Biology Final Review

1. Biology Final Review

2. Chromosomes • Chromosomes are DNA & its associated proteins. • We have 46 chromosomes or 23 pairs of chromosomes. • In a prokaryotic cell, it is the main ring of DNA.

3. Autosomes vs. Sex Chromosomes • Autosomes are any chromosomes that are not directly involved in determining the sex of an individual. • We have 22 pairs. • Sex chromosomes contain genes that will determine the sex of the individual. • We have one pair. • Females are XX. • Males are XY.

4. Autosomes vs. Sex Chromosomes

5. Gametes • Gametes are an organism’s reproductive cells. • Female’s gametes are eggs or ova. • Male’s gametes are sperm.

6. Haploid vs. Diploid • Haploid refers to a cell (gamete) that contains only 1 set of chromosomes. • It is represented by “n.” • Diploid refers to a somatic or body cell that contains 2 sets of chromosomes. • It is represented by “2n.”

7. Define Haploid • Describes a cell, nucleus or organism that has only one set of unpaired chromosomes.

8. Define Diploid • A cell that contains 2 sets of haploid chromosomes • Body or somatic cells contain a diploid number of chromosomes.

9. Karyotype • A picture of the chromosomes found in an individual’s cells at metaphase of mitosis & arranged in homologous pairs & in order of diminishing size with the sex chromosomes last. • Down’s Syndrome is trisomy 21.

10. Parts of a Microscope

11. Microscopes and Magnification • Ocular lens x objective lens = total magnification • Magnification – making image appear larger • Resolution – clarity of image

12. Cell Theory • All living things are made of cells. • Cells are the basic units of structure and function in organisms. • All cells come from existing cells.

13. Prokaryote vs. Eukaryote • Prokaryote • No nucleus • No membrane bound organelles • Circular DNA • Relatively small • Reproduce quickly (20 min.) • Examples: Bacteria

14. Prokaryote vs. Eukaryote • Eukaryote • Nucleus • Many membrane bound organelles • Linear DNA • Relatively large • Reproduce slowly (24+ hours) • Examples: Plants, animals, fungi & protists

15. Cell Parts & Functions • Cell membrane • Controls what enters & leaves a cell; separates & protects the cell from the environment. • Nucleus • Contains the DNA in eukaryotic cells; controls cellular activities. • Vacuole • Membrane bound sac that stores water, may also contain ions, nutrients & waste.

16. Cell Parts & Functions • Chloroplast • Organelle that uses light energy to make carbohydrates from CO2 & H2O. • Cytoplasm • Region of the cell within the membrane that includes the fluid, the cytoskeleton and all of the organelles except the nucleus. • DNA • Material that contains the information that determines hereditary characteristics.

17. Cell Parts & Functions • Ribosomes • Organelle composed of RNA & protein; site of protein synthesis. • Mitochondrion • Cell organelle surrounded by 2 membranes & is the site of cellular respiration, which produces ATP. • Cell Wall • Rigid structure that surrounds the cell membrane & provides support to the cell.

18. 5 Stages of the Cell Cycle

19. 5 Stages of the Cell Cycle • The first 3 stages are collectively called interphase. (90% of a cell’s life is spent here.) • First growth (G1) phase • Cell grows rapidly & carries out routine functions. (Major portion of a cell’s life is spent here.)

20. 5 Stages of the Cell Cycle • Synthesis (S) phase • Cell’s DNA is copied. • Each chromosome consists of 2 chromatids attached at the centromere. • Second growth (G2) phase • Preparations are made for the nucleus to divide. • Microtubules are rearranged. • Organelles are manufactured or reproduced.

21. 5 Stages of the Cell Cycle • Mitosis • The nucleus of a cell divides into 2 nuclei each with the same # and kinds of chromosomes as the original cell. • Cytokinesis • The cytoplasm divides and 2 new cells are formed.

22. 3 Checkpoints • A checkpoint is an inspection point at which feedback signals from the cell can trigger the next phase of the cell cycle or delay it. • Cell Growth (G1) checkpoint at the end of the G1 phase • Makes the decision of whether or not a cell will divide.

23. 3 Checkpoints • DNA synthesis (G2) checkpoint at the end of the G2 phase • DNA replication is checked by DNA repair enzymes. • Mitosis checkpoint at the end of mitosis • Triggers the exit from mitosis

24. 4 Phases of Mitosis • Prophase • Chromosomes become visible. • Nuclear envelope dissolves. • The spindle forms. • In animal cells, the centrioles move to opposite poles and the spindle forms between them.

25. 4 Phases of Mitosis • Metaphase • Chromosomes move to the center of the cell & line up along the equator. • Spindle fibers link the chromatids of each chromosome to opposite poles.

26. 4 Phases of Mitosis • Anaphase • Centromeres divide. • The 2 chromatids (now called chromosomes) move toward opposite poles as the spindle fibers attached to them shorten.

