Genetic Analysis: An Integrated Approach (3rd Edition)
3rd Edition
ISBN: 9780134605173
Author: Mark F. Sanders, John L. Bowman
Publisher: PEARSON
expand_more
expand_more
format_list_bulleted
Concept explainers
Videos
Textbook Question
Chapter 6, Problem 3P
Conjugation between an Hfr cell and an F-cell does not usually result in conversion of exconjugants to the donor state. Occasionally however, the result of this conjugation is two Hfr cells. Explain how this occurs.
Expert Solution & Answer
Trending nowThis is a popular solution!
Students have asked these similar questions
The mouse thymus normally contains about 1–2 ´ 108 thymocytes, the vast majority of which are CD4+CD8+ (double-positive) cells. When thymocytes from mice with a gene deficiency in the TCRa locus are compared with those from TCRb-deficient mice, a striking difference between the two different knockout lines is observed, as shown in the figure below in a simplified version of flow cytometry data. The numbers of thymocytes in each thymus is indicated below the plots.
What is the explanation for the difference in thymocyte subsets and cell numbers observed when comparing TCRa-/- to TCRb-/- thymocytes?
Which region of the thymus organ would show a dearth of developing thymocytes in the TCRa-/- thymus? Which region in the TCRb-/- thymus?
Cell line A was cultured in the absence and presence of KB9520 or PPT. You then lyse the cells and fractionate them, generating membrane, cytosolic and nuclear protein fractions of the whole cell lysate. Western blots were then run using antibodies against ER (alpha) and ER (beta) for each treatment, and include different lanes for the membrane, cytosolic and nuclear protein fractions.
Draw the expected results for these western blots and briefly discuss the expected differences.
What is an Hfr cell? How does it differ from F-, F+, and F-? What is the definition of an exconjugant in relation to this?
Chapter 6 Solutions
Genetic Analysis: An Integrated Approach (3rd Edition)
Ch. 6 - For bacteria that are F+, Hfr, F', and F-, perform...Ch. 6 - The flow diagram identifies relationships between...Ch. 6 - Conjugation between an Hfr cell and an F-cell does...Ch. 6 - Bacteria transfer genes by conjugation,...Ch. 6 - Explain the importance of the following features...Ch. 6 - Prob. 6PCh. 6 - Describe what is meant by the term site-specific...Ch. 6 - What is a prophage, and how is a prophage formed?Ch. 6 - How is the frequency of cotransduction related to...Ch. 6 - Describe the differences between genetic...
Ch. 6 - Among the mechanisms of gene transfer in bacteria,...Ch. 6 - What is lateral gene transfer? How might it take...Ch. 6 - Lateral gene transfer is thought to have played a...Ch. 6 - Prob. 14PCh. 6 - A 2013 CDC report identified the practice of...Ch. 6 - Hfr strains that differ in integrated F factor...Ch. 6 - Five Hfr strains from the same bacterial species...Ch. 6 - An interrupted mating study is carried out on Hfr...Ch. 6 - An Hfr strain with the genotype cys+leu+met+strS...Ch. 6 - A triple-auxotrophic strain of E. coli having the...Ch. 6 - Penicillin was first used in the 1940 s to treat...Ch. 6 - An attribute of growth behavior of eight...Ch. 6 - Synthesis of the amino acid histidine is a...Ch. 6 - The phage P1 is used as a generalized transducing...Ch. 6 - Prob. 25PCh. 6 - Prob. 26PCh. 6 - Look closely at the consolidated Hfr map and the...Ch. 6 - Fifty bacterial colonies are on a complete-medium...
