GENETIC ANALYSIS: AN INTEG. APP. W/MAS
2nd Edition
ISBN: 9781323142790
Author: Sanders
Publisher: Pearson Custom Publishing
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Textbook Question
Chapter 10, Problem 28P
In molecular biology, restriction endonucleases isolated from bacteria are used to cleave DNA into fragments. What functional role do restriction endonucleases serve in the bacteria from which they are derived?
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In the formation of recombinant DNA, a restriction endonuclease cuts a bacterial plasmid to give sticky ends. The DNA segments that are to be added to the plasmid are cleaved with the same restriction endonuclease. What aresticky ends and why is it important that the target DNA and the plasmid it will be incorporated into have complementary sticky ends?
Restriction sites are palindromic; that is, they read the same in the5' to 3' direction on each strand of DNA. What is the advantage ofhaving restriction sites organized this way?
Restriction endonuclease and ligase are two types
of enzymes used in the process of genetic
engineering, i.e., the manipulation of genes. The
restriction endonuclease differs from ligase in that it
breaks the DNA at ends, while ligase causes
the breaks in DNA from interior
joins the fragments of DNA, while ligase
breaks the DNA into fragments
breaks the DNA at specific points, while the
ligase joins the fragments of DNA
breaks the DNA apart at each nucleotide,
while ligase use the pieces to translate
Chapter 10 Solutions
GENETIC ANALYSIS: AN INTEG. APP. W/MAS
Ch. 10 - Define the following terms as described in this...Ch. 10 - 2. Using sickle cell disease as an example,...Ch. 10 -
3. Compare and contrast the contributions of...Ch. 10 - Why do differences in protein electrophoretic...Ch. 10 - Prob. 5PCh. 10 - Prob. 6PCh. 10 - Prob. 7PCh. 10 - 8. Wildtype βglobin protein is composed of amino...Ch. 10 - Prob. 9PCh. 10 - Prob. 10P
Ch. 10 - 11. How is an autoradiograph produced from a...Ch. 10 - Prob. 12PCh. 10 - Prob. 13PCh. 10 - Prob. 14PCh. 10 - The family represented in the pedigree and...Ch. 10 - Suppose the mating couple (I-1 and I-2) shown in...Ch. 10 - What are restriction endonucleases, and why are...Ch. 10 - 18. Following restriction digestion, DNA fragments...Ch. 10 - 19. The doublestranded DNA sequence below is part...Ch. 10 - 20. Restriction enzymes recognize specific...Ch. 10 - Prob. 21PCh. 10 - Prob. 22PCh. 10 - Prob. 23PCh. 10 - Prob. 24PCh. 10 - 25. A second strain of dwarf plants has a...Ch. 10 - During gel electrophoresis of linear DNA...Ch. 10 - Prob. 27PCh. 10 - 28. In molecular biology, restriction...Ch. 10 - A complete plant gene containing four introns and...Ch. 10 - Prob. 30PCh. 10 - The map below illustrates three alleles in a...Ch. 10 - Prob. 32PCh. 10 - 33. Northern blot analysis is performed on mRNA...
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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
- 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_forwardA restriction endonuclease breaks a bacterial plasmid into sticky ends to create recombinant DNA. The same restriction endonuclease is used to cleave the DNA segments that will be added to the plasmid. What are sticky ends, and why are complementary sticky ends on the target DNA and the plasmid it will be inserted into so important?arrow_forwardWhich of the following is necessary for a PCR reaction to proceed? a) the sequence of the ends of the DNA to be amplified must be known. b) the sequence of restriction endonuclease recognition sites in the DNA to be amplified and in the plasmid, where the amplified DNA fragment will be cloned must be known. c) The complete sequence of the DNA to be amplified must be known. d) The sequence of restriction endonuclease recognition sites in the DNA to be amplified must be knownarrow_forward
- A 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. (a) Is the original molecule linear or circular?(b) Draw a map of restriction sites (showing distances between sites) that isconsistent with the data given.(c) How many additional maps are compatible with the data?(d) What would have to be done to locate the cleavage sites unambiguouslywith respect to each other?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_forwardWhich of the following can be termed as a restriction modification system?a) Restriction endonuclease + methylaseb) DNA ligase + methylasec) Restriction endonuclease + acetylased) DNA ligase + acetylasearrow_forward
- How often, on average, would you expect a type II restriction endonuclease to cut a DNA molecule if the recognition sequence for the enzyme had 5 bp? (Assume that the four types of bases are equally likely to be found in the DNA and that the bases in a recognition sequence are independent.) How often would the endonuclease cut the DNA if the recognition sequence had 8 bp?arrow_forwardA 12 kb linear DNA fragment is subject to single or double RE digest and agarose gelelectrophoresis, to yield the gel profile shown below. The first lane contains the size marker(M).a) Explain how the name of the enzyme EcoRI is derived.b) How many sites are there for EcoRI and PvuII respectively on this DNA fragment?c) Use the sizes of the DNA bands on the gel to compile a restriction enzyme map of the DNAfragment. Indicate the positions of the restriction enzymes sites for EcoRI and PvuII on themap.arrow_forwardA restriction map lists the locations of DNA sequences that are cut by a particular restriction enzyme for a piece of DNA, such as a chromosome or a plasmid. Restriction maps are important when generating a construct for experimental use. Digesting the DNA sequence with the restriction enzymes will result in fragmented DNA of predictable sizes, based on the restriction map, that allow a researcher to analyze if his or her construct was generated correctly when visualized using gel electrophoresis. Use the linear restriction map to predict where bands would be expected on a gel if a digest is performed using the specified restriction enzymes. Assume that there is enough restriction enzyme that every possible restriction site on each molecule of DNA will be cut.arrow_forward
- The plasmid cloning vector pBR322 is cleaved with the restriction endonuclease PstI. An isolated DNA fragment from a eukaryotic genome (also produced by PstI cleavage) is added to the prepared vector and ligated. The mixture of ligated DNAs is then used to transform bacteria, and plasmid-containing bacteria are selected by growth in the presence of tetracycline. The cloned DNA fragment is 1,000 bp long and has an EcoRI site 250 bp from one end. Three different recombinant plasmids are cleaved with EcoRI and analyzed by gel electrophoresis, giving the patterns shown below. What does each pattern say about the cloned DNA? Note: pBR322, the PstI and EcoRI restriction sites are about 750 bp apart. The entire plasmid with no cloned insert is 4,361 bp. Size markers in lane 4 have the number of nucleotides noted.arrow_forwardA) Outline the experimental procedure for cloning a eukaryotic gene and expressing it in E. coli. Focus on the essential steps starting with eukaryotic gene amplification to transformation of E. coli cells B) Explain how insertional inactivation can help you identify the colonies that carry the plasmid with your eukaryotic gene of interest C) Plasmids containing antibiotic resistance genes are widely used in gene cloning and other molecular biology techniques. What would happen if the eukaryotic gene was inserted into an antibiotic resistance gene on the plasmid?arrow_forwardYour cloning vector has restriction recognition sites for two restriction endonucleases, EcorI and BamHI. However, the DNA to be manipulated does not have recognition sites for these two restriction endonucleases. How would you construct a recombinant DNA for the given DNA?arrow_forward
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