27. 4 Phases of Mitosis • Telophase • A nuclear envelope forms around the chromosomes at each pole. • The chromosomes uncoil and return to chromatin form. • The spindle dissolves. • Cytokinesis begins.

28. Cytokinesis • Division of the cytoplasm of a cell • Follows the division of the cell’s nucleus by mitosis or meiosis • Cytokinesis in animal cells occurs when a belt of protein threads pinches the cell membrane in half. • Cytokinesis in plant cells occurs when vesicles from the Golgi apparatus fuse to form a cell plate.

29. Cytokinesis • Cytokinesis in Cytokinesis in animal cells plant cells

30. Define Meiosis • A process in cell division during which the number of chromosomes decreases to half the original number by two divisions of the nucleus, which results in the production of sex cells (gametes or spores)

31. What are the 4 things that give rise to variation within a species? • Independent assortment • Crossing-over • Random fertilization • Mutations

32. Differentiate between spermatogenesis & oogenesis. • Spermatogenesis • 2 nuclear divisions in which the cytoplasm is divided equally • 4 sperm produced from parent cell

33. Differentiate between spermatogenesis & oogenesis. • Oogenesis • First nuclear division, cytoplasm divides unequally – one of the cells gets nearly all of the cytoplasm • This cell will ultimately give rise to one egg – the 3 polar bodies will die

34. Complete the following diagrams 2n 2n 2n Process: Mitosis Process: Meiosis

35. Compare Mitosis and Meiosis

36. What are the 3 different ways asexual reproduction occurs? • In asexual reproduction, a single parent passes exact copies of all of its DNA to its offspring. • Fission • Fragmentation • Budding

37. Nondisjunction • One or more chromosomes fail to separate properly during meiosis. • One gamete ends up receiving both chromosomes and the other gamete receives none. • Trisomy occurs when the gamete w/ both chromosomes fuses w/ a normal gamete, resulting in an offspring w/ 3 copies of a chromosome instead of 2.

38. Diffusion vs. Osmosis • Diffusion • The movement of particles from regions of higher concentration to regions of lower concentration. • Ex: perfume spreading across a room. • Osmosis • The diffusion of water from an area of high concentration to an area of low concentration across a membrane. • Ex: Getting thirstier when you drink salt water.

39. Passive vs. Active Transport • Passive Transport • Does not require energy. • Movement down the concentration gradient. • Examples: • Diffusion • Osmosis • Facilitated diffusion

40. Passive vs. Active Transport • Active Transport • Requires energy. • Movement against the concentration gradient. • Examples: • Sodium-potassium pump • Endocytosis • Phagocytosis • Pinocytosis • Exocytosis

41. Carbohydrate of glycoprotein Glycoprotein Glycolipid Fig. 5-1a Integrin Phospholipid Microfilaments of cytoskeleton Cholesterol

42. ATP • The energy “currency” of the cell. • An organic molecule that acts as the main energy source for cell processes • Composed of a nitrogen base, a sugar & 3 phosphate groups. • The energy is stored in the phosphate bonds. • Powers metabolism.

43. Photosynthesis • Process by which plants, algae & some bacteria use sunlight, CO2 & H2O to produce carbohydrates & O2. • Takes place in the chloroplast • Main pigment is chlorophyll. • Reactants are CO2 and H2O • End products are glucose & O2

44. Photosynthesis • Stage 1 • Consists of the absorption of light energy which excites the electrons in chlorophyll. • The electrons enter the ETC (electron transport chain). • Water is split to produce O2, H+, and the electrons to replace those lost by the chlorophyll molecules.

45. Photosynthesis • Stage 2 • The conversion of light energy into chemical energy that is temporarily stored in ATP and NADPH. • The energy from ATP and NADPH will be used to power the third stage.

46. Photosynthesis • Stage 3 • CO2 fixation occurs • Inorganic CO2 is fixed into organic compounds (sugars).

47. Cellular Respiration • Process by which cells produce energy from carbohydrates; O2 combines w/ glucose to form H2O & CO2. • Takes place in the mitochondrion. • Reactants are glucose and oxygen. • Products are carbon dioxide& water.

48. Aerobic Respiration vs. Anaerobic Respiration • Aerobic Respiration • Requires oxygen. • Produces much more ATP (38 net ATP) • Anaerobic Respiration • Does not require oxygen. • Regenerates NAD+ so that gylcolysis can continue. • (2 net ATP from glycolysis)

49. Aerobic Respiration • Stage 1 – Glycolysis takes place in the cytoplasm. • Does not require oxygen. • Glucose is broken down to 2 pyruvate molecules • Produces 2 net ATP and 2 NADH • Stage 2 – Bridge reaction carries pyruvates into the mitochondrion. • 2 CO2 and 2 NADH are produced

50. Aerobic Respiration • Stage 3 – Krebs Cycle occurs in the matrix of the mitochondrion • In the presence of oxygen. • In two turns of the Krebs Cycle: • 4 CO2 are produced • 6 NADH are produced • 2 ATP are produced • 2 FADH2 are produced.