1. MEIOSIS and Sexual Reproduction

2. 6.1 Meiosis Meiosis is an important aspect of sexual reproduction.
Sexual reproduction, through the shuffling of DNA, produces genetic diversity.
This variation offspring produces individuals that may have advantages over one another.

3. “Meiosis” is derived from the Greek word meion, which means to reduce.
The process of meiosis results in the production of special cells called gametes.
Cell division occurs twice in meiosis: once at the end of meiosis I and again in meiosis II.
The process of meiosis shuffles genetic information and results in variation in genes.

4. 23 (egg) + 23 (sperm) = 46 (zygote)
Role of Gametes
Normal body cells have a diploid chromosome number, meaning chromosomes occur in pairs.
In humans, the male and female each contribute 23 chromosomes.
When fertilization takes place:
23 (egg) + 23 (sperm) = 46 (zygote)
The zygote goes on to develop into an embryo, and on into a complete individual. When the time comes, the cycle repeats.

5. Role of Gametes
Humans produce gametes (either egg or sperm) that have half (haploid) the normal number of chromosomes.

6. Meiosis
Meiosis produces gametes with half the chromosomes compared to body cells:

7. Meiosis I
During meiosis I the sister chromatids move to opposite poles of the cell.
Meiosis I differs from mitosis because in meiosis I, one chromosome from each parent lines up along the equator during metaphase.
These matching chromosomes are called homologous chromosomes.
Two daughter chromosomes result from meiosis I.

8. Meiosis II DNA is not replicated again before meiosis II begins.
Meiosis II is like mitosis because in both processes the chromatids of each chromosome are pulled to opposite poles.
Each daughter cell inherits one chromatid from each chromosome resulting in four haploid cells each with half the N of chromosomes.

10. Crossing Over Crossing over is important for the exchange of DNA.
Crossing over creates an infinite number of genetic variations.

11. Independent Assortment
During meiosis I another event called “independent assortment” occurs which also leads to variations in species.
For each of the 23 homologous pairs there are two possibilities for how chromosomes will sort themselves into daughter cells.
There are more than 8 million combinations possible for the 23 pairs in any egg or sperm cell.
70 trillion different zygotes are possible from one sperm and one egg cell.

12. Independent Assortment

14. Gamete Formation
In males, all 4 cells resulting from meiosis develop into sperm.
In females, 1 cell gets most of the cytoplasm and becomes the egg.

15. Chromosome Mutations
Sometimes changes in the organization of DNA and genes happen when pieces of chromosomes are lost, duplicated, or moved within the chromosome.
They may affect the genes that are responsible for making certain proteins in the cell.
Chromosome changes can be cause by mutagens such as radiation or chemicals.

16. Genetic Disorders
Geneticists can get a picture of individuals by looking at a person’s chromosomes.
This is called a persons “karyotype.”
Chromosomes are identified and paired by size, centromere location and banding patterns.
By analyzing karyotypes, geneticists can determine when a whole chromosome mutation has occurred.

17. Genetic disorders
Treatment of these disorders or “syndromes” can then take place. A good example of this is Down Syndrome which occurs when a person has an extra 21st chromosome.
Section 6.1 Quiz