meiosis notes 4 cell division to form the gametes, sperm (male gamete) and egg (female gamete). 4...
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Meiosis Notes
Cell division to form the gametes, sperm (male gamete) and egg (female gamete).
Normal cells are diploid (2n): 2 copies of every gene.
Gametes are haploid (n): 1 copy of every gene
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Number of Chromosomes
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Overview of Meiosis 2 cell divisions. Starts with 2 copies of each
chromosome (homologous), each with 2 chromatids (copies of DNA).
In meiosis I, homologous chromosomes are separated into 2 cells.
In Meiosis II the chromatids are separated into 4 cells.
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Meiosis I (PMAT I) PROPHASE I - The homologous
chromosomes pair together (Sometimes crossing over occurs).
METAPHASE I - The pairs of homologous chromosomes line up along the middle
ANAPHASE I - Homologous chromosomes are pulled apart.
TELOPHASE I - One cell becomes two cells with one chromosome of the pair (haploid)
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Meiosis II (PMAT II)
PROPHASE II – Prepare to divide METAPHASE II – Chromosomes line
up in the middle ANAPHASE II – Chromatids (copies
of DNA) pull apart TELOPHASE II – The end result is
four cells with one copy of each gene.
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InterphaseInterphase
Mother cell Stages Of Meiosis: Meiosis I
Meiosis IIMeiosis II
Prophase I:Tetrad formation/
crossing over
Prophase I:Tetrad formation/
crossing overMetaphase I Metaphase I
Telophase ITelophase I
Prophase I:Condensing
Chromosomes
Prophase I:Condensing
Chromosomes
Anaphase I Anaphase I
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Telophase ITelophase I
Stages Of Meiosis: Meiosis II
Metaphase II Metaphase II
Anaphase II Anaphase II
Telophase II Telophase II
The products of meiosis are 4 haploid cells each with a unique set of chromosomes.
Prophase IIProphase II
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Segregation
In humans meiosis starts with one cell containing 46 chromosomes (23 pairs) and results in four cells containing 23 chromosomes.
The copies of DNA are separated when gametes are formed.
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Independent Assortment Homologous
chromosomes are positioned randomly so any copy can be passed to the gametes with any combination of other chromosomes
There are 2n combinations possible during meiosis with n the haploid number of chromosomes for the organism
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How many combinations are possible in human meiosis?
Possible combinations: 2n
n=23 in humans
223=about 8,300,000 combinations
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Crossing Over
During Prophase I, the exchange of genetic material between homologous chromosomes
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Prophase I:Tetrad formation/
crossing over
Prophase I:Tetrad formation/
crossing over
Crossing Over
Anaphase I Anaphase I
Telophase II Telophase II
Metaphase I Metaphase I
Telophase ITelophase IBecause of crossing over, every gamete receives a unique set of genetic information.
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Fertilization
The combination of a sperm and an egg which forms a zygote.
1 sperm (1 of 8 million possible chromosome combinations) x 1 ovum (1 of 8 million different possibilities) = 64 trillion diploid combinations!
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EggHaploidnucleus
Fertilization Results In A Diploid Zygote
SpermHaploidnucleus
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Sperm
Fertilization Results In A Diploid Zygote
Egg
Haploidnucleus
Haploidnucleus
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Sperm
Fertilization Results In A Diploid Zygote
EggHaploidnucleus
Haploidnucleus
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Sperm
Fertilization Results In A Diploid Zygote
EggHaploidnucleus
Haploidnucleus
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From Zygote to Embryo
Zygote2n
Zygote
Diploid
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Mitosis
From Zygote to Embryo
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Mitosis
From Zygote to Embryo
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Mitosis
From Zygote to Embryo
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Mitosis
From Zygote to Embryo
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From Zygote to Embryo
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Twins
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Monozygotic Twins (Identical) 1/3 of all twins are identical Twins that form from one
zygote (one egg fertilized by one sperm).
These twins have identical genes and must be the same sex.
Having identical twins is random, not genetic
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Dizygotic Twins (fraternal)
2/3 of all twins are fraternal Twins that form from two
zygotes (two eggs fertilized by two sperm)
Can be the same sex or different sexes.
The ability to have fraternal twins is thought to be genetic.
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