ch. 9-3 meiosismitosis • no synapsis or crossing over • centromere splits: 2 chromatids become 2...
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CH. 9-3
MEIOSIS
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LEARNING OBJECTIVES
You should be able to:
• Determine haploid and diploid numbers.
• Define homologous chromosomes.
• Distinguish between autosomes/sex chromosomes.
• Identify and draw stages of meiosis. Determine ploidy and chromosome number for different stages of meiosis.
• Distinguish between somatic cells and gametes, and give examples.
• Describe the phenomena of independent assortment and crossing over, and explain their significance.
• Compare and contrast mitosis and meiosis.2
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KARYOTYPE
• An organism’s complete set of chromosomes
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KARYOTYPE
• An organism’s complete set of chromosomes
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KARYOTYPE
• An organism’s complete set of chromosomes
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HOMOLOGOUS
CHROMOSOMES
• Matching chromosomes called homologouspairs/homologous chromosomes
• Have the same genes, different alleles
• Allele: version of a gene that codes for a trait
6Paternal Maternal
eye color
locus
eye color
locus
hair color
locus
hair color
locus
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HOMOLOGOUS
CHROMOSOMES
• One set inherited from each parent
• Genes interact to determine organism’s traits
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AUTOSOMES VS SEX CHROMOSOMES
• Sex chromosome:
• Determines sex of the cell/organism
• In humans:
• X and Y chromosomes
• XX: female
• XY: male
• Autosome:
• All otherchromosomes
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AUTOSOMES VS SEX CHROMOSOMES
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PLOIDY
• Haploid number: the number of different chromosomes in one set, denoted by “n”
• Ploidy: number of complete chromosome sets in the somatic cells of an organism
• Haploid (1n)
• Diploid (2n)
• (Also: triploid, tetraploid, etc)10
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PLOIDY EXAMPLES
Humans are diploid organisms:
• Haploid number: n=23
• Diploid number: 2n=46
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PLOIDY EXAMPLES
Phyllomedusa tetraploidea are tetraploid organisms:
• Haploid number: n=13
• Tetraploid number: 4n=52
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PLOIDY PRACTICE
What are the haploid and diploid numbers shown below?
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Haploid: n=2 Diploid: 2n=4
Ploidy and chromosome number do not change before/after mitosis.
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PLOIDY PRACTICE
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Haploid: n=3 Diploid: 2n=6
What are the haploid and diploid numbers shown below?
Haploid: n=3 Diploid: 2n=6
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PLOIDY PRACTICE
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1) Draw a diploid cell with 10 chromosomes (2n=10).
2) Draw a triploid cell with 9 chromosomes (3n=9).
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PLOIDY PRACTICE
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Haploid # : n=2 Diploid: 2n=4
Haploid: n=2
What are the haploid and diploid numbers shown below?
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PLOIDY PRACTICE
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Diploid: 2n=4 Haploid: n=2
What are the haploid and diploid numbers shown below?
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MEIOSIS: THE BIG PICTURE
• Meiosis: reduction division
• Chromosomes reduced to half their original number (from diploid to haploid)
• Produces haploid gametes (sex cells: sperm and egg)
• During fertilization, haploid gametes fuse to produce a diploid zygote
• Diploid zygote undergoes mitosis
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FERTILIZATION
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SOMATIC CELLS VS GAMETES
• Somatic cells: regular body cells
• Skin, heart, liver, eye, etc
• Diploid (2n) in humans
• Produced by mitosis
• Gametes: sex cells
• Sperm, egg (ovum)
• Haploid (1n) in all sexually reproducing organisms
• Produced by meiosis20
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MEIOSIS I
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MEIOSIS I
Prophase I:
• Synapsis: homologous pairs attach at centromeres
• Crossing over: homologous chromosomes exchange genes (genetic recombination)
• Creates genetic variation
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MEIOSIS I
Metaphase I:
• Homologous pairs line up at middle
Anaphase I
Telophase I
RESULT:
• Homologous pairs separated
• 2 haploid cells, each with 2 sister chromatids per chromosome
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MEIOSIS II
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MEIOSIS II
All phases essentially identical to mitosis
• Prophase II, Metaphase II, Anaphase II, Telophase II
RESULT:
• Sister chromatids separated
• 4 haploid cells, each with 1 sister chromatid per chromosome
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MEIOSIS II
Per meiotic division:
Males: 4 viable sperm
Females: 1 viable egg
• Meiosis uneven:
• 1 egg (gets all resources)
• 3 polar bodies (disintegrate)
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INDEPENDENT
ASSORTMENT
• In Metaphase I, homologous pairs are randomly oriented
• Chances of inheriting one gene is unrelated to chances of inheriting another! (i.e. they are independent)
http://ib.bioninja.com.au/higher-level/topic-10-genetics-and-evolu/101-meiosis/random-assortment.html 27
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SUMMARY MEIOSIS (MANY OTHERS AVAILABLE ONLINE)
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VOCAB SUMMARY (MEIOSIS)
Testable
• Chromosome, Homologous, Gene, Autosome, Sex Chromosome, Ploidy, Haploid, Diploid, Fertilization, Somatic cell, Gamete (sperm, egg)
• Meiosis,Prophase/Metaphase/Anaphase/ Telophase I and II, Synapsis, Crossing over, Independent assortment
Not testable
• Karyotype, Allele
• Triploid, Tetraploid… (I wouldtell you if it was 3n, 4n, etc)
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COMPARISON
Mitosis
• No synapsis or crossing over
• Centromere splits: 2 chromatids become2 chromosomes
• 1 division 2 cells
• 2n 2n or n n
• Somatic cells
Meiosis
• Synapsis, crossing over
• Homologous pairs separate in meiosis I: meiosis II involves centromere splitting
• 2 divisions 4 cells
• 2n n
• Gametes
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