1. Sexual Reproduction

2. Cellular Reproduction There are 2 types of reproduction: Asexual Reproduction Asexual Reproduction Sexual Reproduction Sexual Reproduction

3. Cellular Reproduction 1. Asexual Reproduction (5 phases) 1 mother cell divides into 2 daughter cells 1 mother cell divides into 2 daughter cells Daughter cell is identical to its mother Daughter cell is identical to its mother Interphase + Mitosis Interphase + Mitosis All human cells have 46 chromosomes called “DIPLOID cells” All human cells have 46 chromosomes called “DIPLOID cells” Produce SOMATIC cells (not sexual cells) Produce SOMATIC cells (not sexual cells)

4. Cellular Reproduction 2. Sexual Reproduction (9 phases) 1 mother cell divides into 4 daughter cells 1 mother cell divides into 4 daughter cells Daughter cells have ½ the chromosomes of their mother (23) “HAPLOID cells ” Daughter cells have ½ the chromosomes of their mother (23) “HAPLOID cells ” Interphase + Meiosis I + Meiosis II Interphase + Meiosis I + Meiosis II Crossing over of genetic material often occurs. Crossing over of genetic material often occurs. SEXUAL cells (egg and sperm) known as “gametes” SEXUAL cells (egg and sperm) known as “gametes”

5. Vocabulary

6. Gametes ~ Another name for eggs and sperm ~ They are haploid (In humans, that is 23 chromosomes) ~ They are sexual cells ~ They are produced by sexual reproduction

7. Homologous Chromosomes A pair of chromosomes (maternal and paternal) that have similar/identical shapes and sizes. A pair of chromosomes (maternal and paternal) that have similar/identical shapes and sizes. Have genes for the same characteristics (ie: eye color). Have genes for the same characteristics (ie: eye color). Each locus (gene position) controls the same trait and is in the same place on homologous chromosomes. Each locus (gene position) controls the same trait and is in the same place on homologous chromosomes.

8. Vocabulary Homologous Chromosomes chromatids tetrad

9. Vocabulary Sperm + egg = zygote

10. Homologous Chromosomes PaternalMaternal Eye color Hair color Locus

11. Remember… Remember… InterphaseProphaseMetaphaseAnaphaseTelophase

12. There are 3 major steps: There are 3 major steps: ~ Interphase ~ Meiosis I ~ Meiosis I ~ Meiosis II ~ Meiosis II Sexual Reproduction

13. Interphase Prophase I Metaphase I Anaphase I Telophase I Prophase II Metaphase II Anaphase II Telophase II

16. Meiosis in Humans 4n=92 2n=46 meiosis I n=23 meiosis II 4 haploid gametes (n) After Interphase diploid (2n)

17. Video Meiosis Meiosis Meiosis

18. Interphase (4n = 92) Same as Interphase in Mitosis Same as Interphase in Mitosis Chromosome replication, growth and preparation (chromatin rolls etc) Chromosome replication, growth and preparation (chromatin rolls etc) Each of the replicated chromosomes possesses 2 chromatides which are attached at their centromere. Each of the replicated chromosomes possesses 2 chromatides which are attached at their centromere.

19. Interphase (4n = 92) We can see the nucleolus and the nuclear membrane. We can see the nucleolus and the nuclear membrane. Nuclear membrane Nucleolus Cell membrane Chromatine There are 92 chromosomes (46 pairs!!)

20. Meiosis I (4 phases) ~ Prophase I ~ Metaphase I ~ Anaphase I ~ Telophase I

21. Prophase I (4n = 92) 2 homologous chromosomes combine. This combination is called a TETRAD XX 2 homologous chromosomes combine. This combination is called a TETRAD XX Spindle fibers grow, and attach to each side of the tetrad Spindle fibers grow, and attach to each side of the tetrad The nuclear membrane and the nucleolus both disappear The nuclear membrane and the nucleolus both disappear

22. Prophase I (4n = 92) centrioles Spindle fibers

23. Crossing Over During Prophase I During Prophase I One chromatid of each chromosome crosses over with the chromatid of the other chromosome. One chromatid of each chromosome crosses over with the chromatid of the other chromosome. The result is an exchange of their genetic material The result is an exchange of their genetic material

24. Crossing Over The exchange of sections of homologous chromosomes in a TETRAD. Maternal chromo Paternal chromo

26. Metaphase I (4n = 92) Spindle fibers pull on the tetrads, and align them in the centre of the cell. Spindle fibers pull on the tetrads, and align them in the centre of the cell.

