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Lecture 17 Gametogenesis at the Chromosomal level: Mitosis and Meiosis

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Presentation on theme: "Lecture 17 Gametogenesis at the Chromosomal level: Mitosis and Meiosis"— Presentation transcript:

1 Lecture 17 Gametogenesis at the Chromosomal level: Mitosis and Meiosis
Animal Science 434 John J. Parrish

2 Definitions Chromosome - linear DNA molecule
Centromere - special region of spindle attachment Homologous Chromosomes Have the same kind of genes in the same order 1 from father, 1 from mother Sister chromosomes (X, Y)

3 A chromatid pair has an identical sequence of DNA
Definitions Homologous Chromosomes DNA Replication Chromatids A chromatid pair has an identical sequence of DNA

4 Cell Cycle M Go MPF MPF MPF G1 G2 MPF MPF MPF MPF Interphase S

5 M - Phase Prophase Metaphase Anaphase Telophase Cytokinesis

6 Grand Scheme Mitosis Meiosis 2N 2N Replicate Division Replicate

7 Homologous chromosomes pair along side of each other
Mitosis G1 M - phase S Prophase G2 Metaphase Homologous chromosomes pair along side of each other Chromatids Centromere MPF high Spindles (microtubules)

8 Mitosis Anaphase MPF decreases Chromatids pull apart

9 Mitosis Anaphase MPF decreases Chromatids pull apart

10 Mitosis Telophase Chromosomes pull apart further Microtubules
Disappears Nuclear envelopes reform

11 Mitosis Telophase Chromosomes pull apart further Microtubules
Disappears Nuclear envelopes reform

12 Mitosis Cytokinesis

13 Mitosis Cytokinesis 2N

14 Meiosis 2N 4N Go G1 S G2 Prophase Primary Spermatocyte Primary Oocyte

15 The Five Phases of Meiotic Prophase
Leptotene Chromosomes condense 4N Zygotene Homologous chromosomes begin to pair Bivalents 4N

16 The Five Phases of Meiotic Prophase
Pachytene Pairing is completed Crossing over of homologues occur 4N Diplotene/Dictyatene Oocytes stop here before puberty Homologous chromosomes pull apart but remain attached at crossover points (chiasma) RNA synthesis is possible 4N

17 The Five Phases of Meiotic Prophase
Diakinesis RNA synthesis stops The chromatids become visible 4N Homologous chromosomes linked at chiasma Chromatids linked at centromere Crossover (chiasma) Centromere

18 Homologous chromosomes held together via chiasma
Metaphase I of Meiosis 4N Homologous chromosomes move toward opposite poles and pair across from one another Homologous chromosomes held together via chiasma

19 Recombination as a result of crossing over
Anaphase I of Meiosis 4N Recombination as a result of crossing over

20 Telophase I 4N

21 Secondary Spermatocyte or Secondary Oocyte
Telophase I Cytokinesis 2N 4N Secondary Spermatocyte or Secondary Oocyte

22 Meiosis Metaphase II 2N 2N No Replication Rest Same As Mitosis 2N 2N
Oocytes stop here until fertilized

23 Meiosis This does not exist for oocyte Telophase II Cytokinesis
Anaphase II N N 2N Spermatid N 2N N

24 Abnormalities Anueploidy Euploidy Non-disjunction
Not an exact multiple Hyper or hypo Example: 2N - 1 or 2N + 1 Euploidy Exact multiple of haploid Example: 3N, 4N, etc. Non-disjunction Causes aneuploidy and occurs in meiosis Example: N - 1 or N + 1

25 Abnormalities Non-disjunction XXYY XY XXYY XXYY O XX YY XY O XX O Y
XXX XY X Kleinfelter’s Syndrome Turner’s Syndrome

26 Down’s Syndrome Non-disjunction Extra copy of chromosome 21
Probability increases with age Age 35, 2 per 1000 births Age 40, 6 per 1000 births Age 45, 16 per 1000 births

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