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Biology

Biology. Chapter 8 Cell Reproduction Mitosis and Meiosis. Objectives. Explain the nature of cell division Discuss the significance of mitosis Identify and describe the phases of mitosis Distinguish between sexual and asexual reproduction Describe the forms of asexual reproduction

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Biology

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  1. Biology Chapter 8 Cell Reproduction Mitosis and Meiosis

  2. Objectives • Explain the nature of cell division • Discuss the significance of mitosis • Identify and describe the phases of mitosis • Distinguish between sexual and asexual reproduction • Describe the forms of asexual reproduction • Define meiosis and its importance to sexual reproduction • Describe the major differences between mitosis and meiosis

  3. Pennsylvania State Standards • S11.A The Nature of Science • S11.A.1 Reasoning and Analysis • Assessment Anchor • S11.A.1.3 Describe and interpret patterns of change in natural and human-made systems. • Eligible Content • S11.A.2.1.3 Use date to make inferences and predictions, or to draw conclusions, demonstrating understanding of experimental limits. • S11.A.3.2.1 Compare the accuracy of predictions represented in a model to actual observations and behavior. • S11.B Biological Sciences • S11.B.1 Structure and Function of Organisms • Assessment Anchor • S11.B.1.1 Explain structure and function at multiple levels of organization • Eligible Content • S11.B.1.1.3 Compare and contrast cellular processes (e.g., photosynthesis and respirations, meiosis and mitosis, protein synthesis and DNA replication). • S11.B.2.2.1 Describe how genetic information is expressed(i.e. DNA, genes, chromosomes, transcription, translation, and replication) • S11.B.2.2.2 Compare and contrast the functions of mitosis and meiosis in passing on genetic information.

  4. Chapter 8 Cell Reproduction • 8-1 Chromosomes • 8-2 Cell Division • 8-3 Meiosis

  5. Focus Concept Cell reproduction perpetuates life, It allows for the growth and reproduction of organisms, and passes genetic information to future generations.

  6. 8-1 Chromosomes: • Chromosome Structure • Chromosome Numbers • Diploid and Haploid Cells

  7. The Chromosome • Threadlike structure within a cell which contains the genetic information that is passed on from one generation of cells to the next. • The are located in the nucleus of a cell. • Human somatic cells contain 46 chromosomes (or 23 pairs) • Somatic cells – normal body cells • Gametes – reproductive cells (sperm and egg) • Filling the activity of specific regions of the DNA

  8. Chromosome Structure • Chromatin – the genetic material that makes up chromosomes. • Chromatin is composed of DNA and proteins • The DNA is super-coiled into a very compact structure during cell division. • Histones: proteins that help maintain the shape of the chromosome and aids in the tight packing of DNA • Nonhistone: do not participate in the packing of DNA. Involved in contro

  9. Chromosome Formation • During cellular division, chromatin condenses or coils to form the rod-like chromosomes. • The DNA double helix begins to coil and wrap tightly around proteins(histones) to form a nuclesome. • Nucleosome – DNA which is tightly wrapped around histones. • The nuclesome then begins to twist up to form coils. • The coils then begin to twist to form larger coils called super coils. • Super coils – large coils of nuclesome coils which make up chromosomes. • Each chromosome consists of two halves, each is referred to as a chromatid.

  10. Chromatids • Each identical half of a chromosome • Form as the DNA makes a copy of itself before cell division • Each new cell receives one chromatid from each chromosome.

  11. Centromere • Constricted area of each chromatid • Helps hold the two chromatids together • Aids in movement of chromosomes during cell division.

  12. Chromatin • Less tightly coiled DNA-protein complex. • Regions of DNA uncoil between cell divisions so information can be read and used to direct the activities of the cell.

  13. Prokaryote DNA • Bacterial DNA is simpler than eukaryotes. • Usually only one chromosome which is attached to the inside of the cell membrane • Consists of a circular DNA molecule and associated proteins.

  14. Chromosome Numbers • Each species has a characteristic number of chromosomes in each cell. • Chromosome number does not indicate species complexity. • The human chromosome number is 46 or 23 pairs.

