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Final Review: 2nd Semester Biology Answer Key DNA is the hereditary material in cells. It is a chain of nucleotides. 2. A gene is a piece of DNA that controls one trait. Or it is a piece of DNA that is the information to construct one protein/polypeptide. 3. A chromosome is a long strand of DNA, composed of many genes. It contains the information for many traits. 4. An allele is a form of the gene. For example, the allele for purple flowers and the allele for white flowers are two different forms of the flower color gene in pea plants. 5. Heterozygous is an organism that has two different alleles for a trait. Example: Pp- a purple alleles and a white allele 6. Homozygous is an organism that has two of the same alleles for a trait. Examples: PP- homozygous dominant (2 purple alleles) pp- homozygous recessive (2 white alleles) 7. Genotype is the two alleles for a gene found in an organism (Example: PP, Pp, or pp) 8. Phenotype is the expression of a gene in an organism- appearance, existence of a genetic disease etc. Examples: Brown eyes, freckles, hemophiliac 9. phenotype … recessive … genotype …. dominant …. homozygous ….heterozygous A Punnett square is a tool to determine what genotypes/phenotypes are possible offspring of two parents, and what the probabilities of each genotype/phenotype are. Each side represents the possible alleles in each of the gametes (egg/sperm) of parents. Example: If a mother is heterozygous for free ear lobes (a dominant trait) her eggs can have either a F allele or f allele. If the father is homozygous recessive for attached ear lobes, his sperm always have the f allele. Sperm from father \ 10. 1. f f Eggs from mother F f 11. T T t 12. TT Tt A t Tt Phenotype ratio 3:1 (dominant to recessive) Probability of taster: 75% Probability of nontaster: 25% tt Genotype ratio 1:2:1 (TT:Tt:tt) Probability of homozygous dominant: 25% Probability of heterozygous: 50% Probability of homozygous recessive: 25% a a Aa aa a Aa aa Phenotype Ratio : 1:1 Probability of normal pigmentation: 50% Probability of albino: 50% 13. A dihybrid cross is a Punnett square that compares the inheritance of two traits. 14. If the parents are AaBb, their gametes could contain AB, Ab, aB or ab. 15. on the same chromosome (linked)… independent assortment 16. SP Sp sP sp SP SSPP SSPp SsPP SsPp Sp SSPp SSpp SsPp Sspp sP SsPP SSpp ssPP ssPp sp SsPp Sspp ssPp sspp Phenotype ratio 9:3:3:1 (standard ratio when both parents heterozygous for both traits) Fraction Round, Purple: 9/16 Fraction Round, White: 3/16 Fraction Wrinkled, Purple: 3/16 Fraction Wrinkled,White: 1/16 17. If the number of offspring is small, the Punnett square probabilities may not be very accurate. 18. An X-linked trait is a trait found on the X chromosome. Red-Green colorblindness, hemophilia and Duchene’s muscular dystrophy are all Xlinked traits. Men are more likely to have (recessive) sex-linked traits because they only have one X chromosome. 19. A man may inherit Red-green colorblindness if his mother is at least a carrier. A woman must inherit the colorblindness allele from both parents- her mother must be at least a carrier and her father must be colorblind. 20. XD Y XD Xd XDXD XDXd XDY Probabilities: Daughter having MD: O% Daughter not having MD: 100% Son having MD: 50% Son not having MD: 50% XdY 21. Polygenic is a trait that is controlled by more than one gene. Examples of polygenic traits include height and skin color. (Polygenic traits are typically traits that are expressed with a range of various phenotypes.) 22. Multiple alleles means a trait there is more than 2 possible alleles that can be inherited for a particular gene. (Each individual only has 2 alleles for the trait.) ABO blood type is a gene that has 3 possible alleles. 23. A: IAIA or IAi (i represents the recessive O allele) B: IBIB or IBi AB: IAIB only O : ii only 24. Yes, a man with blood type B can father a child with blood type O because his genotype may be IBi. 25. If a man has blood type AB he can not father a child with blood type O. His genotype must be IAIB and the child must inherit an i allele from each parent. 26. Trisomy is a condition in which a person inherits an extra copy of a chromosome, because of nondisjunction (chromosomes not separating properly) during meiosis. Down’s syndrome is caused by trisomy 21. 27. Independent assortment and crossing over are the two ways that genetic variation occurs during meiosis. Independent assortment means that each pair of chromosomes lines up independently during meiosis (I). Crossing over allows genetic variation of genes on the same chromosome, because nonsister chromatids can exchange segments during prophase of meiosis I. 28. DNA is a chain of nucleotides. Each nucleotide is made of 3 parts, a sugar, a phosphate group and a nitrogen base (A, C, T or G). 