GENETICS(LL)-W/CONNECT >CUSTOM<
6th Edition
ISBN: 9781260571561
Author: HARTWELL
Publisher: MCG CUSTOM
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Chapter 9, Problem 13P
Is it possible that two different restriction enzymes could cut the human genome into exactly the same number of fragments and with exactly the same distribution of fragment sizes, yet the ends produced by the two enzymes could not be joined together by DNA ligase? Explain.
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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?
Is it possible that two different restriction enzymes couldcut the human genome into exactly the same number offragments and with exactly the same distribution of fragment sizes, yet the ends produced by the two enzymescould not be joined together by DNA ligase? Explain
Describe the process for shotgun sequencing of a genome. Practice aligning the two sets of sequenced fragments below, to determine the order of the fragments and the complete sequence.
Chapter 9 Solutions
GENETICS(LL)-W/CONNECT >CUSTOM<
Ch. 9 - Match each of the terms in the left column to the...Ch. 9 - For each of the restriction enzymes listed below:...Ch. 9 - The calculations of the average restriction...Ch. 9 - The DNA molecule whose entire sequence follows is...Ch. 9 - Why do longer DNA molecules move more slowly than...Ch. 9 - Agarose gels with different average pore sizes are...Ch. 9 - The following picture shows the ethidium...Ch. 9 - The linear bacteriophage genomic DNA has at each...Ch. 9 - Consider a partial restriction digestion, in which...Ch. 9 - The text stated that molecular biologists have...
Ch. 9 - a. What is the purpose of molecular cloning? b....Ch. 9 - a. DNA polymerase b. RNA polymerase c. A...Ch. 9 - Is it possible that two different restriction...Ch. 9 - A plasmid vector pBS281 is cleaved by the enzyme...Ch. 9 - A recombinant DNA molecule is constructed using a...Ch. 9 - Suppose you are using a plasmid cloning vector...Ch. 9 - Prob. 17PCh. 9 - The lacZ gene from E. coli encodes the enzyme...Ch. 9 - Your undergraduate research advisor has assigned...Ch. 9 - Which of the enzymes from the following list would...Ch. 9 - You use the primer 5 GCCTCGAATCGGGTACC 3 to...Ch. 9 - a. To make a genomic library useful for sequencing...Ch. 9 - Problem 15 showed part of the sequence of the...Ch. 9 - Eukaryotic genomes are replete with repetitive...
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- 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?arrow_forwardThe figure below shows the recognition sequences and cleavage positions of three restriction enzymes.You plan to ligate DNA from two different sources. The target DNA is digested with BamHI,and the insert DNA is digested with BglII, and the resulting fragments mixed and incubatedwith DNA ligase. a) Write out the sequence (in double-stranded format) of the longest insert fragment that will result after BglII digestion, ensure the nature of the overhangs is clear.b) Write out the sequence (in double-stranded format) of the ligation product, with the insert fragment joined into the BamHI site of the target DNA. Use black for target sequences, and blue for insert sequences. c) Assume the ligation reaction was successful and you have generated a recombinant DNAmolecule. Which of the three enzymes listed above can be used to excise the insert DNAfrom the target? Motivate your answer.arrow_forwardYou are trying to clone a gene. You have successfully isolated it from the genomic DNA of an organism using the Hindlll restriction enzyme. You then take a plasmid with a single EcoRI restriction site and cleave it with EcoRI. You combine these two fragments and treat them with DNA ligase. Answer the two questions below. a.(2 points Does the cloning reaction succeed as described? If so, what is the product obtained? b. Explain your answer above.arrow_forward
- When joining two or more DNA fragments, a researcher can adjust the sequence at the junction in a variety of subtle ways, as seen in the following exercises.(a) Draw the structure of each end of a linear DNA fragment produced by an EcoRI restriction digest (include those sequences remaining from the EcoRI recognition sequence).(b) Draw the structure resulting from the reaction of this end sequence with DNA polymerase I and the four deoxynucleoside triphosphates.(c) Draw the sequence produced at the junction that arises if two ends with the structure derived in (b) are ligated (d) Draw the structure produced if the structure derived in (a) is treated with a nuclease that degrades only single-stranded DNA.(e) Draw the sequence of the junction produced if an end with structure (b) is ligated to an end with structure (d).(f) Draw the structure of the end of a linear DNA fragment that was produced by a PvuII restriction digest (include those sequences remaining from the PvuII recognition…arrow_forwardA 10 kb DNA fragment digested with the restriction endonuclease EcoRI yields fragments of 4 kb and 6 kb. When the 10 kb fragment is digested with BamHI, three fragments of 1, 3.5 and 5.5 kb are generated. Digestion with both enzymes yields four fragments of 0.5, 1, 3 and 5.5 kb. Draw the restriction map for the 10 kb fragment based on the data. Label the cut sites for the two enzymes, and the lengths between the cut sites.arrow_forwardIf the GAATTC palindrome is repeated four times on the same piece of linear DNA, and the restriction enzyme that recognizes that base sequence is present and digests the DNA, how many DNA fragments will be produced?arrow_forward
- In making recombinant DNA molecules that combine restriction fragments from different organisms, researchers usually prefer restriction enzymes like BamHI or HindIII that generate fragments with “sticky ends” (ends with overhangs) rather than enzymes like HpaI or SmaI (Table 12.1) that generate fragments with “blunt ends” (ends without overhangs). Can you think of a reason for this preference?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_forwardThere are three classes of restriction enzymes; Class I, Class II and Class II. Nevertheless, Class II is most popular in recombinant technology. Explain the reason behind this.arrow_forward
- Restriction endonucleases are bacterial enzymes that cleave duplex (double-stranded) DNA at specific nucleotide sequences. The mode of replication of the animal virus SV40 has been investigated by using restriction endonucleases that cleave SV40 DNA into a number of unique segments. Like most viruses, SV40 DNA is circular. The map positions of the 11 fragments produced by a pair of restriction endonucleases are shown on the next page. Immediately following a 5 or 10 minute pulse of radioactively labeled thymidine, labeled SV40 molecules that have completed replication during the pulse are isolated. These newly replicated DNA molecules are digested by the restriction endonucleases and the resulting fragments are analyzed for the relative amounts of pulse label they contain. The results are in the table below. Assume that at the time the label was added there was a random population of replicating SV40 DNA molecules in all possible stages of synthesis. From the information given below,…arrow_forwardA linear DNA molecule is subjected to complete restriction digestion by (1) EcoRI alone, (2) HindIII alone, and (3) both enzymes together. The DNA fragments are then separated using gel electrophoresis. Results are shown below: (i) (ii) (iii) EcoRI Hindill Both | | — | | 10 kb 9 kb 8 kb 5 kb 2 kb 1 kb How long is the original DNA molecule? How many EcoRI recognition sites does it have? Does the longest EcoRI fragment contain a HindIII restriction site? Explain your answer.arrow_forwardA plasmid DNA and a linear DNA (both of the same size) have one site for a restriction endonuclease. When cut and separated on agarose gel electrophoresis, plasmid shows one DNA band while linear DNA shows two fragments. Explain.arrow_forward
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