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Chapter 12: Meiosis Notes
Chapter 12
Meiosis
Mitosis Review
Cell division
Duplicates chromosomes
Takes one diploid cell and makes two more diploid cells
Asexual Reproduction
Single parents copies self to make offspring
Genetically identical offspring
Uses mitosis only
Pros
Uses less energy
Not reliant on finding mates
Cons
Low genetic variation
Difficult to adapt and evolve
Sexual Reproduction
Reproduction w/ offspring from two parents
Genetically unique offspring
Uses both mitosis and meiosis
Pros
High genetic variation
Facilitates adaption and evolution
Cons
Uses more energy and resources
Have to find mate
Alleles
Different forms of the same gene
Slight difference in nucleotides
Ex: gene - eye color. Allele - the different eye colors
Human genome is 3 billion nucleotides
All humans have the same genes(same species) but different alleles (diversity among same species)
Human genome is 99.9% identical
0.1% is still a lot of room for diversity
Sexual reproduction doesn’t use diploid cells
Uses gametes such as egg and sperm
Haploid: cell with one copy of chromosomes
****
Sexual reproduction uses meiosis
Meiosis: cell division that halves the number of chromosomes
Diploid cells undergo meiosis to make haploid cells
gamete/ haploid Ex: egg and sperm, fungal/plant spores
Fertilization restores chromosome number
Fertilization: fusion of 2 gametes during sexual reproduction
Zygote
First cell of new offspring (from fusion of gametes)
Now has 46 chromosomes (diploid)
Steps of Meiosis
Runs in 2 stages
Meiosis I
Starts with a diploid cell
Meiosis II
Starts with a haploid cell
Meiosis I
Prophase I - chromosomes thicken, swap segments
Metaphase I - chromosomes line up in middle
Anaphase I - chromosomes split and move to opposite ends of the cell
Telophase I - cell splits, forms 2 haploid cells
Meiosis II
Prophase II - chromosomes thicken
Metaphase II - chromosomes line up in middle
Anaphase II - chromosomes split and move to opposite ends of cell
Telophase II - cell splits again, forms 2 more haploid cells
All the same steps as Meiosis I except that telophase II makes 2 more cells
One diploid cell becomes 4 haploid in meiosis
Chapter 12: Meiosis Notes
Chapter 12
Meiosis
Mitosis Review
Cell division
Duplicates chromosomes
Takes one diploid cell and makes two more diploid cells
Asexual Reproduction
Single parents copies self to make offspring
Genetically identical offspring
Uses mitosis only
Pros
Uses less energy
Not reliant on finding mates
Cons
Low genetic variation
Difficult to adapt and evolve
Sexual Reproduction
Reproduction w/ offspring from two parents
Genetically unique offspring
Uses both mitosis and meiosis
Pros
High genetic variation
Facilitates adaption and evolution
Cons
Uses more energy and resources
Have to find mate
Alleles
Different forms of the same gene
Slight difference in nucleotides
Ex: gene - eye color. Allele - the different eye colors
Human genome is 3 billion nucleotides
All humans have the same genes(same species) but different alleles (diversity among same species)
Human genome is 99.9% identical
0.1% is still a lot of room for diversity
Sexual reproduction doesn’t use diploid cells
Uses gametes such as egg and sperm
Haploid: cell with one copy of chromosomes
****
Sexual reproduction uses meiosis
Meiosis: cell division that halves the number of chromosomes
Diploid cells undergo meiosis to make haploid cells
gamete/ haploid Ex: egg and sperm, fungal/plant spores
Fertilization restores chromosome number
Fertilization: fusion of 2 gametes during sexual reproduction
Zygote
First cell of new offspring (from fusion of gametes)
Now has 46 chromosomes (diploid)
Steps of Meiosis
Runs in 2 stages
Meiosis I
Starts with a diploid cell
Meiosis II
Starts with a haploid cell
Meiosis I
Prophase I - chromosomes thicken, swap segments
Metaphase I - chromosomes line up in middle
Anaphase I - chromosomes split and move to opposite ends of the cell
Telophase I - cell splits, forms 2 haploid cells
Meiosis II
Prophase II - chromosomes thicken
Metaphase II - chromosomes line up in middle
Anaphase II - chromosomes split and move to opposite ends of cell
Telophase II - cell splits again, forms 2 more haploid cells
All the same steps as Meiosis I except that telophase II makes 2 more cells
One diploid cell becomes 4 haploid in meiosis
NoteStudied by 6 peopleNoteStudied by 15 peopleNoteStudied by 29 peopleNoteStudied by 7 peopleNoteStudied by 70 peopleNoteStudied by 9 people