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Cellular Reproduction

Published byElaine Daniels Modified over 8 years ago

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Presentation on theme: "Cellular Reproduction"— Presentation transcript:

1 Cellular Reproduction
* Bacterial Cells 1. Binary Fission * Eukaryotic Cells 1. Mitosis produces 2 daughter cells, genetically identical to parent. 2. Meiosis produces 4 daughter cells, each with half the genetic material of the parent. Produces gametes (i.e. eggs and sperm)

2 Binary Fission

3 Mitotic Cell Division Functions
Development Differential expression of genes in daughter cells Allows for specialization of groups of cells in multi-cellular organisms Growth Organisms can grow to adult size Maintenance and Repair Organisms can replace old or damaged cells

4 Sexual Versus Asexual Reproduction
Asexual reproduction uses mitosis Produces daughter cells that are genetically identical to the parents The daughter cells are diploid Allows for formation of clones Sexual reproduction uses meiosis Produces gametes (i.e. eggs and sperm) with half the genetic material of the parent. The daughter cells are haploid

5 Sexual Versus Asexual Reproduction
Why did sexual reproduction evolve? Increase in genetic variation At least some of the offspring will be able to deal with changing environment At least some of the offspring may be able to find new niches for existence Some organisms have both sexual and asexual reproduction. When would they use one versus the other? Sexual during stress or times of environmental change Asexual during stable conditions Why?

6 The Cell Cycle

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10 Division and cytokinesis in animals
Division and cytokinesis in plants

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14 Note that in mitosis, all chromosomes line up
in the center of the cells. The division will separate the sister chromatids. Note that in meiosis I, homologous pairs of chromosomes line up together. This first division will NOT separate the sister chromatids, just the homologous chromosomes.

15 In meiosis, the lining up of homologous
chromosomes allows for crossing over (i.e. exchange of genetic information between the homologous chromosomes). Crossing over* and Random alignment of homologous pairs of chromosomes* combine with random mutations (which is also found in mitosis) to create the higher genetic variability associated with sexual reproduction.

16 Random alignment of chromosomes in meisis

17 Review Mitosis and Meiosis

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