Knowledge Booster
Learn more about
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
- How do loss of function mutations associated with Artemis (protein) cause their resulting phenotypes? Explain how genetically modified HSCs can treat these phenotypes.arrow_forwardWhich person type O, A, B, or AB is considered a universal donor, and which is a universal recipient? Explain your answer?arrow_forwardExplain how hematopoietic stem cells were experimentally shown to be both multipotent and capable of self-renewal.arrow_forward
- An experiment was performed in mice. Wild-type bone marrow is used to reconstitute lethally irradiated Cr2-/- mice (wt®Cr2-/-), or vice versa (Cr2-/-®wt). As controls, Cr2-/- bone marrow is used to reconstitute Cr2-/- recipients (Cr2-/-®Cr2-/-), and wild-type bone marrow used to reconstitute wild-type recipients (wt®wt). These mice are then inoculated with the HSV-rd virus at 106 PFU, once at day 0 and then a second time at day 28, and the anti-HSV IgG responses are measured every 7 days, as shown in figure below. a) From the data shown above, on which cell type is the expression of the complement receptor most important for humoral immunity? b) For each of the cell types expressing the complement receptor encoded by Cr2, what is the explanation for their importance in humoral immunity to HSV inoculation?arrow_forwardThis question combines your knowledge of bacterial conjugationand the genetic regulation that directs thephage λ reproductive cycles. When researchers mix donor Hfr strains with recipient F– bacteria that are lysogenic for phage λ, the conjugated cells survive normally. However, if donor Hfr strains that are lysogenic for phage λ conjugate with recipient F– bacteria that do not contain any phage λ, the recipient cells often lyse, due to the induction of λ into the lytic cycle. Based on your knowledge of the regulation of the two reproductive cycles of phage λ, explain this experimental observation.arrow_forwardIn Figure 5-12,a. Which Hfr gene enters the recipient last? (Whichdiagram shows it actually entering?)b. What is the maximum percentage of cases of transferof this gene?c. Which genes have entered at 25 minutes? Couldthey all become part of a stable exconjugant genome?arrow_forward
- Several vaccines against viral infections are made by isolating purified surface proteins of the viral particle, mixing them with an adjuvant to stimulate an innate immune response, and injecting the mixture into people. Two examples of this are the vaccine against Hepatitis B virus, and the vaccine against Human Papilloma Virus (the ‘cervical cancer’ vaccine). One interesting property of vaccines of this type (known as ‘subunit vaccines’) is that there is a requirement for a CD4 T cell response to the vaccine antigen in order to generate antibodies to the innocuous protein in the vaccine. In the case of the Hepatitis B vaccine, the viral protein included in the vaccine is the Hepatitis B surface antigen (HepB-SAg), a protein that is approximately 200 amino acids in length. The graph in Figure Q4.27 shows the data from immunizing individuals with this vaccine, and monitoring their production of protective antibody responses to the viral protein. a) What results would be predicted if…arrow_forwardMice and humans with inactivating mutations in the gene encoding activation-induced cytidine deaminase (AID) have an immunodeficiency disease known as 'hyper IgM type 2'. Since AID is the enzyme that catalyzes the conversion of cytosines in the DNA to uracils, thereby initiating the process of somatic hypermutation, why do individuals with this deficiency only produce IgM antibodies?arrow_forwardTo understand the genes responsible for growth and infectivity in a disease-causing bacterial strain, you perform chemical mutagenesis on a culture of these bacteria. In the course of your investigation into the properties of the resulting mutants, you identify a set of mutant bacteria that is still viable but their virulence is significantly impaired. How might these mutants be useful for vaccine development?arrow_forward
- For the following diseases, describe the best technique for diagnosing them. Please make sure you include how you would tell someone with the disease from someone without the disease. B. Factor V Leiden thrombophilia is caused by a point mutation at position 1691 in exon 10 of the Factor V clotting factor gene that changes an arginine into a glutamine. This change removes one of the cleavage sites for activated protein C and leads to an increased tendency to clot.arrow_forwardPoliovirus is highly cytopathic both in cultured cells and in animals. Inoculation of mice with poliovirus leads to a robust antibody and cellular response. Explain why mice infected with a poliovirus mutant that cannot cause cell death have poor antibody and cellular responses. What would be one strategy to restore robust antibody and cellular responses in mice infected with this mutant virus?arrow_forwardplease help me I can't find answers for these questions: here is the link for the article https://www.pbs.org/wgbh/nova/transcripts/2805cancer.html What type of substances are angiostatin and endostatin and where are they produced? What do they do? A) describe the experiments using cow bones to discover anti-angiogenic substances. Why was this used as a source of these potential proteins? B) describe the “accidental” discovery of a novel antiangiogenic substance because of lab contamination?arrow_forward
arrow_back_ios
SEE MORE QUESTIONS
arrow_forward_ios
Recommended textbooks for you
genetic recombination strategies of bacteria CONJUGATION, TRANSDUCTION AND TRANSFORMATION; Author: Scientist Cindy;https://www.youtube.com/watch?v=_Va8FZJEl9A;License: Standard youtube license