The partial sequences recognized by two restriction enzymes “A” and “B” are indicated below. Complete the...
The partial sequences recognized by two restriction enzymes “A” and “B” are indicated below. Complete the sequences such that palindromes are generated for each of the sites. On your palindromes indicate which phosphodiester linkage would have to be cleaved such that 5’ protruding ends of enzyme “A” are compatible with protruding ends of enzyme “B”. Ex. CT/GCAG
Enzyme “A”: 5’ATAG― ― ― ― 3’
Enzyme “B”: 5’GCG ― ― ― 3’
Consider your answer to the previous question. A DNA fragment generated with enzyme “A” was ligated to a DNA fragment generated with enzyme “B” as illustrated below. What would be the newly sequence at the junction of the ligated fragments? Which enzymes, A, B, A & B, or neither A or B would cut the ligated DNA?
----------------------------------A/B----------------------------------
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The partial sequences recognized by two restriction enzymes “A”
and “B” are indicated below. Complete the...
1. A circular plasmid has two PmeI restriction sites. A PmeI restriction enzyme will cut this...
1. A circular plasmid has two PmeI restriction sites. A PmeI restriction enzyme will cut this plasmid into two fragments. A. True B. False 2.In general, restriction enzymes that recognize four nucleotides have higher probability to produce more DNA fragments than those enzymes that recognize six nucleotides. A. true B. false 3. Which of the following sequences are palindromes? A. 5' TGGCCA 3' B. 5' GAAAAG 3' C. 5' CGATGG 3' D. 5' GACGAC 3' 4. Below are the possible...
15- Which option BEST describes sticky ends by restriction enzymes B. Sticky ends A. Sticky ends...
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DNA fragments cut by most restriction enzymes have: double-stranded complementary ends. either only sequences of Gs...
DNA fragments cut by most restriction enzymes have: double-stranded complementary ends. either only sequences of Gs or only sequences of Cs. cuts made at random points along one of the strands. protruding sticky ends.
find the errors Restriction enzymes recognize specific DNA sequences and cut each strand of DNA at...
find the errors
Restriction enzymes recognize specific DNA sequences and cut each strand of DNA at specific locations at the target sequence. The result of digesting a particular genome with a particular restriction enzyme is a collection of restriction fragments of defined length and composition. These can be used to generate restriction maps or create pieces with sticky ends. These sticky ends can be used to attach to other fragments that have sticky ends caused by cutting with a different...
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Given a sequence, identify palindromic sites that would be recognized by restriction enzymes, identify the axis...
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2. 3. Give the recognition sequence for the restriction enzyme Eael in a dsDNA sequence, indicate...
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15- Which option BEST describes sticky ends by restriction enzymes B. Sticky ends A. Sticky ends are DNA fragments that carry a higher charge than normal after they have been cleaved are DNA fragments cleaved by a restriction enzyme so that one strand is longer than the other C. Sticky ends are DNA fragments cleaved by a restriction enzyme so that both strands are the same length. D. Sticky ends are DNA fragments that attract a carbohydrate molecule to one...
find the errors
Restriction enzymes recognize specific DNA sequences and cut each strand of DNA at specific locations at the target sequence. The result of digesting a particular genome with a particular restriction enzyme is a collection of restriction fragments of defined length and composition. These can be used to generate restriction maps or create pieces with sticky ends. These sticky ends can be used to attach to other fragments that have sticky ends caused by cutting with a different...
RESTRICTION DIGEST ANALYSIS QUESTIONS(true or yes = A: false or no = b) 1. Larger DNA fragments appear near the bottom of the gel. 2. Larger DNA fragments move more rapidly through the gel. D ONA that has many restriction sites for a certain endonuclease will be cut into more fragmets than DNA with fewer restriction sites. 4. Cutting DNA with many different endonucleases will result in more DNA fragments. 5. Restriction enzymes all recognize the same base sequence when...
2. 3. Give the recognition sequence for the restriction enzyme Eael in a dsDNA sequence, indicate the cleavage sites. (2) With reference to your PCR amplicon, detail the terminal DNA sequences at the two ends of the fragment that will be generated after digestion with Eael (indicate these in the two blocks below). What type of ends are generated by this enzyme (blunt/sticky, 5' or 3' overhang)? PCR amplicon بیا بیا
Restriction Mapping Below is a restriction map for the plasmid PGEN101 (total length - 20 kb). Using this map as a guide, give the number of restriction fragments along with their associated lengths that would result from digesting PGEN101 with the restriction enzymes EcoRI, BamHII, anda combination of EcoRI + BamHI. BamHI BamHI BamHI / PGEN101 (20 kb) Mb EcoRI Digest Performed Size Emments Obtained EcoRI........ BamHI.. EcoRI + BamHI.... Two freshmen college students, interested in becoming gene jocks, performed...
1) Imagine that you had two restriction enzymes and a known segment of linear DNA 160 kb long: Enzyme A cuts at location(s): 20 kb, 45 kb 70 kb and 110 kb. Enzyme B cuts at location(s): 15 kb and 140 kb. Based on this information, first construct a linear map of this DNA showing the positions of these restriction enzyme cut sites. In the space below.draw what the gel would look like given the following lanes: (8 points total)...
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