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The Cell Cycle and Cellular Reproduction

Mader; Biology, 9th Ed.. Cell Cycle. Cell Cycle the orderly set of stages in life of cell between cell division and division of the daughter cellsCan be separated into 2 phases:InterphaseMitosis. Mader; Biology, 9th Ed.. Cell Cycle. InterphaseIncludes the normal functioning of the cellRepre

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The Cell Cycle and Cellular Reproduction

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    1. The Cell Cycle and Cellular Reproduction Chapter 9

    2. Mader; Biology, 9th Ed. Cell Cycle Cell Cycle – the orderly set of stages in life of cell between cell division and division of the daughter cells Can be separated into 2 phases: Interphase Mitosis

    3. Mader; Biology, 9th Ed. Cell Cycle Interphase Includes the normal functioning of the cell Represents the major part of the cell cycle in most normal cells Consists of 3 phases: G1 S G2

    4. Mader; Biology, 9th Ed. Cell Cycle

    5. Mader; Biology, 9th Ed. Interphase G1 Stage Before DNA replication Protein synthesis Preparation for DNA replication Duplication of organelles S stage S – DNA synthesis Duplication of chromosomes G2 Stage Second gap phase Protein synthesis Prep for cell division (M Stage)

    6. Mader; Biology, 9th Ed. Mitosis M Stage Mitosis Nuclear division Daughter chromosomes distributed to two daughter nuclei Cytokinesis Cell division Results in two genetically identical daughter cells

    7. Mader; Biology, 9th Ed. Control of cell cycle Cell cycle controlled by internal and external signals External signals Growth factors Received at the plasma membrane Cause completion of cell cycle Internal signals Family of proteins called cyclins Increase and decrease as cell cycle continues Without them cycle stops at G1, M or G2 Allows time for any damage to be repaired

    8. Mader; Biology, 9th Ed. Control of cell cycle

    9. Mader; Biology, 9th Ed. Cell Cycle Essential part of cell life cycle cell death Cells die in 2 ways: Apoptosis Necrosis

    10. Mader; Biology, 9th Ed. Apoptosis Apoptosis – programmed cell death Necessary for normal growth and development of organism Development Damaged cells

    11. Mader; Biology, 9th Ed. Apoptosis Controlled by internal and external factor Ex. Mitochondrial damage Ex. Fas-Fas ligand interaction Caspase cascade

    12. Mader; Biology, 9th Ed. Apoptosis

    13. Mader; Biology, 9th Ed. Preparation for Mitosis DNA ordinarily exists within the nucleus as a tangled mass of chromatin DNA associated with histone proteins Prior to mitosis the DNA condenses into chromosomes Distinctly visible

    14. Mader; Biology, 9th Ed.

    15. Mader; Biology, 9th Ed. Chromosomes Each species has a characteristic number of chromosomes Diploid (2n) - Two of each kind Haploid (1n) - One of each kind

    16. Mader; Biology, 9th Ed. Chromosomes Two identical chromatids are called sister chromatids Attached to each other at centromere During nuclear division, sister chromatids separate at the centromeres, and each duplicated chromosome gives rise to two daughter chromosomes

    17. Mader; Biology, 9th Ed. Mitosis in Animal Cells Centrosome Outside of nucleus Microtubule organizing center Organizes mitotic spindle Bundle of microtubules Contains a pair of barrel-shaped organelles - centrioles Also contains an array of short microtubules - aster

    18. Mader; Biology, 9th Ed. Mitosis in Animal Cells Prophase Chromatin has condensed Nucleolus disappears Nuclear envelope disintegrates Spindle begins to assemble Two centrosomes move away from each other Form microtubules in star-like arrays – asters

    19. Mader; Biology, 9th Ed. Mitosis in Animal Cells Prometaphase Kinetochores develop on centromere of each chromosome Specialized protein complex One over each sister chromatid Physically hook sister chromatids up with specialized microtubules (kinetochore fibers) These connect sisters to opposite poles of mother cell

    20. Mader; Biology, 9th Ed. Mitosis in Animal Cells Metaphase Chromosomes, attached to kinetochore fibers, are in alignment at center of cell – metaphase plate

    21. Mader; Biology, 9th Ed. Mitosis in Animal Cells Anaphase Centromere dissolves, releasing sister chromatids Sister chromatids split, producing daughter chromosomes Daughter chromosomes are pulled to opposite poles

