Biochemistry 410/411 Textbook - 5th Edition - Custom Texas A&M University
5th Edition
ISBN: 9781119302940
Author: Voet
Publisher: WILEY C
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Chapter 3, Problem 16E
(a)
Summary Introduction
To identify: The restriction enzymes that produce blunt ends.
Concept introduction: Restriction enzymes recognize their specific target sequence and excise deoxyribonucleic acid (DNA) at that sequence or adjacent to it. These specific sequences are known as restriction sites and the enzymes are known as DNA cutting enzymes. These make staggered cuts at or adjacent to their specific recognition site and most of them produce sticky ends.
(b)
Summary Introduction
To identify: The restriction enzymes that recognize and cleave the same sequence.
Concept introduction: Restriction enzymes recognize their specific target sequence and excise deoxyribonucleic acid (DNA) at that sequence or adjacent to it. These specific sequences are known as restriction sites and the enzymes are known as DNA cutting enzymes. These make staggered cuts at or adjacent to their specific recognition site and most of them produce sticky ends.
(c)
Summary Introduction
To identify: The restriction enzymes that produce identical sticky ends.
Concept introduction: Restriction enzymes recognize their specific target sequence and excise deoxyribonucleic acid (DNA) at that sequence or adjacent to it. These specific sequences are known as restriction sites and the enzymes are known as DNA cutting enzymes. These make staggered cuts at or adjacent to their specific recognition site and most of them produce sticky ends.
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Chapter 3 Solutions
Biochemistry 410/411 Textbook - 5th Edition - Custom Texas A&M University
Ch. 3 - Prob. 1ECh. 3 - 2. Name the following nucleotide.
Ch. 3 - 3. In many organisms, DNA is modified by...Ch. 3 - 4. When cytosine is treated with bisulfite, the...Ch. 3 - 5. Kinases are enzymes that transfer a phosphoryl...Ch. 3 - 6. Kinases are enzymes that transfer a phosphoryl...Ch. 3 - 7. A diploid organism with a 45,000-kb haploid...Ch. 3 - 8. A segment of DNA containing 20 base pairs...Ch. 3 - 9. Explain why the strands of a DNA molecule can...Ch. 3 - 10. Explain why increasing the NaCl concentration...
Ch. 3 - 11. An enzyme from the human immunodeficiency...Ch. 3 - 12. How many different amino acids could...Ch. 3 - 13. The human genome contains thousands of...Ch. 3 - 14. By how many nucleotides, on average, do the...Ch. 3 - 15. The recognition sequence for the restriction...Ch. 3 - 16. Using the data in Table 3-2, identify...Ch. 3 - 17. The 13-Mb genome of the green alga...Ch. 3 - 18. Describe how to select recombinant clones if a...Ch. 3 - Prob. 19ECh. 3 - Prob. 20ECh. 3 - 21. Why is a genomic library larger than a cDNA...Ch. 3 - 22. Why do cDNA libraries derived from different...Ch. 3 - 23. Some RNA molecules me covalently modified by...Ch. 3 - 24. Would the modified nucleoside described in...Ch. 3 - 25. Draw the tautomeric form of adenine.
Ch. 3 - 26. Draw the tautomeric form of cytosine.
Ch. 3 - 27. The pK value for N1 of adenine is 3.64,...Ch. 3 - Prob. 28CQCh. 3 - Prob. 29CQCh. 3 - 30. Hypoxanthine can also base-pair with cytosine....Ch. 3 - 31. Describe the outcome of a chain-terminator...Ch. 3 - 32. Describe the outcome of a chain-terminator...Ch. 3 - 33. Calculate the number of clones required to...Ch. 3 - 34. You are attempting to clone a 250-kb segment...Ch. 3 - 35. Describe the possible outcome of a PCR...Ch. 3 - 36. Describe the possible outcome of a PCR...Ch. 3 - 37. Write the sequences of the two 12-residue...Ch. 3 - 38. A blood slain from a crime scene and blood...Ch. 3 - Prob. 1MTE
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