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Life Science S7L3. Students will recognize how biological traits are passed on to successive generations. a. Explain the role of genes and chromosomes in the process of inheriting a specific trait. b. Compare and contrast that organisms reproduce asexually and sexually. Agenda: Cell Cycle using Mitosis & Meiosis Learning Target:I can describe the role of genes and chromosomes in the process of cell reproduction, because . . . Success Criteria:I can compare and contrast how organisms reproduce asexually and sexually. Warm- up: By what process do prokaryotes usually reproduce? By what process do eukaryotesusually reproduce? 3. How is DNA important in these processes?
1. By what process do prokaryotes usually reproduce? Binary Fission in Prokaryotes
2. By what process do eukaryotes usually reproduce? Mitosis & Meiosis 3. How is DNA important in these processes? Provides the genetic material for the cell to replicate (copy), grow, and to function.
Two types of reproduction • Asexual reproductionis reproduction that requires only one parent. Remember binary fission. • Most single-celled organisms like bacteria and protozoans reproduce this way. • Sexual reproductionis a type of reproduction that involves special types of cells called sex cells.
Chromosomes • Can you remember how many chromosomes humans have in each of their body cells? • Answer: 46 • Predict what would happen during the production of offspring if organisms received a full set from each parent. Whoa! 92 Way too many!!!
Chromosomes • Reproductive sex cellscontain half the number of chromosomes as body cells (all of the other cells in a multicellular organism). • Human body cells have 46 chromosomes each. • Human sex cells have 23 chromosomes each.
How do cells reduce the amount of chromosomes? • Answer: They create haploid cells through a process called meiosis.
Diploid, Haploid and Fertilization • A complete set of chromosomes is called a diploidset. • A half set of chromosomes is called a haploidset. • Most animal cells have a diploid set of chromosomes except in sex cells.
Chromosomes • Meiosisis cell division that produces sex cells with half the number of chromosomes.
What happens in meiosis? • The events in meiosis are smooth and continuous: • Chromosomes double and thicken. • Nuclear membrane disappears. • Homologous chromosomes line up a the cell’s center. • Spindle fibers attach. • The nuclear membrane reforms. • Two cells form that are identical and diploid.
What happens in meiosis? • In the second division, the chromosomes do not double. • Chromosomes thicken and line up at cell’s center. • Spindle fibers attach. • Chromosomes are pulled to opposite side of cell by spindle fibers. • Four new cells form when the nuclear membranes reform and cells separate. • The four new cells are unique and haploid so they have half the number of chromosomes compared to starting cells.
Meiosis: Let’s see that in action.
Specialized cells • An embryois an organism in its earliest stages of development. • A multicellular organism ends up with many different types of specialized cells. • All of those cells can be traced back to the zygote.
Cell differentiation • Cell differentiationis the process of cell specialization. • As cells differentiate, they give rise to different tissues. • These tissues eventually form the organs.
Real Life Connection Differences Between Twins Start with Cells • What is the difference between identical and fraternal twins?
Closing: • Compare and contrast how organisms reproduce asexually and sexually. • Describe the role of genes and chromosomes in the process of cellular reproduction.
