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Remember! Homologous Chromosomes. Paired chromosomes; both chromosomes in a pair carry the same genes! Control the same inherited characteristics Homo logous – same information. Diploid (2n) 2n=4. 1 copy from mom & 1 copy from dad!. Human cells are 2n = 46! (23 from mom & 23 from dad).
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Remember! Homologous Chromosomes • Paired chromosomes; both chromosomes in a pair carry the same genes! • Control the same inherited characteristics • Homologous – same information Diploid (2n) 2n=4 1 copy from mom & 1 copy from dad! Human cells are 2n = 46! (23 from mom & 23 from dad)
Cell Division & Asexual Reproduction • Mitosis produces cells with the same information! • Identical daughter cells • Clones • Same amount of DNA
Asexual Reproduction • Binary Fission • Prokaryotes (bacteria) • Budding • Mostly single-celled eukaryotes (yeasts, amoebas, etc.)
What about us? • What if a complex, multicellular organism (like us) wants to reproduce? • Joining of egg & sperm Are egg & sperm cells made by mitosis? If they were, then… 46 46 92 Egg Sperm Zygote It doesn’t work!
So, how do we make sperm & egg cells? • Must reduce the number of chromosomes in the cell from 46 chromosomes 23 chromosomes! • Must reduce the number of chromosomes by half Egg Zygote Sperm Fertilization
Gametogenesis – Gamete Formation • In male animals, the haploid gametes are called sperm. • In the female animals, the haploid gametes are called eggs. • The process in which male & female gametes join is called fertilization. • This produces a fertilized egg called a zygote!
Meiosis • The process that divides 1 diploid (2n) cell to form 4 haploid (n) cells • How gametes (sex cells) are formed • Meiosis has 2 divisions: Meiosis I and Meiosis II
Meiosis – Production of Gametes (Sperm & Egg) • Chromosome number must be reduced • Diploid Haploid • 2n n • In humans, 46 23 • Fertilization restores the chromosome number • Haploid Diploid • n 2n
Sexual Reproduction Life Cycle • 2 copies • Diploid (2n) Fertilization Meiosis • 1 copy • Haploid (n) • 1 copy • Haploid (n) Gametes Gametes
Meiosis • Before meiosis begins, cells go through interphase! • DNA Replication occurs in interphase, forming a duplicate copy of each chromosome.
Meiosis • After DNA Replication, each chromosome is made of 2 sister chromatids!
Meiosis – 2 Cell Divisions • Meiosis I • Reduces Diploid (2n) Haploid (n) • Separates homologous pairs • Meiosis II • Sperm & egg formed • Separates sister chromatids Warning! Meiosis evolved from mitosis, so the stages & “machinery” are similar, but the processes are different! Do NOT confuse them!
2n = 4 1 copy of each homologous pair Overview of Meiosis I 2n = 4 Now sister chromatids Reduction 1n = 2 Homologous pairs separated, sister chromatids remain
Meiosis I – similar to mitosis! Prophase I • Centrioles move to opposite sides of the nucleus • Nuclear envelope breaks down.
Prophase I 3. Homologous chromosomes pair up. This is different than mitosis! • Each pair of chromosomes align & a tetrad is formed.
Prophase I • Chromosomes exchange portions of their chromatids in a process called crossing over. • Crossing over produces new combinations of DNA!
Here is a tetrad formed from 2 sets of sister chromatids. Gene A – Height (“A” is tall & “a” is short) Gene B – Hair Color (“B” is brown hair & “b” is blonde) The gametes produced can carry several varieties of genes; they’re not identical to the parent cell! This person can pass on tall/brown traits, tall/blonde traits, short/brown traits, or short/blonde traits!
Metaphase I • Spindle fibers attach to the chromosomes at the centromere.
Anaphase I • Spindle fibers pull the homologous chromosomes toward opposite ends of the cell. • Chromosomes move & separate into 2 groups near the spindle. • Anaphase ends when the chromosomes stop moving.
Telophase I • Nuclear membranes form around chromosomes. Remember! Cytokinesis is when the cytoplasm divides!
Meiosis I End Results • Produces 2 haploid (n) daughter cells that have only 1 set of each chromosome • Each set is made of 2 sister chromatids!
Meiosis II • After Meiosis I, cells enter Meiosis II: • No DNA Replication occurs between Meiosis I & Meiosis II • Meiosis II separates the sister chromatids.
Prophase II • Spindle fibers appear.
Metaphase II • Chromosomes align like they do in mitosis & attach to the spindle at the centromere.
Anaphase II • Sister chromatids separate & move towards opposite ends of the cell.
Telophase II • Nuclear membranes form around chromosomes. • Then, cytokinesis!
Meiosis II End Results • Produces 4 haploid (n) daughter cells
What are the advantages to sexual reproduction? • Increased diversity • Independent assortment of chromosomes: random alignment of homologous chromosomes in Metaphase 1 • Crossing over: mixing of alleles across homologous chromosomes • Random fertilization – which sperm fertilizes which egg? • Driving evolution • Providing variation for natural selection
Sexual reproduction allows us to maintain both genetic similarity & differences. Jonas Brothers