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Chapter 4

Chapter 4. Cancer DNA Synthesis, Mitosis, and Meiosis. 0. 1 What Is Cancer?. Tumor : Unregulated cell division that form a mass of cells with no function Benign tumor : doesn’t affect surrounding tissues Malignant tumor : invades surrounding tissues; cancerous

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Chapter 4

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  1. Chapter 4 CancerDNA Synthesis, Mitosis, and Meiosis 0

  2. 1 What Is Cancer? Tumor: Unregulated cell division that form a mass of cells with no function Benign tumor: doesn’t affect surrounding tissues Malignant tumor: invades surrounding tissues; cancerous Metastasis: cells break away from a malignant tumor and start a new cancer at another location

  3. 1 What Is Cancer?

  4. 1 What Is Cancer? Metastatic cells can travel throughout the body via the circulatory system or the lymphatic system. Once in either system the cancer cells can travel anywhere in the body Cancer cells differ from normal cells: Divide when they shouldn’t Invade surrounding tissues Move to other locations in the body

  5. 1 What Is Cancer? Risk factors: increase a person’s risk of developing a disease (Table 6.1) Tobacco use: tobacco contains many carcinogens Alcohol consumption High-fat, low-fiber diet Lack of exercise Obesity Increasing age which weakens the immune system Cells that divide frequently such as ovarian cells

  6. 2 Passing Genes and Chromosomes to Daughter Cells Asexual reproduction: Only one parent Offspring are genetically identical to parent Sexual reproduction Gametes are combined from two parents Offspring are genetically different from one another and from the parents

  7. 2 Passing Genes and Chromosomes to Daughter Cells Before dividing, cells must copy their DNA Gene: section of DNA that has the instructions for making all proteins One molecule of DNA is wrapped around proteins to form a chromosome containing hundreds of genes. Different species have different numbers of chromosomes (we have 46).

  8. 2 Passing Genes and Chromosomes to Daughter Cells Chromosomes are uncondensed before cell division Duplicated chromosomes, held together at the centromere, are called sister chromatids They are duplicated through DNA replication

  9. 2 Passing Genes and Chromosomes to Daughter Cells DNA molecule is a double stranded structure similar to a twisted ladder. The sides of the ladder are composed of a sugar-phosphate backbone. Nucleotides are connected to each other by hydrogen bonding to form the “rungs” of the ladder. Adenine (A) pairs with thymine (T) Cytosine (C) pairs with Guanine (G)

  10. 2 Passing Genes and Chromosomes to Daughter Cells DNA molecule is split up the middle of the helix Nucleotides are added to each side via hydrogen bonding Result is two identical daughter molecules, each with one parental strand and one new strand (semiconservative replication)

  11. 2 Passing Genes and Chromosomes to Daughter Cells DNA polymerase: the enzyme that replicates DNA It moves along the length of the unwound DNA and helps form the new strands

  12. 2 Passing Genes and Chromosomes to Daughter Cells

  13. Animation: The Structure of DNA Click “Go to Animation” / Click “Play” BioFlix: DNA Replication

  14. 3 The Cell Cycle and Mitosis Cell cycle has three steps: Interphase: the DNA replicates Mitosis: the copied chromosomes are moved into daughter nuclei Mitosis occurs in somatic or body cells. Cytokinesis: the cell is split into 2 daughter cells

  15. 3 The Cell Cycle and Mitosis - Interphase Interphase has three phases: G1: cell grows, organelles duplicate S: DNA replicates G2: cell makes proteins needed to complete mitosis Most of the cell cycle is spent in interphase

  16. Animation: The Cell Cycle Click “Go to Animation” / Click “Play”

  17. 3 The Cell Cycle and Mitosis - Mitosis Mitosis produces genetically-identical daughter nuclei Mitosis is followed by cytokinesis which splits the two nuclei into two daughter cells Four stages: Prophase Metaphase Anaphase Telophase

  18. 3 The Cell Cycle and Mitosis - Mitosis Prophase: Chromosomes condense Nuclear envelope disappears Microtubules pull the chromosomes around during cell division Animal cells: microtubules attached to centrioles at the poles of the cell

  19. 3 The Cell Cycle and Mitosis - Mitosis Metaphase: Chromosomes are aligned across the middle of the cell by microtubules Anaphase: centromeres split, sister chromatids are pulled apart toward opposite poles Telophase: Nuclear envelopes reform around chromosomes Chromosomes revert to uncondensed form

  20. 3 The Cell Cycle and Mitosis - Mitosis

  21. 3 The Cell Cycle and Mitosis - Mitosis

  22. Animation: Mitosis Click “Go to Animation” / Click “Play” BioFlix: Mitosis

  23. 3 The Cell Cycle and Mitosis - Cytokinesis Cytokinesis is the stage in which two daughter cells are formed from the original one After cytokinesis, cells reenter interphase. Animals: Proteins pinch the original cell into two new cells

  24. 3 The Cell Cycle and Mitosis - Cytokinesis Cytokinesis in Plants: Starts with vesicles forming the cell plate. This results in a new cell wall being formed between the cells forming daughter cells. The cell wall is made from cellulose

