Campbell Biology Concepts & Connections Second Custom Edition For Tacoma Community College
8th Edition
ISBN: 9781269959810
Author: Reece
Publisher: PEARSON C
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Textbook Question
Chapter 12, Problem 11TYK
Explain how you might engineer E. coli to produce human growth hormone (HGH) using the following: E. coli containing a plasmid, DNA carrying the gene for HGH, DNA ligase, a restriction enzyme, equipment for manipulating and growing bacteria, a method for extracting and purifying the hormone, and an appropriate DNA probe. (Assume that the human HGH gene lacks introns.)
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Chapter 12 Solutions
Campbell Biology Concepts & Connections Second Custom Edition For Tacoma Community College
Ch. 12 - Imagine you have found a small quantity of DNA....Ch. 12 - Which of the following would be considered a...Ch. 12 - The DNA profiles used as evidence in a murder...Ch. 12 - A paleontologist has recovered a tiny bit of...Ch. 12 - How many genes are there in a human sperm cell? a....Ch. 12 - When a typical restriction enzyme cuts a DNA...Ch. 12 - Why does DNA profiling rely on comparing specific...Ch. 12 - Recombinant DNA techniques are used to...Ch. 12 - A biochemist hopes to find a gene in human cells...Ch. 12 - Prob. 10TYK
Ch. 12 - Explain how you might engineer E. coli to produce...Ch. 12 - What is left for genetic researchers to do now...Ch. 12 - Today, it is fairly easy to make transgenic plants...Ch. 12 - In the not-too-distant future, gene therapy may be...Ch. 12 - The possibility of extensive genetic testing...Ch. 12 - SCIENTIFIC THINKING Scientists investigate...
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- Describe the nature of recognition sites for restriction enzymes and the nature of the ends of the DNA that are left. Why do we need to run a gel electrophoresis after enzyme digestionarrow_forwardYou are performing an experiment using CRISPR-cas9 to genetically modify the LacZ gene of a culture of E. coli. After you run the experiment, you decide to use gel electrophoresis to genotype the different bacterial cultures to determine if the gene editing was successful. How could your electrophoresis results confirm that the PCR was successful? And how could your electrophoresis results confirm that you successfully extracted genomic DNA from your bacterial samples?arrow_forwardExplain the purpose of the antibiotic resistance gene in this experiment. Why is this genetic trait an important part of the recombinant DNA technology process in the biotechnology industry?arrow_forward
- Describe how restriction enzymes like EcoR1 are used to create recombinant plasmids and what the process is for using these plasmids to replicate a piece of target DNA. Include information about how to create sticky ends, the makeup of the bacterial plasmid and how to tell if the gene was successfully inserted in the plasmid and if the plasmid has been transformed by the bacteria. You may use a drawing to enhance your description.arrow_forwardWhich of the following most accurately describes the process of DNA cloning? set of laboratory procedures that consist of cutting a segment of DNA with restriction enzymes set of laboratory procedures that uses living cells to mass-produce specific DNA fragments set of laboratory procedures by which a DNA fragment is transferred from a living organism to a SNP chip the manipulation of DNA fragments in a laboratory using modern techniques of molecular biology set of laboratory procedures that consist of isolating of a DNA fragment from a living organism and inserting it into a plasmidarrow_forwardA restriction enzyme digests DNA into fragments.term the technique used to check the progression of this enzyme and separate DNA fragments.arrow_forward
- The following statements are true about common gene cloning procedures except: -DNA plasmids can help move around genes into other cells - Restriction enzymes are very important for cutting up and linking chunks of DNA -We make it so that genes from plants or animals are expressed in bacteria so the products can be harvested - DNA plasmids are chunks of chromosomal DNA used for cloningarrow_forwardIn relation to the use of restriction enzymes in recombinant DNA technology, answer the following: You have accidentally torn the labels off two tubes (tube A and tube B), each containing a different plasmid, now you do not know which plasmid is in which tube. Fortunately, you have restriction maps for both plasmids, shown in Figure below. You have the opportunity to test just one sample from one of your tubes. By utilizing agarose gel electrophoresis technique, which restriction enzyme OR combination of restriction enzymes would you use in this experiment to determine which plasmid is found in which tube?. (Hint: if you use Hind III restriction enzyme you are going to get ONE single fragment with a molecular size of → 0.5+0.3+0.2+0.4+1+1 = 3.4 kb).arrow_forwardA small DNA molecule was cleaved with several different restriction nucleases, and the size of each fragment was determined by gel electrophoresis. The following data were obtained.arrow_forward
- A DNA sequence is shown below, which includes a gene as marked. You have the restriction enzymes SalI and HindIII available to you to excise the gene prior to its incorporation into a plasmid vector. Which would you use to excise the gene?arrow_forwardWhat is the effect of using restriction enzymes that use 4, 6 or 8 base pairs on the size and number of expected fragments? What sequence do the restriction enzymes used in the lab recognize? How do they cut? And how would these different cuts effect cloning? (i.e. compare and contrast how overhang and blunt cuts will differ with cloning.) What organisms were the restriction enzymes used in this lab derived from? Why are restriction enzymes important for the organism that makes them? What is the purpose of multiple cloning sites on pUC19? What size were each of your plasmid fragments?arrow_forwardIn order to construct a genome library, which statement most accurately describes the correct order of steps in the process? Fragment chromosomal DNA, digest plasmid vector, ligate genomic DNA and digested plasmid vector, transform ligation into bacteria, select for plasmid marker Fragment chromosomal DNA and plasmid vector, ligate genomic DNA and plasmid vector, transform ligation into bacteria, select for gene marker Fragment chromosomal DNA and plasmid vector, ligate genomic DNA and plasmid vector, transform ligation into bacteria, select for plasmid marker Fragment chromosomal DNA, ligate genomic DNA and plasmid vector, transform ligation into bacteria, select for plasmid markerarrow_forward
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