Because the duplicated chromatids remain joined during meiosis I, each daughter cell receives only one chromosome of each homologous pair. … By shuffling the genetic deck in this way, the gametes resulting from meiosis II have new combinations of maternal and paternal chromosomes, increasing genetic diversity.
How does II contribute to genetic variation?
Understanding Crossing Over : Example Question #2
Crossing over is a process that happens between homologous chromosomes in order to increase genetic diversity. During crossing over, part of one chromosome is exchanged with another. The result is a hybrid chromosome with a unique pattern of genetic material.
How does meiosis contribute to genotypic variation?
When cells divide during meiosis, homologous chromosomes are randomly distributed to daughter cells, and different chromosomes segregate independently of each other. This called is called independent assortment. It results in gametes that have unique combinations of chromosomes.
How does meiosis contribute to genetic variation quizlet?
During prophase of meiosis I, the double-chromatid homologous pairs of chromosomes cross over with each other and often exchange chromosome segments. This recombination creates genetic diversity by allowing genes from each parent to intermix, resulting in chromosomes with a different genetic complement.
How does meiosis play a role in reproduction and genetic variation?
During sexual reproduction, meiosis generates genetic variation in offspring because the process randomly shuffles genes across chromosomes and then randomly separates half of those chromosomes into each gamete. The two gametes then randomly fuse to form a new organism.
How is meiosis II different from mitosis?
The major difference between meiosis II and mitosis is the ploidy of the starting cell. Meiosis II begins with two haploid cells, which have half the number of chromosomes as somatic cells. … Mitosis begins with a diploid cell. It will divide into two sister cells, both of which are also diploid.
How meiosis contributes to genetic variation while mitosis does not?
Assess how meiosis contributes to genetic variation, while mitosis does not. During meiosis, the independent assortment of the pairs of chromosomes and crossing over provide a large amount of genetic variation. Mitosis produces identical cells.
Which of the following processes during meiosis are sources of genetic variation in the production of gametes?
First, crossing over occurs during Prophase I, exchanging genetic material between homologous chromosomes. Additionally, homologous chromosomes align independently and randomly during Metaphase I, further contributing to unique genetic combinations in gametes.