27. Metaphase I (4n = 92)

28. Anaphase I (4n = 92) The tetrads separate and homologous chromosomes travel to the poles. The tetrads separate and homologous chromosomes travel to the poles. Homologues chromosomes are still attached by their centromeres. Homologues chromosomes are still attached by their centromeres.

29. Anaphase I (4n = 92)

30. Telophase I/Cytokenisis (2n = 46) Each pole has a diploid number of chromosomes. Each pole has a diploid number of chromosomes. Cytokenisis - 2 diploids cells are formed. Cytokenisis - 2 diploids cells are formed. Spindle fibers and centrioles disappear. Spindle fibers and centrioles disappear. The nuclear membrane sometimes reforms, and the nucleolus does not reform at this point. The nuclear membrane sometimes reforms, and the nucleolus does not reform at this point.

31. Telophase I (2n = 46) Cell division

32. And the division continues!!!!

33. Meiosis II (4 phases) ~ Prophase II ~ Metaphase II ~ Anaphase II ~ Telophase II

34. Meiosis II Interphase II – does not exist ** Don’t forget!! This process is now occurring in both daughter cells created during Meiosis I **

35. Prophase II (2n = 46) Same as Prophase in Mitosis Same as Prophase in Mitosis

36. Metaphase II (n = 46) Same as Metaphase in Mitosis Same as Metaphase in Mitosis

37. Anaphase II (2n = 46) Same as Anaphase in Mitosis Same as Anaphase in Mitosis DON’T FORGET! Chromosomes are separated into chromatids. DON’T FORGET! Chromosomes are separated into chromatids.

38. Telophase II/Cytokenisis (n = 23) Same as Telophase in Mitosis Same as Telophase in Mitosis EXCEPT n = 23 The nucleolus and nuclear membrane reform The nucleolus and nuclear membrane reform Cytokenisis Cytokenisis Important: 4 haploid gametes are formed.

39. Telophase II/Cytokenisis (n = 23)

40. Meiosis– McGraw-Hill animation

41. Let’s review!!!

42. Asexual Reproduction Sexual Reproduction Produces __ daughter cells Produces cells which are _____ to their mother cell Mother:__chromosomes Daughter :__chromosomes

43. Asexual Reproduction Sexual Reproduction Crossing over? YES NO Crossing over? YES NO _______ cells DIPLOID HAPLOID __ phases:

44. Comparison of mitosis and meiosis

45. Mitosis vs Meiosis Mitosis Meiosis Result The cells are Occurs in

46. Mitosis vs Meiosis Mitosis Meiosis Result 2 diploid cells (2n) 4 haploid cells (n) The cells are identical different Occurs in somatic cellules (all cells in the body) sexual Cellules (sperm and egg)

48. Meiosis

49. La mitose vs la méiose

50. Attention!!!!!!!!!!!!! Female meiosis is somewhat different. 4 gametes are initially created, but Cytokenisis is UNEQUAL. In this case, ONE GAMETE survives, and the other 3 are not viable. Female meiosis is somewhat different. 4 gametes are initially created, but Cytokenisis is UNEQUAL. In this case, ONE GAMETE survives, and the other 3 are not viable.

51. United Streaming- Cell Division

52. Let’s see just how smart you are…

53. Visual Representations http://www.cellsalive.com/meiosis.htm http://www.csuchico.edu/~jbell/Biol20 7/animations/meiosis.html http://www.csuchico.edu/~jbell/Biol20 7/animations/meiosis.html http://www.sumanasinc.com/webcont ent/animations/content/meiosis.html http://www.sumanasinc.com/webcont ent/animations/content/meiosis.html Mitosis vs. Meiosis