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The Cell Cycle

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Title: The Cell Cycle


1
The Cell Cycle
  • Chapter 12

2
Cell Division
  • Described by Rudolf Virchow in 1855.
  • involves the distribution of genetic material
    (chromosomes) from parent to daughter cell
  • Functions
  • reproduction of an entire organism
    (single-celled)asexual reproduction
  • Allows multicellular organisms to develop from a
    single cell
  • renewal and repair (replacing dead cells and
    healing wounds)

3
Cell Cycle
  • life of a cell from time it was split from parent
    cell until it divides into two daughter cells
  • Different in cell types
  • Prokaryotes
  • Binary fission
  • Eukarytotes--somatic cells (body cells)
  • mitosis (identical cells)
  • Eukaryotes--gametes (sperm and egg)
  • meiosis (non-identical cells)

4
Chromosome Anatomy
  • DNA exists as chromatin in cells not undergoing
    division (mitosis)
  • During mitosis chromatin condenses into
    chromosomes
  • Duplicated chromosome sister chromatid
  • attached at centromere

5
  • Interphase
  • 90 of the cell cycle
  • divided into
  • G1 growth/gap 1 (grow)
  • S synthesis (chromosomes copied)
  • G2 growth/gap 2 (grow and prepare for division)

6
  • Mitotic (M) Phase (mitosis)--division of genetic
    material
  • prophase- chromosomes condense (sister
    chromatids), mitotic spindle forms, centrosomes
    (centrioles) migrate to opposite ends
  • prometaphase- nuclear membrane disappears,
    microtubules (spindle fibers) begin to attach to
    chromatids (centromere/kinetochore)
  • metaphase- chromosomes line up on metaphase plate
    (middle of cell), all microtubules attached to
    chromatids
  • anaphase- chromatid pairs are pulled apart and
    move toward opposite ends of cell
  • telophase- two nuclei begin to form, chromosomes
    unwind, cytoplasm begins to pinch inward
    (cleavage)
  • Cytokinesis--complete division of cytoplasm

7
Regulation of Cell Cycle
  • Frequency of cell division varies with cell type,
    which is crucial to normal growth, development
    and maintenance
  • Cell cycle regulated at certain checkpoints by
    internal and external signals.
  • a stop and go signal which regulates the cycle
  • Allows the cell to determine if there is enough
    nutrients and raw materials to move to the next
    phase of the cycle
  • located in G1, G2, and M phases

8
  • In Eukaryotes, cellular reproduction must be
    controlled to maintain the form and function of
    different parts of the body
  • Prokaryotes reproduce constantly when
    environmental conditions are optimal
  • Progression through the phases of the cell cycle
    is tightly regulated
  • Some cells never reproduce and enter G0 phase, a
    non-dividing phase
  • Cells may be here for a designated period of time
    or forever
  • Nerve and muscle cells

9
  • G1 checkpoint triggered by DNA damage
  • S checkpoint triggered by incomplete DNA
    replication
  • G2 checkpoint triggered by DNA damage
  • M checkpoint triggered by chromosome not
    attaching to spindle

10
  • Regulatory Molecules
  • protein kinases
  • enzymes that activate or inactivate other
    proteins by phosphorylation help in cell
    signaling
  • go signals in G1 and G2
  • cyclins
  • Proteins that activate the kinases by attaching
    (cyclin-dependent kinases--Cdks)
  • Allosteric regulation
  • levels rise and fall in response to concentration
    of kinase

11
  • MPF (maturation/mitosis promoting factor)
    triggers passage into M-phase. Concentration
    declines as mitosis proceeds, eventually stopping
    mitosis
  • PDGF (platelet derived growth factor) produced
    in blood (platelets), helps stimulate connective
    tissue to heal after injury

12
Loss of Control Cancer
  • Regulatory mechanisms are missing in cells (due
    to mutations)
  • Cells divide excessively and become invasive
    faulty cell cycle control
  • benign vs. malignant tumors
  • chemotherapy alters cell cycle (prevents it from
    occurring), but targets cancerous as well as
    normal cells
  • can stop dividing at random points in cell cycle,
    or can be immortal and divide indefinitely
  • HeLa Cells

13
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