Chapter 13 Meiosis And Sexual Life Cycle. An Introduction to Heredity Heredity: the transition of...
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Transcript of Chapter 13 Meiosis And Sexual Life Cycle. An Introduction to Heredity Heredity: the transition of...
Chapter 13
Meiosis And Sexual Life Cycle
An Introduction to Heredity
Heredity: the transition of traits from one generation to the next
Along w/ similarities, there is also variation- offspring differ somewhat in appearance from parents to offspring
Genetics: the study of heredity and hereditary variation
An Introduction to Heredity
Parents pass information to offspring through coded hereditary units called genes.- 30 to 40 thousand genes in humans- genes are segments of DNA
Concept 13.1
Two types of reproduction:Asexual reproduction: single
parent passes copies of all its genes to offspring; “like begets like.”
Sexual reproduction: two parents give rise to offspring; results in greater variation
Concept 13.2
Life cycle: generation-to-generation sequence of stages in the reproductive history of an organism
The human life cycle- each somatic cell has 46
chromosomes (23 pair); 2 copies of each pair are called homologous chromosomes
Concept 13.2
- chromosomes can be displayed through a karyotype
- pairs 1-22 are called autosomes- pair 23 are called sex
chromosomes- XX = female; XY = male
- we inherit one chromosome of each pair from each parent
Concept 13.2
Concept 13.2
Concept 13.2
- gametes, or sex cells, contain 22 autosomes and 1 sex chromosome; a cell with a single chromosome set is called a haploid cell.- haploid cells are abbreviated 1n (n = 23)
- the combining of gametes forms a zygote; becomes a diploid cell (2n)
Concept 13.2
- The only cells of the human body not produced by mitosis are gametes- this process is a form of cellular division called meiosis; meiosis reduces the chromosome number in half
Concept 13.2
The variety of sexual life cyclesAnimal cells
- after meiosis, the gametes undergoes no division before fertilization
Fungi- after meiosis, mitosis occurs and produces a 1n multicellular organism; forms 1n gametes that then fertilize
Concept 13.2
Plants (alternation of generations)- has both diploid (sporophyte) and haploid (gametophyte) multicellular stages;
Concept 13.2
Concept 13.3
Meiosis, like mitosis, is preceded by the replication of chromosomes; however, the single replication is followed by 2 consecutive divisions (meiosis I and meiosis II)
Concept 13.3
Concept 13.3
Meiosis I- during prophase I, chromosomes pair up in synapsis; 4 chromatids form a tetrad- during metaphase I, homologous pairs line up on equator- during anaphase I, chromosomes, not chromatids, separate to poles
Concept 13.3
Meiosis II- goes through the same steps as meiosis I, but does not replicate DNA
Meiosis outcome is 4 1n gametes from a single cell
Concept 13.4
3 mechanisms contribute to the genetic variation arising from sexual reproduction
Independent assortment of chromosomes-each homologous pair of chromosomes is positioned independently of the others; variation is 223 or about 8 million
Concept 13.4
Concept 13.4
Crossing over- when chromosomes line up along the equator, parts of chromatids can combine genes from parents
Random fertilization- even w/out considering crossing over, any two parents will produce a zygote with any of 70 trillion combination (223 x 223)
Concept 13.4