What is Asexual Reproduction Asexual reproduction is reproduction
- Slides: 37
What is Asexual Reproduction? • Asexual reproduction is reproduction without sex. In this form of reproduction, a single organism or cell makes a copy of itself. The genes of the original and its copy will be the same. They are clones. The main purpose of asexual reproduction is mitosis. This type of reproduction is common among some single-celled organisms. Many plants also reproduce asexually.
Types of Asexual Reproduction • http: //www. mrowen. com/sci 10/biology/bi ology 50. pdf
What is sexual reproduction? • Sexual Reproduction is a way of reproduction of some animals and plants. Organisms that reproduce sexually have two different sexes: male and female. Offspring is made by a cell from the male and a cell of the female. • The main process of sexual reproduction is meiosis.
Meiosis – A Source of Distinction Why do you share some but not all characters of each parent? What are the rules of this sharing game? At one level, the answers lie in meiosis.
Meiosis does two things 1) Meiosis takes a cell with two copies of every chromosome (diploid) and makes cells with a single copy of every chromosome (haploid). This is a good idea if you’re going to combine two cells to make a new organism. This trick is accomplished by halving chromosome number. In meiosis, one diploid cells produces four haploid cells.
Why do we need meiosis? • Meiosis is necessary to halve the number of chromosomes going into the sex cells Why halve the chromosomes in gametes? • At fertilization the male and female sex cells will provide ½ of the chromosomes each – so the offspring has genes from both
2) Meiosis scrambles the specific forms of each gene that each sex cell (egg or sperm) receives. This makes for a lot of genetic diversity. This trick is accomplished through independent assortment and crossing-over. Genetic diversity is important for the evolution of populations and species.
Meiosis Parent cell – chromosome pair Chromosome s copied 1 st division - pairs split 2 nd division – produces 4 gamete cells with ½ the original no. of chromosomes
Meiosis – mouse testes Parent cell 1 st division 2 nd division 4 gametes
The Stages of Meiosis: • aka: Reduction Division
Meiosis I : Separates Homologous Chromosomes • Interphase – Each of the chromosomes replicate – The result is two genetically identical sister chromatids which remain attached at their centromeres
Prophase I • This is a crucial phase for mitosis. • During this phase each pair of chromatids don’t move to the equator alone, they match up with their homologous pair and fasten together (synapsis) in a group of four called a tetrad. • Extremely IMPORTANT!!! It is during this phase that crossing over can occur. • Crossing Over is the exchange of segments during synapsis.
Metaphase I • The chromosomes line up at the equator attached by their centromeres to spindle fibers from centrioles. – Still in homologous pairs
Anaphase I • The spindle guides the movement of the chromosomes toward the poles – Sister chromatids remain attached – Move as a unit towards the same pole • The homologous chromosome moves toward the opposite pole – Contrasts mitosis – chromosomes appear as individuals instead of pairs (meiosis)
Telophase I • This is the end of the first meiotic cell division. • The cytoplasm divides, forming two new daughter cells. • Each of the newly formed cells half the number of the parent cell’s chromosomes, but each chromosome is already replicated ready for the
Cytokinesis • Occurs simultaneously with telophase I – Forms 2 daughter cells • Plant cells – cell plate • Animal cells – cleavage furrows • NO FURTHER REPLICATION OF GENETIC MATERIAL PRIOR TO THE SECOND DIVISION OF MEIOSIS
Figure 13. 7 The stages of meiotic cell division: Meiosis I
Meiosis II : Separates sister chromatids • Proceeds similar to mitosis • THERE IS NO INTERPHASE II !
Prophase II • Each of the daughter cells forms a spindle, and the double stranded chromosomes move toward the equator
Metaphase II • The chromosomes are positioned on the metaphase plate in a mitosis-like fashion
Anaphase II • The centromeres of sister chromatids finally separate • The sister chromatids of each pair move toward opposite poles – Now individual chromosomes
Telophase II and Cytokinesis • Nuclei form at opposite poles of the cell and cytokinesis occurs • After completion of cytokinesis there are four daughter cells – All are haploid (n)
Figure 13. 7 The stages of meiotic cell division: Meiosis II
One Way Meiosis Makes Lots of Different Sex Cells (Gametes) – Independent Assortment Independent assortment produces 2 n distinct gametes, where n = the number of unique chromosomes. In humans, n = 23 and 223 = 6, 0000. That’s a lot of diversity by this mechanism alone.
Another Way Meiosis Makes Lots of Different Sex Cells – Crossing-Over Crossing-over multiplies the already huge number of different gamete types produced by independent
The Key Difference Between Mitosis and Meiosis is the Way Chromosomes Uniquely Pair and Align in Meiosis Mitosis The first (and distinguishing) division of meiosis
Boy or Girl? The Y Chromosome “Decides” Y chromosome X chromosome
Boy or Girl? The Y Chromosome “Decides”
Meiosis – division error Chromosome
Meiosis error fertilization Should the gamete with the chromosome pair be fertilized then the offspring will not be ‘normal’. In humans this often occurs with the 21 st pair – producing a child with Downs Syndrome
21 trisomy – Downs Syndrome Can you see the extra 21 st chromosome? Is this person male or female?
• http: //iteachbio. com/Life%20 Science/Lif e. Functionsand. The. Cell/Meiosis. ppt
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