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HeLa cells

HeLa cells . What AP board says you need to know about mitosis and meiosis. Video link . http://www.cleanvideosearch.com/media/action/yt/watch?v=wRrNjHYxP_o&edufilter=wlcstv. Enduring Understanding 3A. Heritable information provides for continuity of life.

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HeLa cells

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  1. HeLa cells What AP board says you need to know about mitosis and meiosis

  2. Video link • http://www.cleanvideosearch.com/media/action/yt/watch?v=wRrNjHYxP_o&edufilter=wlcstv

  3. Enduring Understanding 3A • Heritable information provides for continuity of life.

  4. In eukaryotic organisms genetic information is packaged into chromosomes. • These carry essential genetic information that must be passed to daughter cells. Mitosis is the mechanism to do this and make sure that each daughter cell gets identical and complete sets of chromosomes. Asexual reproduction is also accomplished by mitosis, producing daughter cells identical to the mother cell while passing on the genetic info to subsequent generations.

  5. Both unicellular and multicellular organisms have ways to increase genetic variations, which is necessary for natural selection to have new variations on which to act/select. • Sexual reproduction of diploid organisms involved new recombinations of genetic information from both parents by fusing gametes during fertilization. Gametes are haploid (n) and form a diploid (2n) zygote. The process of meiosis produces the haploid cells to ensure the chromosomal number is maintained in the new organism.

  6. Random assortment of chromosomes and crossing over of homologous chromosomes adds new variations increasing genetic variation further. Each zygote is therefore different from the parents and from other zygotes produced by the same parents. This process produces many variations for natural selection to work on in the process of evolution.

  7. Essential knowledge 3.A.2: • In eukaryotes, heritable information is passed to the next generation via processes that include the cell cycle and mitosis or meiosis plus fertilization.

  8. a. The cell cycle is a complex set of stages that is highly regulated with checkpoints, which determine the ultimate fate of the cell. • Evidence of student learning is a demonstrated understanding of each of the following: • 1. Interphase consists of three phases: growth, synthesis of DNA, preparation for mitosis. • 2. The cell cycle is directed by internal controls or checkpoints. Internal and external signals provide stop-and-go signs at the checkpoints.

  9. To foster student understanding of this concept, instructors can choose an • illustrative example such as: • Mitosis-promoting factor (MPF) • Cancer results from disruptions in cell cycle control

  10. 3. Cyclins and cyclin-dependent kinases control the cell cycle. • 4. Mitosis alternates with interphase in the cell cycle. • 5.  When a cell specializes, it often enters into a stage where it no longer divides, but it can reenter the cell cycle when given appropriate cues. • Nondividingcells may exit the cell cycle; or hold at a particular stage in the cell cycle.

  11. b. Mitosis passes a complete genome from the parent cell to daughter cells. • Evidence of student learning is a demonstrated understanding of each of the following: • 1. Mitosis occurs after DNA replication. • 2. Mitosis followed by cytokinesis produces two genetically identical daughter cells. • 3. Mitosis plays a role in growth, repair, and asexual reproduction • 4. Mitosis is a continuous process with observable structural features along the mitotic process. Evidence of student learning is demonstrated by knowing the order of the processes (replication, alignment, separation).

  12. Meiosis • c. Meiosis, a reduction division, followed by fertilization ensures genetic diversity in sexually reproducing organisms

  13. . • Evidence of student learning is a demonstrated understanding of each of the following: • 1. Meiosis ensures that each gamete receives one complete haploid (1n) set of chromosomes.

  14. 2. During meiosis, homologous chromosomes are paired, with one homologue originating from the maternal parent and the other from the paternal parent.   • 3. Orientation of the chromosome pairs is random with respect to the cell poles. • 4. Separation of the homologous chromosomes ensures that each gamete receives a haploid (1n) set of chromosomes composed of both maternal and paternal chromosomes.

  15. 5. During meiosis, homologous chromatids exchange genetic material via a process called “crossing over,” which increases genetic variation in the resultant gametes. [See also 3.C.2] • .

  16. 6. Fertilization involves the fusion of two gametes, increases genetic variation in populations by providing for new combinations of genetic information in the zygote, and restores the diploid number of chromosomes

  17. Learning Objectives: • LO 3.7 The student can make predictions about natural phenomena occurring during the cell cycle. [See SP 6.4]

  18. Figure 12.6 INTERPHASE S(DNA synthesis) G1 Cytokinesis G2 Mitosis MITOTIC(M) PHASE

  19. LO 3.8 The student can describe the events that occur in the cell cycle. [See SP 1.2]

  20. Figure 12.6 INTERPHASE S(DNA synthesis) G1 Cytokinesis G2 Mitosis MITOTIC(M) PHASE

  21. LO 3.9 The student is able to construct an explanation, using visual representations or narratives, as to how DNA in chromosomes is transmitted to the next generation via mitosis, or meiosis followed by fertilization. [See SP 6.2]

  22. Cell wall Origin ofreplication Figure 12.12-4 Plasma membrane E. coli cell Bacterial chromosome 1 Chromosomereplicationbegins. Two copies of origin 2 Origin Origin Replicationcontinues. 3 Replicationfinishes. 4 Two daughtercells result.

  23. P HA R E S T E N I Figure 12.UN01 G1 S Cytokinesis Mitosis G2 MITOTIC (M) PHASE Prophase Telophase andCytokinesis Prometaphase Anaphase Metaphase

  24. LO 3.10 The student is able to represent the connection between meiosis and increased genetic diversity necessary for evolution. [See SP 7.1]

  25. LO 3.11 The student is able to evaluate evidence provided by data sets to support the claim that heritable information is passed from one generation to another generation through mitosis, or meiosis followed by fertilization. [See SP 5.3]

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