12.2 The Structure of DNA

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Name Class Date 12.2 The Structure of DNA The Components of DNA For Questions 1 5, complete each statement by writing in the correct word or words. 1. The building blocks of DNA are. 2. Nucleotides in DNA are made of three basic components: a sugar called,a, and a nitrogenous. 3. DNA contains four kinds of nitrogenous bases:,,, and. 4. In DNA, can be joined in any order. 5. The nucleotides in DNA are joined by bonds. Solving the Structure of DNA 6. Complete the table to describe each scientist s contribution to solving the structure of DNA. Scientist Erwin Chargaff Contribution Rosalind Franklin James Watson and Francis Crick 7. Complete the table by estimating the percentages of each based on Chargaff s rules. DNA sample Percent of adenine Percent of thymine Percent of guanine Percent of cytosine 1 31.5 2 30 20 3 17

The Double-Helix Model For Questions 8 13, on the lines provided, label the parts of the DNA molecule that correspond to the numbers in the diagram. 14. The drawing below shows half of a DNA molecule. Fill in the appropriate letters for the other half. Explain why you drew your sketch the way you did.

12.3 DNA Replication Copying the Code 1. Why are the strands of a DNA molecule said to be complementary? 2. What is the first step in eukaryotic DNA replication? 3. If the base sequence on a separated DNA strand is CGTAGG, what will the base sequence on its complementary strand be? 4. What enzyme joins individual nucleotides to produce the new strand of DNA? 5. What enzyme makes it less likely that DNA will be lost from telomeres during replication? 6. How does this enzyme work? 7. What is a replication fork? 8. Does DNA replication take place in the same direction along both strands of the DNA molecule that is being replicated? Explain your answer. (Hint: Look at the illustration of DNA replication in your textbook.) Replication in Living Cells 9. Complete the table to compare and contrast DNA replication in prokaryotes and eukaryotes. Location of DNA Prokaryotes Eukaryotes Amount of DNA Starting Point(s) for Replication 10. Why is the pairing of bases during replication essential for the transmission of inherited traits from parent to offspring?

13.1 RNA The Role of RNA 1. Complete the table to contrast the structures of DNA and RNA. DNA Sugar Number of Strands Bases RNA 2. On the lines provided, identify each kind of RNA. a. b c. RNA Synthesis For Questions 3 9, complete each statement by writing the correct word or words. 3. The process of using DNA to produce complementary RNA molecules is called. 4. The sequence of in mrna complements the sequence in the DNA template. 5. In eukaryotes, RNA is formed in the and then travels to the. 6. The enzyme binds to DNA during transcription. 7. RNA polymerase binds to regions of DNA called, which are start signals for transcription. 8. are portions of RNA that are cut out and discarded. 9. are spliced together to make the final mrna.

13.2 Ribosomes and Protein Synthesis The Genetic Code Use the diagram to answer Questions 1 7. 1. What are the words along the outside of the circle? 2. What can you find by reading this diagram from the inside out? 3. For which amino acid is AAA a codon? 4. What is the codon for tryptophan? 5. For which amino acid is GGA a codon? 6. What is a codon for alanine? 7. What are three other codons for alanine?

Translation Use the diagram to answer Questions 8 10. 8. What is the anticodon for leucine? 9. What is the codon for leucine? 10. List the amino acids in the order they would appear in the polypeptide coded for by this mrna. Phenylalanine leucine lysine methionine The Molecular Basis of Heredity For Questions 11 15, write the letter of the correct answer on the line at the left. 11. The instructions for assembling proteins are contained in the A. genes. B. ribosomes. C. exons. D. introns. 12. The central dogma of molecular biology is that information is transferred from A. RNA to protein to DNA. B. DNA to protein to RNA. C. protein to DNA to RNA. D. DNA to RNA to protein. 13. An exception to the central dogma is A. the infection of a virus by a bacteriophage. B. the ability of some viruses to transfer information from RNA to DNA. C. the expression of different genes during different stages of development. D. the translation of the codon into the anticodon of trna. 14. The way in which DNA, RNA, and proteins are all involved in putting genetic information into action in living cells is called A. translation. B. transcription. C. gene expression. D. viral transfer. 15. All organisms are mostly the same in A. the proteins they make on their ribosomes. B. how their proteins catalyze chemical reactions. C. the size of their genes. D. the molecular biology of their genes.

13.3 Mutations Types of Mutations 1. Complete the table to describe the processes and outcomes of the different types of gene (point) mutations. Type Description Outcome Substitution Insertion Deletion 2. Deletion can happen as a gene mutation or as a chromosomal mutation. What is the difference? For Questions 3 10, match the term with its definition. Definition 3. The change of one base to another in a DNA sequence 4. A change in one or a few nucleotides that occur at a single point in the DNA sequence 5. Part of one chromosome breaks off and attaches to another 6. A heritable change in genetic information 7. A mutation that produces an extra copy of all or part of a chromosome 8. A chromosomal mutation that reverses the direction of parts of a chromosome 9. A kind of mutation that can change every amino acid that follows the point of mutation 10. The addition of a base to the DNA sequence Term A. mutation B. substitution C. point mutation D. frameshift mutation E. insertion F. translocation G. inversion H. duplication

Effects of Mutations For Questions 11 18, write the letter of the correct answer on the line at the left. 11. The cellular machinery that replicates DNA inserts an incorrect base A. most of the time. B. about half the time. C. roughly once in every million bases. D. roughly once in every 10 million bases. 12. Small changes in genes A. disappear quickly. B. gradually accumulate over time. C. prevent the next generation from developing. D. do not affect future generations. 13. A possible mutagen is A. an anticodon. B. translocation. C. hemoglobin. D. ultraviolet light. 14. What happens when cells cannot repair the damage caused by a mutagen? A. The DNA base sequence changes permanently. B. The DNA base sequence is not affected. C. The organism is not affected. D. The organism is affected temporarily. 15. Which of the following most accurately summarizes the effects of mutations on living things? A. Most mutations are harmful, but some have little effect. B. Many mutations have little or no effect, but some can be harmful or beneficial. C. Most mutations are beneficial and a few are harmful. D. About half of mutations are beneficial and half are harmful. 16. Mutations are important to the evolution of a species because they A. happen over the long period of time that evolution requires. B. cut out and replace damaged or useless genes. C. are a source of genetic variability. D. accelerate the transcription rate of DNA. 17. Cancer is the product of a mutation that A. causes the uncontrolled growth of cells. B. changes the structure of hemoglobin in the blood. C. brings about stunted growth and severe pain. D. causes a translocation in a pair of chromosomes

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