  25. 4 Cell Cycle Control and Mutation Cell division is a tightly controlled process Normal cells halt at checkpoints Proteins survey the condition of the cell Cell must pass the survey to proceed with cell division 3 checkpoints: G1,G2, and metaphase

  26. 4 Cell Cycle Control and Mutation

  27. 4 Cell Cycle Control and Mutation Growth factors stimulate cells to divide Growth factors bind to receptors to trigger a response from a cell Mutation: a change in the sequence of DNA Changes to DNA can change the structure and function of the protein coded by the DNA Mutations may be inherited or caused by carcinogens

  28. 4 Cell Cycle Control and Mutation Proto-oncogenes: genes that code for the cell cycle control proteins When proto-oncogenes mutate, they become oncogenes Their proteins no longer properly regulate cell division They usually overstimulate cell division

  29. 4 Cell Cycle Control and Mutation Tumor suppressor genes: genes for proteins that stop cell division if conditions are not favorable When mutated, can allow cells to override checkpoints

  30. 4 Cell Cycle Control and Mutation Depending on the number of mutations and whether the tumor suppressor protein is functional will determine whether it is a benign or malignant tumor that is formed.

  31. 4 Cancer Development Requires Many Mutations Progression from benign tumor to cancer requires many mutations. Angiogenesis: tumor gets its own blood supply Loss of contact inhibition: cells will now pile up on each other Loss of anchorage dependence: enables a cancer cell to move to another location Immortalized: cells no longer have a fixed number of cell divisions due to an enzyme called telomerase

  32. 4 Cell Cycle Control and Mutation – Multiple Hit Model Multiple hit model: process of cancer development requires multiple mutations Some mutations may be inherited (familial risk) Most are probably acquired during a person’s lifetime

  33. 5 Cancer Detection and Treatment Early detection increases odds of survival There are different detection methods for different cancers Some cancers produce increased amount of a characteristic protein Biopsy: surgical removal of cells or fluid for analysis Needle biopsy: removal is made using a needle Laparascope: surgical instrument with a light, camera, and small scalpel

  34. 5 Cancer Detection and Treatment - Treatment Methods Chemotherapy: drugs that selectively kill dividing cells Combination of different drugs used (“cocktail”) Interrupt cell division in different ways Helps prevent resistance to the drugs from arising Normal dividing cells are also killed (hair follicles, bone marrow, stomach lining)

  35. 5 Cancer Detection and Treatment - Treatment Methods Radiation therapy: use of high-energy particles to destroy cancer cells Damages their DNA so they can’t continue to divide or grow Usually used on cancers close to the surface Typically performed after surgical removal of tumor If a person remains cancer free after treatment for 5 years they are in remission and after 10 years they are cured.

  36. 6 Meiosis Specialized form of cell division in gonads to produce gametes Reduces number of chromosomes in each cell by one-half Chromosomes come in homologous pairs Gamete gets one of each pair

  37. 6 Meiosis Chromosomes can be visualized using a karyotype. Human somatic cells have 22 pairs of autosomes and one pair of sex chromosomes

  38. 6 Meiosis Gametes are haploid or have 1 set of 23 chromosomes When the egg and sperm nuclei fuse it forms a zygote which is diploid Somatic or body cells are also diploid

  39. 6 Meiosis Starts with interphase – DNA is duplicated Meiosis takes place in two stages: Meiosis I Separating out the homologous pairs into 2 separate cells Meiosis II Separating out the sister chromatids in each cell to produce 4 haploid cells.

  40. 6 Meiosis I

  41. 6 Meiosis II

  42. 6 Meiosis Crossing over: exchange of equivalent portions of chromosomes between members of a homologous pair Results in new types of gametes being formed Linked genes typically cross over together Random alignment: the way in which different pairs of chromosomes align and get separated during meiosis I is random Results in different types of games being formed

  43. Animation: Meiosis Click “Go to Animation” / Click “Play” BioFlix: Meiosis

  44. 6 Meiosis - Mistakes in Meiosis Nondisjunction: failure of homologues to separate normally during meiosis Results in a gamete having one too many chromosomes (trisomy) or one too few chromosomes (monosomy) Most embryos that result from such gametes will die before birth Several chromosome abnormalities are known in humans (Table 6.2)

  45. 6 Comparison of Mitosis and Meiosis

  46. 6 Meiosis For cancer mutations to be passed on to offspring, they must take place in cells that give rise to gametes. Mutations caused by environmental exposures are not passed on unless the mutation occurs in the gametes. Mutations in somatic cells (e.g., skin cancer from UV ray exposure) are not heritable.

  47. Which of following statements incorrectly identifies how cancer cells differ from normal cells? Cancer cells divide when they should not. Cancer cells invade surrounding tissues. Cancer cells form benign tumors. Cancer cells can move to other locations in the body.

  48. Which of following statements incorrectly identifies how cancer cells differ from normal cells? Cancer cells divide when they should not. Cancer cells invade surrounding tissues. Cancer cells form benign tumors. Cancer cells can move to other locations in the body.

  49. How many chromosomes does a human body cell contain? 12 23 34 46

  50. How many chromosomes does a human body cell contain? 12 23 34 46

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