Do Now

1. Do Now • What happens to your body when you get a cut? • Make a drawing illustrating the healing process.

2. Chapter 9 Cellular Division

3. Objectives 1. To understand why cells divide. 2. To explain different limitations on cell size. 3. To summarize the steps of the cell cycle.

4. Cell Size *Take a look at the following cells… *Which cell do you think will work most efficiently? Surface Area vs. Volume

5. Surface Area vs. Volume (2 x L x W) + (2 x L x H) + (2 x H x W) Surface Area Volume L x W x H

6. Size Limitations • Key factor that limits cell growth is ratio of surface area to volume • As the cell grows, its volume increases much more rapidly than the surface area. • Cell can have difficulty supplying nutrients and expelling waste products.

7. Transport of Substances • Substances enter membrane through diffusion • Diffusion over a large distance = slow • Smaller cells are more efficient!

8. Think-Pair-Share • If you had 3 cells with the dimensions on the left… • Which cell has the largest surface area to volume ratio? • What benefit does this cell have? • 1) 3 X 2 X 2 • 2) 6 x 1 X 1 • 3) 3 X 6 X 1

9. Cell Communication • The need for signaling proteins to move throughout the cell also limits cell size. • Cell size affects the ability of the cell to communicate instructions for cellular functions.

10. Cell Cycle • Cell division prevents the cell from becoming too large. • It also is the way the cell reproduces so that you grow and heal certain injuries. • Cells reproduce by a cycle of growing and dividing called the cell cycle

11. Cell Cycle • Varies between 8 minutes and one year • Average 12-24 hours

12. Cell Cycle • All cells start out in Interphase • They then enter cell division, Mitosis & Cytokinesis

13. Interphase • A. G1 Phase: • First growth phase • The cell is growing, carrying out normal cell functions, and preparing to replicate DNA. • B. S Phase: • DNA is copied (DNA Replication) • C. G2 Phase: • Second Growth Phase • Proteins needed for cell division are produced • The cell prepares for the division of its nucleus. Genetic Material = CHROMATIN

14. Mitosis/Cytokinesis • Mitosis: Nuclear Division • Cytokinesis: Cell Division

15. Do Now

16. Review • Surface area : Volume :: _________ : _______ (Cell Parts) Which cell has a bigger surface area to volume ratio? 2 x 3 x 2 OR 4 x 1 x 1 What benefit does this cell have?

17. MITOSIS 1. Prophase 2. Metaphase 3. Anaphase 4. Telophase "PMAT"

18. MITOSIS • Label and order the cells from 1 – 5 • What are the differences between plant and animal cells during division?

21. Important Vocab. • Chromosome- • Tightly coiled DNA • Chromatid- • Half a replicated Chromosome • Chromatin- • loosely coiled DNA • Centromere- • Center of a chromosome- • where the sister chromatids attach • Centriole- • Organize the microtubules • Attach to the spindle fibers

22. Prophase • The cell’s chromatin tightens • Sister chromatids are attached at the centromere. • Spindle fibers form in the cytoplasm. • The nuclear envelope seems to disappear. • Spindle fibers attach to the sister chromatids.

23. Metaphase • Sister chromatids are pulled along the spindle apparatus toward the center of the cell. • They line up in the middle of the cell.

24. Anaphase • The microtubules of the spindle apparatus begin to shorten. • The sister chromatids separate (apart). • The chromosomes move toward the poles of the cell.

25. Telophase • The chromosomes arrive at the poles and begin to relax. • Two new nuclear membranes begin to form and the nucleoli reappear. • The spindle apparatus disassembles.

26. Cytokinesis • In animal cells, microfilaments constrict, or pinch, the cytoplasm. They create a “cleavage furrow” • In plant cells, a new structure, called a cell plate, forms.

27. Let’s Review! • http://highered.mcgraw-hill.com/sites/0072437316/student_view0/chapter11/animations.html

28. Do Now • Label the parts of the cell. • What phases of mitosis?

29. 9.3 Cell Cycle Regulation • Normal Cell Cycle: • Different cyclin / CDK (cyclin dependent kinases) combinations signal other activities • These including • DNA replication • Protein synthesis • Nuclear division

30. Quality Control Checkpoints • The cell cycle has built-in checkpoints • These monitor the cycle and can stop it if something goes wrong. • Spindle checkpoints also have been identified in mitosis. • Ex. If no spindle fibers – will stop before cytokinesis

31. Cell Cycle Checkpoints • *If G1 checkpoint shows cell is not ready for DNA replication, it enters G0 phase and will not divide.*

32. When Cell Division Goes Wrong • Begins as a single cell that undergoes “transformation” (process converting a normal cell into a cancer cell) • Immune system fails to destroy cell. • Cell proliferates and forms a tumor.

33. Transformation • Transformation is caused by mutations. • Mutations can result from a variety of different “carcinogens” (things that cause cancer.

34. Carcinogens • Tobacco • “Dip” : contains 28 known carcinogens. • Cigarettes

35. Carcinogens • UV Light • Causes skin cancer (most common type of cancer) • Tanning beds linked to “melanoma”- deadliest type of skin cancer.

36. Carcinogens • Pesticides • Overexposure has been known to cause leukemia and lymphoma.

37. Cancer Cells vs. Normal Cells • Cancer cells lack density-dependent inhibition, causing cells to pile up on top of each other • They proceed past checkpoints • They are “immortal”, meaning they can divide an infinite number of times, whereas nomral cells divide only about 20-50 times before stopping.

38. Tumors • Benign tumor • Abnormally growing mass of cells • Can disrupt certain organs, ex: brain, if they get too big • Can be completely removed with surgery • Malignant tumor • Spreads into neighboring tissues • Can metastasize, enter blood and lymph vessels, and spread to other organs and parts of the body

39. Types of Cancer • Carcinomas • Originates in external or internal “coverings” such as skin or the lining of the intestine • Sarcomas • In tissues that support the body such as bone and muscle • Leukemias and lymphomas • In blood-forming tissues such as bone marrow, spleen, and lymph nodes.

40. Cancer Genetics • Multiple changes in DNA are needed to cause cancer • Cancer increase with age • Certain cancers are inherited in certain families (chances to have it)

41. Do Now • What is the difference between a benign tumor and a malignant tumor? • What category of cancer is found on the lining of different organs?

42. Apoptosis • Programmed cell death • Cells going through apoptosis actually shrink and shrivel in a controlled process. • Ex. Leave in Fall • Ex. Webbed Fingers/Toes • DNA Damaged Cells *

43. Stem Cells • Unspecialized cells that can develop into specialized cells when under the right conditions

44. Stem Cells (cont) http://www.stemcellresearchfacts.com/definition.html

45. Stem Cell Controversy • http://www.youtube.com/watch?v=27skh7prkN0&feature=related

49. Quiz Study Guide… • Cell Cycle • Interphase (G1, S, G2) • Mitosis (PMAT) • Cytokinesis • Phases of Mitosis • Cell Regulation (CDK, Checkpoints, and cyclins) • Cancer • Stem Cells • Apoptosis • Cell Volume VS. Surface Area Ratio

50. As a review… • Draw out all of the phases of mitosis with colored pencils. Use 4 chromosomes