Asexual and Sexual Reproduction

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Presentation transcript:

Asexual and Sexual Reproduction Chapter 10 Asexual and Sexual Reproduction

You Must Know The difference between asexual and sexual reproduction. The role of meiosis and fertilization in sexually reproducing organisms. The importance of homologous chromosomes to meiosis. (There will be more on this tomorrow.)

Genes are the units of heredity and are made up of segments of DNA.

Each gene has a specific position, or locus, on a certain chromosome. Unreplicated Chromosome Replicated Chromosome

Asexual reproduction in two multicellular organisms 0.5 mm Parent Bud Figure 10.2 In asexual reproduction, a single individual passes genes to its offspring without the fusion of gametes. A clone is a group of genetically identical individuals from the same parent. (a) Hydra (b) Redwoods 5

In sexual reproduction, two parents give rise to offspring that have unique combinations of genes inherited from the two parents Genes are passed to the next generation via reproductive cells called gametes (sperm and eggs). 6

duplicated chromosomes Figure 10.3b Pair of homologous duplicated chromosomes Sister chromatids Human somatic cells have 23 pairs of chromosomes. A karyotype is an ordered display of the pairs of chromosomes from a cell. The two chromosomes in each pair are called homologous chromosomes, or homologs. Chromosomes in a homologous pair are the same length and shape and carry genes controlling the same inherited characters. Each pair of homologous chromosomes includes one chromosome from each parent. The 46 chromosomes in a human somatic cell are two sets of 23: one from the mother and one from the father. Karyotype Chromosomes in a homologous pair are the same length and shape and carry genes controlling the same inherited characters. 7

Human females have a homologous pair of X chromosomes (XX). The sex chromosomes, which determine the sex of the individual, are called X and Y. Human females have a homologous pair of X chromosomes (XX). Human males have one X and one Y chromosome. The remaining 22 pairs of chromosomes are called autosome 8

Autosomes Sex Chromosomes

Somatic cells (nonreproductive cells) have two sets of chromosomes Somatic cells (nonreproductive cells) have two sets of chromosomes. They are diploid. Gametes (reproductive cells: sperm and eggs) have one set of chromosomes. They are haploid. A diploid cell (2n) has two sets of chromosomes. For humans, the diploid number is 46 (2n  46). A gamete (sperm or egg) contains a single set of chromosomes and is haploid (n). For humans, the haploid number is 23 (n = 23). Each set of 23 consists of 22 autosomes and a single sex chromosome. (2n  46) (n  23)

Key Maternal set of chromosomes (n  3) 2n  6 Paternal set of Figure 10.4 Key Maternal set of chromosomes (n  3) 2n  6 Paternal set of chromosomes (n  3) Sister chromatids of one duplicated chromosome Centromere In a cell in which DNA synthesis has occurred, each chromosome is replicated. Each replicated chromosome consists of two identical sister chromatids. Two nonsister chromatids in a homologous pair Pair of homologous chromosomes (one from each set) 11

In an unfertilized egg (ovum), the sex chromosome is X. In a sperm cell, the sex chromosome may be either X or Y. X Y X XY XX Boy Girl 12

Haploid n=23 Diploid 2n=46 Fertilization is the union of gametes (the sperm and the egg) The fertilized egg is called a zygote and has one set of chromosomes from each parent The zygote produces somatic cells by mitosis and develops into an adult. Gametes are the only haploid cells in animals. They are produced by meiosis and undergo no further cell division before fertilization. Gametes fuse to form a diploid zygote that divides by mitosis to develop into a multicellular organism. The zygote produces somatic cells by mitosis as it develops into an adult 13

Multicellular diploid adults (2n  46) Figure 10.5 Key Haploid gametes (n  23) Haploid (n) Egg (n) Diploid (2n) Sperm (n) MEIOSIS FERTILIZATION Ovary Testis At sexual maturity, the ovaries and testes produce haploid gametes. Gametes are the only types of human cells produced by meiosis rather than mitosis. Meiosis results in one set of chromosomes in each gamete. Fertilization and meiosis alternate in sexual life cycles to maintain chromosome number. The alternation of meiosis and fertilization is common to all organisms that reproduce sexually. Diploid zygote (2n  46) Mitosis and development Multicellular diploid adults (2n  46) 14

However, only diploid cells can undergo meiosis. Depending on the type of life cycle, either haploid or diploid cells can divide by mitosis. However, only diploid cells can undergo meiosis. The halving and doubling of chromosomes contribute to genetic variation in offspring. 15