1. Review for final

2. What are the properties of living things? (name 2) Made of cells Metabolism (take in/use energy) Grow Respond to environment Have internal structure Reproduce Change over time

3. What’s the difference between prokaryotic and eukaryotic cells? Eukaryotic cells have a nucleus and prokaryotic cells don’t

4. What are some benefits of bacteria? (name 2) Made oxygen Decompose dead organisms Help us digest food Help us make certain foods Capture nitrogen and make it useable Environmental cleanup Manufacture of certain medicines

5. How should antibiotics be properly used? Only for bacterial infections Use the whole course Use only when necessary

6. How are plant cells different from animal cells? Cell wall chloroplasts

7. What is the equation for photosynthesis? Water + carbon dioxide + light energy Glucose + oxygen Remember, oxygen is a waste product for the plant, not the purpose of photosynthesis

8. What is the equation for cellular respiration? Glucose + oxygen water + carbon dioxide + ATP (useable energy) Remember, we breathe so we can make energy!

9. What organelle makes food? Chloroplasts--in plants, which make their own food

10. What organelle makes energy? Mitochondria—found in all eukaryotic cells

11. What organelle makes protein? ribosome

12. What does the cell membrane do? Let some things into cells and keep other things out of cells

13. How does diffusion work? Solute moves from high to low concentration, needing no energy

14. How does osmosis work? Water moves from high to low concentration

15. What is the difference between hypertonic, hypotonic, and isotonic? Hypertonic=higher concentration of solute, water will move in that direction Hypotonic=lower concentration of solute, water will move out of hypotonic and into hypertonic Isotonic=same concentration of solute

16. What is needed for photosynthesis to occur? Carbon dioxide Water Chloroplasts Light

17. What is ATP? Usable energy for the cell

18. What is the purpose of DNA? The hereditary material The instructions for making proteins

19. What is DNA made of? Nucleotides—which are made of sugar, phosphate, and nitrogen bases

20. What are the 4 bases of DNA? Adenine, Guanine, Cytosine and Thymine A pairs with T, C pairs with G

21. How is RNA different from DNA? 1.Single strand instead of double 2.Uracil instead of Thymine 3.Ribose sugar instead of deoxyribose 4.Can leave the nucleus

22. Why do we need RNA? So DNA can stay in the nucleus and be safe—RNA is expendable and carries the DNA message out to the ribosomes

23. What is protein synthesis? DNA RNA protein

24. What is transcription and where does it take place? DNA RNA In the nucleus

25. Transcribe this DNA to RNA TGGCTCATTGAT ACC GAG UAA CUA

26. What is translation and where does it take place? RNA protein In the ribosomes

27. What is a codon? A three letter base sequence that stands for a particular amino acid

28. Translate this mRNA to amino acids AUG CCA GGU ACU UGA Start-pro-gly-thr-stop

29. What is a chromosome? A large molecule of DNA (and some proteins): each chromosome contains the DNA for thousands of genes

30. How many chromosomes do humans have? 46 – 22 pairs of homologous body chromosomes (autosomes) and one pair of sex chromosomes

31. What is the difference in male and female chromosomes? Males – XY Females – XX

32. When the body makes new cells, chromosomes copy themselves so that each cell has a full copy of DNA. Why does the body need to make new cells? Replace worn cells Repair damaged cells Growth Asexual reproduction (in bacteria and other prokaryotic cells)

33. What is the process of cell division to make new body cells called? Mitosis

34. What is the end product of mitosis? Two identical daughter cells

35. What are gametes? Eggs and sperm

36. What is cell division to produce gametes called? Meiosis

37. What is the end product of meiosis? Four genetically different gametes

38. How many chromosomes in human gametes? 23—22 autosomes and one sex chromosome (X in eggs and X or Y in sperm)

39. What is it called when there is an error in the DNA? Mutation

40. What is good about mutations? It could be beneficial to survival mutation is the ultimate source of all diversity on Earth

41. Mutations cause variation. What are other sources of variation? Crossing over during meiosis Independent assortment during meiosis Random selection of egg and sperm in sexual reproduction Remember, the big advantage of sexual reproduction is that it creates variation

42. What are the advantages of asexual reproduction? Don’t need a mate Can have lots of offspring really fast Take advantage of a stable environment

43. Proteins produce traits. What is a trait? A characteristic of an organism—can be physical, behavioral, internal, predisposition to medical condition

44. What is an allele? Different form of a gene, each allele produces a form of a particular trait

45. Explain dominant and recessive Dominant—the trait that shows, so only one allele is needed to produce it. Symbolized by capital letter. Recessive—the trait that is hidden, so only produced when organism has two recessive alleles. Symbolized by small letter

46. Explain homozygous and heterozygous Homozygous—both alleles are the same. Example: BB, bb Heterozygous—alleles are different. Example: Bb

47. Explain genotype and phenotype Genotype is what your two alleles are: Example—Bb Phenotype is your appearance: If B = brown eyes and b = blue eyes, Bb will have the phenotype brown

48. An individual heterozygous for the sickle cell gene (a carrier) has children with someone who has sickle cell. Draw the Punnett Square to find the probability that an offspring will have sickle cell.

49. If two individuals who are heterozygous for sickle cell have children, what is the probability a child will have sickle cell? What is the probability he/she will be a carrier? Have it = ¼ Be a carrier = ½

50. What do you call this figure? A pedigree What does shading mean? Individual is affected Is the trait dominant, recessive, or sex-linked? Recessive (children sick but parents don’t have it)

51. What is evolution? Genetic changes in populations of organisms over time

52. What is an adaptation? A genetic trait that helps an organism survive in a given environment

53. How does evolution work? Organisms have variation in their adaptations They compete for scarce resources and individuals with better adaptations tend to win and survive better They reproduce and pass their favorable adaptations on to their offspring

54. What is the evidence for evolution? 1.Artifical selection (dog example) 2.Fossils of extinct organisms that are similar but not identical to living species 3.Homologous structures (like human arm, whale flipper, bat wing) 4.Vestigial organs (like human tailbone) 5.DNA—the more closely related, the more alike the DNA 6.Embryo development (a few week old human embryo looks the same as a lizard or pig) 7.Direct observation