2. Bell Work 1/25
Draw and label the stages of Mitosis and Cell Division.

3. I. Reproduction A) Asexual 1
I. Reproduction A) Asexual 1. Many single-celled organisms reproduce by binary fission, budding 2. Some multicellular organisms can reproduce asexually, produce clones (offspring genetically identical to parent).

4. Binary fission in Bacteria
Budding in Hydra
Binary fission in Bacteria

5. B) Sexual reproduction 1. Most advanced organisms 2
B) Sexual reproduction 1. Most advanced organisms 2. Benefit: greater genetic variation=more resilient 3. SOME can self fertilize but most offspring are recombinants of parents genes 4. Fertilization: Male & Female gametes unite to form diploid zygote

6. II. Overview of Meiosis
Occurs in gonads (sex cell producing glands): germ cells create gametes (Sex cells)
Eggs formed by oogenesis and sperm by spermatogenesis in animals
Gametes are Ovule and pollen in plants
REDUCES chromosome # by half so offspring has correct # of chromosomes
Produces haploid cells: contain HALF the correct number of chromosomes
Somatic cells are Diploid; Gametes are haploid

7. C) Increases genetic diversity by: 1
C) Increases genetic diversity by: 1. Allowing for sexual fertilization (mixes genes) 2. Crossing over and independent assortment D) Chromosome Basics (Using humans as an example…) 1. Normal humans have 46 TOTAL chromosomes in each somatic cell (23 pairs, 1set from each parent) 2. Thus 23 chromosomes must come from each parent = 46 E) Meiosis is similar to doubled mitosis

9. Meiosis I
Prophase I
1. DNA coils into chromosomes, spindle forms, nucleus & nucleolus dissolve
2. Synapsis-Pairs of homologous chromosomes line up to form a tetrad. Where they cross = chiasmata

10. 3. Crossing over: Arms of crossed over chromatids break and swap
3. Crossing over: Arms of crossed over chromatids break and swap. Create RECOMBINANT chromosomes a) Can be a SINGLE or b) DOUBLE cross over

12. Metaphase I – Similar to mitosis,
1. Tetrads line up on equator
2. Random assortment on equator Independent Assortment: also increases genetic variation!)

13. C) Anaphase I 1. Tetrads separate (into 2 homologous pairs) and move to opposite poles (2 SETS of chromatids held tog by centromeres) 2. Centromeres do NOT split-homologous pairs still together

15. D) Telophase I and Cytokinesis I 1. Similar to mitosis 2
D) Telophase I and Cytokinesis I 1. Similar to mitosis 2. Result is 2 diploid cells

18. Meiosis II – Identical to mitosis
A) Prophase II – spindle forms in opp direction as meiosis I
B) Metaphase II – Line up on equator, random
C) Anaphase II - centromeres split, chromatids move to opposite poles
D) Result after cytokinesis II is 4 haploid cells

19. V. Spermatogeneisis (in testes). Cells are modified into sperm

20. VI. Oogenesis- in ovaries A) Starts before birth but arrests in prophase I. Starts back up in puberty B) All resources go into 1 cell, other 3 become polar bodies

21. Fertilization – egg & sperm meet
Result is 1 diploid cell=zygote
From this point on divides by MITOSIS into embryo etc

22. Bell Work Complete the chart.
Which cells are NOT formed during meiosis?
Somatic cells
Gametes
Sex cells
Sperm cells
Diploid (Body Cell) 2N
Haploid (Sex Cell) 1N 46 50 10 8 20 14 31 28

23. 1. During which phase of meiosis are four different haploid cells produced?
a. Prophase I
b. Metaphase I
c. Metaphase II
d. Telophase II and Cytokinesis II
2. Which of the following occurs during meiosis, and NOT mitosis?
a. All daughter cells maintain the same chromosome number
b. All sex cells receive the same amount of genetic material as the parent cell
c. The chromosome number is halved in sex cells
d. The chromosome number is double in sex cells
3. How many gametes are produced by meiosis?
a. 1
b. 2
c. 3
d. 4