1. 10.2 – Meiosis Sexual Reproduction Function: creates gametes (sperm, egg, pollen) for sexual reproduction.

2. Meiosis: Cell division for sexual reproduction. Males - testesFemales - ovaries Sex Cells

3. Homologous Chromosomes 1.A normal human body cell contains 46 chromosomes in 23 pairs a)23 from mother; 23 from father 2.Each pair of chromosomes are called HOMOLOGOUS CHROMOSOMES 3.In a homologous pair, one chromosome is from the mother and one is from the father

7. Haploid vs. Diploid 1.Haploid cell – a cell with only one copy of each chromosome (23 total in humans) a)½ the number of chromosomes as the parent or normal body cells. b)n  haploid; n = 23 2.Diploid cell – a cell with 2 copies of each chromosome (46 total; 23 pairs in humans) a)2n  diploid; 2n = 46

8. Diploid 1.All body cells are diploid (2n) a)Skin, liver, bone, lung, etc. i.Mother  23 chromosomes ii.Father  23 chromosomes 2.Body cells are called SOMATIC cells 3.Diploid body cells divide via mitosis to form two identical diploid daughter cells 46 chromosomes total

10. Haploid 1.Sex cells are called GAMETES (sperm and egg) a)Gametes join to form a ZYGOTE i.sperm + egg = zygote 2.Gametes are haploid (n) a)Sperm = n b)Egg = n 3.n + n = 2n

13. Meiosis 1.Meiosis is the process of making haploid gametes from a diploid cell a)Each haploid gamete will have HALF the genetic material as the diploid parent cell b)2n  n

14. Meiosis 1.Meiosis happens in two stages: a)Meiosis I b)Meiosis II 2.There are two cell divisions a)4 gametes are created

16. Phases of Meiosis 1 st Division 1.Prophase I 2.Metaphase I 3.Anaphase I 4.Telophase I 2 nd Division 1.Prophase II 2.Metaphase II 3.Anaphase II 4.Telophase II Cytokinesis Interphase

17. Interphase 1.During Interphase: a)Cell grows in size b)DNA is duplicated Nuclear membrane Chromatin

18. Prophase I 1.During Prophase I: a)Chromatin condenses into chromosomes b)Nuclear membrane dissolves c)Spindle forms d)Homologous chromosomes pair up and CROSSING OVER occurs 2.Crossing Over: homologous chromosomes pair up and randomly exchange genetic information during Prophase 1

19. Mistakes in Meiosis Genetic Recombination: AKA Crossing Over 1.Occurs during meiosis, chromosomes actually cross over each other, genetic material gets switched! 2.This leads to genetic variability! 3.Can be an endless number of different chromosomes possible!

20. Spindle Homologous Chromosomes (Crossing Over)

21. Metaphase I 1.During Metaphase I: a)Homologous chromosomes are pulled to the middle of the cell by the spindle

22. Spindle Homologous Chromosomes

23. Independent Assortment 1.Chromosomes line up randomly during metaphase 2.There is a 50% chance of the maternal or paternal chromosomes going to either side of the cell

24. = MOTHER = FATHER

25. Anaphase I 1.During Anaphase I: a)Homologous chromosomes are pulled towards opposite ends of the cell by the spindle

26. Spindle Chromosomes

27. Telophase I 1.During Telophase I: a)Nuclear envelope reforms b)Spindle dissolves c)Cell stretches and cytoplasm divides (cytokinesis)

28. Chromosomes

29. NO Interphase! 1.There is NO Interphase between Meiosis I and Meiosis II 2.Each gamete must receive HALF of the parent’s genetic material so no duplication is necessary

30. Prophase II 1.During Prophase II: a)Nuclear membrane dissolves b)Spindle re-forms 2.Meiosis II is the division of the two diploid cells resulting from Meiosis I a)4 haploid cells will be created

31. Chromosomes Spindle

32. Metaphase II 1.During Metaphase II: a)Chromosomes are pulled to the middle of the cell by the spindle

33. Chromosomes Spindle

34. Anaphase II 1.During Anaphase II: a)Sister chromatids are separated and pulled to opposite ends of the cell by the spindle

