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Meiosis

Meiosis is a vital process in sexual reproduction that reduces chromosome numbers, producing haploid gametes for genetic variation. Learn about its phases, significance of genetic variation, and comparison with mitosis. Explore human life cycle and gametogenesis.

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Meiosis

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  1. Meiosis

  2. meiosis • Nuclear division • Sexual reproduction, genetic variation • Reduces the chromosome number • Diploid-2n, haploid-n, 46, 23 • Gamete – sex cell, haploid • Zygote – fused gametes, diploid

  3. Karyotype46 chromosomes 44 autosomes 2 sex chromosomes

  4. Homologous chromosomes • Look alike, have similar banding pattern, same length and centromere position • One from mom, one from dad • Alleles – alternate forms of a gene, have genes for same traits, just code for differences.

  5. Meiosis I and II • 2 nuclear divisions, • Produce 4 haploid cells • Not genetically identical • Differences from mitosis • Homologous chromosomes line up together during meiosis 1 • Called synapsis, results in a bivalent (aka tetrad) • No interphase between phases

  6. Genetic Variation • Crossing over – exchange of genetic material between non-sister chromatids of a bivalent (2-3 times) • Nucleoprotein lattice forms • Chiasmata – regions where non-sister chromatids are held together due to crossing over. • Results in different sequence of alleles and are different from their parents.

  7. Independent assortment Homologous chromosomes separate in a random order. (8,388,608 possible chromosomal combinations)

  8. Fertilization • Random… • Significance of genetic variation: • In changing environments, sexual reproduction is an advantage

  9. Phases of meiosis • Prophase 1 • Spindle fibers form, centrosomes migrate • Nuclear envelopes fragments, nucleolus gone • Chromosomes condense • Homologous chromosomes line up, synapsis forming bivalents • Crossing over occurs

  10. Metaphase 1 • Homologous chromosomes move to equator • Kinetochores are seen outside of centromere and connected to spindles • Bivalents independently align in middle

  11. Anaphase 1 • Homologous chromosomes separate from each other and move to opposite poles

  12. Telophase 1 • Spindle disappears • Nuclear envelope appears (not necessary by end of telophase to move on) • Cytokinesis may or may not happen during this phase

  13. interkinesis • Between divisions • Like interphase with no “s” phase

  14. Meiosis II • Similar to Mitosis in division except ends with 4 haploid daughter cells • Haploid cells become gametes, in plants = spores

  15. 1 nuclear division Results in 2 daughter cells Daughter cells genetically identical to parent Daughter cells have same # of chromosomes as parent (diploid) 2 nuclear divisions Results in 4 daughter cells Daughter cells not genetically identical to parent Daughter cells have half the # of chromosomes as parent (haploid) Comparison of Mitosis and Meiosis

  16. Occurs in all tissues for growth and repair, common Occurs only in reproductive organs and produces gametes Comparison of Mitosis and Meiosis

  17. Human life cycle • Gametogenesis – formation of gametes • Spermatogenesis – formation of sperm in testes, male meiosis • Oogenesis – egg production in ovary, female meiosis

  18. spermatogenesis • Testes contain stem cells – spermatogonia which keep the testes supplied with primary spermatocytes (2n - 46) that undergo spermatogenesis • Primary spermatocytes form secondary spermatocytes (n- 23), which form spermatids (n-23), which differentiate into 4 viable sperm

  19. oogenesis • Ovaries have stem cells called oogonia • Produce primary oocytes (2n-46) during fetal development and undergoes oogenesis during puberty • Forms 1 secondary oocyte (n-23), which receives the most cytoplasm, and a polar body • Secondary oocyte begin meiosis II but stops at metaphase II. It leaves ovary and moves to oviduct where it awaits sperm. • If no sperm enters, it disintergrates. • If sperm enter oocyte, Meiosis II continues and another polar body is formed.

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