1. CHAPTER 9

2. Why do cells divide?  DNA Overload: the genetic material is only capable of “managing” a limited amount of cellular activity  Materials Exchange: As a cell get bigger, the volume increases faster than the surface area, making it difficult to get material in and wastes out at a pace fast enough to allow the cell to survive.

3. Surface Area to Volume Ratio

4. How does cell division help cells? Keeps surface area to volume ratio high. Before cell becomes too large it splits, maintaining nuclear control and efficient transport of materials

5. Chromosomes What are they? Segments of condensed DNA. DNA is coiled around proteins for organization. Only visible during division. Structure:

7. The Cell Cycle –Events a cell goes through between one division and the next –During this time a cell: 1. Grows & Develops 2. Prepares for Division 3. Divides to form two daughter cells

8. Phases of the Cell Cycle (visual) G1 S G2

9. Phases of the Cell Cycle (words) Stage (in order) Description G1G1 Initial growth Increase in size & make new organelles etc. SDNA replication G2G2 Prepare for division MNuclear (mitosis) & Cell division (cytokinesis) *G 0 Resting stage following G1 “Waits” here until it is ready to divide again Some cells (nerve cells) cannot come out of G 0

10. Interphase Non-dividing stage Cell engaged in metabolic activity & preparing for mitosis DNA is not condensed (chromatin) Nucleolus may be visible

11. Prophase a.Nuclear membrane breaks down a.Chromosomes condense and become visible a.Centrioles move to opposite ends and begin to form spindle

12. Metaphase a.Chromosomes line up in the middle b. Microtubules connect the centromere of each chromosome to the poles of the spindle

13. Anaphase a.Chromatids split at centromere (each is now an individual chromosome) a.The new, single- stranded, chromosomes begin to move to opposite ends

14. Telophase a.Chromosomes reach opposite ends and begin to de-coil. a.2 new nuclear membranes begin to form.

15. Cytokinesis a.Division of the cell b. Often occurs during or directly after telophase c. Mitosis can occur independently of cytokinesis, this results in a multinucleated cell, such as muscle cells.

16. Cytokinesis: Plants v. Animals 1.Plants: Cell plate forms and gives rise to a cell wall. No centrioles involved. 2.Animals: membrane pinches in and cell splits.

17. Controls on Cell Division Some cells stop dividing when mature (stay in G 0 ) ex) many neurons (nerve) & muscle cells Others divide for growth & repair Normally, cells will stop dividing when they come in contact with other cells

18. Cell Cycle Regulators: Proteins called cyclins start/stop the cell cycle. The cycle is regulated by various factors: 1.Intracellular factors: -All chromosomes are replicated -All spindles are attached 2. Extra-cellular factors: -Growth factors -Cell to cell contact

19. Uncontrolled Cell Growth: CANCER Tumor Suppressor Genes: (p53) - genes that normally halt the cell cycle - stuck OFF (cells keep dividing) Oncogenes: - genes that tell cells to divide - “stuck ON” (cells keep dividing)

20. Stem Cells & Development Cells take on specialized roles through the process of differentiation Differentiated cells develop from undifferentiated cells called stem cells Fully undifferentiated stem cells are totitpotent –(ex. Fetilized egg through first few divisions) Mostly undifferentiated are pluripotent – (ex. Early embryonic cells) Partially differentiated are multipotent – (ex. Adult marrow cells)

25. When/Why do organisms rely on mitosis/cytokinesis? How do the daughter cells formed as a result of mitosis/cytokinesis compare to the original parent cell? Can you think of a time when new cells need to be formed that do not compare to the parent cell in this way?

26. Gamete Production Sexual reproduction begins with the fusion of egg and sperm to produce a zygote. Each organism must inherit a single copy of each gene from each parent. Therefore, when an organism produces its gametes (egg or sperm) their gene pairs must be separated.

27. Chromosome Number 8 1.The fruit fly (drosophila) has 8 chromosomes 2.4 mom4dad 2.4 come from the mom and 4 from the dad 2.These two sets of chromosomes are called homologous chromosomes. 2.A cell with both sets is called diploid (2n).

29. Chromosome Number (con ’ t) 5.Gametes (egg/sperm) only have one set of chromosomes and are referred to as haploid (1N) gametesbody/somatic cellsmeiosis 6.The process of forming haploid (N) cells, {gametes}, from diploid (2N) cells {body/somatic cells} is called meiosis. meiosis I meiosis II 5.Meiosis involves two distinct stages meiosis I and meiosis II Chromosome Number (con’t)

31. Crossing Over Genetic material is exchanged between homologous chromosomes during Prophase 1 This is referred to as genetic recombination. During “synapsis” the crossed over homologous chromosomes are referred to as a tetrad. What is the benefit of crossing over? HINT: Think from an evolutionary perspective.

32. Meiosis I v. Meiosis II During Meiosis I, homologus pairs are separated. During Meiosis II, sister chromatids of double-stranded chromosomes are separated to form single-stranded chromosomes.

33. Gamete Formation Males “ spermatogenesis ” All 4 haploid cells produced become sperm Females “ oogenesis ” Only one of the cells becomes an egg Egg is larger, needs the cytoplasm

34. Male v. Female Gamete Formation

35. Mitosis v. Meiosis MitosisMitosis: –2 genetically identical diploid cells –produces somatic (regular body) cells –Method of asexual reproduction MeiosisMeiosis: –4 genetically different haploid cells –Reduction division –Produces gametes (reproductive cells) for sexual reproduction