There 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.
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- 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 translateRestriction endonucleases (RE) are one of the most used enzymes in biotechnology for recombinant DNA experimentations. These enzymes consist of three major classes; I, II and III. (i) Why is RE Class II commonly utilized in the labs as compared to Class I and III? (ii) Why is RE referred as Restriction Endonuclease and not Restriction Exonuclease? (iii) Some REs are known as isoschizomers. Describe isoschizomers with an example.A piece of DNA 5.0 kb long is cloned and then cut out of the vector for analysis. This linear piece of DNA is digested with two restriction enzymes, EcoRI and BamHI, individually and in combination, and the resulting fragment sizes are determined by electrophoresis. The results are as follows: Restriction fragment size 4.5 kb; 0.5 kb 3.0 kb; 2.0 kb 2.5 kb; 2.0 kb; 0.5 kb Enzyme name EcoRI ВатHI EcoRI + BamHI Construct a potential restriction map based on these results.
- When performing cloning experiments, it is not always necessary to treat sources of DNA with the same restriction enzyme. For example, DNA treated with EcoRI can be combined with DNA from a treatment using FunII. Explain why this is possible.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?A 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.
- In 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).You want to clone a specific PCR amplicon. You have determined that the amplicon you want to clone has enzyme restriction sites for HindIII and EcoRI. After investigation you have seen that the pUC18/19 plasmid also have these enzyme restriction sites in its multiple cloning site (MCS on map included). After enzyme digestion your amplicon is 854 bp long. What length will the recombinant plasmid be after you have inserted your amplicon? Show a calculation.The 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.
- After restriction enzymes cut, they contain unpaired bases. Type II restriction enzymes leave ends that may be 5' overhanging, 3' overhanging, or blunt. In all cases each end is left with a 3' OH and a 5' phosphate. All blunt ends, and any complementary overhanging ends may be re-ligated with T4 DNA ligase, as long as at least one 5'- phosphate is present. In the tables below G^AATTC means that the end after cutting with enzyme will be: -----G 3' -----CTTAA 5' GTGCA^C means that the end will be: -----GTGCA 3' -----C 5' Which RE’s from table below have a 5’ overhang? Which ones have a 3’ Overhang? AccI GT^CGAC BamHI G^GATCC ClaI AT^CGAT NsiI ATGCA^T PstI CTGCA^G BglII A^GATCT TaqI T^CGAYou are studying a new plasmid, and you digest the plasmid with three restriction enzymes: Eco RI (E), HindlII (H), and Xbal (X). You digest the plasmid DNA with each of the following combinations of enzymes and observe the results on an agarose gel. You are provided a partial plasmid map as shown below to the right. E+H E+X H+x Kb +4.3 +2.8 -+2.5 -2.0 - -1.8 +1.5 -1.0 12 F0.8 +0.5 a. What is the size of this plasmid in base pairs? b. What is the distance in base pairs between E1 and H? c. What is the distance in base pairs between E1 and X? d. What is the distance in base pairs between E2 and H? e. What is the distance in base pairs between E2 and X?The gene you are asked to clone is 30,000 bps in length. When you are choosing a suitable Restriction Endonuclease, what criteria about the enzyme can you deduce from the gene length?