    22. Mader; Biology, 9th Ed. Mitosis in Animal Cells Telophase Spindle disappears as new nuclear envelopes form around the daughter chromosomes Chromosomes become diffuse chromatin again Nucleolus appears in each daughter nucleus

    23. Mader; Biology, 9th Ed.

    24. Mader; Biology, 9th Ed. Cytokinesis Cytokinesis accompanies mitosis in most cells, but not all Mitosis without cytokinesis results in a multinucleated cell Begins in anaphase, continues in telophase, but does not reach completion until the following interphase begins

    25. Mader; Biology, 9th Ed. Cytokinesis Animal Cells Cleavage furrow, membrane indentation between daughter nuclei, begins as anaphase nears completion

    26. Mader; Biology, 9th Ed. Animal Cell Division

    27. Mader; Biology, 9th Ed. Mitosis/Cytokinesis in Plant Cell Meristematic plant tissue retains the ability to divide throughout the plant’s life Found at root and shoot tips

    28. Mader; Biology, 9th Ed. Phases of Mitosis in Plant Cells

    29. Mader; Biology, 9th Ed. Cytokinesis in Plant Cells Rigid cell wall surrounding plant cells does not permit cytokinesis by furrowing Begins with formation of a cell plate which eventually becomes new plasma membrane between the daughter cells

    30. Mader; Biology, 9th Ed. Cytokinesis in Plant Cells

    31. Mader; Biology, 9th Ed. Prokaryotic Cell Division Asexual Reproduction - offspring are genetically identical to the parent Binary fission produces two (binary) daughter cells that are identical to the original parent Prokaryotes contain a single chromosome with only a few proteins

    32. Mader; Biology, 9th Ed. Prokaryotic Cell Division

    33. Mader; Biology, 9th Ed. Cancer Cancer – cellular growth disorder that results from the mutation of genes that regulate the cell cycle Neoplasm – abnormal growth of cells Benign – non-cancerous neoplasm Encapsulated Do not invade neighboring tissue or spread Malignant – cancerous neoplasm Not encapsulated Readily invade neighboring tissues May also detach and lodge in distant places – metastasis Results from mutation of genes regulating the cell cycle Carcinogenesis – development of cancer

    34. Mader; Biology, 9th Ed. Characteristics of Cancer Cells Lack differentiation Abnormal nuclei Form tumors Undergo metastasis and angiogenesis

    35. Mader; Biology, 9th Ed. Characteristics of Cancer Cells

    36. Mader; Biology, 9th Ed. Cervical Cancer

    37. Mader; Biology, 9th Ed. Colon Cancer

    38. Mader; Biology, 9th Ed. Origin of Cancer Mutations in DNA repair genes Mutations in proto-oncogenes and tumor-suppressor genes Proto-oncogenes promote the cell cycle in various ways Tumor suppressor genes inhibit the cell cycle in various ways Both normally regulated in coordination with organism’s growth plan If either mutates, may lose control and become oncogene Telomerase

    39. Mader; Biology, 9th Ed. Oncogenes Oncogene – gene that when altered or mutated, its product is responsible for transformation of healthy cells into cancer cells Often involved in cell cycle control

    40. Mader; Biology, 9th Ed. Tumor Supressor Genes Inhibitory to cell cycle Rb - retinoblastoma P53 – Li-Fraumini Mutations

    41. Mader; Biology, 9th Ed. Cell Cycle Control Cyclins and Cyclin-dependent kinases (Cdks) Function with tumor-suppressor genes to control cell cycle

    42. Mader; Biology, 9th Ed. Cell Cycle Regulation Balance between stimulatory and inhibitory pathways Stimulatory pathway results activation of proto-oncogene which stimulate cell cycle Inhibitory pathway results activation of tumor-suppressor genes which inhibit cell cycle

    43. Mader; Biology, 9th Ed.

    44. Mader; Biology, 9th Ed. Telomerase Chromosomes normally have excess DNA material at each end called telomeres These get shorter each cell division When they get very short the cell will no longer divide Telomerase is an enzyme that adds telomeres Mutations in telomerase gene: Keeps adding new telomeres Allow cancer cells to continually divide (become “immortalized”)

    45. Mader; Biology, 9th Ed.

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