMP but not in its absence. (a) What is the mechanism of this reaction, and why does it depend on AMP? (b) How could you determine that supercoiled DNA had in fact been relaxed?arrow_forward
- (a) How fast does template DNA spin (expressed in revolutions per second) at an E. coli replication fork? (b) What is the velocity of movement (in micrometers per second) of DNA polymerase III holoenzyme relative tothe template?arrow_forwardLocate as accurately as possible the listed items that are shown on the following figure. Some items are not shown. (a) 5′ end of DNA template strand; (b) 3′ end of mRNA; (c) ribosome; (d) promoter; (e) codon; (f) an amino acid; (g) DNA polymerase; (h) 5′ UTR; (i) centromere; (j) intron; (k) anticodon; (l) N terminus; (m) 5′ end of charged tRNA; (n) RNA polymerase; (o) 3′ end of uncharged tRNA; (p) a nucleotide; (q) mRNA cap; (r) peptide bond; (s) P site; (t) aminoacyl-tRNA synthetase; (u) hydrogen bond; (v) exon; (w) 5′ AUG 3′; (x) potential wobble interaction.arrow_forwardCompare DNA polymerase and RNA polymerase from E. coli in regard to each of the following features: (a) activated precursors,(b) direction of chain elongation, (c) conservation of the template, and(d) need for a primer.arrow_forward
- Consider the proteins involved in DNA replication. A. What can a regular DNA polymerase do? Choose one or more. i Catalyze formation of a phosphodiester bond between one dNTP and another dNTP ii Catalyze formation of a phosphodiester bond between one DNA fragment and another iii Catalyze formation of a phosphodiester bond between the 3' end of a DNA fragment, and a dNTP iv Catalyze formation of a phosphodiester bond between the 5' end of a fragment and a dNTP o Open up double-stranded DNA to expose the two separate template strands B. For any ONE action DNA polymerase canNOT do, from the list above, name an enzyme that does that action or makes it unnecessary. Enzyme: What action it does, or makes unnecessary (by numbers given above in part a): i ==>> iv Varrow_forwarda) Explain how the molecular mechanism of DNA polymerase enhances DNA replication. b) Discuss the characteristic of DNA polymerase 1, Nick translation Proofreadingarrow_forwardWhich of the followings statements are true about DNA polymerase? 1.) It can only go in one direction, meaning the lagging strand can't be synthesized continuously. 2.) It cannot start a DNA strand from scratch, so another enzyme is needed to create "primers" as a starting point. 3.) It cannot copy epigenetic marks (such as methyl groups) on its own; these must be "copied" onto the daughter DNA strand by other enzymes after DNA replication. 4.) All of the abovearrow_forward
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