Meiosis Chapter 8

What you need to know! The role of meiosis and fertilization in sexually reproducing organisms The importance of homologous chromosomes to meiosis How the chromosome number is reduced from diploid to haploid through the stages of meiosis Important differences between mitosis and meiosis The importance of crossing over, independent assortment, and random fertilization to increasing genetic variability

Meiosis A process by which an organism produces haploid (n) sex cells from diploid (2n) germ cells Meiosis is divided into meiosis 1 and meiosis 2 Meiosis 1 = separation of homologous chromosomes Meiosis 2 = separation of sister chromatids Haploid = egg and sperm (single set of chromosomes), n =23 Diploid = zygote (pair of chromosomes), n=46 Somatic cells are diploid Germ cells are hapolid and were produced from diplod cells

Interphase G1, S, G2 Assembly of centrioles S Phase: Duplication of DNA 2n (diploid) → 4n (diploid) Assembly of centrioles

Prophase I 90% of meiotic time Condensation of chromosomes Nuclear envelope disappears Spindles form Synapsis: Homologous chromosomes pair up as tetrads The chiasmata are where crossing-over takes place chiasmata=point at which chromosomes remain in contact Crossing over= exchange of genetic material; recombinant chromosomes

Crossing Over Leads to the creation of novel chromosomes Genes from homologous maternal and paternal chromosomes mix Synapsis: homologous chromosomes form tetrads Chiasmata: homologous chromosomes overlap on multiple points Crossing Over: identical parts break off and reattach

Elbow partner discussion Why do so many different traits exist?

Metaphase 1 Homologous chromosomes line up at the equator side by side One spindle attaches to each chromosome 4n (diploid) = 92 chromosomes in humans

Anaphase 1 Homologous chromosomes separate (sister chromatids remain together)

Telophase 1 (cytokinesis) 1 cell separates into 2 Each contains one homologous chromosome with two sister chromatids 2n (haploid) Often no nuclei form and the DNA remains condensed 2 x (n) = 46 (no pairs)

Prophase 2 Spindle fibers form kinetochore spindle fibers attach to each chromosome

Metaphase II Chromosomes line up at the equator of the cell

Anaphase 2 Sister chromatids are pulled apart Sister chromatids are not identical (crossing over)

Telophase 2 and Cytokinesis 4 new cells form All are genetically different All are haploid with 1n chromosomes Humans 23

Videos & Review Crash Course http://www.youtube.com/watch?v=qCLmR 9-YY7o