35. Spindle Chromosomes

36. Telophase II 1.During Telophase II a)Nuclear membrane re-forms b)Spindle dissolves c)Cells stretch and prepare for cytokinesis

37. Chromosomes

38. Cytokinesis 1.The cytoplasm divides resulting in a total of 4 unique haploid cells 2.All gametes are different because of crossing over during Prophase I and independent assortment during Metaphase I & II

40. Meiosis: IPMAT cytokinesis; 2 nd phase of PMAT producing 4 (haploid-single) daughter cells III ProphaseSynapsis occurs and crossing over of chromosomes same MetaphasePairs of chromosomes line in the plates 2 celled-pair of chromosomes line in the plates AnaphaseHomologous pairs separateSister chromatids separates TelophaseDivision occurs

41. Genetic Diversity 1.Meiosis increases genetic diversity because every sperm or egg is a little bit different. No two offspring are exactly the same a)Crossing Over b)Independent Assortment 2.Genetic diversity causes some organisms to be more fit to survive and reproduce (evolution)

42. Meiosis and Gametes How does meiosis create genetic diversity? 1) crossing over 2) random assortment of chromosomes and later … 3) random pairing of gametes

43. Nondisjunction 1.Nondisjunction - an error in Meiosis when homologous chromosomes fail to separate properly during Anaphase I or II 2.The resulting gametes will have an extra chromosome or be missing a chromosome a)3 copies instead of 2 b)1 copy instead of 2 3.Most zygotes will not survive

44. Nondisjunction during Meiosis II Nondisjunction during Meiosis I

45. Non-Disjunction 1.In humans, a person with an extra 21 st chromosomes will have Down’s Syndrome

46. Down Syndrome 1.Trisomy – when an organism has 3 copies of a chromosome where it should only have two 2.Trisomy is caused by nondisjunction 3.Trisomy of the 21 st chromosome results in DOWN SYNDROME a)3 copies of the 21 st chromosome

47. Trisomy 21 causes Down Syndrome

49. Mitosis vs. Meiosis Mitosis vs. Meiosis 1.Makes EXACT copies a)No new genetic diversity 2.2n  2n (diploid  diploid) 3.Happens in body (somatic) cells 4.One cell division 5.Asexual 1.Makes UNIQUE gametes a)Increases genetic diversity 2.2n  n (diploid  haploid) 3.Happens in gamete producing cells (GONADS: testes and ovaries) 4.Two cell divisions 5.Sexual

50. = Sexual Reproduction Diploid Cell – full set of chromosomes Same as Mitosis 2 daughter cells are identical to parent cell. Chromosomes do NOT duplicate here. Each cell divides- chromosomes separating randomly! The Result: 4 daughter cells with ½ the number of chromosomes needed for an individual. Haploid Cells – ½ set of chromosomes Also called Gametes Ex. Sperm, egg, pollen

51. Eggs are created Sperm are created Resulting Cell when 2 gametes fuse = Fertilization

52. Mitosis vs. Meiosis MitosisMeiosis Function Type of Reproduction # of Cells Produced Type of Cell Produced # of Cellular Divisions # of Chromosomes in Daughter cells

53. Mitosis vs. Meiosis MitosisMeiosis Function Create new cells for growth & replace old cells Create gametes for sexual reproduction Type of ReproductionAsexualSexual # of Cells Produced24 Type of Cell ProducedDiploidHaploid # of Cellular Divisions12 # of Chromosomes in Daughter cells Same as parent cell½ as parent cell

55. somatic cell - undergoes mitosis, non-sex cell, diploid, identical with the parent germ cell - undergoes meiosis, sex-cell, haploid, non-identical with the parent, brings variety of genetic information A germ cell is a reproductive cell, like an ovum, pollen, sperm, or spore. It is made in special tissues and contains the haploid chromosome number, which, in humans, is 23. "Somatic cells" includes all the other cells; somatic cells are "body cells" (SOMA=body). They are diploid; human somatic cells have 46 chromosomes