  15. Sex Chromosomes • Chromosomes that determine the sex of an organism. • May also carry genes for other characteristics. • Either X or Y. • Normal females XX • Normal males XY

  16. Autosomes • All of the other chromosomes in an organism • Humans: 2 sex chromosomes + 44 autosomes = 46 total chromosomes

  17. Homologous Chromosomes • Occurs in Meiosis diploid cells • Also called Homologues or homologous pairs • Every cell of an organism produced by sexual reproduction has 2 copies of each autosome. • One copy is received from each parent • Same size, shape and carry genes for the same traits.

  18. Sister Chromatids • Each duplicated chromosome is made up of two halves. Each half is referred to as a sister chromatid. • Sister chromatids – (occur during mitosis) and the DNA they contain are exact copies of each other. • Formed when DNA is copied during interphase.

  19. Karyotype • A photomicrograph of the chromosomes in a dividing cell.

  20. Chromosomal Abnormalities • Deletion: a portion of a chromosome is lost • Duplication: the deletion becomes incorporated into its homologue so that the segment appears twice on the same chromosome.

  21. Inversion • Translocation

  22. Chromosomal Abnormalities • Nondisjunction: the failure of chromosomes to separate properly during meiosis. Results in too many or too few chromosomes. • Trisomy: an abnormality in which a cell has an extra chromosome or section of a chromosome

  23. Nondisjunction

  24. Female with only one X chromosome XO Turner Syndrome

  25. Male with two X chromosomes XXY Klinefelter Syndrome

  26. Other Sex Chromosome Aneuploidies • XYY genotype - taller than average; after about age 35, extra Y often degenerates and is not passed on to offspring. • XXX genotype - some developmental deficiencies; some instances of mental retardation

  27. Trisomy 21 Down Syndrome Link to website with other chromosomal abnormalities

  28. Diploid Cells (2n) • Cells having 2 sets of chromosomes. Have both chromosomes from each homologous pair. • All normal human cells (body cells) except reproductive cells are 2n

  29. Hapliod (1n) • Contain only one set of chromosomes. • Have only half the number of chromosomes that are present in diploid cells. • Sperm and egg cells (gametes) are 1n

  30. Fertilization • When a sperm cell (1n) and an egg cell (1n) combine to create the first cell of a new organisms it becomes 2n. • If the reproductive cells were diploid, the new cell would have too many chromosomes and would not be functional.

  31. 8-2 Cell Division • Cell Division in Prokaryotes • Cell Division in Eukaryotes

  32. Cell Division in Prokaryotes • Binary Fission: the division of a prokaryotic cell into two different offspring cells. • Consists of three stages. (Fig.8-4 p148)

  33. Cell Division in Eukaryotes • Mitosis and Cytokinesis: cellular division that results in new cells with genetic material identical to the original cell. • Occurs in: • the reproduction of unicellular organisms • the addition of cells to a tissue or organ in a multicellular organism (growth, repair)

  34. The Cell Cycle • The repeating set of events that make up the life of a cell from mitosis to mitosis.. • Cell division is one phase of the cell cycle. (includes both mitosis and cytokinesis) • Interphase: the time between cell divisions. The cell spends most of its life in interphase. • IPMATC

  35. Cell cycle animation

  36. Interphase • G1 phase: offspring cells grow to mature size. The time “gap” following cell division and preceding DNA replication • S phase: the cell’s DNA is copied, “synthesized” • G2 phase: the time “gap” following DNA synthesis and preceding cell division. Growth and preparation for division. • G0 phase: cells can enter this state when fully developed. Do not copy DNA and do not divide. Ex. Central nervous system cells.

  37. Mitosis / M phase • The equal division of the nucleus • Continuous process that can be divided into 4 phases: • Prophase • Metaphase • Anaphase • Telophase • PMAT

  38. Prophase: • 1st phase of mitosis • Shortening and tight coiling of DNA into rod-shaped chromosomes which are visible with a light microscope • The 2 copies of each chromosome stay connected to one another by the centromere

  39. The nucleolus and nuclear membrane break down and disappear • Centrosomes appear next to the disappearing nucleus. • In animal cells, each centrosome contains a pair of small cylindrical bodies called centrioles. Not present in plants. • The centrosomes move toward opposite poles of a cell • Spindle fibers (made of microtubules) radiate from the centrosomes. Called mitotic spindles and help to equally divide the chromatids between the two offspring cells.

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