Meiosis

Meiosis Cell Division that occurs in gametes - reducingthe number of chromosomes in half

Chromosomes contain Inherited Information • Each of our cells contain chromosomes • GeneticInformationpassed on from one generation to another • This information is used to make a wide range of proteins (genetic blueprints) • Proteinshelp determine individual characteristics

WhyReduce Chromosomes? • 1. How many chromosomes would a sperm or an egg contain if either one resulted from the process of mitosis? • 2. If a sperm containing 46 chromosomes fused with an egg containing 46 chromosomes, how many chromosomes would the resulting fertilized egg contain? Would it be of the same species? • 3. In order to produce a fertilized egg with the appropriate number of chromosomes (46), how many chromosomes should each sperm and egg have?

It’s All About Chromosomes • DiploidNumber (2n) – Refers to the number of chromosomes that exist in all body cells (this number variesfrom species to species) • Humans have 2n= 46 (or 2X 23) • Each individual resulting from sexual reproduction receives half of their diploidnumber from each parent • 23 from mom + 23from dad = 46 total

Fertilization Restores the Diploid Number n + n = 2n • When gametes unite, their chromosomes add together to provide the offspring with the correct diploid number ofchromosomes specific for that species. 23 + 23 = 46 n Sperm (23) Egg (23) n

Zygote (2n Restored) • At fertilization, the DNA of a single sperm and ovum merge to create the genetic blueprint for a new, unique individual. Once the DNA has combined and the single-celled ovum begins to divide, it is called a zygote. Zygote (2n)

Each species has a specific number of chromosomes Chromosome number seem unrelated to complexity

Sexual Reproduction and Meiosis • For most animals and plants, it takes two to reproduce. Sexual Reproduction: - Helps us understand how variations occur among living things • Plays a Significant role in process of Evolution • To understand genetic variations, we need to closely examine the chromosomes during Meiosis, Fertilization, and Inheritance

Meiosis I2n-- n Diploid number = 4 Metaphase I Interphase Prophase I Anaphase I Homologous Pairs form “tetrads” and Exchange genes “crossing-over” Chromosomes replicate Double-stranded Homologous pairs move to Opposite poles

Crossing-over: Mixing-up Gene Combinations During ProphaseI Double-stranded Homologous Pairs Homologues Crossing-over Genes are exchanged Genetic Combinations Have been changed Homologues “find each other” and form A tetrad

Meiosis I… Summed Up • Chromosomes are double-stranded • Homologous Chromosomes form tetrads • Crossing –over occurs during Prophase • Genesare exchanged • Original genetic make-up changes • Diploid number reduced to Haploid • Chromosomes still DOUBLE-STRANDED • Homologous Chromosomesrandomly separate (Disjunction) to opposite poles

Meiosis II Two Daughter cells enter Second Stage of Cell Division Prophase II Anaphase II Metaphase II Double-stranded Chromosomes line-up Each cell has One set of chromosomes (n) Double-stranded chromosomes Separate

Meiosis I & II … summed up • Daughter cells produced from Meiosis I have haploidnumber of chromosomes • Each cell has only one set of chromosomes (n) • Chromosomes still Double-stranded • Double-stranded chromosomes separate (anaphase II) • Total of Fourhaploid cells produced at the end of Meiosis II (single-stranded)

Prophase I (up close) • Note: double-stranded chromosomes • Homologous pairs in Tetrads • Crossing-over

Metaphase I • Homologous pairs Line-up, side-by-side • NOT one under the other • NO particular arrangement

Anaphase I • Double-stranded Homologous Pairs Separate • Called Disjunction Each cell Having only One set

Teleophase I • Two daughter cells with haploid number of chromosomes (but still double-stranded)

Metaphase II • DS line-up, one under the other

Anaphase II Double-strands separate

Four haploid Cells, each Having one set Of single-stranded chromosomes

All Together Now …. • One diploid parent (DS)---4 Haploid (SS

Problems During Meiosis • Errors during Prophase I • Crossing-over while in tetrad formation can result in uneven exchange of genes between homologous pairs (Recall: chromosomal mutations) • inversions • additions • deletions

Problems cont… • Nondisjunction( when chromosomes fail to separate during Anaphase) • Abnormal Number of chromosomes enter gametes. Some have too many,Others have too few. • Examples: • Down Syndrome (trisomy 21)- nondisjunction of chromosome # 21 during anaphase II • Turner’s Syndrome -have only one X (sterile females) • Klinefelter’s Syndrome – XXY genotype (sterile males)

NOW .. Let’s Talk Gametogeneis • As we now know, gametes are our sex cells, sperm and egg (ovum) • Meiosis occurs in gametes (reducing the Diploid# to Haploid# of chromosomes). • BUT, there’s more to process of making gametes than just reducing the number of chromosomes!!

Spermatogenesis – Sperm production • During meiosis of spermatogenesis, the cytoplasm divides EQUALLY; FORMING 4 SPERM OF EQUAL SIZE. • Occurs in the Testes

Oogenesis – producing mature ovum (egg) • During oogenesis, the Cytoplasm is NOT divided Equally between the cells During Meiosis • Only one ovum made • Three Polar Bodies • Occurs in the Ovaries http://www.sumanasinc.com/webcontent/animations/content/meiosis.html

Meiosis

Meiosis

Presentation Transcript

Meiosis

Meiosis

Meiosis

Meiosis

Meiosis

Meiosis

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Meiosis

Meiosis

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Meiosis

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Meiosis

Meiosis

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