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Download Part I, for Exam 1: 1. Based on Chargaff`s rules, which of the
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Chapter 3 Practice Problems Page 1 of 2 Part I, for Exam 1: 1. Based on Chargaff's rules, which of the following are possible base compositions for double-stranded DNA? %A %G %C %T %U A) 5 45 45 5 0 B) 20 20 20 20 20 C) 35 15 35 15 0 D) all of the above E) none of the above 2. In the Watson-Crick model of DNA structure (now called B-form DNA): A) B) C) D) E) a purine in one strand always hydrogen bonds with a purine in the other strand. A–T pairs share three hydrogen bonds. G–C pairs share two hydrogen bonds. the 5' ends of both strands are at one end of the helix. the bases occupy the interior of the helix. 3. The double helix of DNA in the B-form is stabilized by: A) B) C) D) E) covalent bonds between the 3' end of one strand and the 5' end of the other. hydrogen bonding between the phosphate groups of two side-by-side strands. hydrogen bonds between the riboses of each strand. nonspecific base-stacking interaction between two adjacent bases in the same strand. ribose interactions with the planar base pairs. 4. Triple-helical DNA structures can result from Hoogsteen (non Watson-Crick) interactions. These interactions are primarily: A) B) C) D) E) covalent bonds involving deoxyribose. covalent bonds involving the bases. hydrogen bonds involving deoxyribose. hydrogen bonds involving the bases. hydrophobic interactions involving the bases. 5. The ribonucleotide polymer (5')GTGATCAAGC(3') could only form a double-stranded structure with: A) B) C) D) E) (5')CACTAGTTCG(3'). (5')CACUAGUUCG(3'). (5')CACUTTCGCCC(3'). (5')GCTTGATCAC(3'). (5')GCCTAGTTUG(3'). 6. Describe qualitatively how the tm (melting temperature) for a double-stranded DNA depends upon its nucleotide composition. 7. Describe RFLPs and STRs . How is each one used in forensics? Is one better than the other? Why? Chapter 3 Practice Problems Page 2 of 2 Part II, Probably for Exam 2 1. Restriction enzymes: A) B) C) D) E) act at the membrane to restrict the passage of certain molecules into the cell. are highly specialized ribonucleases that degrade mRNA soon after its synthesis. are sequence-specific DNA endonucleases. are very specific proteases that cleave peptides at only certain sequences. catalyze the addition of a certain amino acid to a specific tRNA. 2. The biological role of restriction enzymes is to: A) B) C) D) E) aid recombinant DNA research. degrade foreign DNA that enters a bacterium. make bacteria resistant to antibiotics. restrict the damage to DNA by ultraviolet light. restrict the size of DNA in certain bacteria. 3. The E. coli recombinant plasmid pBR322 has been widely utilized in genetic engineering experiments. pBR322 has all of the following features except: A) a number of conveniently located recognition sites for restriction enzymes. B) a number of palindromic sequences near the EcoRI site, which permit the plasmid to assume a conformation that protects newly inserted DNA from nuclease degradation. C) a replication origin, which permits it to replicate autonomously. D) resistance to two different antibiotics, which permits rapid screening for recombinant plasmids containing foreign DNA. E) small overall size, which facilitates entry of the plasmid into host cells. 4. (3 points) Current estimates indicate that humans have about ________ genes. 5. A plasmid that encodes resistance to ampicillin and tetracycline is digested with the restriction enzyme PstI, which cuts the plasmid at a single site in the ampicillin-resistance gene. The DNA is then annealed with a PstI digest of human DNA, ligated, and used to transform E. coli cells. (a) What antibiotic would you put in an agar plate to ensure that the cells of a bacterial colony contain the plasmid? (b) What antibiotic-resistance phenotypes will be found on the plate? (c) Which phenotype will indicate the presence of plasmids that contain human DNA fragments?