Genetic Analysis: An Integrated Approach (2nd Edition)
2nd Edition
ISBN: 9780321948908
Author: Mark F. Sanders, John L. Bowman
Publisher: PEARSON
expand_more
expand_more
format_list_bulleted
Concept explainers
Videos
Textbook Question
Chapter 17, Problem 9P
Chimeric gene
Expert Solution & Answer
Want to see the full answer?
Check out a sample textbook solution
Students have asked these similar questions
A molecular geneticist hopes to find a gene in human liver cells that codes for an important blood-clotting protein. He knows that the nucleotife sequence of a small part of the gene is GTGGACTGACA. Briefly explain how to obtain the desired gene.
Let’s suppose you make a transposon library of the cellulose-secreting bacterium Komagataeibacter xylinus, with the goal of finding mutants that produce higher than normal amounts of cellulose, which would be useful industrially. However, despite your best efforts you are unable to isolate any transposon mutants that make more cellulose than the wild-type strain.Why might this have failed? List as many reasons as you can think of.
A temperature-sensitive mutation is one in which the defect is not presented functionally until the temperature is raised. In the case described below, the enzymes function normally in bacteria at 37 °C, but are non-functional at 40 °C. Predict the detailed molecular consequences of a loss of function in a temperature-sensitive mutant for each of the following enzymes: a) DNA gyrase, b) DNA polymerase III, c) DNA ligase, d) DNA polymerase I.
Chapter 17 Solutions
Genetic Analysis: An Integrated Approach (2nd Edition)
Ch. 17 - 15.1 What purpose do the bla and lacZ genes serve...Ch. 17 - The human genome is 3109 bp in length. How many...Ch. 17 - 15.3 Ligase catalyzes a reaction between the...Ch. 17 - You have constructed four different libraries: a...Ch. 17 - Using the genomic libraries in Problem 4, you wish...Ch. 17 - The human genome is 3109bp. You wish to design a...Ch. 17 - 15.7 Using animal models of human diseases can...Ch. 17 - 15.8 Compare methods for constructing homologous...Ch. 17 - 15.9 Chimeric genefusion products can be used for...Ch. 17 - 15.10 Why are diseases of the blood simpler...
Ch. 17 - Injection of double-stranded RNA can lead to gene...Ch. 17 - Compare and contrast methods for making transgenic...Ch. 17 - 15.13 It is often desirable to insert cDNAs into a...Ch. 17 - 15.14 A major advance in the s was the development...Ch. 17 - 15.15 The bacteriophage lambda genome can exist in...Ch. 17 - 15.16 The restriction enzymes Xho and Sal cut...Ch. 17 - 15.17 The bacteriophage has a single-stranded DNA...Ch. 17 - 15.20 You have identified a cDNA clone that...Ch. 17 - You have isolated a genomic clone with an EcoR I...Ch. 17 - 15.18 To further analyze the CRABS CLAW gene (see...Ch. 17 - 15.21 You have isolated another cDNA clone of the...Ch. 17 - 15.22 You have identified five genes in S....Ch. 17 - You have generated three transgenic lines of maize...Ch. 17 - 15.24 Bacterial Pseudomonas species often possess...Ch. 17 - 15.25 Two complaints about some transgenic plants...Ch. 17 - 15.26 In Drosophila, lossoffunction Ultrabithorax...Ch. 17 - Prob. 27PCh. 17 - The highlighted sequence shown below is the one...Ch. 17 - The RAS gene encodes a signaling protein that...Ch. 17 - Vitamin E is the name for a set of chemically...Ch. 17 - 15.31 You have cloned a gene for an enzyme that...
