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CSCOPE Unit 08 Lesson 02 PROCESS OF MEIOSIS. Asexual ReproductionSexual Reproduction Uses only mitosis Produces clones—genetically identical offspring.

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Presentation on theme: "CSCOPE Unit 08 Lesson 02 PROCESS OF MEIOSIS. Asexual ReproductionSexual Reproduction Uses only mitosis Produces clones—genetically identical offspring."— Presentation transcript:

1 CSCOPE Unit 08 Lesson 02 PROCESS OF MEIOSIS

2 Asexual ReproductionSexual Reproduction Uses only mitosis Produces clones—genetically identical offspring Fast and effective reproduction to spread organism No diversity Combination of two haploid sex cells Fertilization: combines genetic information from two separate cells with ½ of the original genetic information of parent organism Gametes are from separate parents. (female = egg, male = sperm) Zygote (new individual) has two sets of chromosomes, one from each parent Process changes diploid cells to haploid gametes—leading to an increase in diversity of offspring ASEXUAL VS. SEXUAL REPRODUCTION

3  What is the advantage of an organism that reproduces sexually rather than asexually?  An organism that reproduces sexually will have more genetic diversity than one that reproduces asexually. ASEXUAL VS. SEXUAL REPRODUCTION

4  Four Phases:  Prophase I  Metaphase I  Anaphase I (and)  Telophase I  Genetic diversity results from meiosis I. MEIOSIS I

5  Homologous (same) chromosomes pair (synapsis)  Homologous pairs called bivalents—two chromosome with four chromatids  Nuclear membrane dissolves  Chromosomes attach to spindle fibers and begin to move PROPHASE I

6  Homologous chromosomes (bivalents) line up at the equator to form tetrads.  Random orientation results in diversity.  50/50 chance of getting either parent’s homologue for each chromosome METAPHASE I Tetrad

7  Homologous chromosomes separate.  Chromosomes with TWO chromatids move to opposite poles.  Daughter cells will have 23 chromosomes (haploid) but with two chromatids. ANAPHASE I

8  Nuclear membrane begins to reform  Cell may quickly move to meoisis II TELOPHASE I

9  Similar to mitosis BUT no synthesis phase (no DNA replication)  Chromatids are NOT identical because of crossing over (recombination).  Separates chromatids and produces two daughter cells with 23 chromosomes that have one chromatid each MEIOSIS II

10  Crossing Over: Exchange of genetic information between homologous chromosomes that results in recombinant chromosomes and genetic diversity IMPORTANT CONCEPTS!!!

11  Independent Assortment : Chromosomes randomly line up during metaphase I, and there are various ways that the homologous chromosomes may line up—again resulting in genetic diversity IMPORTANT CONCEPTS!!! http://www.mhhe.com/biosci/ap/ap_prep/bioD6.html

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