1. Ch. 13 MEIOSIS AND SEXUAL LIFE CYCLES
AP BIOLOGY
Ch. 13
MEIOSIS AND SEXUAL LIFE CYCLES

2. Heredity Reproduction is an emergent property associated with life.
The fact that organisms reproduce their own kind is a consequence of heredity.
HEREDITY- passing of biological traits from one generation to the next. Results from transfer of genes from parents to offspring.
Because they share similar genes, offspring more closely resemble their parents than unrelated individuals of the same species.

3. Genetics
Genetics is the scientific study of heredity and hereditary variation.
Even though offspring resemble their parents and siblings, they also vary as a consequence of inherited differences among them.

5. Offspring acquire genes from parents by inheriting chromosomes
Genes are units of hereditary information that are made of DNA and are located on chromosomes.
DNA- type of nucleic acid that is a polymer of 4 different nucleotides.
Most genes program cells to synthesize specific proteins; the action of these proteins produce an organism’s inherited traits.

6. Chromosomes
Actual transmission of genes from parents to offspring depends on the behavior of chromosomes.
Chromosomes contain hundreds or thousands of genes, each of which is a specific region of the DNA molecule.
Locus- specific location on a chromosome that contains a gene
Each species has a characteristic number of chromosomes. Ex) Humans have 46 in somatic cells and 23 in the gametes

7. Inheritance of Genes
The transmission of hereditary traits has it molecular basis is the precise replication of DNA, which produces copies of genes that can be passed along from parents to offspring.
In animals and plants, reproductive cells called gametes are the way genes are transmitted to offspring.
During fertilization, male and female gametes unite, passing genes from both parents to the offspring.

8. Asexual Reproduction
Single individual is the sole parent, and passes all of its genes to the offspring.
Offspring are genetically identical to the parent.
Results in a clone, or genetically identical individual. Rarely, genetic differences occur as a result of a mutation (change in DNA)

9. Asexual
Reproduction in
Hydra

10. Sexual Reproduction
Two parents give rise to offspring that have unique combinations of genes inherited from both parents.
Results in greater genetic variation; offspring vary genetically from their siblings and parents.
What generates this genetic variation? The process of meiosis

11. Human Chromosomes
Karyotype- a photomicrograph of an individual’s somatic-cell metaphase chromosomes that are arranged in sequence.
Two chromosomes (homologous chromosomes) making up a pair have the same length, centromere position, and staining patterns.
Karyotypes can be used to screen for chromosomal abnormalities.
Human karyotypes are often made with lymphocytes.

12. Preparing a Karyotype

17. Homologous chromosomes
Autosome- a chromosome that is not a sex chromosome.
Homologous autosomes carry the same genetic loci.
Sex chromosomes- dissimilar chromosomes that determine an individual’s sex. Females are XX, while males are XY.
Humans have 22 pairs of autosomes, and one pair of sex chromosomes.

18. Haploid vs. Diploid
Haploid (1n)- condition in which cells contain one set of chromosomes; the chromosome number of gametes. Human gamete have a single set of 22 autosomes and one sex chromosome (X or Y)
Diploid (2n)- condition in which cells contain two sets of chromosomes. Somatic cells in humans are diploid.

20. Human Life Cycle
Fertilization- Union of two gametes to form a zygote (fertilized egg).
The zygote contains the haploid sets of chromosomes from the gametes and is diploid.
As humans develop from a zygote to sexually mature adults, the genetic information is passed with precision to all somatic cells by mitosis.

21. Human Life Cycle, cont.
Gametes are produced by meiosis, a special type of cell division that produces haploid cells, compensating for the doubling of chromosomes that occurs at fertilization.
Meiosis in humans produces sperm cells and ova which contain 23 chromosomes.
When fertilization occurs, the diploid condition (2n = 46) is restored in the zygote.

23. Variety of Sexual Life Cycles
Animal: gametes are the only haploid cells. Fertilization produces a diploid zygote.
Fungi and some protists: the only diploid stage is the zygote. Meiosis occurs immediately after the zygote forms, resulting haploid cells undergo mitosis.
Plants and some algae: alternate between multicellular haploid and diploid generations (alternation of generations)

24. Stages of Meiosis
Like mitosis, meiosis is preceded by replication of the chromosomes.
Meiosis differs from mitosis in that this single replication is followed by two consecutive cell divisions: meiosis I and meiosis II.
Four daughter cells are produced instead of two as in mitosis.
Daughter cells have half the number of chromosomes as the original cell, and are genetically different.

26. Meiosis I
Prophase I: chromosomes condense, synapsis occurs, tetrads form, crossing over occurs
Metaphase I: tetrads align on the metaphase plate
Anaphase I: homologous chromosomes separate and are moved toward the poles by spindles
Telophase I: each pole now has a haploid set of chromosomes, cytokinesis occurs forming two haploid daughter cells.

28. Meiosis II
This second meiotic division separates sister chromatids of each chromosome.
Prophase II: Spindle apparatus forms and chromosomes move toward the metaphase II plate
Metaphase II: Chromosomes align singly on the metaphase plate, kinetochores of sister chromatids point toward opposite poles.
Anaphase II: Centromeres of sister chromatids separate. Sister chromatids of each pair move toward opposite poles of the cell.
Telophase II and Cytokinesis: Nuclei form at opposite poles of the cell. Cytokinesis occurs producing four haploid daughter cells.

32. Origins of Genetic Variation
Independent Assortment of Chromosomes- the random distribution of maternal and paternal homologues to the gametes during meiosis I
Crossing Over- the exchange of genetic material between homologues during prophase I of meiosis
Random Fertilization- one sperm out of millions fertilizes the egg; along with crossing over, allows for multiple genetic variations

33. Independent Assortment

34. Results of Crossing
Over during Meiosis

35. Random Fertilization:
One sperm cell out of
many fertilizes the egg

36. Evolutionary adaptation
Genetic variation among a population’s members is the material for evolution by natural selection.
Those traits that help the organism be successful in the environment are passed on to offspring.
Sexual reproduction and mutations generate this variation.