Chapter 8

1. Cell Reproduction Chapter 8

2. Objectives: • Describe the process of cell division.

3. I. Chromosome Structure • What are chromosomes • Rod shaped structure made of DNA and proteins. • Coiled tightly inside a cell’s nucleus. • Consists of two identical halves • Chromatid – each half of the chromosome • Centromere – point of attachment for chromatids. • Chromatin – when DNA uncoils so code can be copied

5. II. Chromosome Numbers • Each species has specific number of chromosomes • Humans = 46 • Sex chromosomes – chromsomes that determine sex of organism • Can also carry genes for other characteristics • Females have 2 “X chromosomes” • Males have “X and Y chromosome” • Autosomes = all of the other chromosomes • Homologous chromosomes = 2 copies of each autosome

6. Chromosome Numbers of Various Organisms

7. D. Karyotype • Photo of the chromosomes in a normal human

8. E. Diploid and Haploid Cells A. Diploid = cells having two sets of chromosomes (2n) B. Haploid = cells having one set of chromosomes (n) a. sex cells a. sperm = male sex cell b. egg = female sex cell

9. II. Cell Division in Prokaryotes (no nucleus) A. Binary fission – division of cell into two exact copies

10. III. Cell division in Eukaryotes (Euks have nucleus) • Mitosis – results in new cells that are identical to the original cell • Asexual reproduction – production of offspring from one parent • Meiosis – occurs during the formation of sex cells • Produces gametes – another name for sex cells

11. IV. Mitosis • Cell cycle – repeating set of events during the life of a cell • Interphase – time between cell divisions • Mitosis – nucleus divides • Cytokinesis – cell divides

12. Interphase • Spend most of the cycle • Stage of cell growth and maturity

13. Prophase • 1st phase • Centrosomes appear • Nucleus disappears • Spindle fibers equally divide chromosomes

14. Metaphase • Chromosomes line up in the middle

15. Anaphase • Chromatids separate toward opposite poles

16. Telophase • Spindle fibers disappear • Nuclear envelope forms around each set of chromosomes

17. Cytokinesis • Cleavage furrow starts to pinch in and eventually separate the cell

18. Mitosis animation • http://www.sumanasinc.com/webcontent/animations/content/mitosis.html

19. V. Control of Cell Division • Proteins regulate the control of cell division • Proteins signal the cell to move on to the next steps of cell division

20. VI. When Control is Lost = Cancer • Signaling proteins do not function properly • Cells divide uncontrollably = Cancer

21. VII. Meiosis A. Spermatogenosis – production of mature male gametes B. Oogenesis – production of mature female cells

22. C. Cells go through mitosis twice

23. D. Crossing over – when chromatids break apart can combine with other chromatids E. Genetic recombination – new mixture of genetic material that is created from crossing over. F. Independent assortment – random separation of chromosomes

24. VIII. Sexual reproduction • Production of offspring through Meiosis • Creates offspring that are genetically different from parents • Enables species to adapt to new conditions • Example – if a disease strikes a crop of corn, a few plants may have genetic variations that prevent it from dying. These plants will reproduce creating offspring that are also resistant to the disease.