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
- A molecular geneticist hopes to find a Gene in human liver cell that codes for an important blood-clotting protein,he knows that the nucleotide sequence of a small part of the Gene is GTGGACTGACA.briefly explain how to obtain genearrow_forwardYou isolate a mouse Tau-gene-containing DNA fragment from the chicken and hybridize it to the freshly-made and isolated hnRNA (primary transcript) from the nucleus of the mouse cells transcribed from the Tau gene (immediately after it was produced), allowing no time for processing of the hnRNA. Describe what you see when you look at the DNA/RNA hybrid molecule under the electron microscope.arrow_forwardDuring your experiment you analysed only a few of the recombinant clones for the presence of the highly repeated Aluelements. If you wanted to screen for a single-copy gene, you would need to screen a much larger genomic library. Assuming, that you already know the amino acid sequence of unicorn (a species with a similar physiology to humans) insulin, how would you construct a probe which would enable you to use nucleic acid hybridisation to screen a unicorn genomic DNA library for the insulin gene? Hint: you have access to any molecular biology reagents and equipment you might need, such as vectors, enzymes, and DNA sequencers.arrow_forward
- In generating mutations in a bacterial gene involved in antibiotic resistance, a number of point mutations are isolated that render the bacteria sensitive to the antibiotic. You would like to sequence the gene in order to characterize the mutations, but unfortunately, your lab partner just finished the last of the lab's supply of DNA polymerase. The only things at your disposal are materials for performing a western blot, allowing you to visualize the protein encoded by the gene. How would you identify which mutations are likely to be the result of a missense mutation, which are likely to be the result of a nonsense mutation, and which are likely to be the result of a frameshift mutation?arrow_forwardDescribe the banding pattern seen in the gel. What does that tell you about the role of annealing temperature in gene amplification?arrow_forwardAssume that a DNA sequencing reaction is carried out, except that the four different dideoxyribonucleoside triphosphates are modified so that each contains a covalently attached dye of a different color (which does not interfere with its incorporation into the DNA chain). What would the products be if you added a mixture of all four of these labeled dideoxyribonucleoside triphosphates along with the four unlabeled deoxyribonucleoside triphosphates into a single sequencing reaction? What would the results look like if you electrophoresed these products in a single lane of a gel?arrow_forward
- #3) Ligase catalyzes a reaction between the 5' phosphate and the 3' hydroxyl groups at the end of DNA molecules. The enzyme calf intestinal phosphatase catalyzes the removal of the 5' phosphate from DNA molecules. What would be the consequence of treating a cloning vector, before ligation, with calf intestinal phosphatase?arrow_forwardDigrammatically represent the experimental steps in cloning and expressing an human gene (say the gene for growth hormone) into a bacterium like E. coli ?arrow_forwardDuring your experiment you analysed only a few of the recombinant clones for the presence of thehighly repeated Alu elements. If you wanted to screen for a single-copy gene, you would need to screenall of a much larger genomic library. Assuming, that you already know the amino acid sequence ofunicorn (a species with a similar physiology to humans) insulin, how would you construct a probe whichwould enable you to use nucleic acid hybridisation to screen a unicorn genomic DNA library for theinsulin gene? Hint: you have access to any molecular biology reagents and equipment you might need, such as vectors,enzymes, and DNA sequencers.arrow_forward
- Suppose that you want to assay reverse transcriptase activity. If polyriboadenylate is the template in the assay, what should you use as the primer? Which radioactive nucleotide should you use to follow chain elongation?arrow_forwardThe human genome has approximately 30,000 genes, but human cells can produce over 100,000 different polypeptides. Explain how this is possiblearrow_forwardSuppose that the diagram below represents the genomic organization of an enzyme involved in eye pigment production in mice. Within the gene are four exons. Biochemical analysis has revealed that the active site of the enzyme is located in the C terminus of the protein. -The nucleotide length of each exon and intron is shown. -The dinucleotide sequence GT represents the 5’ splice site and the dinucleotide sequence AG represents the 3’ splice site. Both the 5’ and the 3’ splice sites must be present for splicing to occur. Assume that the first and second stop codons are located immediately after the first and second 5’ splice sites, respectively; the third and fourth stop codons are located near the 3’ end of exons 3 and 4, respectively; all these stop codons are in the correct reading frame. a) draw what the processed mRNA will look like. Include the start codon on the mRNA and label the approximate locations of the 5’ UTR and 3’ UTR on the transcript. (You do not need to add the 5’ CAP…arrow_forward
arrow_back_ios
SEE MORE QUESTIONS
arrow_forward_ios
Recommended textbooks for you
Biology Today and Tomorrow without Physiology (Mi...BiologyISBN:9781305117396Author:Cecie Starr, Christine Evers, Lisa StarrPublisher:Cengage Learning
Biology Today and Tomorrow without Physiology (Mi...
Biology
ISBN:9781305117396
Author:Cecie Starr, Christine Evers, Lisa Starr
Publisher:Cengage Learning
Enzyme Kinetics; Author: MIT OpenCourseWare;https://www.youtube.com/watch?v=FXWZr3mscUo;License: Standard Youtube License