29. DNA is a double helix- 2 strands of nucleotides chains that are twisted like a spiral staircase. The sugar- phosphate groups form the backbone of the chains and pairs of nitrogen bases form the “rungs” of the double helix. 30. Adenine always pairs with Thymine Cytosine always pairs with Guanine If one side is CATGAG the other side will be GTACTC. 31. DNA replication occurs just prior to cell division. The enzyme helicase unwinds the double helix, separating the two strands. The enzyme DNA polymerase constructs the new DNA by adding the complementary nucleotides. In the end, each of the 2 DNA molecules produced contains one original strand of nucleotides (that served as the template) and one new strand of nucleotides. 32. Gene expression (producing the protein encoded by a gene) involves transcription and then translation. 33. DNA nucleotides use the sugar deoxyribose, RNA nucleotides use the sugar ribose. A DNA molecule is a double strand, mRNA is a single strand. DNA nucleotides can have the nitrogen bases A, C, G or T. RNA nucleotides have uracil in place of thymine. 34. Both mRNA and tRNA are chains of nucleotides. mRNA is a straight chain of nucleotides that serves as a “messenger” . It is a mRNA copy of a gene. tRNA is a folded piece of RNA, with an attached amino acid. It serves to transfer the amino acid encoded by a codon in the mRNA to the protein produced during translation. 35. Transcription is the production of an mRNA copy of a gene. It occurs in the nucleus. The enzyme RNA polymerase unwinds a section of DNA at the start of a gene, and adds the complementary RNA nucleotides to the DNA template to make the single stranded mRNA. 36. AUCGUA (same pairing as within DNA molecule except that adenine pairs with uracil because thymine not used in RNA molecules) 37. Translation occurs in the ribosome. The mRNA is attachs to a ribosome and a start tRNA. A tRNA with a complementary anticodon to the next codon (series of 3 nucleotides) attaches bringing the corresponding amino acid. The amino acids are joined together and the mRNA slides down the ribosome, moving the next codon into the ribosome binding site. This process continues to build the protein. 38. All types of organisms translate the codons in the mRNA in the same way (add the same amino acid). Because of the fact that the genetic code is universal, a gene from a human, such as insulin, can be inserted into a bacteria and it will produce the same protein. 39. A virus contains only hereditary material (DNA or RNA) surrounded by a protein coat. It does not have any ribosomes, enzymes etc. Therefore, it can not reproduce on its own. It must take over a host cell and use the host cell’s ribosomes/enzymes to make new proteins, copy DNA for reproduction. 40. The lytic cell is when a virus uses a host cell to make many new copies of the virus, and then lyses(bursts open) the cell, releasing the replicated viruses. 41. Most viruses can only infect one specific type of host cell. (Examples: polio virus infects nerve cells, HIV infects white blood cells). The strurcture of the viral protein coat affects what type of cell it can attach to and infect. 42. The lysogenic cell is a dormant cycle in which the viral DNA is integrated into the host DNA. It can later reemerge into the lytic phase. Reoccuring cold sores is an example of a virus that can be found in the lysogenic phase. 43. Bacteria are prokaryotic cells, which lack a nucleus and all cell-bound organelles. 44. An antibiotic is a drug that can kill bacteria. They do not work against viruses. 45. Antibiotic resistance is when a strain of bacteria are not killed by an antibiotic. Antibiotic resistance is more likely to develop when an antibiotic is overused. It can develop by natural selection-if a bacterium (through random mutation) has a gene that makes it more likely to survive the antibiotic, that gene will increase in the population. 46. The nucleus of an egg is removed, the nucleus from the cell to be cloned is added, (cell division is stimulated by electricity), and the cell is placed in a surrogate mother. 47. A recombinant plasmid is a plasmid made from DNA from 2 different sources (such as a bacteria plasmid with a firefly gene inserted). To make a recombinant plasmid, both the plasmid and the gene to be inserted are cut with the same restriction enzyme. Restriction enzymes make cut DNA at specific sequences in a way that leaves sticky ends (single stranded DNA ends). Complementary sticky ends (due to being cut by the same restriction enzyme) allow the different types of DNA to be joined together. 48. Gene therapy is trying to correct a genetic disease by inserting a correct version of the gene into the cells that need it. Genetically modified organisms can be created by inserting the recombinant plasmid into a fertilized egg. The recombinant DNA can then be passed on into all the cells in the organism. In gene therapy, the recombinant vector must be added to all the cells that need it, in an already existing person. 49. 630 nucleotides, each amino acid is encoded by a codon of 3 nucleotides