1. MEIOSIS AND SEXUAL REPRODUCTION CONTINUITY – Genetic information passes from generation to generation GENETIC VARIATION – differences between individuals; these are the differences evolution “sorts” through

6. Kinds of Chromosomes Autosomes Sex chromosomes Karyotypes

14. Mitosis vs. Meiosis

15. Mitosis –1 division –daughter cells genetically identical to parent cell –produces 2 cells –2n  2n (or n n) –produces cells for growth & repair –no crossing over Meiosis –2 divisions –daughter cells genetically different from parent –produces 4 cells –2n  1n –produces gametes –crossing over

19. THE VALUE OF MEIOSIS Meiosis introduces genetic variation –gametes of offspring do not have same genes as gametes from parents Behavior of chromosomes during meiosis and fertilization is responsible for most of the genetic variation that arises each generation during sexual reproduction 3 MECHANISM OF GENETIC VARIATION due to meiosis and fertilization 1.INDEPENDENT ASSORTMENT 2.RANDOM FERTILIZATION 3.CROSSING OVER *** mutation is also a source of genetic variation

20. INDEPENDENT ASSORTMENT

21. HOW MANY COMBINATIONS OF CHROMOSOMES ARE POSSIBLE IN A HUMAN GAMETE? 2 23 OR ABOUT 8 MILLION n= the haploid number of the species

22. CROSSING OVER During Prophase I –homologous pairs swap pieces of chromosome –nonsister chromatids intertwine and exchange genes –crossing over

23. Crossing over occurs early in prophase I Homologous chromosomes pair up gene by gene – synapsis; visible as group of 4 chromatids called tetrad Synaptonemal complex (proteins) forms between homologous chromosomes In crossing over, homologous portions of two nonsister chromatids trade places; physical location of cross overs visible as chiasmata –In humans, this occurs 2-3 times per chromosome pair. Independent assortment of these nonidentical sister chromatids during meiosis II increases the number of genetic types of gametes that can result from meiosis.

24. RANDOM FERTILIZATION Any 2 parents will produce a zygote with over 70 trillion (2 23 x 2 23 ) diploid combinations

25. ONE MORE TIME!!!! 3 sources of genetic variability in a sexually reproducing organism are: 1.Independent assortment of homologous chromosomes during meiosis I and of nonidentical sister chromatids during meiosis II. 2.Crossing over between homologous chromosomes during prophase I. 3.Random fertilization of an ovum by a sperm. All three mechanisms reshuffle the various genes carried by individual members of a population. Mutations, still to be discussed, ultimately create a population’s diversity of genes – source of “new” genes

31. Differences in Meiosis: Males vs Females In males the 4 cells produced during meiosis become four sperm (spermatogenesis) In females only one of the 4 cells produced during meiosis becomes an egg (oogenesis)

32. Differences in Meiosis: Males vs. Females Males begin producing sperm at puberty; number and quality of sperm decline with age Females form all eggs during 5 th month of embryonic development – oocytes remain in prophase I until ovulation begins during puberty – meiosis I completed by ovulation; – meiosis II completed after fertilization; – at menopause ovulation ceases

34. **uneven division of cytoplasm produces 1 ovum and 3 polar bodies

35. Meiosis in sporophyte (2n) produces spores (n) Spores grow into multicellular gametophyte (n) Gametophyte produces gametes by mitosis Fertilization produces zygote (2n) Zygote divides by mitosis to form embryo in seed Seed germinates and embryo grows into new sporophyte