1. 5/23/2015 Meiosis

2. 5/23/2015 Terminology Heredity – continuity of biological traits from one generation to the next: Results from transmission of hereditary units (genes) from parents to offspring. Variation – inherited differences among individuals of the same species Genetics - Scientific study of heredity and hereditary variation

3. 5/23/2015 Terminology DNA – type of nucleic acid that is a polymer of four different kinds of nucleotides Genes – units of hereditary information that are made of DNA and are located on chromosomes. Chromosomes – organizational unit of heredity material in the nucleus of eukaryotic organisms Consist of a single long highly folded DNA molecules that are coiled along with proteins Contain genetic information arranged in a linear sequence and coded by genes Locus – specific location on a chromosome that contains a gene

4. 5/23/2015 Comparison of asexual versus sexual reproduction Single individual is the sole parent Single parent passes on all its genes to its offspring Offspring are genetically identical to the parent Results in a clone, or genetically identical individual. Rarely, genetic differences occur as a result of mutation, a change in DNA Two parents give rise to offspring. Each parent passes on half its genes, to its offspring Offspring have a unique combination of genes inherited from both parents Results in greater genetic variation; offspring vary genetically from their siblings and parents

5. 5/23/2015 Asexual reproduction of hydra In asexual reproduction – a single individual is the sole parent and passes copies of all its genes on to its offspring.

6. 5/23/2015 Definitions Sexual reproduction occurs only in eukaryotes. During the formation of gametes (reproductive cells), the number of chromosomes is reduced by half (haploid), and returned to the full amount (diploid) when the two gametes fuse during fertilisation.

7. 5/23/2015 Definitions Ploidy is a term referring to the number of sets of chromosomes. Haploid organisms have one set of chromosomes; diploid – two. Meiosis is a special type of nuclear division which segregates one copy of each homologous chromosome into each new "gamete".

8. 5/23/2015 Definitions Somatic (most) cells in the human body are produced by mitosis. Germ line cells (gametes) are produced by meiosis. The vast majority of cell divisions in the human body are mitotic, with meiosis being restricted to the gonads.

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14. Life cycle In each generation, the doubling of chromosome number that results from fertilization is offset by the halving of chromosome number that results from meiosis. For humans, the number of chromosomes in a haploid cell is 23 ( n=23); the number of chromosomes in the diploid zygote and all somatic cells arising from it is 46 (2n = 46).

15. 5/23/2015 Life cycle Three sexual life cycles differing in the timing of meiosis and fertilization. The common feature of all three cycles is the alternation of these two key events, which contribute to genetic variation among offspring.

16. 5/23/2015 Overview of meiosis Paternal homolog Maternal homolog Premeiotic cell chromatid Replicated chromosomes Synapsis Cell division I Daughter cells Cell division II

17. 5/23/2015 Meiosis I (reduction)

18. 5/23/2015 Prophase I Prophase I has a unique event - the pairing of homologous chromosomes. The process of linking of the replicated homologous chromosomes is called synapsis. The resulting chromosome composed of two chromatids from each chromosome is termed a tetrad. At this point crossing-over may occur. During crossing-over chromatids break and may be reattached to a different homologous chromosome.

19. 5/23/2015 Metaphase and anaphase In metaphase tetrads line-up along the equator of the spindle. Spindle fibers attach to the centromere region of each homologous chromosome pair. In anaphase I the tetrads separate, and are drawn to opposite poles by the spindle fibers. The centromeres in Anaphase I remain intact.

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21. Meiosis II (division) During Prophase II, nuclear envelopes (if they formed during Telophase I) dissolve, and spindle fibers reform.

22. 5/23/2015 Meiosis II (division) During Anaphase II, the centromeres split and the former chromatids (now chromosomes) are segregated into opposite sides of the cell.

23. 5/23/2015 Meiosis II (division) Meiosis II divides the remaining set of chromosomes in a mitosis-like process (division).

24. 5/23/2015 Comparison of mitosis and meiosis Mitosis maintains ploidy level, while meiosis reduces it. Meiosis may be considered a reduction phase followed by a slightly altered mitosis. Meiosis occurs in a relative few cells of a multicellular organism, while mitosis is more common.

25. 5/23/2015 Comparison of mitosis and meiosis

26. 5/23/2015 Comparison of mitosis and meiosis

27. 5/23/2015 Homologous chromosome rearrangements In this figure we consider the consequences of meiosis in a hypothetical organism with a diploid chromosome number of 4 (2n = 4).

28. 5/23/2015 Homologous chromosome rearrangements The arrangement of chromosomes at metaphase I determines which chromosomes will be packaged together in the haploid daughter cells.

29. 5/23/2015 The results of crossing over during meiosis During prophase of meiosis I, nonsister chromatids of homologous chromosomes exchange corresponding segments. Following these chromosomes through meiosis, we can see that crossing over gives rise to individual chromosomes that have some combination of DNA originally derived from two different parents.

30. 5/23/2015 Gametogenesis (spermatogenesis and oogenesis) Gametogenesis is the process of forming gametes (by definition haploid, n) from diploid cells of the germ line. Spermatogenesis is the process of forming sperm cells by meiosis (in animals, by mitosis in plants) in specialized organs known as gonads (termed testes in males ). After division the cells undergo differentiation to become sperm cells. Oogenesis is the process of forming an ovum (egg) by meiosis (in animals, by mitosis in the gametophyte in plants) in specialized gonads known as ovaries.

31. 5/23/2015 Gametogenesis (spermatogenesis and oogenesis) In spermatogenesis all 4 meiotic products develop into gametes; in oogenesis most of the cytoplasm is placed into one large egg and the other cells, the polar bodies, do not develop. Human males produce 200,000,000 sperm per day, while the female produces one egg (usually) each menstrual cycle.

32. 5/23/2015 Gametogenesis

33. 5/23/2015 Gametogenesis

34. 5/23/2015 Summary 1.Offspring derive from parents by inheriting chromosomes 2.Asexual versus sexual reproduction: offspring either from one or two parents 3.Meiosis is a special type of nuclear division which segregates one copy of each homologous chromosome into each new "gamete". 4.Meiosis reduces chromosome number from diploid to haploid. 5.Sexual life cycles produce genetic variation among offspring: independent assortments of chromosomes crossing over between homologous chromosomes

35. 5/23/2015 Reading Ch. 13, pp. 248-261