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Understanding Cell Reproduction: Mitosis, Meiosis, and DNA

Explore the importance, phases, and results of cell division, including mitosis and meiosis. Learn about the cell cycle, mitosis steps, and division of cytoplasm. Discover how cells multiply, differentiate, and contribute to growth and development. Gain insights into the hereditary material and processes that ensure genetic continuity in organisms.

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Understanding Cell Reproduction: Mitosis, Meiosis, and DNA

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  1. Table of Contents Chapter: Cell Reproduction Section 1: Cell Division and Mitosis Section 2: Sexual Reproductionand Meiosis Section 3: DNA

  2. Cell Division and Mitosis 1 A. Why is cell division important? 1. Many organisms start as just one cell. That cell divides and becomes two, two become four, four become eight, an so on. 2. Many-celled organisms, including you, grow because cell division increases the total number of cells in an organism.

  3. Cell Division and Mitosis 1 A. Why is cell division important? 3. Even after growth stops, cell division is still important. Because the cells in your body wear out and are replaced. For example, your bone marrow produced about six million red blood cells for wear out red blood cells in your body. 4. Cell division is important to one-celled organisms, too—it’s how they reproduce themselves.

  4. Cell Division and Mitosis 1 B. The Cell Cycle 1. A living organism has a live cycle. A life cycle begins with the organism’s formation, is followed by growth and development, and finally ends in death. Individual cells also have life cycles. Click image to view movie.

  5. Cell Division and Mitosis 1 B. The Cell Cycle 2. The cell cycle is a series of events that takes place from one cell division to the next. 3. The time is taken to complete a cell cycle is not the same in all cells.

  6. Cell Division and Mitosis 1 C. What is the longest part of the cell cycle? 1. For cells that have a nucleus, the longest part of the cell cycle is a period of growth and development called interphase. 2. Cells in your body that no longer divide, such as nerve and muscle cells, are always in interphase. 3. An actively dividing cell, such as a skin cell, copies its hereditary material and prepares for cell division during interphase.

  7. Cell Division and Mitosis 1 D. Interphase 1. Before a cell divides, a copy of the hereditary material must be made so that each of the two new cells will get a complete copy. 2. Each cell needs a complete set of hereditary material to carry out life functions. 3. After interphase, cell division begins. The nucleus divides, and then cytoplasm separates to form two new cells.

  8. Cell Division and Mitosis 1 E. Mitosis 1. Mitosis (mi TOH sus) is the process in which the nucleus divides to form two identical nuclei. Each new nucleus also is identical to the original nucleus. 2. Mitosis is described as a series of phases, or steps. The steps of mitosis in order are named prophase, metaphase, anaphase, and telophase.

  9. Cell Division and Mitosis 1 F. Steps of Mitosis 1. A chromosome is a structure in the nucleus that contains hereditary material. During interphase, each chromosome duplicates.

  10. Cell Division and Mitosis 2. When the nucleus is ready to divide, each duplicated chromosome coils tightly into two thickened, identical strands called chromatids. 1 F. Steps of Mitosis

  11. Cell Division and Mitosis 1 F. Steps of Mitosis 3. During prophase, the chromatid pairs can be seen. The nuclear membrane breaks apart. Two small structures called centrioles (SEN tree olz) move to opposite ends of the cell. 4. Between the centrioles, threadlike spindle fibers begin to stretch across the cell. 5. Animal cells have centrioles, but plant cells do not.

  12. Cell Division and Mitosis 1 F. Steps of Mitosis 6. In metaphase, the pairs of chromatids line up across the center of the cell. The centromere of each pair usually becomes attached to two spindle fibers—one from each side of the cell.

  13. Cell Division and Mitosis 1 F. Steps of Mitosis 7. In anaphase, each centromere divides. The spindle fibers become shorter, and each chromatid separates from its partner. 8. The separated chromatids begin to move to opposite ends of the cell. They are now called chromosomes.

  14. Cell Division and Mitosis 1 F. Steps of Mitosis 9. The final step of mitosis is telophase. During telophase, the spindle fibers start to disappear. The chromosomes start to uncoil, and a new nucleus forms.

  15. Cell Division and Mitosis 1 G. Division of the Cytoplasm 1. For most cells, after the nucleus has divided, the cytoplasm separates and two new cells are formed. 2. In animal cells, the cell membrane pinches in the middle, like a balloon with a string tightened around it, and the cytoplasm divides. Click box to view movie.

  16. Cell Division and Mitosis 1 G. Division of the Cytoplasm 3. In plant cells, the appearance of a cell plate tells you that the cytoplasm is being divided. 4. New cell walls form along the cell plate, and new cell membranes develop inside the cell walls. 5. Following division of the cytoplasm, most new cells begin the period of growth, or interphase, again.

  17. Cell Division and Mitosis 1 G. Results of Mitosis 1. Every cell in your body, except sex cells, has a nucleus with 46 chromosomes—23 pairs. 2. Each of the trillions of cells in your body, except sex cells, has a copy of the same hereditary material.

  18. Cell Division and Mitosis 1 G. Results of Mitosis 3. Cell division allows growth and replaces worn out or damaged cells. 4. If you cut yourself, the wound heals because cell division replaces damaged cells. 5. Another way some organisms use cell division is to produce new organisms.

  19. Cell Division and Mitosis 1 I. Asexual Reproduction 1. Reproduction is the process by which an organism produces others of its same kind. 2. Among living organisms, there are two types of reproduction—sexual and asexual. 3. Sexual reproduction usually requires two organisms.

  20. Cell Division and Mitosis 1 I. Asexual Reproduction 4. In asexual reproduction, a new organism (sometimes more than one) is produced from one organism. 5. The new organism will have hereditary material identical to the hereditary material of the parent organism.

  21. Cell Division and Mitosis 1 J. Cellular Asexual Reproduction 1. Organisms with eukaryotic cells asexually reproduce by cell division. 2. However, bacteria do not have a nucleus so they can’t use mitosis. Instead, bacteria reproduce asexually by fission. 3. During fission, an organism whose cells do not contain a nucleus copies its genetic material and then divides into two identical organisms.

  22. Cell Division and Mitosis 1 K. Budding and Regeneration 1. Budding is a type of asexual reproduction made possible because of cell division. 2. When the bud on the adult becomes large enough, it breaks away to live on its own.

  23. Cell Division and Mitosis 1 Budding and Regeneration 3. Some organisms can regrow damaged or lost body parts. 4. Regeneration is the process that uses cell division to regrow body parts. 5. Sponges, planaria, sea stars, and some other organisms can use regeneration for asexual reproduction.

  24. Section Check 1 Question 1 Many-celled organisms grow by _______.

  25. Section Check 1 Question 2 What is the longest part of the cell cycle?

  26. Section Check 1 Question 3 _______ is the process in which the nucleus divides to form two identical nuclei.

  27. End of Chapter Summary File

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